ManualDrawing Design
Thank you to Haslinger Stahlbau Ges.m.b.H., for the picture.
Advance - Manual Drawing Design Seite i
Contents
1. Document Management 1-1General ................................................................................................................................. 1-1Document Manager .............................................................................................................. 1-1Register Drawings at Model.................................................................................................. 1-4Cancel Drawings from Model................................................................................................ 1-5
2. Design Drawings 2-1General ................................................................................................................................. 2-1
General ....................................................................................................................... 2-2Detail box.................................................................................................................... 2-3Label / Contents.......................................................................................................... 2-4Label / Type ................................................................................................................ 2-8Drawing Elements....................................................................................................... 2-9Representation ......................................................................................................... 2-10
Project Data ........................................................................................................................ 2-12Filling the Title Block ........................................................................................................... 2-16
3. Prototype file 3-1General ................................................................................................................................. 3-1Make Your Own Prototype-File............................................................................................. 3-1
4. Predefined Drawing Styles 3View ..........................................................................................................................................6Detail node..............................................................................................................................32Single part ...............................................................................................................................52Main part .................................................................................................................................82Processes ...............................................................................................................................99Tie beam ...............................................................................................................................100Intersection............................................................................................................................116Special Structural Parts ........................................................................................................146Column..................................................................................................................................164Statics ...................................................................................................................................182
5. Automatic Detailing 5-2General ................................................................................................................................. 5-2Define Drawing Layout.......................................................................................................... 5-3Processes ............................................................................................................................. 5-6Rules for the Assignment of the Drawing Style .................................................................... 5-9
6. Drawing Finishing 6-1General ................................................................................................................................. 6-1Insert Line of Welding ........................................................................................................... 6-2Insert Label ........................................................................................................................... 6-3
Seite ii Advance - Manual Drawing Design
Insert Height Notation ........................................................................................................... 6-6Insert Dimensional Point ....................................................................................................... 6-7Delete Dimensional Point...................................................................................................... 6-8Additional Dimension Chain General .................................................................................... 6-9Additional Dimension Chain Longitudinal Dimension ......................................................... 6-10Additional Dimension Radian .............................................................................................. 6-11Additional Dimension Chain Angular Measure ................................................................... 6-12Additional Dimension Chain Radian Measure .................................................................... 6-13Move Dimensions................................................................................................................ 6-15Change Dimensioning Style................................................................................................ 6-16Change Text Style............................................................................................................... 6-17Move View........................................................................................................................... 6-18Delete view.......................................................................................................................... 6-19
7. Tips & Tricks 7-1
8. Drawing style management 8-1General.................................................................................................................................. 8-1Details and Detail Views ....................................................................................................... 8-1Create Your Own Drawing Styles ......................................................................................... 8-2Call the Drawing Style Management..................................................................................... 8-3Copy Existing Definitions ...................................................................................................... 8-4
9. Create new Drawing Styles 9-1General.................................................................................................................................. 9-1Design New Drawing Styles.................................................................................................. 9-1Process a New Drawing Style............................................................................................... 9-4
Title ............................................................................................................................. 9-4Layout ......................................................................................................................... 9-7Model objects............................................................................................................ 9-12
Process Detail View ............................................................................................................ 9-14Assignment ............................................................................................................... 9-14Clipping ..................................................................................................................... 9-30
10. Object Label 10-1General................................................................................................................................ 10-1Create New Object Label .................................................................................................... 10-1
Text- and Moving Orientation.................................................................................... 10-2Guideline Selection ................................................................................................... 10-3Definition of the Text Content ................................................................................... 10-4Edit Rule of the Text on the Drawing ...................................................................... 10-11
11. Object Dimension 11-1General................................................................................................................................ 11-1Generate a Dimension Definition ........................................................................................ 11-1Change a Dimension Definition........................................................................................... 11-2
Orientation of the Dimension Chain.......................................................................... 11-4Overlap scope with the total geometry (G/L) ............................................................ 11-7Arrange dimension chain above the local geometry (T/B)........................................ 11-7Create a separate dimension chain for each model object (A/S) ............................. 11-7
Selection of the Dimensional Points.................................................................................... 11-9
12. Function in the Model 12-1General................................................................................................................................ 12-1Available Functions ............................................................................................................. 12-1
13. Defaults 13-1
Advance - Manual Drawing Design Seite iii
General ............................................................................................................................... 13-1Default Values..................................................................................................................... 13-1
14. Label types 14-1
15. Dimension Styles 15-1Dimension lines................................................................................................................... 15-1Dimension strategies ........................................................................................................ 15-56
16. Presentation Rules 16-1
17. Appendix 17-1Tables for drawing styles .................................................................................................... 17-1Abbreviations ...................................................................................................................... 17-3
Seite iv Advance - Manual Drawing Design
Advance - Manual Drawing Design Page 1-1
1. Document Management
General
2D-drawings are designed automatically, based on the 3D-model, corresponding to theselected drawing type. The correlation between 3D-model and derivated drawing will remain.
The derivated drawings are managed. They can be updated after a model modification andthey can be deleted from the management menu. On modifying the name of the model- ordrawing DWG, the relation can be restored (register) or disconnected (cancel).
Document Manager
This function determines whether the derivated details (derivated drawings from the model)still correspond to the model (state current), or whether the model has been modified, andthis modification has not yet affected the derivated detail (update necessary).
Funktion: _AstDocCheck
Button:
Course of dialogue:
• Call the function
• The following window pops up
Page 1-2 Advance - Manual Drawing Design
View:Select detail in the input-window and press View. The detail will be displayedwithout calling the appropriate DWG. You can end the display pressing OK.
Update:Select detail in the input-window and press Update. The detail will be updated.
Delete:Select detail in the input-window and press Delete. The detail will be deletedirrevocably from the appropriate drawing.
State:A detail can be checked manually whether being still up to date. It is necessary ifAdvance is not able to make an automatic statement.
Finish:Close the input-window and finish the function.
Help:The online help for this function pops up.
Advance - Manual Drawing Design Page 1-3
Symbole:
The detail is up to date
An update is necessary for the detail.
The model object is deleted. Therefore the detail is blank and alsocan be deleted.
The detail was deleted manually.
The state of the drawing cannot be determined. This is the case forthe node details even directly after the derivation.
The detail drawing is open. Only possible if the variable SDI is on 0.Thus several drawings can be opened simultaneously in oneAutoCAD session.
Complete drawing. Beneath are the individual details.
Clipping from the drawing manager:
If you click with the right mouse button in the left window of the drawing manager, a contextmenu will open. With this menu, the drawings can be sorted according to different properties(title, scale, drawing style, process properties). In addition, drawings and details can bedisplayed and deleted.
Page 1-4 Advance - Manual Drawing Design
Register Drawings at Model
The detail drawings have a correlation to the model drawings. Due to this correlation, thedrawing manager will always know which drawings belong to the respective projects.However, it is only possible if the drawings are not renamed or moved in the file system. Ifthe model drawing or the detail drawing is being moved, the correlation will be lost. But withthis function, the correlation can be restored. It will be recognized whether the detail drawinghas been derivated from the indicated model. Thus it is impossible to assign outsidedrawings to a model.
Function: _AstorDetRegist
Button:
Course of dialogue:
• Call the function
• A selection-window pops up
• Go to the directory where the data file you want to register is stored
• Double-click on the file you want to register
• The following message pops up:Successful registration of:C:\Programme\GRAITEC\Advance\work\details\DET14.dwg
• The drawing will now be available in the drawing manager.
Advance - Manual Drawing Design Page 1-5
Cancel Drawings from Model
The detail drawings have a correlation to the model drawings. Due to this correlation, thedrawing manager will always know which drawings belong to the respective projects. Insome cases, e.g. if a drawing is not requested for the moment, you can cancel existingdrawings from the model. The correlation between detail drawing and model drawing will belost. However, you can restore it with REGISTER DRAWINGS AT MODEL.
Function: _AstorDetDeRegist
Button:
Course of dialogue:
• Call the function
• A selection-window pops up
• Go to the directory where the data file you want to cancel is stored
• Double-click on the file you want to cancel
• The following message pops up:Successful cancellation of:C:\Programme\GRAITEC\Advance\work\details\DET14.dwg
• The drawing will be not available any more in the drawing manager.
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Advance - Manual Drawing Design Page 2-1
2. Design Drawings
General
2D-drawings will be designed automatically following the 3D-model, corresponding to theselected drawing type. The correlation between the 3D-model and the derivated drawings willremain.
The drawing style of the various drawing types can be adjusted individually. The styles aredefined with their settings (parts to be displayed, view, dimension, label, presentation, etc.) inAccess-tables. The drawing types available in this toolbar are only a selection of possibledrawing styles. An overview of all available drawing styles is given in the chapter 4Predefined Drawing Styles
The derivated drawings (details) can, if not done automatically, be dimensioned and labeledsubsequently with Advance-specific dimension functions (see chapter 6 Drawing Finishing).
The drawing derivation is licensed in two different Advance-modules. For the views themodule Basis is required, and for the single part and main part derivations the moduleDrawing Derivation is required.
The following buttons present a selection of the various possibilities for the drawingderivation. They differ in views, intersections and defaults.
Principle Course of Dialogue:
• Select objects if necessary. Also mere geometry-elements of AutoCAD, e.g.lines, can be objects, if you want them to be presented.
• Press the corresponding button.
• A dialogue-box appears
Page 2-2 Advance - Manual Drawing Design
General
Scale:Scale of the derivated detail.
Title:Label of the complete detail. Possible entries can be seen on page 9-4
Advance - Manual Drawing Design Page 2-3
Detail box
z-Viewport:For the drawing styles you can set whether the viewing depth should be limited tothe front or to the rear (Z-orientation of the UCS). The values for the limitation canbe entered in the dialogue-box.
Example: front: 500, rear: -500 will cut a slice of 1000 mm from the model.
xy-Viewport:For the drawing styles you can set whether the complete model, selected elementsor only a clipping should be derivated. For a clipping the height (Y-orientation of theUCS) and width (X-orientation of the UCS) can be defined. It will be doneautomatically (values via default) by selection (definition by digitizing in the model)or by fixed values entered in the dialogue-box (X-,Y-delta).
Page 2-4 Advance - Manual Drawing Design
Label / Contents
Label / Content:Various settings for the content of the labels. They can be set differently for thevarious structural part types. Only structural parts that will be presented can belabeled.
In the following a listing of the entries already available and their meaning.
General:These entries are available for all elements.
Label / Content LabelUse default See label of the individual styles. - No label
Advance - Manual Drawing Design Page 2-5
Sections:
Label / Content LabelHEA100 Section name#Height(5)1000 Position numberHEA100 1000 Section name, position number2 Main part number1000 Position number2000 Single part numberHEA 100 1 Section name, main part numberHEA100 – 136 1000 Section name, length, position
numberHEA100 – 136 #Height(5)1000 Section name, length, position
numberHEA100 #Height(5)1000 Section name, position numberHEA100 – 136 10.9 #Height(5)1000 Section name, length, material,
position numberHEA100 – 10 #Height(5)1000 Section name, assembly, position
numberHEA100 M #Height(5)1000 Section name, name, position number10 - #Height(5)1000 Assembly, position number10 – 1000 Assembly, position numberEPos: 2000#Newline HPos: 2 Single part number
main part number#Height(5)2 Main part numberHEA100 #Height(5)2 Section name, main part number
The entry #Height(5) means a text height of 5 mm on the drawing. #Newline creates a newline.
Page 2-6 Advance - Manual Drawing Design
Plates:
Label / Content LabelBl 10x136x68 Thickness, length, width Bl 10x136x68 1000 Thickness, length width. Position
number Bl 10 1000 Thickness, position number #Height(5)1000 Position number2 Main part number1000 Position number2000 Single part numberBl 10 ThicknessBl 10 #Height(5)1000 Thickness, position number Bl 10x136x68 #Height(5)1000 Thickness, length, width, position
number Bl 10 ... 136x68 #Height(5)1000 Thickness, length, width, position
number Bl 10 ... 136x68 – 10.9 #Height(5)1000 Thickness, length, width, material,
position number 10 - #Height(5)1000 Assembly, position number 10 - 1000 Assembly, position numberBl10 2 Thickness, main part numberEPos: 2000#Newline HPos: 2 Single part number
main part number#Height(5)2 Main part numberBl10#Height(5)2 Thickness, main part number
The entry #Height(5) means a text height of 5 mm on the drawing. #Newline creates a newline.
Advance - Manual Drawing Design Page 2-7
Bolts:
Label / Content Label6 M16x136 Number, diameter, length 6Ø18 Number, diameter of bore M16x136 Diameter, length 6 M16x136#NewlineDIN 6914 Number, diameter, length
DINØ18 Diameter of bore D18 Diameter of bore 6 M16x136#NewlineDIN 6914 10.9 Number, diameter, length
DIN, quality6 M16x136 10.9 Number, diameter, length quality
Holes:
Label / Content LabelDefault See description of the individual
styles – No label 6Ø16 Number, diameter of hole Ø16 Diameter of holeD16 Diameter of hole
Page 2-8 Advance - Manual Drawing Design
Label / Type
Label / Type:Style of the label that can be set. They can be set differently for the variousstructural part types. The styles are defined in Access-tables. In the styles aredefined, e.g. the guide line, text direction, placing etc.
Only structural parts that will be presented can be labeled.
Possible settings:A detailed description of the labels can be seen on page 14-1.
Advance - Manual Drawing Design Page 2-9
Drawing Elements
Drawing elements:Check mark to switch off the different objects in the derivated drawings. Thesecheck marks only effect drawing styles that contain the respective drawingelements.
Height notations are presented in the drawing styles "Views", "Intersections" and"Nodes". For isometric presentations no height notations can be inserted.
In the shop drawings height notations and line of welding symbols can be insertedvia the finishing (see chapter 6 Drawing Finishing).
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Representation
Representation:Check mark to switch off hidden lines and a shortened presentation. These checkmarks only effect drawing styles that contain the respective presentation.
Clipping is used in the styles "Intersection" and in the drawing styles for main andsingle parts.
• Change the values and press OK.
• An input window for the names of the derivated DWG pops up
Advance - Manual Drawing Design Page 2-11
File name:The available drawings are displayed in a survey list. Here, the name proposed bythe system will be taken or changed.
In the management tool another path can be preset (drawing – general, path of thedetail drawings and prefix).
Prototype file:Name of the prototype-drawing that is to be used for creating the derivateddrawings. Here, the AutoCAD-styles for dimension, line types etc. are defined.
Prototype-files created by your own can be stored in the directory Advance\Support.In the management-tool the required prototype-file can be preset (drawing –general, detail-prototype-file).
• A message will pop up concerning the used prototype-drawing and the DWGwhere the detail has been generated:
Use prototype-drawingC:\Programme\GRAITEC\Advance\SUPPORT\DSCDETPROTO.DWG-> C:\Programme\GRAITEC\Advance\Work\details\DET4.dwg
For the drawing derivation a prototype-drawing will be used. Here, dimension and text styles,layer, etc. are defined. The prototype-drawing to be used can be adjusted individually. Whendoing, it should be called and processed only with the mere AutoCAD (without Advance), ifpossible.
Page 2-12 Advance - Manual Drawing Design
Project Data
Project data can be defined for the model that will be saved with the model. The data can beused in the drawing derivation for the automatic filling of a title block.
Function: _AstM4CommProjectData
Button:
Course of Dialogue:
• Press the button
• A dialogue-box (register-cards) pops up
General
Advance - Manual Drawing Design Page 2-13
additional
Preferences
Defining what preferred sizes should be processed (see manual MANAGEMENTTOOL).
Page 2-14 Advance - Manual Drawing Design
Project unit for weight
Project unit for length
Advance - Manual Drawing Design Page 2-15
Project unit for angle
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Filling the Title Block
In the drawing derivation, these project data can be inserted automatically in the title blocks.To do this, the title block must have a determined name with defined attributes.
The name of the block for the title block is: HYPERSTEELPAGEHEADER.
Following attributes are used:
AttributBezeichnung
Eingabeaufforderung Register
PROJECT Project : “Project data general“PROJECT_NO Project-No. : “Project data general“CLIENT Client : “Project data general“BUILDING Building : “Project data general“BUILDING_PLACE Building site : “Project data general“CONTRACTOR Contractor : “Additional project data“DATE_ORDER Date of order: “Additional project data“DESIGNER Designer : “Additional project data“DETAILER Detailer : “Additional project data“DATE_PLOT “inserted by Advance”MODEL “inserted by Advance”DRAWING_NO “inserted by Advance”
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3. Prototype file
General
Advance-details are saved in DWGs. When giving a new name for the destination file, youcan also name a prototype-file you want to use, e.g. including dimensional style and thedrawing frame.
To do this, you can select from a list of prototype-files in the file-name dialogue for creatingthe detail. You can set a standard prototype-file by default. It will appear automatically as thefile to be used.
You can define your own dimensional styles in existing or in new prototype-files.
Make Your Own Prototype-File
The prototype-files are in the directory Hyper\Shared\Support\Prototypes. Here, you canstore your own prototype-files. You define in the defaults which prototype-file is pre-set(default: drawing-general, detail-prototype-file).
The prototype-files offered in the list must be in the same directory that can be determined asfollows:
Starting point is the default value DETAIL-PROTOTYPEFILE. The path given here and/or file-name determines the listed directory and the pre-selected prototype-file.
If only one path is given, the program will use DSCDETPROTO.DWG as default-file.However, we recommend entering explicitly a file-name. In this case, there are twopossibilities:
1. Default value contains file-name NAME.DWG without pathIt will be searched for prototypes\NAME.DWG, that is the given file in the sub-directoryprototypes. The search will be done first in the path of the currently processed model(such as ...\Projekt1\Prototypes), and then in the AutoCAD search-path (such as...\Hyper\Shared\Support.
2. Default value contains absolute path with file-name NAME.DWGIt will be searched for exactly this combination of path and file-name, such asC:\DetailprototypesProjekt1\NAME.DWG.
This type is recommended only for the users with single working station who use for alltheir projects the same type heading or frame. Otherwise the default valueC40_PrototypeDwg must be changed for each project.
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Notes:
• The relevant graphic objects (such as frames and type heading) are in theAutoCAD-paperfield. Modifications are useful only in the paperspace.
• Detail must never be derivated directly in the prototype-file. For Advance aDWG is either model or prototype or drawing.
If you want to use your own page frame with page header, you must proceed as follows:
• Copy an existing prototype-file
• Open this file in AutoCAD
• Delete or explode page frame and page header
• Enter command BEREINIG, Type BL and clear the blockHYPERSTEELPAGEFRAME and HYPERSTEELPAGEHEADER.
• Create or modify the new page frame and page header
• Create block with the names HYPERSTEELPAGEFRAME with the elements ofthe page frame
• Create block with the name HYPERSTEELPAGEHEADER with the elements ofthe page header
• Save the drawing
To find out the place which can be used for the details the maximum extents of the blockHYPERSTEELPAGEHEADER is subtracted from the maximum extents of the blockHYPERSTEELPAGEFRAME.
Example:
The place above the title block should not be used for details, because additionalinformations should be placed there. To achieve this, a point must be set in the right abovecorner, which must be put in the block HYPERSTEELPAGEHEADER.
Title block
Point
Advance - Manual Drawing Design
4. Predefined Drawing Styles
On the following pages you will find a listing of the drawing styles already defined inAdvance. For each style a double page is intended and composed in a specific structure.
F n n
unctio Menutext ButtoPage 3/454
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Example
Name in DrawingstyleManagement
Advance - Manual Drawing Design Page 5/454
Description of the table:
Title Content of the Detail Title
Position title Position of the detail titletop center, bottom left
Request name(s) Detail viewsComposition of presentation-, label- and dimensionrules.
Clipping Shortened presentationX, Y, XY, Off
Presentation rule Which elements are presented and labeled in whichway
Dimension rule How are the elements dimensioned
Object selection Which elements are filtered from the model
Scale Presentation scale
Viewing direction Viewing direction on the elements
Model box Selection of the viewport, restriction of the viewingdepth
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View
These styles enable the creation of the isometric views of the complete model. The viewingdepth depends on the UCS and is against the positive Z-axis. The views are presented in thedefault scale 1:20 and are not dimensioned. The clipping is switched off.
View V – NoDim NoLab (1 1)
View V – NoDim Mp PosSmGuid (1 2)
View V – NoDim Mp NamePosSmGuid (1 3)
View V – Select. Parts NoDim Mp NamePosSmGuid (1 7)
View VH – NoDim NoLab (1 4)
View VH – NoDim Mp PosSmGuid (1 5)
View VH – NoDim Mp NamePosSmGuid (1 6)
View VH – Select. Parts NoDim Mp NamePosSmGuid (1 8)
View VHA – NoDim NoLab (1 11)
View VHA – NoDim Mp PosSmGuid (1 10)
View VHA – NoDim Mp NamePosSmGuid (1 9)
View VHA – Select. Parts NoDim Mp NamePosSmGuid (1 12)
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AstM4CommDetByStyle 1 1 View 1
Button:
Category / Style ViewView V – NoDim NoLab
Title View
Position title below left
Request name(s) View V – NoDim NoLab 1:20 CO
Clipping Off
Presentation rule View V – NoLab
Dimension rule Off
Object selection Complete Model with XRefs
Scale 1:20
Viewing direction UCS
Model box Automatic, without restrictions
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AstM4CommDetByStyle 1 1 View 1
1
1
2
2
3
3
A
A
B
B
C
C
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AstM4CommDetByStyle 1 2 View 2
Button:
Category / Style ViewView V – NoDim Mp PosSmGuid
Title View
Position title below left
Request name(s) View V – NoDim Mp PosSmGuid 1:20 CO
Clipping Off
Presentation rule View V – Mp PosSmGuid
Dimension rule Off
Object selection Complete Model with XRefs
Scale 1:20
Viewing direction UCS
Model box Automatic, without restrictions
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AstM4CommDetByStyle 1 2 View 2
1
1
2
2
3
3
A
A
B
B
C
C
1
8
4
5
5
6
7
1 2
7
4
8
1
1
2
9
2
3
3
2
6
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AstM4CommDetByStyle 1 3 View 3
Button:
Category / Style ViewView V – NoDim Mp NamePosSmGuid
Title View
Position title below left
Request name(s) View V – NoDim Mp NamePosSmGuid 1:20 CO
Clipping Off
Presentation rule View V – Mp NamePosSmGuid
Dimension rule Off
Object selection Complete Model with XRefs
Scale 1:20
Viewing direction UCS
Model box Automatic, without restrictions
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AstM4CommDetByStyle 1 3 View 3
1
1
2
2
3
3
A
A
B
B
C
C
HEA240 1
HEA180 3
HEA140 4
HEA140 4
HEA140 5
HEA140 5
HEA240 8
IPE270 7
HEA240 1 IPE270 2
HEA120 6
HEA240 1IPE270 7HEA120 6
HEA240 8
HEA240 1
IPE270 2HEA180 3
IPE270 2
HEA140 9
IPE270 2
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AstM4CommDetByStyle 1 4
Button: Call with command or Drawing Style Management
Category / Style ViewView VH – NoDim NoLab
Title View
Position title below left
Request name(s) View VH – NoDim NoLab 1:20 CO
Clipping Off
Presentation rule View VH – NoLab
Dimension rule Off
Object selection Complete Model with XRefs
Scale 1:20
Viewing direction UCS
Model box Automatic, without restrictions
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AstM4CommDetByStyle 1 4
1
1
2
2
3
3
A
A
B
B
C
C
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AstM4CommDetByStyle 1 5
Button: Call with command or Drawing Style Management
Category / Style ViewView VH – NoDim Mp PosSmGuid
Title View
Position title below left
Request name(s) View VH – NoDim Mp PosSmGuid 1:20 CO
Clipping Off
Presentation rule View VH – Mp PosSmGuid
Dimension rule Off
Object selection Complete Model with XRefs
Scale 1:20
Viewing direction UCS
Model box Automatic, without restrictions
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AstM4CommDetByStyle 1 5
1
1
1
2
2
3
3
A
A
B
B
C
C
8
5
4
5
6
7
12
7 1
4
8
1
2
9
2
3
3
2
6
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AstM4CommDetByStyle 1 6
Button: Call with command or Drawing Style Management
Category / Style ViewView VH – NoDim Mp NamePosSmGuid
Title View
Position title below left
Request name(s) View VH – NoDim Mp NamePosSmGuid 1:20 CO
Clipping Off
Presentation rule View VH – Mp NamePosSmGuid
Dimension rule Off
Object selection Complete Model with XRefs
Scale 1:20
Viewing direction UCS
Model box Automatic, without restrictions
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AstM4CommDetByStyle 1 6
1
1
2
2
3
3
A
A
B
B
C
C
HEA240 1
HEA140 4
HEA240 8
HEA140 4
HEA140 5
HEA140 5
IPE270 7
HEA240 1IPE270 2
HEA120 6
IPE270 7HEA120 6
HEA240 8
HEA240 1
IPE270 2
HEA180 3
IPE270 2
HEA140 9
HEA180 3
IPE270 2
HEA240 1
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AstM4CommDetByStyle 1 7 View 4
Button:
Category / Style ViewView V – Select. Parts NoDim Mp NamePosSmGuid
Title View
Position title below left
Request name(s) View V – NoDim Mp PosSmGuid 1:20 CO
Clipping Off
Presentation rule View V – Mp PosSmGuid
Dimension rule Off
Object selection Selection set
Scale 1:20
Viewing direction UCS
Model box Automatic, without restrictions
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AstM4CommDetByStyle 1 7 View 4
A
A
B
B
C
C
1
1
2
2
3
3
8
7
4
9
2
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AstM4CommDetByStyle 1 8
Button: Call with command or Drawing Style Management
Category / Style ViewView VH – Select. Parts NoDim Mp NamePosSmGuid
Title View
Position title below left
Request name(s) View VH – NoDim Mp PosSmGuid 1:20 CO
Clipping Off
Presentation rule View VH – Mp PosSmGuid
Dimension rule Off
Object selection Selection set
Scale 1:20
Viewing direction UCS
Model box Automatic, without restrictions
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AstM4CommDetByStyle 1 8
A
A
B
B
C
C
1
1
2
2
3
3
8
7
4
9
2
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AstM4CommDetByStyle 1 9
Button: Call with command or Drawing Style Management
Category / Style ViewView VHA – NoDim Mp NamePosSmGuid
Title View
Position title below left
Request name(s) View VHA – NoDim Mp NamePosSmGuid 1:20 CO
Clipping Off
Presentation rule View VHA – Mp NamePosSmGuid
Dimension rule Off
Object selection Complete Model with XRefs
Scale 1:20
Viewing direction UCS
Model box Automatic, without restrictions
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AstM4CommDetByStyle 1 9
1
1
2
2
3
3
A
A
B
B
C
C
HEA140 4
HEA140 5
HEA140 5
HEA240 8
IPE270 7
HEA240 1IPE270 2
HEA120 6
IPE270 7HEA120 6
HEA240 8
HEA240 1
IPE270 2
HEA180 3
IPE270 2
HEA180 3
HEA140 9
IPE270 2
HEA240 1
HEA240 1
HEA140 4
Advance - Manual Drawing Design Page 25/454
AstM4CommDetByStyle 1 10
Button: Call with command or Drawing Style Management
Category / Style ViewView VHA – NoDim Mp PosSmGuid
Title View
Position title below left
Request name(s) View VHA – NoDim Mp PosSmGuid 1:20 CO
Clipping Off
Presentation rule View VHA – Mp PosSmGuid
Dimension rule Off
Object selection Complete Model with XRefs
Scale 1:20
Viewing direction UCS
Model box Automatic, without restrictions
Page 26/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 1 10
1
41
1
2
2
3
3
A
A
B
B
C
C
8
5
4
5
6
7
1 2
7
8
1
1
2
9
3
2
3
2
6
Advance - Manual Drawing Design Page 27/454
AstM4CommDetByStyle 1 11
Button: Call with command or Drawing Style Management
Category / Style ViewView VHA – NoDim NoLab
Title View
Position title below left
Request name(s) View VHA – NoDim NoLab 1:20 CO
Clipping Off
Presentation rule View VHA – NoLab
Dimension rule Off
Object selection Complete Model with XRefs
Scale 1:20
Viewing direction UCS
Model box Automatic, without restrictions
Page 28/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 1 11
1
1
2
2
3
3
A
A
B
B
C
C
Advance - Manual Drawing Design Page 29/454
AstM4CommDetByStyle 1 12
Button: Call with command or Drawing Style Management
Category / Style ViewView VHA – Select. Parts NoDim Mp NamePosSmGuid
Title View
Position title below left
Request name(s) View VHA – NoDim Mp PosSmGuid 1:20 CO
Clipping Off
Presentation rule View VHA – Mp PosSmGuid
Dimension rule Off
Object selection Selection set
Scale 1:20
Viewing direction UCS
Model box Automatic, without restrictions
Page 30/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 1 12
A
A
B
B
C
C
1
1
2
2
3
3
8
7
4
9
2
Advance - Manual Drawing Design Page 31/454
Page 32/454 Advance - Manual Drawing Design
Detail node
With these styles, clippings can be generated from a model, e.g. node of a frame. Theviewing direction depends on the UCS and is oriented against the positive Z-axis. The size ofthe detail clipping is digitized via two points. The default scale is 1:10, there is no automaticdimension. The clipping is switched off.
The drawings generated with these styles will be displayed in the drawing manager as status“Unknown” even directly after the derivation. With the button Status you can correct it.
Detail V – NoDim NoLab (2 1)
Detail V – NoDim MpSp PosSmGuid (2 2)
Detail V – NoDim MpSp NamePosSmGuid (2 3)
Detail VH – NoDim NoLab (2 4)
Detail VH – NoDim MpSp PosSmGuid (2 5)
Detail VH – NoDim MpSp NamePosSmGuid (2 6)
Detail VHA – NoDim NoLab (2 9)
Detail VHA – NoDim MpSp PosSmGuid (2 8)
Detail VHA – NoDim MpSp NamePosSmGuid (2 7)
Advance - Manual Drawing Design Page 33/454
AstM4CommDetByStyle 2 1
Button: Call with command or Drawing Style Management
Category / Style Detail NodeDetail V – NoDim NoLab
Title Detail
Position title below left
Request name(s) Detail V – NoDim NoLab 1:10 CO
Clipping Off
Presentation rule Detail V – NoLab
Dimension rule Off
Object selection Detail box with XRefs
Scale 1:10
Viewing direction UCS Digi
Model box Digitized by 2 points, without restriction!! Deactivate Ortho and Ofang !!
Page 34/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 2 1
Advance - Manual Drawing Design Page 35/454
AstM4CommDetByStyle 2 2
Button: Call with command or Drawing Style Management
Category / Style Detail NodeDetail V – NoDim MpSp PosSmGuid
Title Detail
Position title below left
Request name(s) Detail V – NoDim MpSp PosSmGuid 1:10 CO
Clipping Off
Presentation rule Detail V – MpSp PosSmGuid
Dimension rule Off
Object selection Detail box with XRefs
Scale 1:10
Viewing direction UCS Digi
Model box Digitized by 2 points, without restriction!! Deactivate Ortho and Ofang !!
Page 36/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 2 2
7
1016
1012 10151009 1010
1013
8
Advance - Manual Drawing Design Page 37/454
AstM4CommDetByStyle 2 3
Button: Call with command or Drawing Style Management
Category / Style Detail NodeDetail V – NoDim MpSp NamePosSmGuid
Title Detail
Position title below left
Request name(s) Detail V – NoDim MpSp NamePosSmGuid 1:10 CO
Clipping Off
Presentation rule Detail V – MpSp NamePosSmGuid
Dimension rule Off
Object selection Detail box with XRefs
Scale 1:10
Viewing direction UCS Digi
Model box Digitized by 2 points, without restriction!! Deactivate Ortho and Ofang !!
Page 38/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 2 3
IPE270 7
Bl 20 1016
Bl 10 1012
Bl 10 1015Bl 10 1009 Bl 10 1010
Bl 10 1013
HEA240 8
Advance - Manual Drawing Design Page 39/454
AstM4CommDetByStyle 2 4 Node 1
Button:
Category / Style Detail NodeDetail VH – NoDim NoLab
Title Detail
Position title below left
Request name(s) Detail VH – NoDim NoLab 1:10 CO
Clipping Off
Presentation rule Detail VH – NoLab
Dimension rule Off
Object selection Detail box with XRefs
Scale 1:10
Viewing direction UCS Digi
Model box Digitized by 2 points, without restriction!! Deactivate Ortho and Ofang !!
Page 40/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 2 4 Node 1
Advance - Manual Drawing Design Page 41/454
AstM4CommDetByStyle 2 5 Node 2
Button:
Category / Style Detail NodeDetail VH – NoDim MpSp PosSmGuid
Title Detail
Position title below left
Request name(s) Detail VH – NoDim MpSp PosSmGuid 1:10 CO
Clipping Off
Presentation rule Detail VH – MpSp PosSmGuid
Dimension rule Off
Object selection Detail box with XRefs
Scale 1:10
Viewing direction UCS Digi
Model box Digitized by 2 points, without restriction!! Deactivate Ortho and Ofang !!
Page 42/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 2 5 Node 2
7
1016
10121015
1009 1010
1013
8
Advance - Manual Drawing Design Page 43/454
AstM4CommDetByStyle 2 6 Node 3
Button:
Category / Style Detail NodeDetail VH – NoDim MpSp NamePosSmGuid
Title Detail
Position title below left
Request name(s) Detail VH – NoDim MpSp NamePosSmGuid 1:10 CO
Clipping Off
Presentation rule Detail VH – MpSp NamePosSmGuid
Dimension rule Off
Object selection Detail box with XRefs
Scale 1:10
Viewing direction UCS Digi
Model box Digitized by 2 points, without restriction!! Deactivate Ortho and Ofang !!
Page 44/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 2 6 Node 3
IPE270 7Bl 20 1016
Bl 10 1012Bl 10 1015Bl 10 1009 Bl 10 1010
Bl 10 1013
HEA240 8
Advance - Manual Drawing Design Page 45/454
AstM4CommDetByStyle 2 7
Button: Call with command or Drawing Style Management
Category / Style Detail NodeDetail VHA – NoDim MpSp NamePosSmGuid
Title Detail
Position title below left
Request name(s) Detail VHA – NoDim MpSp NamePosSmGuid 1:10 CO
Clipping Off
Presentation rule Detail VHA – MpSp NamePosSmGuid
Dimension rule Off
Object selection Detail box with XRefs
Scale 1:10
Viewing direction UCS Digi
Model box Digitized by 2 points, without restriction!! Deactivate Ortho and Ofang !!
Page 46/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 2 7
IPE270 7Bl 20 1016
Bl 10 1012Bl 10 1015
Bl 10 1009 Bl 10 1010
Bl 10 1013
HEA240 8
Advance - Manual Drawing Design Page 47/454
AstM4CommDetByStyle 2 8
Button: Call with command or Drawing Style Management
Category / Style Detail NodeDetail VHA – NoDim MpSp PosSmGuid
Title Detail
Position title below left
Request name(s) Detail VHA – NoDim MpSp PosSmGuid 1:10 CO
Clipping Off
Presentation rule Detail VHA – MpSp PosSmGuid
Dimension rule Off
Object selection Detail box with XRefs
Scale 1:10
Viewing direction UCS Digi
Model box Digitized by 2 points, without restriction!! Deactivate Ortho and Ofang !!
Page 48/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 2 8
7
1016
1012 10151009
1010
1013
8
Advance - Manual Drawing Design Page 49/454
AstM4CommDetByStyle 2 9
Button: Call with command or Drawing Style Management
Category / Style Detail NodeDetail VHA – NoDim NoLab
Title Detail
Position title below left
Request name(s) Detail VHA – NoDim NoLab 1:10 CO
Clipping Off
Presentation rule Detail VHA – NoLab
Dimension rule Off
Object selection Detail box with XRefs
Scale 1:10
Viewing direction UCS Digi
Model box Digitized by 2 points, without restriction!! Deactivate Ortho and Ofang !!
Page 50/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 2 9
Advance - Manual Drawing Design Page 51/454
Page 52/454 Advance - Manual Drawing Design
Single part
Design of shop drawings of the single parts. The viewing direction does not depend on theUCS, but on the internal system of coordinates of the selected element. The default scale is1:10. The details are dimensioned and labeled automatically.
Sp – Plate 1:1 CO (3 13)
Sp – Plate 1:1 CX (3 10)
Sp – Plate 1:10 CO (3 14)
Sp – Plate 1:10 CX (3 7)
Sp – Plate UCS 1:10 CXY (3 12)
Sp – Bent Beam (3 6)
Sp – Beam UCS 1:10 CX (3 11)
Sp – Beam front 1:10 CX (3 1)
Sp – Beam front,top 1:10 CX (3 2)
Sp – Beam front,top,bottom 1:1 CX (3 9)
Sp – Beam front,top,bottom 1:10 CO (3 8)
Sp – Beam front,top,bottom 1:10 CX (3 3)
Sp – Beam front,bottom 1:10 CX (3 4)
Sp – Beam Selection of views 1:10 CX (3 5)
Advance - Manual Drawing Design Page 53/454
AstM4CommDetByStyle 3 1 Sp – Beam front
Button:
Category / Style SinglepartSp – Beam front 1:10 CX
Title #Height(3.5)%Quantityx %Namex%Length – %Material %Note#Height(5)%SinglePartPosNum
Position title top middle
Request name(s) Sp Beam Front 1:10 CX
Clipping X
Presentation rule Singlepart VHA
Dimension rule Sp Beam
Object selection Singlepart
Scale 1:10
Viewing direction Object front
Model box Automatic, without restrictions
Page 54/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 3 1 Sp – Beam front
1x HEB500x3319 - S235JRG2 1082150 1544 116 76 100 532 46 77 46 419 213
2252 610 80 108 269
3319
7515
027
5
274
6620
6674
150
350
274
3541
6981
350
150
130
370
R=65
Advance - Manual Drawing Design Page 55/454
AstM4CommDetByStyle 3 2 Sp – Beam front, top
Button:
Category / Style SinglepartSp – Beam front,top 1:10 CX
Title #Height(3.5)%Quantityx %Namex%Length – %Material %Note#Height(5)%SinglePartPosNum
Position title top middle
Request name(s) Sp Beam Front 1:10 CXSp Beam Top, Bottom 1:10 CX
Clipping X
Presentation rule Singlepart VHA
Dimension rule Sp Beam
Object selection Singlepart
Scale 1:10
Viewing direction Object front / Object top
Model box Automatic, without restrictions
Page 56/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 3 2 Sp – Beam front, top
1x HEB500x3319 - S235JRG2 1082150 1544 116 76 100 532 46 77 46 419 213
2252 610 80 108 269
3319
7515
027
5
274
6620
6674
150
350
274
3541
6981
350
150
130
370
R=65
2252 1067
2252 853 214
3319
300
Advance - Manual Drawing Design Page 57/454
AstM4CommDetByStyle 3 3 Sp – Beamfront,top,bottom
Button:
Category / Style SinglepartSp – Beam front,top,bottom 1:10 CX
Title #Height(3.5)%Quantityx %Namex%Length – %Material %Note#Height(5)%SinglePartPosNum
Position title top middle
Request name(s) Sp Beam Front 1:10 CXSp Beam Top, Bottom 1:10 CXSp Beam Bottom, Top1:10 CX
Clipping X
Presentation rule Singlepart VHA
Dimension rule Sp Beam
Object selection Singlepart
Scale 1:10
Viewing direction Object front / Object top / Object bottom
Model box Automatic, without restrictions
Page 58/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 3 3 Sp – Beamfront,top,bottom
1x HEB500x3319 - S235JRG2 1082150 1544 116 76 100 532 46 77 46 419 213
2252 610 80 108 269
3319
7515
027
5
274
6620
6674
150
350
274
3541
6981
350
150
130
370
R=65
2252 1067
2252 853 214
3319
300
2252 853 214
2252 1067
3319
300
Advance - Manual Drawing Design Page 59/454
AstM4CommDetByStyle 3 4 Sp – Beamfront,bottom
Button:
Category / Style SinglepartSp – Beam front,bottom 1:10 CX
Title #Height(3.5)%Quantityx %Namex%Length – %Material %Note#Height(5)%SinglePartPosNum
Position title top middle
Request name(s) Sp Beam Front 1:10 CXSp Beam Bottom, Top1:10 CX
Clipping X
Presentation rule Singlepart VHA
Dimension rule Sp Beam
Object selection Singlepart
Scale 1:10
Viewing direction Object front / Object bottom
Model box Automatic, without restrictions
Page 60/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 3 4 Sp – Beamfront,bottom
1x HEB500x3319 - S235JRG2 1082150 1544 116 76 100 532 46 77 46 419 213
2252 610 80 108 269
3319
7515
027
5
274
6620
6674
150
350
274
3541
6981
350
150
130
370
R=65
2252 853 214
2252 1067
3319
300
Advance - Manual Drawing Design Page 61/454
AstM4CommDetByStyle 3 5 Sp – Beam selection of view
Button:
Category / Style SinglepartSp – Beam selection of view 1:10 CX
Title #Height(3.5)%Quantityx %Namex%Length – %Material %Note#Height(5)%SinglePartPosNum
Position title top middle
Request name(s) Sp AllViews 1:10 CX
Clipping X
Presentation rule Singlepart VHA
Dimension rule Sp Beam
Object selection Singlepart
Scale 1:10
Viewing direction Object selected
Model box Automatic, without restrictions
Page 62/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 3 5 Sp – Beam selection of view
1x HEB500x3319 - S235JRG2 1082150 1544 116 76 100 532 46 77 46 419 213
2252 610 80 108 269
3319
7515
027
5
274
6620
6674
150
350
274
3541
6981
350
150
130
370
R=65
2252 1067
2252 853 214
3319
300
2252 853 214
2252 1067
3319
300
2252 610 80 108 269
150 1544 116 76 100 532 46 77 46 419 213
3319
275
150
75
7466
2066
274
350
150
8169
4135
274
150
350
370
130
R=65
150 150
300
250
250
150 150
300
250
250
Advance - Manual Drawing Design Page 63/454
AstM4CommDetByStyle 3 6 Sp - BentBeam
Button:
Category / Style SinglepartSp - BentBeam
Title #Height(3.5)%Quantityx %Namex%Length – %Material %Note#Height(5)%SinglePartPosNum
Position title top middle
Request name(s) Sp BentBeam Top 1:10 CO
Clipping Off (BentBeams cannot be clipped)
Presentation rule Singlepart VHA
Dimension rule Sp BentBeam
Object selection Singlepart
Scale 1:10
Viewing direction Object top
Model box Automatic, without restrictions
Page 64/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 3 6 Sp - BentBeam
1x HEA160x3401 - S235JRG2 1023
662
38
98040
980
38
662
3400
7676
7013
69
7013
69
3143
611
2ø14
2ø14
2ø14
Advance - Manual Drawing Design Page 65/454
AstM4CommDetByStyle 3 7 Sp – Plate
Button:
Category / Style SinglepartSp – Plate 1:10 CX
Title #Height(3.5)%Quantityx %Name – %Material %Note#Height(5)%SinglePartPosNum
Position title top middle
Request name(s) Sp Plate 1:10 CX
Clipping X
Presentation rule Singlepart VHA
Dimension rule Sp plate
Object selection Singlepart
Scale 1:10
Viewing direction Object top
Model box Automatic, without restrictions
Page 66/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 3 7 Sp – Plate
3x BL 10x250x200 - S235JRG2 1010
49 57 144
250
100 150
6556
79
100
100
2002ø13
Advance - Manual Drawing Design Page 67/454
AstM4CommDetByStyle 3 8
Button: Call with command or Drawing Style Management
Category / Style SinglepartSp – Beam front,top,bottom 1:10 CO
Title #Height(3.5)%Quantityx %Namex%Length – %Material %Note#Height(5)%SinglePartPosNum
Position title top middle
Request name(s) Sp Beam Front 1:10 CO Sp Beam Top,Bottom 1:10 COSp Beam Bottom,Top 1:10 CO
Clipping Off
Presentation rule Singlepart VHA
Dimension rule Sp Beam
Object selection Singlepart
Scale 1:10
Viewing direction Object front / Object top / Object bottom
Model box Automatic, without restrictions
Page 68/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 3 8
1x HEB500x3319 - S235JRG2 1082150 1544 116 76 100 532 46 77 46 419 213
2252 610 80 108 269
3319
7515
027
5
274
6620
6674
150
350
274
3541
6981
350
150
130
370
R=65
2252 1067
2252 853 214
3319
300
2252 853 214
2252 1067
3319
300
Advance - Manual Drawing Design Page 69/454
AstM4CommDetByStyle 3 9
Button: Call with command or Drawing Style Management
Category / Style SinglepartSp – Beam front,top,bottom 1:1 CX
Title #Height(3.5)%Quantityx %Namex%Length – %Material %Note#Height(5)%SinglePartPosNum
Position title top middle
Request name(s) Sp Beam Front 1:1 CX Sp Beam Top,Bottom 1:1 CXSp Beam Bottom,Top 1:1 CX
Clipping X
Presentation rule Singlepart VHA
Dimension rule Sp Beam
Object selection Singlepart
Scale 1:1
Viewing direction Object front / Object top / Object bottom
Model box Automatic, without restrictions
Page 70/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 3 9
1x RO48.3X3.2x3973 - S235JRG2 10203973
2424
3973
2424
3973
2424
Advance - Manual Drawing Design Page 71/454
AstM4CommDetByStyle 3 10
Button: Call with command or Drawing Style Management
Category / Style SinglepartSp – Plate 1:1 CX
Title #Height(3.5)%Quantityx %Name – %Material %Note#Height(5)%SinglePartPosNum
Position title top middle
Request name(s) Sp Plate 1:1 CX
Clipping X
Presentation rule Singlepart VHA
Dimension rule Sp Plate
Object selection Singlepart
Scale 1:1
Viewing direction Object top
Model box Automatic, without restrictions
Page 72/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 3 10
3x BL 10x250x200 - S235JRG2 1010
49 57 144
250
100 150
6556
79
100
100
200
2ø13
Advance - Manual Drawing Design Page 73/454
AstM4CommDetByStyle 3 11
Button: Call with command or Drawing Style Management
Category / Style SinglepartSp – Beam UCS 1:10 CO
Title #Height(3.5)%Quantityx %Namex%Length – %Material %Note#Height(5)%SinglePartPosNum
Position title top middle
Request name(s) Sp Beam UCS 1:10 CO
Clipping Off
Presentation rule Singlepart VHA
Dimension rule Sp Beam
Object selection Singlepart
Scale 1:10
Viewing direction UCS
Model box Automatic, without restrictions
Page 74/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 3 11
1x HEB500x3319 - S235JRG2 1082
213
41946 77 46
532
100 76 116
1544
150
269108 80
610
2252
3319
7515
027
5
274
6620
6674
150
350
274
3541
6981
350
150
130
370
R=65
Advance - Manual Drawing Design Page 75/454
AstM4CommDetByStyle 3 12
Button: Call with command or Drawing Style Management
Category / Style SinglepartSp – Plate UCS 1:10 CXY
Title #Height(3.5)%Quantityx %Name – %Material %Note#Height(5)%SinglePartPosNum
Position title top middle
Request name(s) Sp Plate UCS 1:10 CXY
Clipping XY
Presentation rule Singlepart VHA
Dimension rule Sp Plate
Object selection Singlepart
Scale 1:10
Viewing direction UCS
Model box Automatic, without restrictions
Page 76/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 3 12
3x BL 10x250x200 - S235JRG2 1010
144
5749
250
150
100
79 56 65
100 100
200
2ø13
Advance - Manual Drawing Design Page 77/454
AstM4CommDetByStyle 3 13
Button: Call with command or Drawing Style Management
Category / Style SinglepartSp – Plate 1:1 CO
Title #Height(3.5)%Quantityx %Name – %Material %Note#Height(5)%SinglePartPosNum
Position title top middle
Request name(s) Sp Plate 1:1 CO
Clipping Off
Presentation rule Singlepart VHA
Dimension rule Sp Plate
Object selection Singlepart
Scale 1:1
Viewing direction Object top
Model box Automatic, without restrictions
Page 78/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 3 13
3x BL 10x250x200 - S235JRG2 1010
49 57 144
250
100 150
6556
79
100
100
200
2ø13
Advance - Manual Drawing Design Page 79/454
AstM4CommDetByStyle 3 14
Button: Call with command or Drawing Style Management
Category / Style SinglepartSp – Plate 1:10 CO
Title #Height(3.5)%Quantityx %Name – %Material %Note#Height(5)%SinglePartPosNum
Position title top middle
Request name(s) Sp Plate 1:10 CO
Clipping Off
Presentation rule Singlepart VHA
Dimension rule Sp Plate
Object selection Singlepart
Scale 1:10
Viewing direction Object top
Model box Automatic, without restrictions
Page 80/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 3 14
3x BL 10x250x200 - S235JRG2 1010
49 57 144
250
100 150
6556
79
100
100
2002ø13
Advance - Manual Drawing Design Page 81/454
Page 82/454 Advance - Manual Drawing Design
Main part
Design of shop drawings of the main parts. The default scale is 1:10. The details aredimensioned and labeled automatically. The clipping is switched on for the XY-direction.
Mainpart – UCS (4 1)
Mainpart – Plate, AutoIntersections (4 2)
Mainpart – Bent Beam (4 3)
Mainpart – UCS add. Parts (4 5)
Mainpart – UCS System dimension (4 6)
Mainpart – Intersection of selected parts (4 7)
In order to get a front plate view from the inside of cover plates, they must have the functionof cover plate, base plate or butt plate (Advance Properties Register Note).
Advance - Manual Drawing Design Page 83/454
AstM4CommDetByStyle 4 1 Mainpart – UCS
Button:
Category / Style MainpartMainpart – UCS
Title #Height(3.5)%Quantityx %Name – %Material %Note#Height(5)%Position
Position title top middle
Request name(s) Mp UCS 1:10 CXEndplates from inside 1:10 COIntersectionsR Choice, Bottom1:10 CO
Clipping X
Presentation rule Mp VHA / Mp intersection VHAC
Dimension rule Mainpart / End plates / Mp intersection
Object selection Mainpart
Scale 1:10
Viewing direction UCS / End plates from inside /IntersectionsRightSide xy500 F2R500
Model box Automatic, without restrictions
Page 84/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 4 1 Mainpart – UCS
1x HEB500 - S235JRG2 Deckenträger 23
230100
210100
575
87
1548
2561
289
2850
1844
57 199100
25070
330
850
100
1170
2535 61
609
500
250
250
500
150
330
170
312
3215
6
341
5010
9
128
372
9956
345
500
100
102
2637
2
178
322
KB ø16x75
1010
1031
1015
KB ø16x75
KB ø16x751083
2 M16x45DIN 6914Fv=0.5
2 M16x45DIN 6914
2 M12x30DIN 6914
2ø18-50
80 140 80
300
5019
019
050
1048
010
1083
6 M16x50DIN 6914Fv=1.0
10 100 100 100
2020
060
200
2015
0
1010
1031
1015
Advance - Manual Drawing Design Page 85/454
AstM4CommDetByStyle 4 2
Button: Call with command or Drawing Style Management
Category / Style MainpartMainpart – Plate, AutoIntersections
Title #Height(3.5)%Quantityx %Name – %Material %Note#Height(5)%Position
Position title top middle
Request name(s) Mp Top 1:10 CXMp Top, Bottom 1:10 CXIntersectionsR, Bottom 1:10 CO
Clipping X
Presentation rule Mp SpMpPos VHA / Mp VHA / Mp intersection VHAC
Dimension rule Mainpart / Mp Flange / Mp intersection
Object selection Mainpart
Scale 1:10
Viewing direction Object front / Object top / IntersectionsRightSide xy500 F2R500
Model box Automatic, without restrictions
Page 86/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 4 2
Advance - Manual Drawing Design Page 87/454
AstM4CommDetByStyle 4 3 Mainpart – Bent Beam
Button:
Category / Style MainpartMainpart – BentBeam
Title #Height(3.5)%Quantityx%Namex%Length – %Material %Note#Height(5)%Position
Position title top middle
Request name(s) Mp BentBeam Top 1:10 COEndplates from inside 1:10 CO
Clipping Off
Presentation rule Mp SpMpPos VHA / Mp VHA
Dimension rule Mp BentBeam / End plates
Object selection Mainpart
Scale 1:10
Viewing direction Object top / Endplates from inside
Model box Automatic, without restrictions
Page 88/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 4 3 Mainpart – Bent Beam
1x HEA160x3401 - S235JRG2 17
662
38
98040
980
38
662
5995
3209
9559
3400
7415
210
7415
210
7013
69
7013
69
7676
EPos: 1023HPos: 17
1036 1036
2 M12x40DIN 7990
2 M12x40DIN 7990
2 M12x40DIN 7990
Advance - Manual Drawing Design Page 89/454
AstM4CommDetByStyle 4 5
Button: Call with command or Drawing Style Management
Category / Style MainpartMainpart – UCS add. Parts
Title #Height(3.5)%Quantityx%Name – %Material %Note#Height(5)%Position
Position title top middle
Request name(s) Mp UCS 1:10 CXEndplates from inside 1:10 COIntersectionsR Choice, Bottom1:10 CO
Clipping X
Presentation rule Mp VHA / Mp intersection VHAC
Dimension rule Mainpart / End plates / Mp Intersection
Object selection Main part and additional elements
Scale 1:10
Viewing direction UCS / Endplates from inside /IntersectionsRightSide xy500 F2R500
Model box Automatic, without restrictions
Page 90/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 4 5
Advance - Manual Drawing Design Page 91/454
AstM4CommDetByStyle 4 6
Button: Call with command or Drawing Style Management
Category / Style MainpartMainpart – UCS system dimensions
Title #Height(3.5)%Quantityx %Name – %Material %Note#Height(5)%Position
Position title top middle
Request name(s) Mp UCS BemSystem 1:10 CXEndplates from inside 1:10 COIntersectionsR Choice, Bottom1:10 CO
Clipping X
Presentation rule Mp SpMpPos VHA / End plates / Mp Intersection VHAC
Dimension rule Mp System / End plates / Mp Intersection
Object selection Mainpart
Scale 1:10
Viewing direction UCS / Endplates from inside /IntersectionsRightSide xy500 F2R500
Model box Automatic, without restrictions
Page 92/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 4 6
1x HEB500 - S235JRG2 Deckenträger 23
230100
210100
575
87
1548
2561
289
100
2850
250
2850
1844
57 199100
25070
330
850
100
1170
2535 61
609
500
250
250
500
150
330
170
312
3215
6
341
5010
9
128
372
9956
345
500
100
102
2637
2
178
322
EPos: 1085HPos: 23
KB ø16x75
1010
1031
1015
KB ø16x75
KB ø16x75
1083
2 M16x45DIN 6914Fv=0.5
2 M16x45DIN 6914
2 M12x30DIN 6914
2ø18-50
80 140 80
300
5019
019
050
1048
010
1083
6 M16x50DIN 6914Fv=1.0
10 100 100 10020
200
6020
020
150
1010
1031
1015
Advance - Manual Drawing Design Page 93/454
AstM4CommDetByStyle 4 7 Mainpart – intersection ofselected parts
Button:
Category / Style MainpartMainpart – intersection of selected parts
Title Intersection
Position title Bottom left
Request name(s) Mp cross section 1:10 CO
Clipping Off
Presentation rule Mp intersection VHAC
Dimension rule Off
Object selection Selection set
Scale 1:10
Viewing direction UCS
Model box Automatic, without restrictions
Page 94/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 4 7 Mainpart – intersection ofselected parts
1010
1015
Advance - Manual Drawing Design Page 95/454
Page 96/454 Advance - Manual Drawing Design
Customer
Button:
Category / Style CustomerDelete later
This style serves only for the display of the category and has no further function. In thiscategory you can place your own styles in order to distinguish them from the other styles.
The name of the category can be renamed in the table DetBaseCategories. After restartingAdvance the new name will be available.
A toolbar compiled beforehand is available for your own drawing styles. Via the menu View /Toolbars you can activate it via the menu group HyperDetailing (alternatively: right-handmouse-button in the menu, HyperDetailing, Own Drawing Styles).
To integrate your own drawing styles or drawing styles not available in the menu, click withthe right mouse-button on this toolbar and select “Adjust …”. Now you can process theproperties of each button by clicking the required button with the right or left mouse-button(that depends on der AutoCAD version). The following window will open:
Advance - Manual Drawing Design Page 97/454
Name:Text that will be displayed if the mouse touches the button..
Hilfe:Text that will be shown at the lower screen frame, if the mouse touches the button.
Macro:Function calling the drawing style.
^C^C = a command then active will be canceled.
AstM4CommDetByStyle = function calling the drawing derivation.
Now, only the category and the drawing style must be added.
Categories (DetBaseCategories):
Nr. Kategorie0 General
1 View
2 Detail Node
3 Single Part
4 Main Part
5 Customer
6 Processes
7 Tie beam
8 Intersections
9 Special Structural Parts
10 Column
11 Statics
You will find the number of the category and drawing style in the drawing stylemanagement.
Page 98/454 Advance - Manual Drawing Design
The command should be as follows:
^C^CAstM4CommDetByStyle 1 8
Category Style
Advance - Manual Drawing Design Page 99/454
Processes
Button: AstM4CommDetByStyle 6 1 – 6 10
Category / Style Processes
These styles are specifically for the automatic drawing design (see chapter Fehler!Verweisquelle konnte nicht gefunden werden. Fehler! Verweisquelle konnte nichtgefunden werden.). They differ only from other styles in their title text where the number ofpieces in the model or, concerning the single parts, at the main part is displayed, andintersections are not queried but generated automatically.
Process – Sp Plate 1:1 CX MpQuantity (6 1)
Process – Sp Plate 1:10 CX MpQuantity (6 2)
Process – Sp Beam 1:1 CX MpQuantity (6 3)
Process – Sp Beam 1:10 CO MpQuantity (6 4)
Process – Sp Beam 1:10 CX MpQuantity (6 5)
Process – Mp Plate, AutoIntersections (6 6)
Process – Tie beam 1:10 CO, AutoIntersections (6 7)
Process – Tie beam, AutoIntersections (6 8)
Process – Column, AutoIntersections (6 9)
Process – ZED-Purlin, AutoIntersections (6 10)
The available process definitions will be described on page 5-6
Page 100/454 Advance - Manual Drawing Design
Tie beam
Design of shop drawings of tie beam lying in main parts The viewing directions does notdepend on the UCS, but on the internal system of coordiantes of the selected main part. Theviews are presented, labeled and dimensioned in the default scale 1:10. The clipping isactivated in X-direction.
Tie beam – front (7 1)
Tie beam – front,top (7 2)
Tie beam – front,top,bottom (7 3)
Tie beam – front,bottom (7 4)
Tie beam – selection of view (7 5)
Tie beam – with environment (7 6)
Tie beam – AutoIntersections (7 7)
Advance - Manual Drawing Design Page 101/454
AstM4CommDetByStyle 7 1 Tie beam – front
Button:
Category / Style Tie beamTie beam – front
Title #Height(3.5)%Quantityx %Namex%Length – %Material %Note#Height(5)%Position
Position title top middle
Request name(s) Mp Top 1:10 CXEndplates from inside 1:10 COIntersectionsR Choice, Bottom1:10 CO
Clipping X
Presentation rule Mp SpMpPos VHA / Mp VHA / Mp intersection VHAC
Dimension rule Mainpart / End plates / Mp Intersection
Object selection Mainpart
Scale 1:10
Viewing direction Object front / Endplates from inside /IntersectionsRightSide xy500 F2R500
Model box Automatic, without restrictions
Page 102/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 7 1 Tie beam – front
1x HEB500x2850 - S235JRG2 Deckenträger 23
230 100 210 100 575 87 1548
2561 289
20 2850
2850
1844 57 199 100 250 70 330
850 100 117025
35 61 609
250
250
500
500
150
330
170
312
3215
6
341
5010
9
128
372
9956
345
500
100
102
2637
2
178
322
EPos: 1085HPos: 23
1083
KB ø16x75
1010
1031
1015
KB ø16x75
KB ø16x75
2 M16x45DIN 6914Fv=0.5
2 M16x45DIN 6914
2 M12x30DIN 6914
2ø18-50
80 140 80
300
5019
019
050
1048
010
1083
6 M16x50DIN 6914Fv=1.0
10 100 100 100
2020
060
200
2015
0
1010
1031
1015
Advance - Manual Drawing Design Page 103/454
AstM4CommDetByStyle 7 2 Tie beam – front,top
Button:
Category / Style Tie beamTie beam – front, top
Title #Height(3.5)%Quantityx %Namex%Length – %Material %Note#Height(5)%Position
Position title top middle
Request name(s) Mp Top 1:10 CXMp Top, Bottom 1:10 CXEndplates from inside 1:10 COIntersectionsR Choice, Bottom1:10 CO
Clipping X
Presentation rule Mp SpMpPos VHA / Mp VHA / Mp Intersection VHAC
Dimension rule Mp / Mp Flange / End plates / Mp Intersection
Object selection Mainpart
Scale 1:10
Viewing direction Object front / Object top / Endplates from inside /IntersectionsRightSide xy500 F2R500
Model box Automatic, without restrictions
Page 104/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 7 2 Tie beam – front,top
Pos. 23 A - A
230 100 210 100 575 87 1548
2561 289
20 2850
2850
1844 57 199 100 250 70 330
850 100 117025
35 61 609
250
250
500
500
150
330
170
312
3215
6
341
5010
9
128
372
9956
345
500
100
102
2637
2
178
322
EPos: 1085HPos: 23
1083
KB ø16x75
1010
1031
1015
KB ø16x75
KB ø16x75
2 M16x45DIN 6914Fv=0.5
2 M16x45DIN 6914
2 M12x30DIN 6914
2ø18-50
50 2800
2100 100 650
2561 289
300
100
100
100
120
100
80
1083
1010
1031
1015
2 M20x60DIN 6914
80 140 80
300
5019
019
050
1048
010
1083
6 M16x50DIN 6914Fv=1.0
10 100 100 100
2020
060
200
2015
0
1010
1031
1015
1x HEB500x2850 - S235JRG2 Deckenträger 23
Advance - Manual Drawing Design Page 105/454
AstM4CommDetByStyle 7 3 Tie beam – front,top,bottom
Button:
Category / Style Tie beamTie beam – front, top, bottom
Title #Height(3.5)%Quantityx %Namex%Length – %Material %Note#Height(5)%Position
Position title top middle
Request name(s) Mp Top 1:10 CX Mp Bottom, Top 1:10 CX
Mp Top, Bottom 1:10 CX Endplates from inside 1:10 CO
IntersectionsR Choice, Bottom1:10 CO
Clipping X
Presentation rule Mp SpMpPos VHA / Mp VHA / Mp Intersection VHAC
Dimension rule Mainpart / Mp Flange / End plates / Mp Intersection
Object selection Mainpart
Scale 1:10
Viewing direction Object front / Object bottom / Object top /Endplates from inside / IntersectionsRightSide xy500 F2R500
Model box Automatic, without restrictions
Page 106/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 7 3 Tie beam – front,top,bottom
230 100 210 100 575 87 1548
2561 289
20 2850
2850
1844 57 199 100 250 70 330
850 100 117025
35 61 609
250
250
500
150
330
170
312
3215
6
341
5010
9
128
372
9956
345
500
100
102
2637
2
178
322
EPos: 1085HPos: 23
1083
KB ø16x75
1010
1031
1015
KB ø16x75
KB ø16x75
2 M16x45DIN 6914Fv=0.5
2 M16x45DIN 6914
2 M12x30DIN 6914
2ø18-50
2561 289
300
1083
1010 1015
50 2800
2100 100 650
2561 289
300
100
100
100
120
100
80
1083
1010
1031
1015
2 M20x60DIN 6914
80 140 80
300
5019
019
050
1048
010
1083
6 M16x50DIN 6914Fv=1.0
10 100 100 100
2020
060
200
2015
0
1010
1031
1015
1x HEB500x2850 - S235JRG2 Deckenträger 23
Pos. 23 A - A
Advance - Manual Drawing Design Page 107/454
AstM4CommDetByStyle 7 4 Tie beam – front,bottom
Button:
Category / Style Tie beamTie beam – front, bottom
Title #Height(3.5)%Quantityx %Namex%Length – %Material %Note#Height(5)%Position
Position title top middle
Request name(s) Mp Top 1:10 CXMp Bottom, Top 1:10 CXEndplates from inside 1:10 COIntersectionsR Choice, Bottom1:10 CO
Clipping X
Presentation rule Mp SpMpPos VHA / Mp VHA / Mp Intersection VHAC
Dimension rule Mainpart / Mp Flange / End plates / Mp Intersection
Object selection Mainpart
Scale 1:10
Viewing direction Object front / Object bottom / Endplates from inside /IntersectionsRightSide xy500 F2R500
Model box Automatic, without restrictions
Page 108/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 7 4 Tie beam – front,bottom
Pos. 23 A - A
230 100 210 100 575 87 1548
2561 289
20 2850
2850
1844 57 199 100 250 70 330
850 100 117025
35 61 609
250
250
500
150
330
170
312
3215
6
341
5010
9
128
372
9956
345
500
100
102
2637
2
178
322
EPos: 1085HPos: 23
1083
KB ø16x75
1010
1031
1015
KB ø16x75
KB ø16x75
2 M16x45DIN 6914Fv=0.5
2 M16x45DIN 6914
2 M12x30DIN 6914
2ø18-50
2561 289
300
1083
1010 1015
80 140 80
300
5019
019
050
1048
010
1083
6 M16x50DIN 6914Fv=1.0
10 100 100 100
2020
060
200
2015
0
1010
1031
1015
1x HEB500x2850 - S235JRG2 Deckenträger 23
Advance - Manual Drawing Design Page 109/454
AstM4CommDetByStyle 7 5 Tie beam – selectionof view
Button:
Category / Style Tie beamTie beam – selection of view
Title #Height(3.5)%Quantityx %Namex%Length – %Material %Note#Height(5)%Position
Position title top middle
Request name(s) Mp Top 1:10 CXMp Bottom Choice, Top 1:10 CXMp Top Choice, Bottom 1:10 CXMp Rear Choice 1:10 CXEndplates from inside 1:10 COIntersectionsR Choice, Bottom1:10 CO
Clipping X
Presentation rule Mp SpMpPos VHA / Mp VHA / Mp Intersection VHAC
Dimension rule Mainpart / Mp Flange / End plates / Mp Intersection
Object selection Mainpart
Scale 1:10
Viewing direction Object front / Object bottom / Object top / Object rear /Endplates from inside / IntersectionsRightSide xy500 F2R500
Model box Automatic, without restrictions
Page 110/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 7 5 Tie beam – selectionof view
Pos. 23 A - A
230 100 210 100 575 87 1548
2561 289
20 2850
2850
1844 57 199 100 250 70 330
850 100 117025
35 61 609
250
250
500
500
150
330
170
312
3215
6
341
5010
9
128
372
9956
345
500
100
102
2637
2
178
322
EPos: 1085HPos: 23
1083
KB ø16x75
1010
1031
1015
KB ø16x75
KB ø16x75
2 M16x45DIN 6914Fv=0.5
2 M16x45DIN 6914
2 M12x30DIN 6914
2ø18-50
2561 289
300
1083
1010 1015
50 2800
2100 100 650
2561 289
300
100
100
100
120
100
80
1083
1010
1031
1015
2 M20x60DIN 6914
80 140 80
300
5019
019
050
1048
010
1083
6 M16x50DIN 6914Fv=1.0
10 100 100 100
2020
060
200
2015
0
1010
1031
1015
1x HEB500x2850 - S235JRG2 Deckenträger 23
1083372
250
128
250
2 M16x45DIN 6914
230
20
100
650
HPos: 23
2100
2561
2ø18-50
156
3231
2
109
50
2 M16x45DIN 6914Fv=0.5
341
1031
100
150
500
2850
2850
575210 100
EPos: 1085
87 1548
289
500
Advance - Manual Drawing Design Page 111/454
AstM4CommDetByStyle 7 6 Tie beam – withenvironment
Button:
Category / Style Tie beamTie beam – with environment
Title #Height(3.5)%Quantityx %Namex%Length – %Material %Note#Height(5)%Position
Position title top middle
Request name(s) Mp Front WithEnvironment 1:10 CXMp Top WithEnvironment 1:10 CXEndplates from inside 1:10 CXYIntersectionsR Choice, Bottom1:10 CO
Clipping X
Presentation rule Mp SpMpPos VHA / Mp VHA / Mp Intersection VHAC
Dimension rule Mainpart / Mp Flange / End plates / Mp Intersection
Object selection Mainpart with environment
Scale 1:10
Viewing direction Object front xy500 FR500 / Object top xy500 FR500 /Endplates from inside / IntersectionsRightSide xy500 F2R500
Model box Automatic, without restrictions
The color of the environment can be changed in the database AstorDetails.mdb in the tableDetAcadSettings, Key 17. Default is colour 9.
Page 112/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 7 6 Tie beam – withenvironment
3973
48
EPos: 1020HPos: 10
12
7
6
1035
3973
48
10401040
12
7
16
61034
1035
1041
1042
11
25 50 25
26 48 26
5010
050
7648
76
1040
4 M16x45DIN 7990
7
16
1042
25 50 25
26 48 26
5010
050
7648
76
10404 M16x45DIN 7990
12
1041 11
1x RO48.3X3.2x3973 - S235JRG2 10
Advance - Manual Drawing Design Page 113/454
AstM4CommDetByStyle 7 7
Button: Call with command or Drawing Style Management
Category / Style Tie beamTie beam – AutoIntersections
Title #Height(3.5)%Quantityx %Namex%Length – %Material %Note#Height(5)%Position
Position title top middle
Request name(s) Mp Top 1:10 CXMp Top, Bottom 1:10 CXMp Bottom, Top 1:10 CXEndplates from inside 1:10 COIntersectionsR, Bottom 1:10 CO
Clipping X
Presentation rule Mp SpMpPos VHA / Mp VHA / Mp Intersection VHAC
Dimension rule Mainpart / Mp Flange / End plates / Mp Intersection
Object selection Mainpart
Scale 1:10
Viewing direction Object front / Object top / Object bottom /Endplates from inside / IntersectionsRightSide xy500 F2R500
Model box Automatic, without restrictions
Page 114/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 7 7
230 100 210 100 575 87 1548
2561 289
20 2850
2850
1844 57 199 100 250 70 330
850 100 117025
35 61 609
250
250
500
150
330
170
312
3215
6
341
5010
9
128
372
9956
345
500
100
102
2637
2
178
322
EPos: 1085HPos: 23
1083
KB ø16x75
1010
1031
1015
KB ø16x75
KB ø16x75
2 M16x45DIN 6914Fv=0.5
2 M16x45DIN 6914
2 M12x30DIN 6914
2ø18-50
2561 289
300
1083
1010 1015
50 2800
2100 100 650
2561 289
300
100
100
100
120
100
80
1083
1010
1031
1015
2 M20x60DIN 6914
80 140 80
300
5019
019
050
1048
010
1083
6 M16x50DIN 6914Fv=1.0
10 100 100 100
2020
060
200
2015
0
1010
1031
1015
1x HEB500x2850 - S235JRG2 Deckenträger 23
Pos. 23 A - A
Advance - Manual Drawing Design Page 115/454
Page 116/454 Advance - Manual Drawing Design
Intersection
With the intersections, geometric clippings are generated from the model. The viewingdirection depends on the UCS and is orientated against the positive Z-axis. The views arepresented in the default scale 1:20. The clipping is activated in X-direction.
Intersection V – FR500 – NoDim NoLab (8 1)
Intersection V – FR500 – NoDim Mp PosSmGuid (8 2)
Intersection V – FR500 – NoDim Mp NamePosSmGuid (8 3)
Intersection V – FR500 – Ra Mp PosSmGuid (8 7)
Intersection V – FR500 – RaSy Mp PosSmGuid (8 9)
Intersection V – F8R0 – RaSy Mp PosSmGuid (8 10)
Intersection VH – FR500 – NoDim NoLab (8 4)
Intersection VH – FR500 – NoDim Mp PosSmGuid (8 5)
Intersection VH – FR500 – NoDim Mp NamePosSmGuid (8 6)
Intersection VH – FR500 – Ra Mp PosSmGuid (8 8)
Intersection VH – F5R8 – RaSchr Mp PosSmGuid (8 11)
Intersection VHA – FR500 – NoDim NoLab (8 12)
Intersection VHA – FR500 – NoDim Mp PosSmGuid (8 13)
Intersection VHA – FR500 – NoDim Mp NamePosSmGuid (8 14)
Advance - Manual Drawing Design Page 117/454
AstM4CommDetByStyle 8 1 Intersection 1
Button:
Category / Style IntersectionIntersection V – FR500 – NoDim NoLab
Title Intersection
Position title bottom left
Request name(s) Intersection V 500 – NoDim NoLab 1:20 CX
Clipping X
Presentation rule View V – NoLab
Dimension rule Off
Object selection Complete Model with XRefs
Scale 1:20
Viewing direction UCS Intersection FR500
Model box Automatic, Top and Rear 500 mm
Page 118/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 8 1 Intersection 1
+1500
1 2 3
Advance - Manual Drawing Design Page 119/454
AstM4CommDetByStyle 8 2 Intersection 2
Button:
Category / Style IntersectionIntersection V – FR500 – NoDim Mp PosSmGuid
Title Intersection
Position title bottom left
Request name(s) Intersection V 500 – NoDim Mp PosSmGuid 1:20 CX
Clipping X
Presentation rule View V – Mp PosSmGuid
Dimension rule Off
Object selection Complete Model with XRefs
Scale 1:20
Viewing direction UCS Intersection FR500
Model box Automatic, Top and Rear 500 mm
Page 120/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 8 2 Intersection 2
+1500
1
22
1
3
1 2 3
Advance - Manual Drawing Design Page 121/454
AstM4CommDetByStyle 8 3 Intersection 3
Button:
Category / Style IntersectionIntersection V – FR500 – NoDim Mp NamePosSmGuid
Title Intersection
Position title bottom left
Request name(s) Intersection V 500 – NoDim Mp NamePosSmGuid 1:20 CX
Clipping X
Presentation rule View V – Mp NamePosSmGuid
Dimension rule Off
Object selection Complete Model with XRefs
Scale 1:20
Viewing direction UCS Intersection FR500
Model box Automatic, Front and Rear 500 mm
Page 122/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 8 3 Intersection 3
+1500
HEA240 1
IPE270 2IPE270 2
HEA240 1
HEA180 3
1 2 3
Advance - Manual Drawing Design Page 123/454
AstM4CommDetByStyle 8 4
Button: Call with command or Drawing Style Management
Category / Style IntersectionIntersection VH – FR500 – NoDim NoLab
Title Intersection
Position title bottom left
Request name(s) Intersection VH 500 – NoDim NoLab 1:20 CX
Clipping X
Presentation rule View VH – NoLab
Dimension rule Off
Object selection Complete Model with XRefs
Scale 1:20
Viewing direction UCS Intersection FR500
Model box Automatic, Front and Rear 500 mm
Page 124/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 8 4
+1500
1 2 3
Advance - Manual Drawing Design Page 125/454
AstM4CommDetByStyle 8 5
Button: Call with command or Drawing Style Management
Category / Style IntersectionIntersection VH – FR500 – NoDim Mp PosSmGuid
Title Intersection
Position title bottom left
Request name(s) Intersection VH 500 – NoDim Mp PosSmGuid 1:20 CX
Clipping X
Presentation rule View VH – Mp PosSmGuid
Dimension rule Off
Object selection Complete Model with XRefs
Scale 1:20
Viewing direction UCS Intersection FR500
Model box Automatic, Front and Rear 500 mm
Page 126/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 8 5
+1500
1
22
1
3
1 2 3
Advance - Manual Drawing Design Page 127/454
AstM4CommDetByStyle 8 6
Button: Call with command or Drawing Style Management
Category / Style IntersectionIntersection VH – FR500 – NoDim Mp NamePosSmGuid
Title Intersection
Position title bottom left
Request name(s) Intersection VH 500 – NoDim MpNamePosSmGuid 1:20 CX
Clipping X
Presentation rule View VH – Mp NamePosSmGuid
Dimension rule Off
Object selection Complete Model with XRefs
Scale 1:20
Viewing direction UCS Intersection FR500
Model box Automatic, Front and Rear 500 mm
Page 128/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 8 6
+1500
HEA240 1
IPE270 2IPE270 2
HEA240 1
HEA180 3
1 2 3
Advance - Manual Drawing Design Page 129/454
AstM4CommDetByStyle 8 7
Button: Call with command or Drawing Style Management
Category / Style IntersectionIntersection V – FR500 – Gr Mp PosSmGuid
Title Intersection
Position title bottom left
Request name(s) Intersection V 500 – Gr Mp PosSmGuid 1:20 CX
Clipping X
Presentation rule View V – Mp PosSmGuid
Dimension rule Grid
Object selection Complete Model with XRefs
Scale 1:20
Viewing direction UCS Intersection FR500
Model box Automatic, Front and Rear 500 mm
Page 130/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 8 7
+1500
1
22
1
3
1 2 3
5000 5000
Advance - Manual Drawing Design Page 131/454
AstM4CommDetByStyle 8 8
Button: Call with command or Drawing Style Management
Category / Style IntersectionIntersection VH – FR500 – Gr Mp PosSmGuid
Title Intersection
Position title bottom left
Request name(s) Intersection VH 500 – Gr Mp PosSmGuid 1:20 CX
Clipping X
Presentation rule View VH – Mp PosSmGuid
Dimension rule Grid
Object selection Complete Model with XRefs
Scale 1:20
Viewing direction UCS Intersection FR500
Model box Automatic, Front and Rear 500 mm
Page 132/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 8 8
+1500
1
22
1
3
1 2 3
5000 5000
Advance - Manual Drawing Design Page 133/454
AstM4CommDetByStyle 8 9 Intersection 4
Button:
Category / Style IntersectionIntersection V – FR500 – GrSy Mp PosSmGuid
Title Intersection
Position title bottom left
Request name(s) Intersection V 500 – GrSy Mp PosSmGuid 1:20 CX
Clipping X
Presentation rule View V – Mp PosSmGuid
Dimension rule Grid BeamSystem
Object selection Complete Model with XRefs
Scale 1:20
Viewing direction UCS Intersection FR500
Model box Automatic, Front and Rear 500 mm
Page 134/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 8 9 Intersection 4
+1500
1
22
1
3
1 2 3
Advance - Manual Drawing Design Page 135/454
AstM4CommDetByStyle 8 10 Intersection 5
Button:
Category / Style IntersectionIntersection V – V8H0 – GrSy Mp PosSmGuid
Title Intersection
Position title bottom left
Request name(s) Intersection V F8R0 – GrSy Mp PosSmGuid 1:20 CX
Clipping X
Presentation rule View V – Mp PosSmGuid
Dimension rule Grid BeamSystem
Object selection Complete Model with XRefs
Scale 1:20
Viewing direction UCS Intersection V8H0
Model box Automatic, Front no limit, Rear 0 mm
Page 136/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 8 10 Intersection 5
10000
4000
4000
1 2
2
1
1 2
2
1
77
88
Advance - Manual Drawing Design Page 137/454
AstM4CommDetByStyle 8 11 Anchoring plan
Button:
Category / Style IntersectionIntersection VH – V5H8 – GrBo Mp PosSmGuid
Title Intersection
Position title bottom left
Request name(s) Intersection VH F5R8 – GrSy Mp PosSmGuid 1:20 CX
Clipping X
Presentation rule Detail VH – MpSp PosSmGuid Bo
Dimension rule Grid Bolts
Object selection Complete Model with XRefs
Scale 1:20
Viewing direction UCS Intersection F5R8
Model box Automatic, Front 5, Rear no limit
Page 138/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 8 11 Anchoring plan
1
1
2
2
3
3
AA
BB
CC
5000 5000
115 1845 80 1920 80 960 960 80 1920 80 1845 115
4000
4000
6060
3880
60 6038
8060
60
1
1
1
1
4 5 5 4
8
1014
2 M20x400DIN 267
1014
2 M20x400DIN 267
10142 M20x400DIN 267
10142 M20x400DIN 267
1014
2 M20x400DIN 267
1014
2 M20x400DIN 267
1018
2 M20x400DIN 267
1018
2 M20x400DIN 267
1018 2 M20x400DIN 267
10182 M20x400DIN 267
8
Advance - Manual Drawing Design Page 139/454
AstM4CommDetByStyle 8 12
Button: Call with command or Drawing Style Management
Category / Style IntersectionIntersection VHA – FR500 – NoDim NoLab
Title Intersection
Position title bottom left
Request name(s) Intersection VHA 500 – NoDim NoLab 1:20 CX
Clipping X
Presentation rule View VHA – NoLab
Dimension rule Off
Object selection Complete Model with XRefs
Scale 1:20
Viewing direction UCS Intersection FR500
Model box Automatic, Front and Rear 500 mm
Page 140/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 8 12
+1500
1 2 3
Advance - Manual Drawing Design Page 141/454
AstM4CommDetByStyle 8 13
Button: Call with command or Drawing Style Management
Category / Style IntersectionIntersection VHA – FR500 – NoDim Mp PosSmGuid
Title Intersection
Position title bottom left
Request name(s) Intersection VHA 500 – NoDim Mp PosSmGuid 1:20 CX
Clipping X
Presentation rule View VHA – Mp PosSmGuid
Dimension rule Off
Object selection Complete Model with XRefs
Scale 1:20
Viewing direction UCS Intersection FR500
Model box Automatic, Front and Rear 500 mm
Page 142/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 8 13
+1500
1
22
1
3
1 2 3
Advance - Manual Drawing Design Page 143/454
AstM4CommDetByStyle 8 14
Button: Call with command or Drawing Style Management
Category / Style IntersectionIntersection VHA – FR500 – NoDim Mp NamePosSmGuid
Title Intersection
Position title bottom left
Request name(s) Intersection VHA 500 – NoDim Mp NamePosSmGuid 1:20 CX
Clipping X
Presentation rule View VHA – Mp NamePosSmGuid
Dimension rule Off
Object selection Complete Model with XRefs
Scale 1:20
Viewing direction UCS Intersection FR500
Model box Automatic, Front and Rear 500 mm
Page 144/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 8 14
+1500
HEA240 1
IPE270 2IPE270 2
HEA240 1
HEA180 3
1 2 3
Advance - Manual Drawing Design Page 145/454
Page 146/454 Advance - Manual Drawing Design
Special Structural Parts
In this category are styles for elements available that need a special presentation or operatemore with functions. The viewing direction does not depend on the UCS, but is orientated tothe internal system of coordinates of the selected main part. The default scale is 1:10, thedimensioning and labeling is done automatically. The clipping is active in X-direction.
Compression pipe – front,bottom (9 1)
Crossbracing – front,bottom (9 2)
Tube with templates (9 3)
Templates (9 4)
Railing – UCS (9 5)
ZED-Purlin – selection of view (9 6)
Picket Railing – UCS (9 7)
Stairway – front (9 8)
Advance - Manual Drawing Design Page 147/454
AstM4CommDetByStyle 9 1 Compression pipe
Button:
Category / Style Special Structural PartsCompression pipe – front, bottom
Title #Height(3.5)%Quantityx %Namex%Length – %Material %Note#Height(5)%Position
Position title top middle
Request name(s) Compression pipe Front 1:10 CXCompression pipe Bottom, Top 1:10 CX Endplates from inside
Clipping X
Presentation rule Mp SpMpPos VHA / Mp VHA
Dimension rule Compression pipe / Off / End plates
Object selection Mainpart
Scale 1:10
Viewing direction Object front / Object bottom / End plates from inside
Model box Automatic, without restrictions
Page 148/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 9 1 Compression pipe
1x RO101.6X3.6x7764 - S235JRG2 6
7714 50 90 40 20
7764 90 40
5151
EPos: 1074HPos: 6
1036
1026
2 M16x45DIN 7990
1036 1026
25 70 25
9 102 9
3019
030
7410
274
1036
4 M16x45DIN 7990
Advance - Manual Drawing Design Page 149/454
AstM4CommDetByStyle 9 2 Crossbracing
Button:
Category / Style Special Structural PartsCrossbracing – front, bottom
Title #Height(3.5)%Quantityx %Namex%Length – %Material %Note#Height(5)%Position
Position title top middle
Request name(s) Crossbracing Front 1:10 CXCrossbracing Bottom, Top 1:10 CX
Clipping X
Presentation rule Mp SpMpPos VHA / Mp VHA
Dimension rule Crossbracing / Off
Object selection Mainpart
Scale 1:10
Viewing direction Object front / Object bottom
Model box Automatic, without restrictions
Page 150/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 9 2 Crossbracing
1x RD12x5162 - S235JRG2 25
35 155 60 90 45 150 5102 60 155 35
5817
EPos: 1071HPos: 251074 10761076
2x 1068
1 M12x40DIN 7990 1 M12x40
DIN 7990
1074 1076
10762x 1068
5721
EPos: 1070HPos: 24
1081
1081
1081 1081
1x RD16x5721 - S235JRG2 24
Advance - Manual Drawing Design Page 151/454
AstM4CommDetByStyle 9 3 Tube with templates
Button:
Category / Style Special Structural PartsTube with templates
Title #Height(3.5)%Quantityx %Namex%Length – %Material %Note#Height(5)%Position
Position title top middle
Request name(s) Sp Beam Front 1:10 CXSp Beam Top, Bottom 1:10 CXTemplate Right 1:1 CO / Template Left CO 1:1
Clipping X
Presentation rule Singlepart VHA / Template
Dimension rule Sp Beam / Template
Object selection Singlepart
Scale 1:10 / 1:1
Viewing direction Object front / Object top / Template Right / Template Left
Model box Automatic, without restrictions
Page 152/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 9 3 Tube with templates
1x RO60.3X3.6x920 - S235JRG2 101941
10898
1041
70 779 70
919
3030
3030
R=51
R=51
10 899 10
4110
89810
41
919
60
Advance - Manual Drawing Design Page 153/454
AstM4CommDetByStyle 9 4 Templates
Button:
Category / Style Special Structural PartsTemplates
Title #Height(3.5) Templates for %Name#Height(5)%SinglePartPosNum
Position title bottom left
Request name(s) Templates main view blank 1:1 COTemplates 1:1 COTemplates Left 1:1 CO
Clipping Off
Presentation rule Template
Dimension rule Off / Template
Object selection Singlepart
Scale 1:1
Viewing direction Object front / Template / Template Left
Model box Automatic, without restrictions
Page 154/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 9 4 Templates
Schablone für RO60.3X3.6 1019
Advance - Manual Drawing Design Page 155/454
AstM4CommDetByStyle 9 5
Button: Call with command or Drawing Style Management
Category / Style Special Structural PartsRailing – UCS
Title #Height(3.5)%Quantityx %Namex%Length – %Material %Note#Height(5)%Position
Position title top middle
Request name(s) Railing UCS 1:10 CX IntersectionsR Choice, Bottom1:10 CO
Clipping X
Presentation rule Mp SpMpPos VHA / Mp Intersection VHAC
Dimension rule Railing / Mp Intersection
Object selection Mainpart
Scale 1:10
Viewing direction UCS / IntersectionsRightSide xy500 F2R500
Model box Automatic, without restrictions
This result only can be achieved if the said functions are used in the model (Railing Handrail,Railing Post, Railing Kneerail, Railing End, Railing Elbow, Railing Baseplate). The addition„Post“ must be assigned to all horizontal parts, the addition „Stair“ all inclined parts. Theserole texts are not displayed in the detail.
1069
1069
1005
RO48.3X3.2
RO48.3X3.2 1062
-1.84
1x RO48.3X3.2x2327 - S235JRG2 17
24 60 140 900 900 900 900 900 900 900 140 60 24
6748
1041
660
530
8478
710
416
6053
084
2987
10
347
272
292
1041
632
534
978
710
416
325
349
1100
787
1100
921
EPos: 1041HPos: 17
1070
1070
1042
1069
1069
1052
1050
2x 10381048
1067
1044
1052
1004
1047
1070
1070
1042
1005
1051
1047
1051
1051
1004
1052
1061
1061
1062
1006
1052
1004
1005
1044
1048
10061050
1052
Page 156/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 9 5
Gel
ände
r Pfo
sten
Pod
est
Gel
ände
r Pfo
sten
Pod
est
Gel
ände
r Pfo
sten
Pod
est
Geländer KnieleistePodest
Geländer Handlauf Podest
Geländer Fußplatte Podest
Geländer Fußplatte Podest
Geländer Fußplatte Podest
Geländer FußleistePodest
Geländer Bogen Podest
Geländer Bogen Podest
Geländer Bogen Podest
24 60 140 1134 1133 140 60 24
2715
105 6
042
560
380
6024
1014
1049
052
4
1024
EPos: 1059HPos: 10
1069
1069
1069
1069
106010601060
1057
105510551056
10541054
1056
105310531053
461027
116
105 6
041
227
462
2028
10601057
1054
1053
Geländer Bogen Podest
Gel
ände
r End
schw
inge
P
odes
t
Gel
ände
r End
schw
inge
P
odes
tGeländer Endschwinge Podest
Geländer Endschwinge Podest
1x RO48.3X3.2x2547 - S235JRG2 10
Pos. 10 A - A
Geländer KnieleistePodest
Advance - Manual Drawing Design Page 157/454
AstM4CommDetByStyle 9 6
Button: Call with command or Drawing Style Management
Category / Style Special Structural PartsZED-Purlin – selection of view
Title #Height(3.5)%Quantityx %Namex%Length – %Material %Note#Height(5)%Position
Position title top middle
Request name(s) ZED-Purlin Front 1:10 CXZED-Purlin Bottom Choice, Top 1:10CX ZED-Purlin Top Choice, Bottom 1:10 CX
ZED-Purlin Rear Choice 1:10 CXZED-Purlin Right 1:10 CX
Clipping X
Presentation rule ZED-Purlin SpMpPos / ZED-Purlin
Dimension rule Mainpart / Mp Flange / Off
Object selection Mainpart
Scale 1:10
Viewing direction Object front / Object bottom / Object top / Object rear /Object right
Model box Automatic, without restrictions
Page 158/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 9 6
1x ZG180/70/1.50/10°DNx2000 - S235JRG2 82000
2215
8
EPos: 1034HPos: 8
2 M20x20DIN 6914w= 40
2ø18
2000
3470
900 100 1000
2000
3470
6044
2ø18
2000
2215
8
EPos: 1034HPos: 8
2 M20x20DIN 6914w= 402ø18
Advance - Manual Drawing Design Page 159/454
AstM4CommDetByStyle 9 7
Button: Call with command or Drawing Style Management
Category / Style Special Structural PartsPicket railing – UCS
Title #Height(3.5)%Quantityx %Namex%Length – %Material %Note#Height(5)%Position
Position title top middle
Request name(s) Picket railing UCS 1:10 COIntersectionsR Choice, Bottom1:10CO
Clipping Off
Presentation rule Picket railing / Mp intersection VHAC
Dimension rule Picket railing / Mp Intersection
Object selection Mainpart
Scale 1:10
Viewing direction UCS / IntersectionsRightSide xy500 F2R500
Model box Automatic, without restrictions
Page 160/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 9 7
Advance - Manual Drawing Design Page 161/454
AstM4CommDetByStyle 9 8
Button: Call with command or Drawing Style Management
Category / Style Special Structural PartsStringer – front
Title #Height(3.5)%Quantityx %Namex%Length – %Material %Note#Height(5)%Position
Position title top middle
Request name(s) Stringer Front 1:10 CO Endplates from inside 1:10 COIntersectionsR Choice, Bottom1:10 CO
Clipping Off
Presentation rule Stair VHA / Mp VHA / Mp Intersection VHAC
Dimension rule Mainpart / End plates / Mp Intersection
Object selection Mainpart
Scale 1:10
Viewing direction Object front / Endplates from inside /IntersectionsRightSide xy500 F2R500
Model box Automatic, without restrictions
Page 162/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 9 8
1x UPE160x1373 - S235JRG2 20
342 124 203 124 203 124 253
1291 82
1373
97 12 1206 58 40
160
127
33
4211
8
1030
1063
1066
6 M12x30DIN 6914
22 56 22
70 30
5290
62
819
95
1063
4 M12x30DIN 6914
22 56 22
30 70
3064
45
1213
98 1066
4 M12x30DIN 6914
Advance - Manual Drawing Design Page 163/454
Page 164/454 Advance - Manual Drawing Design
Column
Design of shop drawings of vertical elements. The viewing direction does not depend on theUCS, but is oriented to the internal system of coordinates of the selected main beam. Thedefault scale is 1:10, and the dimensioning and labeling is done automatically. The clipping isactivated in X-direction.
Column – front (10 1)
Column – front,left (10 2)
Column – front,left,right (10 3)
Column – front,right (10 4)
Column – Selection of views (10 5)
Column – with environment (10 6)
Column – AutoIntersections (10 7)
Column horizontal – Selection of views (10 8)
Advance - Manual Drawing Design Page 165/454
AstM4CommDetByStyle 10 1 Column – front
Button:
Category / Style ColumnColumn – front
Title #Height(3.5)%Quantityx %Namex%Length – %Material %Note#Height(5)%Position
Position title top middle
Request name(s) Mp Front Vertical 1:10 CXEndplates from inside 1:10 COIntersectionsR Choice, Bottom1:10 CO
Clipping X
Presentation rule Mp Vertical SpMpPos VHA / Mp VHA / Mp intersection VHAC
Dimension rule Mainpart / End plates / Mp intersection
Object selection Mainpart
Scale 1:10
Viewing direction Object front / Endplates from inside /IntersectionsRightSide xy500 F2R500
Model box Automatic, without restrictions
Page 166/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 10 1 Column – front
230
100
210
100
575
8715
48
2561
289
2028
50
2850
1844
5719
910
025
070
330
850
100
1170
2535
6160
9
500
250 250
150 500
170 330
156 32 312
109 50 341
372 128
345 56 99
100 500
372 26 102
322 178
EPos: 1085HPos: 23
1083
KB
ø16
x75
1010
1031
1015
KB
ø16
x75
KB
ø16
x75
2 M
16x4
5D
IN 6
914
2 M
16x4
5D
IN 6
914
2 M12x30DIN 6914
2ø18
-50
50 190 190 50
10 480 10
8014
080
300
1083
6 M16x50DIN 6914Fv=1.0
150 20 200 60 200 20
1010
010
010
0
1010
1031
1015
1x HEB500x2850 - S235JRG2 Deckenträger 23
Pos. 23 A - A
Advance - Manual Drawing Design Page 167/454
AstM4CommDetByStyle 10 2 Column – front,left
Button:
Category / Style ColumnColumn – front, left
Title #Height(3.5)%Quantityx %Namex%Length – %Material %Note#Height(5)%Position
Position title top middle
Request name(s) Mp Front Vertical 1:10 CXMp Bottom Vertical, Top 1:10 CXEndplates from inside 1:10 COIntersectionsR Choice, Bottom1:10 CO
Clipping X
Presentation rule Mp Vertical SpMpPos VHA / Mp vertical VHA / Mp intersectionVHAC
Dimension rule Mainpart / Mp Flange / End plates / Mp intersection
Object selection Mainpart
Scale 1:10
Viewing direction Object front / Object bottom / Endplates from inside /IntersectionsRightSide xy500 F2R500
Model box Automatic, without restrictions
Page 168/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 10 2 Column – front,left
230
100
210
100
575
8715
48
2561
289
2028
50
2850
1844
5719
910
025
070
330
850
100
1170
2535
6160
9
500
250 250
150 500
170 330
156 32 312
109 50 341
372 128
345 56 99
100 500
372 26 102
322 178
EPos: 1085HPos: 23
1083
KB
ø16
x75
1010
1031
1015
KB
ø16
x75
KB ø
16x7
5
2 M
16x4
5D
IN 6
914
2 M
16x4
5D
IN 6
914
2 M12x30DIN 6914
2ø18
-50
5028
00
2100
100
650
2561
289
300
100 100 100
80 100 120
1083
1010
1031
1015
2 M
20x6
0D
IN 6
914
50 190 190 50
10 480 10
8014
080
300
1083
6 M16x50DIN 6914Fv=1.0
150 20 200 60 200 20
1010
010
010
0
1010
1031
1015
1x HEB500x2850 - S235JRG2 Deckenträger 23
Pos. 23 A - A
Advance - Manual Drawing Design Page 169/454
AstM4CommDetByStyle 10 3 Column – front,left,right
Button:
Category / Style ColumnColumn – front, left, right
Title #Height(3.5)%Quantityx %Namex%Length – %Material %Note#Height(5)%Position
Position title top middle
Request name(s) Mp Front Vertical 1:10 CXMp Top Vertical, Bottom 1:10 CXMp Bottom Vertical, Top 1:10 CXEndplates from inside 1:10 COIntersectionsR Choice, Bottom1:10 CO
Clipping X
Presentation rule Mp Vertical SpMpPos VHA / Mp vertical VHA / Mp VHA / Mpintersection VHAC
Dimension rule Mainpart / Mp Flange / End plates / Mp intersection
Object selection Mainpart
Scale 1:10
Viewing direction Object front / Object top / Object bottom /Endplates from inside / IntersectionsRightSide xy500 F2R500
Model box Automatic, without restrictions
Page 170/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 10 3 Column – front,left,right
230
100
210
100
575
8715
48
2561
289
2028
50
2850
1844
5719
910
025
070
330
850
100
1170
2535
6160
9
500
250 250
150 500
170 330
156 32 312
109 50 341
372 128
345 56 99
100 500
372 26 102
322 178
EPos: 1085HPos: 23
1083
KB
ø16
x75
1010
1031
1015
KB
ø16
x75
KB ø
16x7
5
2 M
16x4
5D
IN 6
914
2 M
16x4
5D
IN 6
914
2 M12x30DIN 6914
2ø18
-50
2561
289
300
1083
1010
1015
5028
00
2100
100
650
2561
289
300
100 100 100
80 100 120
1083
1010
1031
1015
2 M
20x6
0D
IN 6
914
50 190 190 50
10 480 10
8014
080
300
1083
6 M16x50DIN 6914Fv=1.0
150 20 200 60 200 20
1010
010
010
0
1010
1031
1015
1x HEB500x2850 - S235JRG2 Deckenträger 23
Pos. 23 A - A
Advance - Manual Drawing Design Page 171/454
AstM4CommDetByStyle 10 4 Column – front,right
Button:
Category / Style ColumnColumn – front, right
Title #Height(3.5)%Quantityx %Namex%Length – %Material %Note#Height(5)%Position
Position title top middle
Request name(s) Mp Front Vertical 1:10 CXMp Top Vertical, Bottom 1:10 CXEndplates from inside 1:10 COIntersectionsR Choice, Bottom1:10 CO
Clipping X
Presentation rule Mp Vertical SpMpPos VHA / Mp vertical VHA / Mp VHA / Mpintersection VHAC
Dimension rule Mainpart / Mp Flange / End plates / Mp intersection
Object selection Mainpart
Scale 1:10
Viewing direction Object front / Object top / Endplates from inside /Intersections xy500 F2R500
Model box Automatic, without restrictions
Page 172/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 10 4 Column – front,right
230
100
210
100
575
8715
48
2561
289
2028
50
2850
1844
5719
910
025
070
330
850
100
1170
2535
6160
9
500
250 250
150 500
170 330
156 32 312
109 50 341
372 128
345 56 99
100 500
372 26 102
322 178
EPos: 1085HPos: 23
1083
KB
ø16
x75
1010
1031
1015
KB
ø16
x75
KB ø
16x7
5
2 M
16x4
5D
IN 6
914
2 M
16x4
5D
IN 6
914
2 M12x30DIN 6914
2ø18
-50
2561
289
300
1083
1010
1015
50 190 190 50
10 480 10
8014
080
300
1083
6 M16x50DIN 6914Fv=1.0
150 20 200 60 200 20
1010
010
010
0
1010
1031
1015
1x HEB500x2850 - S235JRG2 Deckenträger 23
Pos. 23 A - A
Advance - Manual Drawing Design Page 173/454
AstM4CommDetByStyle 10 5 Column – selection of view
Button:
Category / Style ColumnColumn – Selection of view
Title #Height(3.5)%Quantityx %Namex%Length – %Material %Note#Height(5)%Position
Position title top middle
Request name(s) Mp Front Vertical 1:10 CXMp Top Vertical Choice, Bottom 1:10 CXMp Bottom Vertical Choice, Top 1:10 CXMp Rear Vertical Choice 1:10 CXEndplates from inside 1:10 COIntersectionsR Choice, Bottom1:10 CO
Clipping X
Presentation rule Mp Vertical SpMpPos VHA / Mp vertical VHA / Mp VHA / Mpintersection VHAC
Dimension rule Mainpart / Mp Flange / End plates / Mp intersection
Object selection Mainpart
Scale 1:10
Viewing direction Object front / Object top / Object bottom / Object rear /Endplates from inside / IntersectionsRightSide xy500 F2R500
Model box Automatic, without restrictions
Page 174/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 10 5 Column – selection of view
230
100
210
100
575
8715
48
2561
289
2028
50
2850
1844
5719
910
025
070
330
850
100
1170
2535
6160
9
500
250 250
150 500
170 330
156 32 312
109 50 341
372 128
345 56 99
100 500
372 26 102
322 178
EPos: 1085HPos: 23
1083
KB
ø16
x75
1010
1031
1015
KB
ø16
x75
KB ø
16x7
5
2 M
16x4
5D
IN 6
914
2 M
16x4
5D
IN 6
914
2 M12x30DIN 6914
2ø18
-50
2561
289
300
1083
1010
1015
5028
00
2100
100
650
2561
289
300
100 100 100
80 100 120
1083
1010
1031
1015
2 M
20x6
0D
IN 6
914
50 190 190 50
10 480 10
8014
080
300
1083
6 M16x50DIN 6914Fv=1.0
150 20 200 60 200 20
1010
010
010
0
1010
1031
1015
1x HEB500x2850 - S235JRG2 Deckenträger 23
Pos. 23 A - A
Advance - Manual Drawing Design Page 175/454
AstM4CommDetByStyle 10 6 Column – WithEnvironment
Button:
Category / Style ColumnColumn – with environment
Title #Height(3.5)%Namex%Length – %Material #Height(5)%Position
Position title top middle
Request name(s) Mp Front WithEnvironment 1:10 CXMp Top WithEnvironment 1:10 CXEndplates from inside 1:10 CXYIntersectionsR Choice, Bottom1:10 CO
Clipping X
Presentation rule Mp SpMpPos VHA / Mp VHA / Mp intersection VHAC
Dimension rule Mainpart / Mp Flange / End plates / Mp intersection
Object selection Main part with environment
Scale 1:10
Viewing direction Object front xy500 FR500 / Object top xy500 FR500 /Endplates from inside / IntersectionsRightSide xy500 F2R500
Model box Automatic, without restrictions
The color of the environment can be changed in the database AstorDetails.mdb in the tableDetAcadSettings, Key 17. Default is colour 9.
Page 176/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 10 6 Column – WithEnvironment
2x HEA140x5375 - S235JRG2 5
5347
28
2053
75
8 125
9 58 66
EPos: 1010HPos: 5
1044
1028
2 M20x620DSTV Anker
4 M16x45DIN 7990
19
5347
28
140
70 70
1044
1028
2 M20x620DSTV Anker
19
35 72 36
5 133 5
7515
075
8014
773
10444 M16x45DIN 7990
19
150 150
83 133 84
7016
070
8014
080
1028
2 M20x620DSTV Anker
Advance - Manual Drawing Design Page 177/454
AstM4CommDetByStyle 10 7
Button: Call with command or Drawing Style Management
Category / Style ColumnColumn – AutoIntersections
Title #Height(3.5)%Quantityx %Namex%Length – %Material %Note#Height(5)%Position
Position title top middle
Request name(s) Mp Front Vertical 1:10 CXMp Top Vertical, Bottom 1:10 CXMp Bottom Vertical, Top 1:10 CXEndplates from inside 1:10 COIntersectionsR, Bottom 1:10 CO
Clipping X
Presentation rule Mp Vertical SpMpPos VHA/ Mp vertical VHA / Mp VHA / Mpintersection VHAC
Dimension rule Mainpart / Mp Flange / End plates / Mp intersection
Object selection Mainpart
Scale 1:10
Viewing direction Object front / Object top / Object bottom /Endplates from inside / IntersectionsRightSide xy500 F2R500
Model box Automatic, without restrictions
Page 178/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 10 7
230
100
210
100
575
8715
48
2561
289
2028
50
2850
1844
5719
910
025
070
330
850
100
1170
2535
6160
9
500
250 250
150 500
170 330
156 32 312
109 50 341
372 128
345 56 99
100 500
372 26 102
322 178
EPos: 1085HPos: 23
1083
KB ø
16x7
5
1010
1031
1015
KB ø
16x7
5K
B ø1
6x75
2 M
16x4
5D
IN 6
914
2 M
16x4
5D
IN 6
914
2 M12x30DIN 6914
2ø18
-50
2561
289
300
1083
1010
1015
5028
00
2100
100
650
2561
289
300
100 100 100
80 100 120
1083
1010
1031
1015
2 M
20x6
0D
IN 6
914
50 190 190 50
10 480 10
8014
080
300
1083
6 M16x50DIN 6914Fv=1.0
150 20 200 60 200 20
1010
010
010
0
1010
1031
1015
1x HEB500x2850 - S235JRG2 Deckenträger 23
Pos. 23 A - A
Advance - Manual Drawing Design Page 179/454
AstM4CommDetByStyle 10 8
Button: Call with command or Drawing Style Management
Category / Style ColumnColumn horizontal – Selection of views
Title #Height(3.5)%Quantityx %Namex%Length – %Material %Note#Height(5)%Position
Position title top middle
Request name(s) Mp Front 1:10 CXMp Top Choice, Bottom 1:10 CXMp Bottom Choice, Top 1:10 CXMp Rear Choice 1:10 CXEndplates from inside 1:10 COIntersectionsR Choice, Bottom1:10 CO
Clipping X
Presentation rule Mp SpMpPos VHA / Mp VHA / Mp intersection VHAC
Dimension rule Mainpart / Mp Flange / End plates / Mp intersection
Object selection Mainpart
Scale 1:10
Viewing direction Object front / Object top / Object bottom / Object hinten /Endplates from inside / IntersectionsRightSide xy500 F2R500
Model box Automatic, without restrictions
Page 180/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 10 8
Pos. 23 A - A
230 100 210 100 575 87 1548
2561 289
20 2850
2850
1844 57 199 100 250 70 330
850 100 117025
35 61 609
250
250
500
500
150
330
170
312
3215
6
341
5010
9
128
372
9956
345
500
100
102
2637
2
178
322
EPos: 1085HPos: 23
1083
KB ø16x75
1010
1031
1015
KB ø16x75
KB ø16x75
2 M16x45DIN 6914Fv=0.5
2 M16x45DIN 6914
2 M12x30DIN 6914
2ø18-50
2561 289
300
1083
1010 1015
50 2800
2100 100 650
2561 289
300
100
100
100
120
100
80
1083
1010
1031
1015
2 M20x60DIN 6914
80 140 80
300
5019
019
050
1048
010
1083
6 M16x50DIN 6914Fv=1.0
10 100 100 100
2020
060
200
2015
0
1010
1031
1015
1x HEB500x2850 - S235JRG2 Deckenträger 23
1083372
250
128
250
2 M16x45DIN 6914
230
20
100
650
HPos: 23
2100
2561
2ø18-50
156
3231
2
109
50
2 M16x45DIN 6914Fv=0.5
341
1031
100
150
500
2850
2850
575210 100
EPos: 1085
87 1548
289
500
Advance - Manual Drawing Design Page 181/454
Page 182/454 Advance - Manual Drawing Design
Statics
With these drawing styles you can design model surveys with system lines. The viewingdirection depends on the UCS oriented against the positive Z-axis. The default scale is 1:20.The clipping is activated in XY-direction.
Statics plan with position, complete (11 1)
Statics plan with position, clipping (11 2)
Statics plan without position, complete (11 3)
Statics plan without position, clipping (11 4)
Advance - Manual Drawing Design Page 183/454
AstM4CommDetByStyle 11 1 Statics plan complete
Button:
Category / Style StaticsStatics plan with position, complete
Title Statics plan
Position title bottom left
Request name(s) Statics plan UCS 1:20 CX
Clipping X
Presentation rule Staticsplan with Pos
Dimension rule Off
Object selection Complete Model with XRefs
Scale 1:20
Viewing direction UCS
Model box Automatic, without restrictions
Page 184/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 11 1 Statics plan complete
HEA
240
1
IPE270 2
IPE270 2
HEA
240
1
HEA
240
1
IPE270 2
IPE270 2
HEA
240
1
HEA
140
4
HEA
140
5
HEA
140
5
HEA
140
4
HEA180 3
HEA120 6
HEA120 6
IPE270 7
IPE270 7
HEA
240
8
HEA180 3
HEA140 9
HEA
240
8
1
1
2
2
3
3
A
A
B
B
C
C
Advance - Manual Drawing Design Page 185/454
AstM4CommDetByStyle 11 2 Statics planClipping
Button:
Category / Style StaticsStatics plan with position, clipping
Title Statics plan Detail
Position title bottom left
Request name(s) Statics plan UCS Digi FR500 1:20 CX
Clipping X
Presentation rule Staticsplan with Pos
Dimension rule Off
Object selection Detail box with XRefs
Scale 1:20
Viewing direction UCS Digi FR500
Model box Digitized by 2 points, front and Rear 500!! Deactivate Ortho and Ofang !!
Page 186/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 11 2 Statics planClippingH
EA
240
1
IPE270 2IPE270 2
HEA180 3
1 2
Advance - Manual Drawing Design Page 187/454
AstM4CommDetByStyle 11 3
Button: Call with command or Drawing Style Management
Category / Style StaticsStatics plan without position, complete
Title Statics plan
Position title bottom left
Request name(s) Statics plan without Pos UCS Pos 1:20 CX
Clipping X
Presentation rule Statics plan without Pos
Dimension rule Off
Object selection Complete Model with XRefs
Scale 1:20
Viewing direction UCS
Model box Automatic, without restrictions
Page 188/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 11 3
HEA
240
IPE270
IPE270
HEA
240
HE
A24
0
IPE270
IPE270
HEA
240
HE
A14
0
HE
A14
0
HE
A14
0
HE
A14
0
HEA180
HEA120
HEA120
IPE270
IPE270
HEA
240
HEA180
HEA140
HE
A24
0
1
1
2
2
3
3
A
A
B
B
C
C
Advance - Manual Drawing Design Page 189/454
AstM4CommDetByStyle 11 4
Button: Call with command or Drawing Style Management
Category / Style StaticsStatics plan without position, clipping
Title Statics plan Detail
Position title bottom left
Request name(s) Statics plan without Pos UCS Digi FR500 1:20 CX
Clipping X
Presentation rule Statics plan without Pos
Dimension rule Off
Object selection Detail box with XRefs
Scale 1:20
Viewing direction UCS Digi FR500
Model box Digitized by 2 points, front and Rear 500!! Deactivate Ortho and Ofang !!
Page 190/454 Advance - Manual Drawing Design
AstM4CommDetByStyle 11 4H
EA
240
IPE270
IPE270
HEA180
1 2
Advance - Manual Drawing Design Page 191/454
Page 5-2 HyperSteel Version 7.0 Manual Drawing Design
5. Automatic Detailing
General
For the general acceleration of the detailing, automatic detailing processes have beenintroduced that, starting form a 3D-model, creates dimensioned and labeled 2D-drawings. Anautomatic detailing process in Advance is called “process” and includes a number of sub-processes:
• Selection of parts
• Sorting
• Used drawing styles
• Rules for the arrangement of details on the sheet
• Rules for the design of new sheets
The drawings are listed in the drawing management (see chapter 1 Document Management)and can be displayed from there or respectively further processed. The styles entered in theproperty-box will be considered in the processes. If no styles has been entered, anappropriate style will be used automatically. This style is distinguished by the model role ofthe element (e.g. column, girder) or the single / main part (e.g. single part plate, main partbeam).In the DRAWING STYLE MANAGEMENT only the styles, which are used in the processes,can be modified. To create new processes or to modify the existing processes, you mustchange directly in the database via Access or the management-tool.
HyperSteel Version 7.0 Manual Drawing Design Page 5-3
Define Drawing Layout
Function: _AstM5DetSetArranger
Button:
In the processes, the details will be arranged automatically on the drawing sheets. Thedirection of the arrangement can be defined in the prototype-files.
Principle Course of Dialogue:
• Press the iconA dialogue-box (register-cards) will pop up where distance and arrangement of thedetails and the start position on the drawing sheet can set.
Page 5-4 HyperSteel Version 7.0 Manual Drawing Design
in columnsfrom left to right: from right to left:
from left to right and bottom: from right to left and bottom:
HyperSteel Version 7
in linesfrom bottom to top: from top to bottom:
from bottom to to from top to bottom and left:
Grid column/lineGrid in m
Distance betweeDistance
Start position X /Startcoor
p and left:
.0 Manual Drawing Design Page 5-5
s:m. The bigger the grid the less details can be placed.
n details:between the details in mm. Measured is the frame of the hole detail.
Y:dinate of the first detail.
Page 5-6 HyperSteel Version 7.0 Manual Drawing Design
Processes
On the following pages you will find a listing of the processes already defined in Advance.The following menu is identical for A0 to A4.
All SinglepartsAll Singleparts PlateAll Singleparts BeamAll MainpartsAll Mainparts PlateAll Mainparts BeamAll Mainparts with attached partsAll CamerasSelected SinglepartsSelected Singleparts PlateSelected Singleparts BeamSelected MainpartsSelected Mainparts PlateSelected Mainparts BeamSelected Mainparts with attached partsSelected Cameras
HyperSteel Version 7.0 Manual Drawing Design Page 5-7
Course of Dialogue:
• Push buttonA dialogue-box will pop up where a selection of the detailing process and the processproperties such as sorting can be set.
• The detailing process runs automatically without queries. The assignment ofnames for the drawings is also done automatically with the respective prefix.
To present all main parts as single parts in the single part processes, the default Positioning /Main part number must be set on 0.
All details are maximum scaled up to 1:25 in case the detail does not fit to the drawing. Thebasis scale is the one defined in the drawing style. This is 1:10 in the single and main partstyles. In the processes with A3- and A4-papersize the scaling starts with 1:1.
Page 5-8 HyperSteel Version 7.0 Manual Drawing Design
Process A0 A1 A2 A3 A4All Singleparts 1 2 3 4 5All Singleparts, Position can be set 6 7 8 9 10All Singleparts Plate 11 12 13 14 15All Singleparts Plate, Thickness can be set 16 17 18 19 20All Singleparts Plate, Position can be set 21 22 23 24 25All Singleparts Beam 26 27 28 29 30All Singleparts Beam CO 31 32 33 34 35All Singleparts Beam, Position can be set 36 37 38 39 40All Singleparts Plate 1:1 CO 41
All Mainparts 51 52 53 54 55All Mainparts, Position can be set 56 57 58 59 60All Mainparts Plate 61 62 63 64 65All Mainparts Plate, Thickness can be set 66 67 68 69 70All Mainparts Plate, Position can be set 71 72 73 74 75All Mainparts Beam 76 77 78 79 80All Mainparts Beam, Position can be set 86 87 88 89 90All Mainparts WithConnParts 91 92 93 94 94All Cameras 101 102 103 104 105All Cameras Node 106 107 108 109 110All Cameras Overview 111 112 113 114 115
Selected Singleparts 121 122 123 124 125Selected Singleparts, Position can be set 126 127 128 129 130Selected Singleparts Plate 131 132 133 134 135Selected Singleparts Plate, Thickness can be set 136 137 138 139 140Selected Singleparts Plate, Position can be set 141 142 143 144 145Selected Singleparts Beam 146 147 148 149 150Selected Singleparts Beam, Position can be set 156 157 158 159 160
Selected Mainparts 171 172 173 174 175Selected Mainparts, Position can be set 176 177 178 179 180Selected Mainparts Plate 181 182 183 184 185Selected Mainparts Plate, Thickness can be set 186 187 188 189 190Selected Mainparts Plate, Position can be set 191 192 193 194 195Selected Mainparts Beam 196 197 198 199 200Selected Mainparts Beam, Position can be set 206 207 208 209 210Selected Mainparts WithConnParts 211 212 213 214 215Selected Cameras 221 222 223 224 225Selected Cameras Node 226 227 228 229 230Selected Cameras Overview 231 232 233 234 235Selected Parts 241 242 243 244 245Selected Parts, Position can be set 246 247 248 249 250
To call a process you must use the command AstM4DetProc and the according number fromabove table. The bold numbers are already included in the menu of the processes. All otherscan be reached by changeing the process propoerties.
HyperSteel Version 7.0 Manual Drawing Design Page 5-9
Rules for the Assignment of the Drawing Style
There are two possibilities to assign to the elements an appropriate drawing style for theprocesses:
• Assignment of a function in the model (Advance-properties, register note).
• Direct assignment of the drawing style in the model (Advance-properties,register drawing style).
The selection determines the presentation of the model element on the drawing. In thefollowing you will find a survey of the pre-defined selection criteria.
MainParts
Model object Drawing styleColumns – Al, Function Process - Column, AutoIntersections
Girder – Al, Function Process - Girder, AutoIntersections
Compression pipe Al, Function Compression pipe - front, bottom
Turnbuckle bracing Al, Function Crossbracing - front, bottom
Purlins - Fr, Function Process - Girder, AutoIntersections
Mp - Beams Al Process - Girder, AutoIntersections
Mp - Plate Al Mainpart - Plate, AutoIntersections
Used in the processes 31 – 45, 51 – 55, 71 – 85, 137 – 151, 172 - 191
MainPartsWithAttachingParts
Model object Drawing styleColumns – Al, Function Process - Column, AutoIntersections
Girder – Al, Function Process - Girder, AutoIntersections
Compression pipe Al, Function Compression pipe - front, bottom
Turnbuckle bracing Al, Function Crossbracing - front, bottom
Purlins - Fr, Function Process - Girder, AutoIntersections
Mp - Beams Al Process - Girder, AutoIntersections
Mp - Plate Al Mainpart - Plate, AutoIntersections
AttPl - Al Process - Sp Plate 1:10 CX MpQuant
AttBea - Al Process - Sp Beams 1:10 CX MpQuant
AttBentBea - Al Sp - BentBeam
Used in the processes 46 – 50, 86 – 90
Page 5-10 HyperSteel Version 7.0 Manual Drawing Design
SingleParts
Model object Drawing styleBeams - Al Sp - Beams front,top,bottom 1:10 CX
Plates - Al Sp - Plate 1:10 CX
BentBea - Al Sp - BentBeam
Used in the processes 1 – 3, 16 – 18, 21 – 23, 26 – 30, 56 – 58, 61 – 63, 66 – 68, 91 – 93,122 – 129, 132 – 134, 152 – 154, 157 – 159, 162 – 164, 167 – 169, 192 - 194
SingleParts Beam CO
Model object Drawing styleBeams - Al Sp - Beams front,top,bottom 1:10 CO
Used in the processes 11 – 15
SingleParts single draw
Model object Drawing styleBeams - Al Sp - Beams front,top,bottom 1:1 CX
Plates - Al Sp - Plate 1:1 CX
BentBea - Al Sp - BentBeam
Used in the processes 4, 5 , 9, 10, 19, 20, 24, 25 ,29, 30, 59, 60, 64, 65, 69, 70, 94, 95, 130,131, 135, 136, 155, 156, 160, 161, 165, 166, 170, 171, 195, 196
Cameras Overview
Model object Drawing styleCameras - Al View V – NoDim Mp PosSmGuid
Used in the processes 6 – 10, 96 – 115
Cameras Node
Model object Drawing styleCameras - Al Detail V – NoDim MpSp PosSmGuid
Used in the processes 116 – 120
HyperSteel Version 7.0 Manual Drawing Design Page 5-11
Plates 1:1 CO
Model object Drawing stylePlates - Al Sp - Plate 1:1 CO
Used in the processes 121
MainParts Beam CO
Model object Drawing styleBeams - Al Process - Girder 1:10 CO, AutoIntersections
Used in the processes 197
Advance - Manual Drawing Design Page 6-1
6. Drawing Finishing
General
By linking the model with the drawings it is possible to insert dimensions, labels or heightnotations subsequently. The toolbar Finishing offers the available processing potentialities.
Page 6-2 Advance - Manual Drawing Design
Insert Line of Welding
Function: _AstM4CommDetCrWeldSeam
Button:
Course of dialogue:Please select detail. d1Please select reference point of the symbol at the detail. d2Please select the position point of the symbol. d3
An input window with several register-cards pops up. They are roughly identical with thosefor the insertion of a line of welding in the model (see chapter “Welding Patterns” section“Weld Point”).
If the dashed line is not required, you must simply rename the two files dsc_d_wline.dwg anddsc_d_wline_u.dwg in the directory IBSA\Advance\Support\Symbols (but do not deletethem!). The modification does only affect newly inserted lines of welding. Existing lines ofwelding symbols remain unchanged.
Advance - Manual Drawing Design Page 6-3
Insert Label
Function: _AstM4CommDetInsertAnno
Button:
Course of dialogue:Please select the detail:_d1Select object you want to label(change <L>abel):_d2Start point of the text:_d3Angle of the text:_d4
The insertion point of the guideline (d2) and the direction of the text can be modified via thegrips.
If on query concerning the object that is to be labeled a L is entered, the content of the labelcan be modified.
Page 6-4 Advance - Manual Drawing Design
The possible settings are subdivided according to model objects. The content is the same asin on page 2-4. These settings will be saved in the active session.
Via the Advance properties the guideline can be switched off
Advance - Manual Drawing Design Page 6-5
and the teyt style can be modified.
Here, only text styles can be selected that are already defined in the prototype-file or filedsubsequently via Change text style.
These settings apply also for the height notation.
Page 6-6 Advance - Manual Drawing Design
Insert Height Notation
Function: _AstM4CommDetCrHeightKote
Button:
Course of dialogue:Please select detail. d1Please select the reference point of the symbol. d2Please select placing point for the sybmbol. d3
If a height notation is defined with WCS (Z) in the model, it will be taken, otherwise theabsolute WCS height will be given.
By the Advance-Properties of the height notation the unit, format and the precision of thenumber can be set. Thereby it is possible to set it to meters although the unit in the model isset to millimeter.
Advance - Manual Drawing Design Page 6-7
Insert Dimensional Point
Function: _AstM4CommDetModDimAdd
Button:
Course of dialogue:Select dimensions where you want to insert:_ d1Select dimensions where you want to insert:_<RETURN>Enter dimensional point:_ d2
Page 6-8 Advance - Manual Drawing Design
Delete Dimensional Point
Function: _AstM4CommDetModDimRemove
Button:
Course of dialogue:Select the dimension line you want to remove:_d1
Advance - Manual Drawing Design Page 6-9
Additional Dimension Chain General
Function: _AstM4CommDetAddDim
Button:
Course of dialogue:Please select a view (<D>iameter, <Angle>, <Arc>,<Dimensioning<ST>yle, <Dim>ensioning type): (Linear)_ d1First point for direction:_ d2Second point for direction:_ d3Position point of the dimension line:_ d4First dimensional point:_ d5...d7Enter dimensional point:_
d1
d2 d3
d4
d5
d6 d7
Page 6-10 Advance - Manual Drawing Design
Additional Dimension Chain Longitudinal Dimension
Function: _AstM4CommDetAddDimLinear
Button:
Course of dialogue:Please select a view (<D>iameter, <angle>, <arc>,<dimensioning<ST>yle, <dimension>type ) : (Linear)_ d1First point for direction d2Second point for direction d3Position point of the dimension line:_ d4First dimensional point:_ d5Enter dimensional point:_ d6
Advance - Manual Drawing Design Page 6-11
Additional Dimension Radian
Function: _AstM4CommDetAddDimArc
Button:
Course of dialogue:Please select a view (<D>iameter, <angle>, <arc>,<dimensioning<ST>yle, <dimension>type) : (Arc)_ d1Circle central point (3P/2P/Radius):_ d2Point on the circle:_ d3Position point of the dimension line:_ d5Enter dimensional point:_ d4
Die Maßkette wird genau zwischen d3 und d4 erzeugt und muß nachträglich über die Griffenach außen verschoben werden.
Der Kreisdurchmesser kann hier auch über 3 Punkte eingegeben werden (siehe RadienmaßSeite 6-13).
Page 6-12 Advance - Manual Drawing Design
Additional Dimension Chain Angular Measure
Function: _AstM4CommDetAddDimAngle
Button:
Course of dialogue:Please select a view (<D>iameter, <angle>, <arc>,<dimensioning<ST>yle, <dimension>type ) : (angle)_ d1Start point of the 0°line:_ d2End point of the 0° line:_ d3Position point of the dimension line:_ d4First <D>imensional point or point for second <L>ine:_ d5
d1
d5
d2d3
d4
Advance - Man
Additional Dimension Chain Radian Measure
Function: _AstM4CommDetAddDimRadial
Button:
Course of diaPlea ct a view (<D>iameter, <Angle>, <Arc>,<Dim ng<ST>yle, <Dim>ensioning type) (Diameter)_d1CircPoinPosi
When circularbe found. If thcircle will be d
logue:se seleensioni
le central point (3P/2P/radius):_d2t on the circle:_d3tion point of the dimension line:_d4contour processings at beams and plates are concerned, no center point cane circle central point is requested, you must enter 3P, and the diameter of theigitized via 3 points.
ual Drawing Design Page 6-13
Page 6-14 Advance - Manual Drawing Design
Course of dialogue:Please select a view (<D>iameter, <Angle>, <Arc>,<Dimensioning<ST>yle, <Dim>ensioning type) :(Diameter)_d1Circle central point (3P/2P/radius):_3PStarting point (3P/2P/radius):__nea to d2End point:__nea to d3Circle point:_nea to d4Position point of the dimension line:_d5
Advance - Manual Drawing Design Page 6-15
Move Dimensions
A dimension chain is a connected object and can easily be deleted or moved.
To move a dimension chain generated automatically or subsequently, you must select thisdimension chain. Doing this, the grips at the base point of the texts, of the dimensionauxiliary lines and the dimensioned points will be activated.
At the base point of the text, each text can be moved individually.
At the base point of the dimension auxiliary lines, the position of the dimension chain can bemodified without moving the dimensioned points (which would happen with the AutoCAD-command “Move”).
At the base point of the dimensional points, the point that is to be dimensioned can be movedquite easily. The dimension will adjust automatically to the new length.
Base point
Base point
Base point
Page 6-16 Advance - Manual Drawing Design
Change Dimensioning Style
Function: _AstM4CommDetModDimStyle
Button:
Course of dialogue:
• Press button
• An input-window pops up
This function corresponds to the AutoCAD-command Dimension / Style.
Advance - Manual Drawing Design Page 6-17
Change Text Style
Function: _AstM4CommDetModTextStyle
Button:
Course of dialogue:
• Press button
• An input-window pops up
Pressing the button NEW you can define a new text style in this drawing.
As well an existing text style can be renamed or deleted.
Page 6-18 Advance - Manual Drawing Design
Move View
When derivating main part drawings, various views and cuts of the main part can begenerated. They can be moved subsequently onto the deduced drawing. On an update of themain part drawing after a model modification, the moved views and cuts will be kept.
Function: _AstM4DetViewTransform
Button:
Course of dialogue:
• Open the drawing with the main part drawing.
• Press button
• Select cut/view of the main part drawing
• Move cut/view entering starting (d1) and end point (d2).
Example:
d1
d2
Intersection tobe moved
after thesuspension
Advance - Manual Drawing Design Page 6-19
Delete view
By this function separate detail views, e.g. Intersection A – A, can be deleted out of thewhole detail. The connection to the model remains. The cut-symbol in the main view is notdeleted and must be removed manually.
Function: _AstM4DetViewDelete
Button:
Course of dialogue:Select detail view:_d1View successfully deleted.
d1
Page 6-20 Advance - Manual Drawing Design
Advance - Manual Drawing Design Page 7-1
7. Tips & Tricks
Working Method for the Drawing derivationIn order to get correct shop and survey drawings, the following controls should be madebefore the actual drawing design:
• Collision check
• Bolt is not connected with beam/plate
• Bolts are crossing
• Bolts cannot be inserted
• Beam / plate is double (was copied on itself by accident)
• Beams / plates must be adjusted
Icon Collisions in the modelList of the collisions will be displayed in the text window (F2)
Icon Display test resultsEnter index from collision listCollision solid will be marked red
Icon Search marked objectsAn arrow indicates the marked objects
• Checking of the position numbers
• Two objects are (apparently) identical, but have different position numbers.
• Two objects are (apparently) different, but have identical position numbers
Icon Check all groups with identical position numbersChecks all objects and displays in the text window a list of theincorrect position numbers
Page 7-2 Advance - Manual Drawing Design
• Control of the connections
Icon Mark main part structureMarks all objects related to a main part (beams, plates, bolts,lines of welding)
Icon Search marked objectsAn arrow indicates the marked objects
Troubleshooting in the drawing derivation1. The derivation of surveys of views is being canceled
Model contains too many collisions.
2. The derivation of shop drawings (main parts) is being canceled The objects are not positioned.
3. Attaching parts are not being displayed the attaching parts are not connected with the main part, add connection,
check position number, position again if necessary.
4. Bolts are being displayed outside the beam bolts are connected with the wrong beam, disassemble connection, check
position number, position again if necessary.
5. A main part is being displayed in the wrong position check which part is MP, create MP.
Advance - Drawing Style Management Page 8-1
8. Drawing style management
General
The drawing style management enables the adjustment of the styles for the drawingderivation to your own requirement and external standards. In this way, the presentation ofthe geometry, type and content of the label and the dimension can be modified.
The drawing style management is a comfortable surface to do this. At present, not all pointscan be processed with this surface, but it is intended for later releases.
For this reason, the surface of the drawing style management as well as the underlyingtables will be described in the following.
All names, e.g. drawing styles, presentation-, label-, and dimension rules, are named withabbreviations that are explained in the appendix on page 17-3 and in the text.
Details and Detail Views
Designing production drawings, assembly drawings and survey diagrams to a Advance-model require specific rules in order to achieve a usable result. These rules are defined inthe drawing styles.
A Advance-detail is a drawing derivated from the Advance-model, e.g.
• View of the complete model
• Single part drawing with several views
• Main part drawing with several view/cuts
The views and cuts in a Advance-detail are called detail views. They present a modelclipping with the settling of:
• scale
• coordinate system
• presentation type of the model objects
• label of the model objects
• dimension
Page 8-2 Advance - Drawing Style Management
Create Your Own Drawing Styles
In order not to complicate the cooperation in case of inquiries, the definitions provided byAdvance can not be modified. To import user specific drawing styles in a software update,please proceed as follows:
• Call the management tool
• Select the button “Author”
• In the field “Name” you can enter e.g. the abbreviation of the company (XYZ),and in “Text” the full name of the company (XYZ Ltd.).
• Save the new author and set as new setting.
• Quit the management tool.
Note: All tables mentioned in this manual refer to the database AstorDetails.mdb, if not saidotherwise.
Advance - Drawing Style Management Page 8-3
Call the Drawing Style Management
Function: _AstM5DetailStylesExplorer
Button:
Course of dialogue:
• Press the button
• An input-window pops up
A rough classification in three categories:
Drawing Styles:Definition of the styles including the label and dimension.
Object Label:Definition of the label content, label orientation and positioning strategy for the text.
Object Dimension:Which points of an object are to be dimensioned in a dimension chain.
Page 8-4 Advance - Drawing Style Management
Copy Existing Definitions
To modify existing or design you own styles, the respective definitions must be copied andsaved under unambiguous names. If not described otherwise in this manual, the followingprocedure applies:
Having pressed the button an input-window pops up:
Under Name: you must enter the name of the new definition. “Copy of” and the name of thebasic style will always be given as standard. The basis style can be changed with the pull-down fields Start with:. If possible, select a style close the one required.
For the composition of a new style already existing entries can be used.
Advance - Manual Drawing Design Page 9-1
9. Create new Drawing Styles
General
In the drawing styles it will be differentiated first in various element types, e.g. column, girderor view.
Design New Drawing Styles
By clicking the − symbols, the planes lying underneath will be visible.
Note:Here, the availabe definitions from the tableDetailStyle. If a style is not included inDetailMasterTable , a category "-" will bedisplayed.
Page 9-2 Advance - Manual Drawing Design
Change column width:If the columns are not wide enough to display the complete text, 3 dots will appearafter the name. To modify the column width, you can adjust the width with themouse through the separating bar between 2 columns.
Use:Here, you can call your own designed styles, because usually they do not have theirown icons in the menu. Select drawing style and press Use. The drawing will thenbe created and the drawing manager will be called (here, only the just createddrawing is displayed). Having quit the drawing manager the drawing stylemanagement will appear again.
The styles can also be called manually via the keyboard. In the column Type thedrawing style is displayed. The two numbers, e.g.7 8, call this style with thecommand _AstM4CommDetByStyle 7 8. The first number stands for theBaseCategory (e.g. column, girder), the second number stands for the SubCategory(table DetailMasterTable).
Before the usage of main part styles (girder, columns, main part, single part, specialstructural parts) the model objects must be positioned, otherwise the drawingderivation is not possible.
Apply:If several settings have been modified, the modifications can be saved with Apply.The drawing style management will not quit.
OK:Saves the database and quits the input-window without further doing.
Cancel:Quits the input-window without saving the modifications since the last import.
Help:Calls the Advance-online-help.
Advance - Manual Drawing Design Page 9-3
Copy: Select drawing style, object label or object dimension that you want to use as basis,and press . An input-window will pop up where you must enter the new name.Default is “Copy of” and the name of the basis style. The basis style can be modifiedhere. If a style from another category is selected, it is possible to import an availablestyle for columns also into the categories Girder.
Assigning the name take care that the entries are unambiguous.
Delete:
Select drawing style and press . After the safety request and confirmation themarked style will be removed. If you press No in the safety request, the deleting willbe canceled.
Page 9-4 Advance - Manual Drawing Design
Process a New Drawing Style
Marking a drawing style, on the right side of the editor 3 register-cards will be visible: title,layout and model objects.
Title
Position:Defines the position of the title text. Possible is at present top center and bottom left.
Advance - Manual Drawing Design Page 9-5
Format and Contents:Appearance and content of the title text (main part label). As default differentvariables are available that can be entered here. A normal text can be uses as well.
Meaning Model Object VariableName beam, plate, camera %Name
Beam HEA 200Plate 10x200x100Camera Type
Material beam, plate %MaterialDenotation beam, plate, camera %DenotationPosition number beam, plate %PositionSingle part number beam, plate %SinglePartPosNum
Works only if “single part” isselected in model object
Main part number beam, plate %MainPartPosNumLength beam %LengthNumber total beam, plate %QuantityNumber per main part beam, plate %MainPartQuantityOthers beam, plate, camera %Note
Camera DenotationScale %ScaleDate %DateUS Date %USDateTime %TimeYear %YearMonth %MonthDay %DayHour %HourMinute %MinuteText height #Height(<Height in mm>)
see also pp 10-4 ffText font #Font(<Text style>)
see also pp 10-4 ffText color #Color(<Color number>) see also pp 10-4 ffNew line #Newline see also pp 10-4 ffText border #Rectangle, #Rounded, #Hexagon, #Circle see also pp
10-4 ff
Page 9-6 Advance - Manual Drawing Design
Examples:#Font(Arial)#Height(5)%Namex%Length - %Material #Height(8) %Position
#Height(5)%Namex%Length - %Material #Height(8) %Position
#Font(Arial)#Height(5)%Denotation%Namex%Length #Font(Arial Black)#Height(8)%Position
Platform Beam HEA300x5011
Advance - Manual Drawing Design Page 9-7
Layout
Arrange Strategy:A clearance between the views is given (always measured from the last object of thedetail view) to avoid that the individual views on the drawing are not too close toeach other. Available are now the defaults 10, 15, 20, 30 und 40 mm distance on thedrawing. They can be extended, as you like.
Page 9-8 Advance - Manual Drawing Design
Advance - Manual Drawing Design Page 9-9
Requests:Combination of the individual detail views where the presentation-, label- anddimension rules are integrated. The definition of the scale, the position of the detailview and whether or not to clip is done here as well.
Add new view:Detail views already defined can be used in all styles. E.g. for “Girder – Front, Top”the same front view is stored as for “Column – Front, Top”.
Change order:
Via the button and the order of the views can be influenced. But it does notaffect the drawing derivation and serves only the clear arrangement. The topmostentry cannot be deleted, to be removed it must be moved downward.
Orientation of the views:Here, the orientation of the detail presentation can be explicitly defined, e.g. thecolumn can be thus positioned always vertically on the drawing, with the bottomdownward. There are the following possibilities:
Standard Without special orientation.Recommended for details and views
Vertical Beam longitudinal axis vertically on the drawingLonger plate side vertically on the drawing
ModelZ Top Side lying at top in the model is also in detail at top ModelZ Right If columns are presented lying, they will be tipped over to the
right, that means the base point is always on the left side onthe drawing
ModelZ Left If columns are presented lying, they will be tipped over to theleft, that means the base point is always on the right side onthe drawing
Another influence on the orientation of the objects has the default „Standard positionof straight beams on the drawing“ in the category „Drawing – Presentation“ in themanagement tool.
Page 9-10 Advance - Manual Drawing Design
For instance a beam with the starting koordinates 200,500,300 and the endingkoordinates has at the end of 500,1500,800 an inclined cut.
Following settings are possible:
Highest Z-Coordinate leftside
From both ends the highest Z-Coordinate is calculated. Theaccording end of the beam issituated on the left side of thedrawing.
X=200Y=500Z=300
X=500Y=1500Z=800
Highest Z-Coordinate rightside
From both ends the highest Z-Coordinate is calculated. Theaccording end of the beam issituated on the right side ofthe drawing.
X=200Y=500Z=300
X=500Y=1500Z=800
Start point left side The start point of the beam issituated on the left side of thedrawing.
X=200Y=500Z=300
X=500Y=1500Z=800
Advance - Manual Drawing Design Page 9-11
Start point rightside
The start point of the beam issituated on the right side ofthe drawing.
X=500Y=1500Z=800
X=200Y=500Z=300
Highest XYZ-Coordinate leftside
From both ends the highestX-, Y- orZ-Coordinate iscalculated. The according endof the beam is situated on theleft side of the drawing.
X=500Y=1500Z=800
X=200Y=500Z=300
Highest XYZ-Coordinate rightside
From both ends the highestX-, Y- orZ-Coordinate iscalculated. The according endof the beam is situated on theleft side of the drawing.
X=200Y=500Z=300
X=500Y=1500Z=800
Page 9-12 Advance - Manual Drawing Design
Model objects
This selection defines the reference objects.
Complete model:Complete model.
Complete model with XRefs:Complete model and the linked external references (XRefs).
Complete model and solids:Complete model and additional ACIS-solids
Detail box:With the appropriate definition in the model box, clippings can be defined from themodel, e.g. node (see pp. 9-13)
Detail box with XRefs:Same as Detail box, additionally linked external references are detailed.
Selection set:Accepts only the selected elements.
Advance - Manual Drawing Design Page 9-13
Single part:Single part without attaching parts.
Main part:Main part with attaching parts.
Main part with environment:Main part with attaching parts and defined environment. In the model box a xy- anda z-viewport must be defined.
Mainpart and additional elements:Main part and additional Advance- and ACIS-solids.
Page 9-14 Advance - Manual Drawing Design
Process Detail View
A detail view is the presentation of a model clipping defining scale, coordinate system,presentation type and label of the model objects and the dimension.
Principle Course:
• Select detail view, e.g. main view front
• Press button
• A dialogue-box with register-cards pops up
Assignment
Advance - Manual Drawing Design Page 9-15
View direction and model box:
System and Detailbox Name:
Page 9-16 Advance - Manual Drawing Design
Name of the view direction
View direction on object:How is the reference object viewed, e.g. from the front, right, active UCS,intersection.
Enlarge the viewport for parts additionally presented:If additional elements are to be presented, e.g. filler pates, the viewport must beenlarged for the presentation. Usually, the viewport is as large as the referenceobject with attaching parts.
z- Viewport:Defines the depth of the view to the front and the rear (Z-orientation of the UCS).Example: front 500, rear 500 – cuts a slice of 1000 mm from the model.
xy- Viewport:For a clipping, the height (Y-orientation of the UCS) and the width (X-orientation ofthe UCS) of the viewport can be defined. It will be done automatically, entering fixedvalues (x-, y-delta) or by digitized points in the model.
Advance - Manual Drawing Design Page 9-17
Presentation types and label rules:Assignment of the presentation and label to the model objects. Thus it will bedefined which objects in a detail view are presented and labeled in which way.
With the button New further definitions can be added, and with the button Editexisting definitions can be modified.
Page 9-18 Advance - Manual Drawing Design
In the assignment of the model object you must keep a certain order to achieve the requiredresults. Principally, the list will be processed from top to bottom. If a setting can be applied, itwill be processed. Otherwise the next entry will be taken.
In the following you find a list as example:
01. Not Visible - Al, Function 11. Center punch - Al 21. Bo02. Mp – Beam 12. Threaded holes 22. Stud shear03. Mp – Plate 13. Slotted holes 23. Welding line04. Mp – BentBea 14. Blind holes 24. Grid05. AttBea – Al 15. Countersunk holes 25. Height notations - Al06. AttPl – Al 16. Mp – Ho 26. Add. Parts07. AttBentBear – Al 17. AttPa – Ho 27. Special parts - Al08. Beam 18. Ho 28. Add. ACIS-Solids - Al09. Plate 19. Mp – Bo10. BentBeam 20. AttPa – Bo
Because beams, plates, special parts and bolts can be added the role „Not Visible“, this entrymust be set at top of this list.
If shop bolts exist in the model, the general entry “Bo – Al” must be added. Otherwise theywill not be presented.
Advance - Manual Drawing Design Page 9-19
Subset of the selected model objects:Defines the used model elements. The values in parentheses indicate the usedabbreviations. An extension of the subsets is only possible by modifying the tableDetObjQualifierSet. In column GeometricRestrictions the orientation of the elements isdefined, the consequences will be shown in the following tables. The number that is to beused can be seen in the left column, as well as the used abbreviations in the names.
Name PlateAll (Al)
0
No restriction
Linear (Li)
1
Not linear (Nl)
2
Top view (Tv)
3
Front side (Fr)
4
Width (Wd)
5
(TvLg)
6
Length (Lg)
7
(FvWd)
8
B = width of plate, L = length of plate
Page 9-20 Advance - Manual Drawing Design
Name BeamAll (Al)
0
No restricition
Linear (Li)
1
Not linear (Nl)
2
Top view (Tv)
3
(FvFr)
4
Front side (Fr)
5
(FvTv)
6
Front view (Fv)
7
(TvFr)
8
Advance - Manual Drawing Design Page 9-21
Name Connecting ElementsAll (Al)
0
No restriction
Linear (Li)
1Not linear (Nl)
2
Top view (Tv)
3Front side (Fr)
4
Page 9-22 Advance - Manual Drawing Design
Presentation of model objects:The way the model objects are presented, Modifications are only possible in the tableDetObjAppearance.
Label / Content
Axis
AxisSymbol
Off
Height notation
Grid
Template with symbol
Template reference point
Line of welding
Visible
VisibleAxis
VisibleModelcolor
VisibleIntersection
VisibleHidden
VisibleHiddenAxis
VisibleHiddenAxis Intersection
VisibleHiddenModelcolor
VisibleHiddenIntersection
Symbol
EnvironmentVisible
EnvironmentVisibleHidden
EnvironmentVisibleHiddenAxis
Default
In table DetObjAppearance you can define you own combinations. Here the meaning:
Column Presentation of Appropriate for Model Object
BodyVisible visible solid lines beam, plate, bolt, special partsAxis axes beam, bolt, gridSymbols symbols bolt, hole, weld, gridCutFaces plane of sections of solids
with model boxbeam, plate, bolt
BodyHidden hidden lines beam, plate, bolt, special parts
Advance - Manual Drawing Design Page 9-23
Examples:
Modellobjekte BodyVisible Axis Symbols CutFaces BodyHidden
bolts
Holes
Beams
Holes are always presented, because they are a contour processing. Only one axis can beadded.
Labeling of the model objects:The way the presented objects are labeled. The label type must have been definedin advance via the category object label.
Page 9-24 Advance - Manual Drawing Design
Dimension ruleCombination of the dimension chains for a detail view. If a separate dimension rule is definedfor each detail view, each view can be dimensioned differently.
With the button you can add a new dimension requirement.
Advance - Manual Drawing Design Page 9-25
Dimension type:
Label / Content Example
Radial
Linear
Arc length
Arc length with sum
Arc length ony sum
Spandrel
Spandrel with sum
Spandrel only sum
Page 9-26 Advance - Manual Drawing Design
Label / Content Example
Linear with coordinates
Coordinates
Dimension definition:You can select here only definitions that have been defined in advance in thecategory object dimension.
Advance - Manual Drawing Design Page 9-27
View options:
Page 9-28 Advance - Manual Drawing Design
Advance - Manual Drawing Design Page 9-29
Scale:Scale in which the reference object will be presented.
View selection control:Defines whether this view should be generated always or on interactive requested.For the interactive request green frame will appear in the model that can beselected.
View arrangement:Position of the view concerning the front view. The front view must always be set onautomatically, because it is the reference of the other views.
Page 9-30 Advance - Manual Drawing Design
Clipping
Advance - Manual Drawing Design Page 9-31
Page 9-32 Advance - Manual Drawing Design
Selection of the presentation shortened in length of model objects:These data refer always to the coordinate system of the reference object, not on theposition in the drawing. Possible are clipping X, clipping XY, without clipping.
Clipping starting from constant intervals in the length:Defines the size of clipping, e.g. for 2x30=60 mm on the drawing without attachingpart, bolts etc. it will be clipped. The smaller the intervals, the bigger the clipping willbe.
How many should be kept on each side of the clipping area:Distance in mm on the drawing.
Advance - Manual Drawing Design Page 9-33
Example:
( Values as given above)
Advance - Manual Drawing Design Page 10-1
10. Object Label
General
An essential part of the automatic drawing design is the labeling of the model objects in detailviews. In table DetObjAnnotationStrategy strategies for the object label are defined. Amongothers, definitions for text content, text orientation, the positioning on the drawing and theguideline selection are here included.
Create New Object Label
First, you must select a style in the drawing style management in the category object label.
Page 10-2 Advance - Manual Drawing Design
Text- and Moving Orientation
MaxDistance:This setting integrates labels of objects whose distance must not go beyondMaxDistance Millimeter on the drawing.
Use object system:The definition of the text orientation and moving directions for the positioning on thedrawing will be done in a reference system. Inmost cases it is the view system.However, sometimes it will be required to refer to an object system, e.g. for thelabeling of beams along their axis (for girders horizontal, for columns vertical).
Text direction:The orientation of the text in the reference system. Allowed orientations are –90 to90 degree. Text orientation 2 is intended for further developments.
Advance - Manual Drawing Design Page 10-3
Guideline Selection
Definition of the guideline:The options Underscored and Only Text are here available.
Page 10-4 Advance - Manual Drawing Design
Definition of the Text Content
Name of the text content definition:The name should be selected in that way that it can be recognized which modelobjects it is referred to (see Applicate to).
Use for:Defines for which objects in the model the definition applies. This setting hasinfluence on the selection of the label style in Label / Content after having called thedrawing styles. E.g. for bolts only label styles will be listed containing in this field theentry Bolt or All objects.
Preview:Here it is displayed how the text will look like on the drawing. If formatting has beenused, it will displayed only as text.
Advance - Manual Drawing Design Page 10-5
Text module:Offers the possible label contents as variable. It is not possible for the user to extendthis table.
Meaning Model Objects VariableSection name Beam %ProfNameNumber ofmembers
Beam (compound sections) %RodCount
Material Beam, Plate, Bolts, Stud shear,Special part
%Material
Coating Beam, Plate, Bolts, Stud shear,Special part
%Coating
Name StrBOM Beam, Plate, Special part %DenotationPosition number Beam, Plate, Special part %PosNumEinzelteilnummer Beam, Plate, Special part %SinglePartPosNumHauptteilnummer Beam, Plate %MainPartPosNumLength Beam, Plate, Bolts, Stud shear %LengthWidth Plate %WidthThickness Plate %ThicknessNorm Bolts, Stud shear %NormDiameter Bolts, Holes, Stud shear %DiameterHole diameter Bolts, Holes %HoleDiameterNumber bolts Bolts, Holes %BoltCountDepth Countersunk-, threaded-, blind hole %SunkDepthThread type Threaded hole %TappingAngle Countersunk hole %Alpha_eHead diameter Blind hole %HeadDiameterCommodity number Beam, Plate, Special part %ItemNumberAssembly Beam, Plate, Special part %AssemblyOthers Beam, Plate, Bolts, Special part %NoteSet (Mu2S) Bolts %SetModel role Beam, Plate, Special part, Holes %Role
Page 10-6 Advance - Manual Drawing Design
Contents of Label:Combination of the individual variable and additional texts. Specific special symbolsmust be inserted with the so-called ASCII-font. To do so, a number combinationmust be entered on the numeric block with the ALT-key being pressed.
Zeichen ø µ ½ ± ¼Abbr. 155 230 171 241 172
These abbreviations do only apply if the standard font is used. If via the formatting#Font another font is used, the same abbreviations will result in other symbols,because the table is defined with another type. This way, also other special symbolscan be used. Which symbols are possible can be quested via the Windows symboltable (Start – Programs – Accessories – Symbol Table).
Text format:#Height(<Height in mm>)Textheight in mm on the drawing.
#Rectangle, #Rounded, #Hexagon, #CircleDraws a frame around the text. Rectangular, rectangular with fillets, hexagonal orcircular. The distance to the text can be given in brackets, e.g. #Circle(3). Using thistext formatting, the text can not be summarized (see pages 10-1 MaxDistance). Thebordering of different height or font isn’t allowed.
#Font(<name>)Changes the font. You can use all *.shx in the font directory of AutoCAD and allfonts in the font directory of Windows (C:\Winnt\Fonts). The text font for the detailscan be adjusted globally by default (Text font for details), being set on txt.shx.Alternatively, simplex.shx is recommended, because it is close to the standard font.If you select this setting, the dimension style must also be adjusted in all prototype-files, because it has no access to the defaults.
txt.shx simplex.shx
#NewlineStarts a new line. The data for the font must be entered again.
#Color(<AutoCad color number>)Changes the color of the text.
#EndDetermines a text formatting set before.
Advance - Manual Drawing Design Page 10-7
Example:#Rectangle#Font(Arial Narrow)%BoltCount M%Diameterx%Length#Newline#Font(Arial Narrow)DIN %Norm
Additional there exists the possibility to set a unit format in the labelling, e.g. inch. This formatis generated by 3 numbers, which are given in front of the variable, e.g. %[1,2,3]Length.
1 = Key from UnitsOfDistance2 = Key from UnitsType3 = Key from UnitsPrecision
UnitsOfDistance
Key RunName Units BasisUnit Symbol
1 Foot 12 inch ft2 Mile 63360 inch ml3 Millimeter 0,001 meter mm4 Centimeter 0,01 meter cm5 Meter 1 meter m6 Kilometer 1000 meter km7 Microinch 0,00000001 inch microinch8 Mil 0,001 inch mil9 Yard 36 inch yd
10 Angstrom 1E-10 meter angstrom11 Nanometer 0,000000001 meter nm12 Micron 0,000001 meter micron13 Decimeter 0,1 meter dm14 Dekameter 10 meter Dm15 Hectometer 100 meter Hm16 Gigameter 1000000000 meter Gm17 Astronomical Unit 1,495979E+11 meter au18 Light Year 9,46053E+15 meter lightyear19 Parsec 3,085677E+16 meter parsec20 Inch 1 inch in.21 mm 0,0393700787401575 inch mm
Page 10-8 Advance - Manual Drawing Design
UnitsType
Key RunName BasisUnitKey
1 Architectural inch2 Engineering inch3 Dezimal meter4 Bruch meter5 Dezimal inch
1009 gram gram1010 ounce ounce2005 Bogenmaß circle2006 Dezimalgrade circle2007 Neugrade circle2008 Grad / Min / Sek circle
UnitsPrecision
Key RunName Divisor UnitsTypeKey
1 0 0 Dezimal2 0.0 10 Dezimal3 0.00 100 Dezimal4 0.000 1000 Dezimal5 0.0000 10000 Dezimal6 0.00000 100000 Dezimal7 0.000000 1000000 Dezimal
20 0' 0" 0 Engineering21 0' 0.0" 10 Engineering22 0' 0.00" 100 Engineering23 0' 0.000" 1000 Engineering24 0' 0.0000" 10000 Engineering25 0' 0.00000" 100000 Engineering26 0' 0.000000" 1000000 Engineering27 0' 0.0000000" 10000000 Engineering40 0' 0" 0 Architectural41 0' 0 1/2" 2 Architectural42 0' 0 1/4" 4 Architectural43 0' 0 1/8" 8 Architectural44 0' 0 1/16" 16 Architectural45 0' 0 1/32" 32 Architectural46 0' 0 1/64" 64 Architectural47 0' 0 1/128" 128 Architectural48 0' 0 1/256" 256 Architectural
Advance - Manual Drawing Design Page 10-9
Key RunName Divison UnitsTypeKey
50 0 0 Dezimal51 0.0 10 Dezimal52 0.00 100 Dezimal53 0.000 1000 Dezimal54 0.0000 10000 Dezimal55 0.00000 100000 Dezimal56 0.000000 1000000 Dezimal60 0 0 Bruch61 0 1/2 2 Bruch62 0 1/4 4 Bruch63 0 1/8 8 Bruch64 0 1/16 16 Bruch65 0 1/32 32 Bruch66 0 1/64 64 Bruch67 0 1/128 128 Bruch68 0 1/256 256 Bruch70 0r 0 Bogenmaß71 0.0r 10 Bogenmaß72 0.00r 100 Bogenmaß73 0.000r 1000 Bogenmaß74 0.0000r 10000 Bogenmaß75 0.00000r 100000 Bogenmaß76 0.000000r 1000000 Bogenmaß77 0.0000000r 10000000 Bogenmaß78 0.00000000r 100000000 Bogenmaß80 0 0 Dezimalgrade81 0.0 10 Dezimalgrade82 0.00 100 Dezimalgrade83 0.000 1000 Dezimalgrade84 0.0000 10000 Dezimalgrade85 0.00000 100000 Dezimalgrade86 0.000000 1000000 Dezimalgrade87 0.0000000 10000000 Dezimalgrade88 0.00000000 100000000 Dezimalgrade
Page 10-10 Advance - Manual Drawing Design
Key RunName Divison UnitsTypeKey
90 0g 0 Neugrade91 0.0g 10 Neugrade92 0.00g 100 Neugrade93 0.000g 1000 Neugrade94 0.0000g 10000 Neugrade95 0.00000g 100000 Neugrade96 0.000000g 1000000 Neugrade97 0.0000000g 10000000 Neugrade98 0.00000000g 100000000 Neugrade
100 0d 0 Grad / Min / Sek101 0d00' 60 Grad / Min / Sek102 0d00'00" 3600 Grad / Min / Sek103 0d00'00.0" 36000 Grad / Min / Sek104 0d00'00.00" 360000 Grad / Min / Sek105 0d00'00.000" 3600000 Grad / Min / Sek106 0d00'00.0000" 36000000 Grad / Min / Sek110 0 0 gram111 0.0 10 gram112 0.00 100 gram113 0.000 1000 gram114 0.0000 10000 gram115 0.00000 100000 gram116 0.000000 1000000 gram120 0lb 0oz 0 ounce121 0lb 0.0oz 10 ounce122 0lb 0.00oz 100 ounce123 0lb 0.000oz 1000 ounce124 0lb 0.0000oz 10000 ounce125 0lb 0.00000oz 100000 ounce126 0lb 0.000000oz 1000000 ounce127 0lb 0.0000000oz 10000000 ounce
Advance - Manual Drawing Design Page 10-11
Edit Rule of the Text on the Drawing
Page 10-12 Advance - Manual Drawing Design
Advance - Manual Drawing Design Page 10-13
Settings for the positioning process:1. If in the iterative steps an accepted position can be found, the following steps will
not be checked. This may save you time, but does not give you always anoptimum position.
2. If in the range between MinDistance and MaxDistance no position can be found,the basis position will be selected (usually center object).
3. Is the complete detail view (global) to be viewed for the position search or onlythe object that is locally to be labeled.
4. The preceding sign of the moving direction is not being considered meaning lessiterative steps are necessary.
Angle of the moving direction:In which direction (angle) should be searched for a blank position. Relevant here isthe system set in AutoCAD (menu format – unities – direction). Default is that 0° is inthe East and it is measured anticlockwise.
1.
2.
3.
4.
Page 10-14 Advance - Manual Drawing Design
MinDistance:Smallest distance from the object that must be kept.
MaxDistance:Largest distance to the object.
Available position rules:The names of the rule contain the angles for whose range it is searched.
NameG_030_330G_355_005G_085_095G_175_185G_265_275G_085-095_265-275G_175-185_355-005L_030_330L_175-185_355-005L_50-130_230-310
Advance - Manual Drawing Design Page 11-1
11. Object Dimension
General
The object dimension defines the objects that are to be dimensioned in a dimension chain.Each entry in this category stands for a diminesion chain on the drawing.
Generate a Dimension Definition
With the button new dimension definitions can be generated. After the generation, itseems as if nothing happens. In order to be able to use a new style. It must be added withthe button .
Page 11-2 Advance - Manual Drawing Design
Change a Dimension Definition
Advance - Manual Drawing Design Page 11-3
Page 11-4 Advance - Manual Drawing Design
Orientation of the Dimension Chain
The direction of the dimension chain can refer to the detail view on the drawing or to anobject in the model. Available are:
Label / Content
X-direction of the viewY-direction of the viewX-axis of an objectY-axis of an objectX-axis of a main element Y-axis of a main element X-axis of a bended beam Y-axis of a bended beam
Advance - Manual Drawing Design Page 11-5
Examples:
Page 11-6 Advance - Manual Drawing Design
Y
X
X-Achse eines gebogenen TrägersY-Achse eines gebogenen Trägers
Advance - Manual Drawing Design Page 11-7
Overlap scope with the total geometry (G/L)
Selection whether the dimension chain should be free of intersections with the dimensionedlocal geometry or with the total geometry of the detail.
Selection box not active Selection box activeAbbreviation: G(lobal) Abbreviation: L(ocal)
Arrange dimension chain above the local geometry (T/B)
Defines whether the dimension chain should be positioned above or beneath a detail view. Invertical detail views above is left and beneath is right.
Abbreviation: T(op) / B(ottom)
Create a separate dimension chain for each model object (A/S)
Here, for each single object detected in the model, e.g. bolt pattern, its own dimension chainwill be generated. If the selection box is not active, all detected objects will be dimensioned inone dimension chain.
Example:
Selection box not active Selection box activeAbbreviation: A(ll) Abbreviation: S(ingle)
Page 11-8 Advance - Manual Drawing Design
A bolt pattern can be composed of several borings (HS-properties, size, number X andnumber Y). It generates only one dimension chain, because it is just one object.
Note: The settings above are mentioned as abbreviation in the name of the dimensiondefinition. Examples:
Mp X - Extreme GTA stands for a dimension chain with the maximum dimensions of a mainpart. It must be intersection-free with the total geometry (G), the dimension chain ispositioned above the detail (T) and all detected elements will be dimensioned in one singledimension chain (A).
MP X – MP Bo LBS stands for a dimension chain with the bolts of the main part (Mp Bo). Itmust not be intersection-free with the total geometry (L, that is dimension chain as close tothe dimensioned element as possible), the dimension chain is positioned beneath the detail(B), and a dimension chain will be generated for each detected element (S).
Advance - Manual Drawing Design Page 11-9
Selection of the Dimensional Points
Page 11-10 Advance - Manual Drawing Design
Advance - Manual Drawing Design Page 11-11
Model objects:Selection of the model objects to be dimensioned. Here, the function in the modelwill be considered. The defaults can only be modified in table DetObjQualifierSet(see chapter Fehler! Verweisquelle konnte nicht gefunden werden. Fehler!Verweisquelle konnte nicht gefunden werden.).
Point type:Defines the points of the selected model objects that will be dimensioned. E.g. allholes can be selected. Furthermore, points can be used as reference. The followingexample will illustrate the consequence:
If no holes, slotted holes or bolts are available in the main part, no dimension chainwill be generated. If the reference were not used here, a (unnecessary) dimensionchain with the maximum dimensions of the beams would have been generated.
Page 11-12 Advance - Manual Drawing Design
Specification of the position in the dimension system:Geometrical restriction of the selected points. Thus it is possible to dimension allattaching parts at the upper flange in the front view of a beam, while those at thelower flange are not dimensioned. To do so, you must select main part for the modelobject, attaching parts for the point type and top as restriction. The restriction refersalways to the position on the drawing and the orientation of the dimension chain.Possible entries are:
Label / Content
aboveabove rightabove leftbottombottom rightbottom left
Advance - Manual Drawing Design Page 12-1
12. Function in the Model
General
In Advance functions can be assigned to the model objects. This is done either by applyingconstruction rules or interactively.
In the drawing derivation, these functions can be used to differentiate explicitly individualgroups of objects from other.
The function cover pate, end plate and butt plate will generate in a main part automatically afront plate view from the inside. If no other elements, such as lug plates or ledgers, arewelded at this spot, no further cut will be offered from the program.
Available Functions
The user can extend the set of functions provided by Advance in table ModelRole inAstorBase.mdb. The following functions are available:
Page 12-2 Advance - Manual Drawing Design
Function Function FunctionAnchor beam Haunch Beam Railing Kickprofile StairAnchor Bolt Haunch Plate Railing KneerailAnchor no Standard Haunchflange Railing Kneerail LandingAngle Haunchweb Railing Kneerail LastAngle Cleat Head part Railing Kneerail StairBar Shear Connector Hilti Anchor Railing Picket LandingBase Plate Hip Plate Railing Picket StairBent Beam Hip Rafter Railing PostBent Plate Hole Railing Post LandingBinding plate Horizontal Beam Railing Post LastBlind hole Kickprofile Railing Post StairBolt Krupp purlin Reinforcing plateBolt Above Lacing Reinforcing sectionBolt Below Lacing diagonal Roof BracingButt Strap Lacing vertical ShimCenter mark Ladderbrace Side RailCleat Ladderconnection SleeveCold Rolled Ladderprofile Slotted HoleCold Rolled Accessory Ladderstep StayCold Rolled Diagonal Tie Ladderstrip StepCold Rolled Strut Landing plate StiffenerColumn Landingrail StringerCompression Pipe Landingrail Last Stringer horizontalCorner finish Lower Flange Lattice Work Stringer verticalCountersunk hole Lug plate Stud shearCover Plate Member of Bracing, Type 1 Stud shear weldingCranked Rafter Member of Bracing, Type 2 Tab PlateDoor Post None Tension RodEaves Beam Not visible Threaded holeEaves Tie Plate Tie BeamElbow Purlin TraverseEnd Plate Rafter Truss BoomFeature Railing Baseplate Landing TurnbuckleFin Plate Railing Baseplate Stair Turnbuckle bracingFischer Anchor Railing Elbow Landing Typical LacingFlange Plate Railing Elbow Stair Upat AnchorFlat Bracing Railing End Upper Flange Lattice WorkFlat Iron Railing End Landing Vertical BracingGirder Railing End Stair VisibleGroup Railing Handrail Landing WeldingGusset plate Railing Handrail Stair Wind bracingHand Rail Railing Kickprofile Landing ZED-Purlin
Advance - Manual Drawing Design Page 12-3
And here some consequences of the function:
Model Element with function without function Flange pate
function plate function flange pate, nonestiffener
left stiffener without functioncover platebase plate
lower plate without function
Page 12-4 Advance - Manual Drawing Design
In table DetObjQualifierSet the function that will be applied is defined.
Key RunName GeometricRestriction
s
Number ofitems
ObjQualifier1
ModelRole1
ObjQualifier2
....61 Ep – Al,
Function0 3 Attached Part End plate
GeometricRestrictions:Restrictions of the position of the elements on the drawing (see also pages 9-16):
Value Meaning Abbreviation0 none Al1 only orthogonal Li2 Not only orthogonal Nl3 z-axis in view orientation Tv4 z-axis vertical view orientation Fr (for plates)5 x-axis in view orientation Fr (for beams)6 x-axis vertical view orientation7 y-axis in view orientation8 y-axis vertical view orientation
Number of items:Number of the ObjQualifier-ModelRole-pairs that are considered
ObjQualifier1...x:Reference to table DetObjQualifier.
ModelRole1...x:Reference to table ModelRole.
Advance - Manual Drawing Design Page 12-5
Extract from DetObjQualifierSet with the used functions:
RunName ObjQualifier ModelRoleAttPl - Al, Function Attached Plates Butt Strap
Gusset platePlateVisibleNone
AttPl - Tv, Function Attached Plates Butt StrapGusset platePlateVisibleNone
AttPl - Li, Function Attached Plates Butt StrapGusset platePlateVisibleNone
AttPl - Nl, Function Attached Plates Butt StrapGusset platePlateVisibleNone
AttPl - Fr, Function Attached Plates Butt StrapGusset platePlateVisibleNone
AttPa - Al, Function Attached PlatesAttached PlatesAttached PlatesAttached PlatesAttached PlatesAttached Beams
Butt StrapGusset platePlateVisibleNone
AttPa - Anchor Bo Al, Function AttPa Bolts Fischer Anchor ,Hilt AnchorUpat AnchorAnchor no STAN
AttPa - Anchor Bo Tv, Function AttPa Bolts Fischer AnchorHilt AnchorUpat AnchorAnchor no STAN
AttPa - Anchor Bo Li, Function AttPa Bolts Fischer AnchorHilt AnchorUpat AnchorAnchor no STAN
AttPa - Anchor Bo Nl, Function AttPa Bolts Fischer AnchorHilt AnchorUpat AnchorAnchor no STAN
AttPa - Anchor Bo Fr, Function AttPa Bolts Fischer AnchorHilt AnchorUpat AnchorAnchor no STAN
Page 12-6 Advance - Manual Drawing Design
RunName ObjQualifier ModelRoleAnchor Bo - Al, Function Bolts Fischer Anchor
Hilt AnchorUpat AnchorAnchor no STAN
Anchor Bo - Tv, Function Bolts Fischer AnchorHilt AnchorUpat AnchorAnchor no STAN
Anchor Bo - Li, Function Bolts Fischer AnchorHilt AnchorUpat AnchorAnchor no STAN
Anchor Bo - Nl, Function Bolts Fischer AnchorHilt AnchorUpat AnchorAnchor no STAN
Anchor Bo - Fr, Function Bolts Fischer AnchorHilt AnchorUpat AnchorAnchor no STAN
Compression Pipe Al, Function Mainpart Compression PipeEp - Al, Function Attached part Base plate, End plate, Cover plateEp - Tv, Function Attached part Base plate, End plate, Cover plateEp - Li, Function Attached part Base plate, End plate, Cover plateEp - Nl, Function Attached part Base plate, End plate, Cover plateEp - Fr, Function Attached part Base plate, End plate, Cover plateRail - Bg Landing Al, Function Beam Railing Elbow LandingRail - Bg Stair Al, Function Beam Railing Elbow StairRail - End Landing Al, Function Beam, Plates Railing End LandingRail - End Stair Al, Function Beam, Plates Railing End StairRail - Bb Landing Al, Function Beam, Plates Railing Baseboard LandingRail - Bb Stair Al, Function Beam, Plates Railing Baseboard StairRail - Bp Landing Al, Function Beam, Plates Railing Baseplate LandingRail - Bp Stair Al, Function Beam, Plates Railing Baseplate StairRail - Fd Landing Al, Function Beam, Plates Railing Picket LandingRail - Fd Stair Al, Function Beam, Plates Railing Picket StairRail - Hr Landing Al, Function Beam, Plates Railing Handrail LandingRail - Hr Stair Al, Function Beam, Plates Railing Handrail StairRail - Kr Landing Al, Function Beam, Plates Railing Kneerail LandingRail - Kr Stair Al, Function Beam, Plates Railing Kneerail StairRail - Post Landing Al, Function Beam, Plates Railing Post LandingRail - Post Stair Al, Function Beam, Plates Railing Post StairHt - Anchor Bo Al, Function Mp Bolts Fischer Anchor
Hilt AnchorUpat AnchorAnchor no STAN
Advance - Manual Drawing Design Page 12-7
RunName ObjQualifier ModelRoleHt - Anchor Bo Tv, Function Ht Bolts Fischer Anchor
Hilt AnchorUpat AnchorAnchor no STAN
Ht - Anchor Bo Li, Function Ht Bolts Fischer AnchorHilt AnchorUpat AnchorAnchor no STAN
Ht - Anchor Bo Nl, Function Ht Bolts Fischer AnchorHilt AnchorUpat AnchorAnchor no STAN
Ht - Anchor Bo Fr, Function Ht Bolts Fischer AnchorHilt AnchorUpat AnchorAnchor no STAN
Purlin - Al, Function Beam PurlinPurlin - Fr, Function Beam PurlinTie beam - Al, Function Beam Tie beamTie beam - Tv, Function Beam Tie beamTie beam - Li, Function Beam Tie beamTie beam - Nl, Function Beam Tie beamTie beam - Fr, Function Beam Tie beamElbow Al, Function Bent Beam ElbowBo Top - Fr, Function Bolts Bolts topBo Bottom - Fr, Function Bolts Bolts bottomVisible – Al, Function All Objects VisibleTurnbuckle-Bracing Al, Function Beam, Plates Turnbuckle-BracingStiffeners – Al, Function Plates StiffenerStiffeners – Tv, Function Plates StiffenerStiffeners – Li, Function Plates StiffenerStiffeners – Nl, Function Plates StiffenerStiffeners – Fr, Function Plates StiffenerColumns – Al, Function Beam ColumnColumns – Tv, Function Beam ColumnColumns – Li, Function Beam ColumnColumns – Nl, Function Beam ColumnColumns – Fr, Function Beam ColumnNot visible – Al, Function Alle Objekte Not visibleHaunch - Al, Function Beam HaunchBeam
Page 12-8 Advance - Manual Drawing Design
Advance - Manual Drawing Design Page 13-1
13. Defaults
General
To a certain degree the appearance of the drawings can be controlled with the defaultswithout using tables or drawing styles. With the management tool this can be done quiteeasily. In the following those defaults are listed the affect the drawing derivation.
Default Values
Drawing - General ValueDistance Arcus to each other 9Distance global arcus to geometry 20Distance global dimensions in single part details 10Distance global dimensions to geometry 20Distance local dimensions to geometry 4Distance dimensions to each other 9Distance between detail frames 10Usage of grip length increase (0=no, 1=yes) 1Detail prototype file DSCDETPROTO.DWGGenerating the template (0 = outer generated surface,1 = inner generated surface, 2 = combination)
0
General tolerance for orthogonal vectors (in degree) 1Maximum angle between view direction and bolt direction 45Scale-prefix in details MMinimum diameter for symbol presentation of bolts 2
Page 13-2 Advance - Manual Drawing Design
Drawing - General ValueMinimum size (mm) of parts to be presented on the drawing 0,5Minimum length of the template 60Only one cut for attaching parts beneath this distance. . 1000Path of the detail drawings and prefix details\DETPath to the symbol-files for the details SymbolsPresent weld joints to hidden objects (0=no, 1=yes) 1Visibilty test bolts ( 1=all, 0=only first ) 1Scaling data in the page header for single sheet processes (0=no,1=yes)
0
Connect lines to polylines (0=no, 1=yes) 0Warnings bolt length (0=no, 1=yes) 0
Drawing – Label/Dimension ValueGenerate also weld symbols for standard thickness(see also standard thickness for lines of welding )(0=no, 1=yes)
1
Dimensioning of bolt pattern with axes perpend. to view direction(0=do not provide dimensional points; 1=provide dimensionalpoints).
1
Dimension style in detail DSC_DIM_STYLE1Height axis grid text in details 4Height date text in details 3Height scale text in details 5Height weld symbols 2,5Height object name in details 2,5Height title text in single part drawings 5Height title text in overviews 5Additional label with considering the function(0=no, 1=yes)
1
Additional label with considering the type(0=no, 1=yes)
1
Arrow height in height notation 4Prefix for cutting frame SchnittPoint selection (0 =in front of, 1= behind scale text) 1Text font for details txt.shxText height in height notations 2,5Dimension hidden objects (0=no, 1=yes) 1Label hidden objects (0=no, 1=yes) 0
Advance - Manual Drawing Design Page 13-3
Drawing – Presentation ValuePresentation type of the height notation 1Presentation type for very small bolts on the drawing (0 = off, 1 =polyline original size,2 = symbol minimum size, 3 = polyline minimum size)
1
Color of object axes 1Color of object names 7Color of separating lines for longitudinal clipping 7Color of visible solid lines 50Color of symbol presentation hidden bolts 0Color of axis grids 1Color of detail frames 3Color of scale text 3Color of hidden lines 70Color of detail titles 3Color of dimensions 7Color of plane of sections in details 1Color of symbols 7Line type (longitudinal clipping) ZigzagLine type (object axes) Acad_iso04w100Line type (hidden lines) Acad_iso02w100Line type file for details DSCAcadiso.linLine type scaling factor for details 0,25Point at reference point of the guiding line (0=no, 1=yes) 0Shading of intersections HypeCutRegionPresent hidden bolt patterns (0=no, 1=yes) 1
General ValueUser key for your own data -User text for you owne data -
Plate ValueName of plate for the variable %Name BL %Thicknessx
%Lengthx%Width
Positioning ValueMain part number (0=MPSP, 1=MP) 1
Page 13-4 Advance - Manual Drawing Design
Advance – Manual Drawing Design Seite 14-1
14. Label types
In the following the principal table structure for the label styles can be seen. A blank picturefield indicates that this type does not exist, the user must generate it himself.
Name of Object Label
Picturewithout guiding line
Picturewith guiding line
Picturealong objector vertical
Text content
For labels with guiding line the text “Guid” is attached to the name of the object label, for theorientation along the object “Object”.
Additionally, in the name is mentioned the positioning strategy:G = Global (without additional angle data = 30-330°)L = Local (without additional angle data = 30-330°)TB = Top Bottom 85-95° and 265-275"LR = Left Right 175-185° and 355-5°
Example:
Plate Name PosBig Guid GLabel of plates with the name in default text height and the position number in text height5 mm. The text does not have a guiding line and is positioned global (Angle 30 – 330°)
The name of the plates can be adjusted by default (plate – name of plate). The variables%Thickness for thickness, %Length for length and %Width for width are used.
Seite 14-2 Advance – Manual Drawing Design
Anchorbolts 6M16x70
2 M20x620DSTV Anker
%BoltCount M%Diameterx%Length#Newline%Norm#Newline%Note
Off
There is no label.
AssGr PosBig
254 - 2
%Assembly - #Height(5)%PosNum
AssGr PosSm
254 - 1007
%Assembly - %PosNum
Advance – Manual Drawing Design Seite 14-3
Plate Thickness
Bl 10 Bl 10
Bl %Thickness
Plate Thickness MpPosBig
Bl 10
Bl %Thickness #Height(5)%MainPartPosNum
Plate Thickness MpPosSm
Bl 10 2
Bl %Thickness %MainPartPosNum
Plate Thickness PosBig
Bl 10 1014 Bl 10 1014
Bl %Thickness #Height(5)%PosNum
Seite 14-4 Advance – Manual Drawing Design
Plate Thickness PosSm
Bl 10 1014 Bl 10 1014
Bl %Thickness %PosNum
Plate Name
Bl 10x300x150 Bl 10x300x150
Bl%Thicknessx%Lengthx%Width
Plate Name PosBig
Bl 10x300x150 1014 Bl 10x300x150 1014
Bl%Thicknessx%Lengthx%Width #Height(5)%PosNum
Plate Name PosSm
Bl 10x300x150 1014 Bl 10x300x150 1014
Bl%Thicknessx%Lengthx%Width %PosNum
Advance – Manual Drawing Design Seite 14-5
Plate NameMat PosBig
Bl 10x300x150-S235JRG2 1014
Bl%Thicknessx%Lengthx%Width-%Material #Height(5)%PosNum
SpPos MpPos
HPos: 2EPos: 1014
EPos: %SinglePartPosNum#NewlineHPos: %PosNum
SpPosSm
1014%SinglePartPosNum
Threaded hole
(Rechtsgewinde) < 45
Gewindelochø18x5
%Role#Newlineø%Diameterx%SunkDepth#Newline(%Tapping)<%Alpha_e
Seite 14-6 Advance – Manual Drawing Design
Height notation
Height notations are generated by inserting the block dsc_heightkote or dsc_heightkote_u.By modifying the dwg in the directory Advance / Support / Symbols the appearance of the
symbol can be adjusted.
MpPosBig
2#Height(5)%MainPartPosNum
MpPosSm
2%MainPartPosNum
Stud shear Stsh ø19x90
KB ø16x75 KB ø16x75
6x75
Stsh ø%Diameterx%Length
Advance – Manual Drawing Design Seite 14-7
Center punch
Center Marks are presented as small + in the drawing deductionand are labeled with the normal text "Center punch".
Center punch
Slotted holes 6SH ø18-40
2LL ø18-40
2LL ø18-40%BoltCountSH ø%Diameter-%Length
Slotted holes 6ø18-40
2ø18-40 2ø18-40 2ø18
-40
%BoltCountø%Diameter-%Length
Holes 6ø17
2ø18 2ø18
2ø18
%BoltCountø%Diameter
Seite 14-8 Advance – Manual Drawing Design
Holes D17
D18 D18D%Diameter
Holes ø17
ø18 ø18ø%Diameter
PosBig
2 2#Height(5)%PosNum
PosSm
2 2%PosNum
Advance – Manual Drawing Design Seite 14-9
PosSm Vertical
%PosNum
Section Name
HEA100 HEA100%ProfName
Section Name MpPosBig
HEA100 2%ProfName #Height(5)%MainPartPosNum
Section Name MpPosSm
HEA100 2%ProfName %MainPartPosNum
Seite 14-10 Advance – Manual Drawing Design
Section Name PosBig
HEA100 2 HEA100 2%ProfName #Height(5)%PosNum
Section Name PosSm
HEA100 2 HEA100 2%ProfName %PosNum
Section NameDen PosBig
HEA100 Riegel 2%ProfName %Denotation #Height(5)%PosNum
Section NameAssGr PosBig
HEA100 - 254 2%ProfName - %Assembly #Height(5)%PosNum
Advance – Manual Drawing Design Seite 14-11
Section NameLength PosBig
HEA100-500 2 HEA100-500 2%ProfName-%Length #Height(5)%PosNum
Section NameLength PosSm
HEA100-500 2 HEA100-500 2%ProfName-%Length %PosNum
Section NameLengthMat PosBig
HEA100-500 S235JRG2 2
%ProfName-%Length %Material #Height(5)%PosNum
Blind hole
Sacklochø18x5 ø23
%Role#Newlineø%Diameterx%SunkDepth ø%HeadDiameter
Seite 14-12 Advance – Manual Drawing Design
Bolts 6M16x70
2 M16x45 2 M16x45%BoltCount M%Diameterx%Length
Bolts 6M16x70 10.9
2 M16x45 10.9
2 M16x45 10.9%BoltCount M%Diameterx%Length %Material
Bolts 6M16x70 STAN 6914
DIN 69142 M16x45
DIN 69142 M16x45
914
6x45
%BoltCount M%Diameterx%Length#NewlineDIN %Norm
Bolts 6M16x70 STAN 6914 10.9
DIN 6914 10 92 M16x45
%BoltCount M%Diameterx%Length#NewlineDIN %Norm %Material
Advance – Manual Drawing Design Seite 14-13
Bolts 6M16x70 STAN 6914 Note
DIN 69142 M16x45
DIN 69142 M16x45
%BoltCount M%Diameterx%Length#NewlineDIN %Norm#Newline%Note
Bolts 6ø17
2ø18 2ø18%BoltCountø%HoleDiameter
Bolts 6ø17 Note
2ø18Fv=1 0
%BoltCountø%HoleDiameter#Newline%Note
Bolts D17
D18 D18D%HoleDiameter
Bolts M16x70
Seite 14-14 Advance – Manual Drawing Design
M16x45 M16x45M%Diameterx%Length
Bolts ø17
ø18 ø18ø%HoleDiameter
Line of welding
The presentation of the lines of welding cannot be affected.
Countersunk hole
Senklochø18x5 < 45
%Role#Newlineø%Diameterx%SunkDepth < %Alpha_e
Advance – Manual Drawing Design Seite 15-1
15. Dimension Styles
Dimension lines
Below the principle table structure for the dimensional styles can be seen.
Name of Object Dimensioning
Bild
Dimensioned points from DetViewDimPointSelection
Abkürzung BedeutungMp X - Orientation of the dimension chain in X-orientation of main element Mp Y - Orientation of the dimension chain in Y-orientation of main element View X - Orientation of the dimension chain in X-orientation of view (horizontal)View Y - Orientation of the dimension chain in Y-orientation of view (vertical)BentBea X - Orientation of the dimension chain in X-orientation of bended beamBentBea Y - Orientation of the dimension chain in Y-orientation of bended beamEp X - Orientation of the dimension chain in X-orientation of view (horizontal),
reference to end plate with function Ep Y - Orientation of the dimension chain in Y-orientation of view (vertical),
reference to end plate with function Obj X - Orientation of the dimension chain in X-orientation of an object.Obj Y - Orientation of the dimension chain in Y-orientation of an object.
For bent beams also Mp X can be used. As dimensional type you must then use Arcus.
Seite 15-2 Advance – Manual Drawing Design
View X – AttPa GTA
AttBea – Extreme Al / AttPl – Extreme Al / Ref. Mp – Extreme
View X – Rail Post+End GBA
Rail – Post Landing Sy Al, Function / Rail – Post Stair Sy Al, Function / Rail – End LandingSy Al, Function / Rail – End Stair Sy Al, Function / Mp - Colli
View X – Rail Post+Fd GBA
Rail – Post Landing Sy Al, Function / Rail – Post Stair Sy Al, Function / Rail – Fd LandingSy, Function / Rail – Fd Stair Sy, Function / Mp - Colli
Advance – Manual Drawing Design Seite 15-3
View X – Grid GTA
Grid
View X – Grid GBA
Grid
View X – Bo+Ho Tv GTA
Bo – Tv / Ho – Tv / Grid
Seite 15-4 Advance – Manual Drawing Design
View X – BeamSystem GTA
Mp - Beam Sy / Grid
View X – BeamSystem GTA
Mp - Beam Sy / Grid
View X – Bracing GTA
Turnbuckle Bracing Extreme / Ho – Tv / Bo – Tv
Advance – Manual Drawing Design Seite 15-5
View Y – AttPa GTA
AttBea – Extreme Al / AttPl – Extreme Al / Ref. Mp - Extreme
View Y – Rail Hr+Post+End+Bp+Bb Landing GBA
Rail – Hr Landing Sy Al, Function / Rail – Hr Landing Extreme Al R, Function / Rail – PostLanding Extreme Al L, Function / Rail – End Landing Sy, Function / Rail – Bp LandingExtreme Al, Function / Rail – Bb Landing Extreme Al, Function
View Y – Grid GTA
Grid
Seite 15-6 Advance – Manual Drawing Design
View Y – Grid GBA
Grid
View Y – Bo+Ho Tv GBA
Bo – Tv / Ho – Tv / Grid
View Y – BeamSystem GTA
Mp - Beam System / Grid
Advance – Manual Drawing Design Seite 15-7
View Y – BeamSystem GBA
Mp - Beam System / Grid
Ep X – Mp GTA
Mp – Extreme / Ref. Ep - Extreme Tv, Function
Ep X – Mp GBA
Mp – Extreme / Ref. Ep - Extreme Tv, Function
Seite 15-8 Advance – Manual Drawing Design
Ep X – Bo Tv GTA
Bo – Tv / Ref. Ep - Extreme Tv, Function
Ep X – Bo Tv GBA
Bo – Tv / Ref. Ep - Extreme Tv, Function
Ep X – Bo+Ho Tv GTA
Ho – Tv / Bo – Tv / Ref. Ep - Extreme Tv, Function
Advance – Manual Drawing Design Seite 15-9
Ep X – Bo+Ho Tv GBA
Ho – Tv / Bo – Tv / Ref. Ep - Extreme Tv, Function
Ep Y – Mp GTA
Mp – Extreme / Ref. Ep - Extreme Tv, Function
Ep Y – Mp GBA
Mp – Extreme / Ref. Ep - Extreme Tv, Function
Seite 15-10 Advance – Manual Drawing Design
Ep Y – Bo Tv GTA
Bo – Tv / Ref. Ep - Extreme Tv, Function
Ep Y – Bo Tv GBA
Bo – Tv / Ref. Ep - Extreme Tv, Function
Ep Y – Bo+Ho Tv GTA
Ho – Tv / Bo – Tv / Ref. Ep - Extreme Tv, Function
Advance – Manual Drawing Design Seite 15-11
Ep Y – Bo+Ho Tv GBA
Ho – Tv / Bo – Tv / Ref. Ep - Extreme Tv, Function
BentBea X – Mp Bo+Ho Fr LBA
Mp – Bo+Ho Fr / Ref. BentBea Außen, All / Ref. BentBea Innen, All
BentBea X – Contour LBA
Mp – Contour / Ref. Mp - Extreme
Seite 15-12 Advance – Manual Drawing Design
BentBea Y – AttPa Extreme+Bo+Ho Tv LBS
AttPa – Extreme Al / Ref. BentBea Außen, All / Ref. BentBea Innen, All
BentBea Y – Mp Proc LTS
Mp - Proc Einzeln / Ref. BentBea Außen, All / Ref. BentBea Innen, All
BentBea Y – Mp Ho LBS
Mp – Ho Tv / Ref. BentBea Außen, All / Ref. BentBea Innen, All
Advance – Manual Drawing Design Seite 15-13
BentBea Y – Mp Bo LBS
Mp – Bo Tv / Ref. BentBea Außen, All / Ref. BentBea Innen, All
BentBea Y – Stsh Tv LBS
Stsh - Tv / Ref. BentBea Außen, All / Ref. BentBea Innen, All
Mp X – AttPl Extreme GTA
AttPl – Extreme Al / Ref. Mp – Extreme
Seite 15-14 Advance – Manual Drawing Design
Mp X – AttPl Extreme GBA
AttPl – Extreme Al / Ref. Mp – Extreme
Mp X – AttPa Extreme GTA
AttPa – Extreme Al / Ref. Mp – Extreme
Mp X – AttPa Extreme GBA
AttPa – Extreme Al / Ref. Mp – Extreme
Advance – Manual Drawing Design Seite 15-15
Mp X – AttPa Extreme+Bo+Ho Tv GTA
AttPa - Bo Tv / AttPa - Ho Tv / AttPl - Extreme Tv / Stiffeners - Extreme Al, Function /AttBea - Extreme Al / Ref. Mp - Extreme
Mp X – AttPa Extreme+Bo+Ho Tv GBA
AttPa - Bo Tv / AttPa - Ho Tv / AttPl - Extreme Tv / Stiffeners - Extreme Al, Function /AttBea - Extreme Al / Ref. Mp - Extreme
Mp X – AttPa Top GTA
Mp – AttPa, Top / Ref. Mp – Extreme
Seite 15-16 Advance – Manual Drawing Design
Mp X – AttPa Bo Tv GTA
AttPa – Bo Tv / Ref. Mp – Extreme
Mp X – AttPa Bo Tv GBA
AttPa – Bo Tv / Ref. Mp – Extreme
Mp X – AttPa Bo+Ho Tv GTA
AttPa – Bo Tv / AttPa – Ho Tv / Ref. Mp – Extreme
Advance – Manual Drawing Design Seite 15-17
Mp X – AttPa Bo+Ho Tv GBA
AttPa – Bo Tv / AttPa – Ho Tv / Ref. Mp – Extreme
Mp X – AttPa Bottom GBA
Mp – AttPa, Bottom / Ref. Mp – Extreme
Mp X – AttBea Extreme GTA202 246 611 100 77 100 66 188 54 188 599 100 136 128 57
AttBea – Extreme Al / Ref. Mp – Extreme
Seite 15-18 Advance – Manual Drawing Design
Mp X – AttBea Extreme GBA
AttBea – Extreme Al / Ref. Mp – Extreme
Mp X – Proc GTA
Mp – Proc / Ref. Mp – Extreme
Mp X – Proc GBA
Mp – Proc / Ref. Mp – Extreme
Advance – Manual Drawing Design Seite 15-19
Mp X – Proc Top GTA
Mp - Proc All, Top / Ref. Mp – Extreme
Mp X – Proc Bottom GBA
Mp - Proc All, U / Ref. Mp – Extreme
Mp X – Proc+Contour GTA
Mp – Proc / Mp – Contour / Ref. Mp – Extreme
Seite 15-20 Advance – Manual Drawing Design
Mp X – Proc+Contour GBA
Mp – Proc / Mp – Contour / Ref. Mp – Extreme
Mp X – Proc+Contour Top GTA
Mp – Proc, Top / Mp – Contour, Top / Ref. Mp – Extreme
Mp X – Proc+Contour Bottom GBA
Mp – Proc, Bottom / Mp – Contour, Bottom / Ref. Mp – Extreme
Advance – Manual Drawing Design Seite 15-21
Mp X – Extreme GTA
Mp – Extreme
Mp X – Extreme GBA
Mp – Extreme
Mp X – Extreme+Ep Li GTA
Mp – Extreme / Ep – Extreme Li, Function
Seite 15-22 Advance – Manual Drawing Design
Mp X – Extreme+Ep Li GBA
Mp – Extreme / Ep – Extreme Li, Function
Mp X – Extreme+Ep Fr GTA
Ep – Extreme Fr, Function / Mp – Extreme
Mp X – Extreme+Ep Fr GBA
Ep – Extreme Fr, Function / Mp – Extreme
Advance – Manual Drawing Design Seite 15-23
Mp X – Extreme+System GTA
Mp – Extreme / Ref. Mp – System
Mp X – Extreme+System GBA
Mp – Extreme / Ref. Mp – System
Mp X – Mp Ho Tv GTA
Mp – Ho Tv / Ref. Mp – Extreme
Seite 15-24 Advance – Manual Drawing Design
Mp X – Mp Ho Tv GBA
Mp – Ho Tv / Ref. Mp – Extreme
Mp X – Mp Bo GTA
Mp – Bo / Ref. Mp – Extreme
Mp X – Mp Bo GBA
Mp – Bo / Ref. Mp – Extreme
Advance – Manual Drawing Design Seite 15-25
Mp X – Mp Bo Al Top GTA
Mp - Bo, Top / Ref. Mp – Extreme
Mp X – Mp Bo Al Bottom GBA
Mp - Bo, Bottom / Ref. Mp – Extreme
Mp X – Mp Bo Tv GTA
Mp – Bo Tv / Ref. Mp – Extreme
Seite 15-26 Advance – Manual Drawing Design
Mp X – Mp Bo Tv GBA
Mp – Bo Tv / Ref. Mp – Extreme
Mp X – Mp Bo Fr GTA
Mp – Bo Fr / Ref. Mp – Extreme
Mp X – Mp Bo Fr GBA
Mp – Bo Fr / Ref. Mp – Extreme
Advance – Manual Drawing Design Seite 15-27
Mp X – Mp Bo+Ho Tv GTA
Mp – Bo+Ho Tv / Slotted holes / Ref. Mp – Extreme
Mp X – Mp Bo+Ho Tv GBA
Mp – Bo+Ho Tv / Slotted holes / Ref. Mp – Extreme
Mp X – Mp Bo+Ho Fr GTA
Mp – Bo+Ho Fr / Ref. Mp – Extreme
Seite 15-28 Advance – Manual Drawing Design
Mp X – Mp Bo+Ho Fr GBA
Mp – Bo+Ho Fr / Ref. Mp – Extreme
Mp X – Stsh Tv GTA
Stsh – Tv / Ref. Mp – Extreme
Mp X – Stsh Tv GBA
Stsh – Tv / Ref. Mp – Extreme
Advance – Manual Drawing Design Seite 15-29
Mp X – Stsh Fr GTA
Stsh – Fr / Ref. Mp – Extreme
Mp X – Stsh Fr GBA
Stsh – Fr / Ref. Mp – Extreme
Mp X – Colli GTA
Mp - Colli
Seite 15-30 Advance – Manual Drawing Design
Mp X – Colli GBA
Mp - Colli
Mp X – Contour GTA
Mp – Contour / Ref. Mp – Extreme
Mp X – Contour GBA
Mp – Contour / Ref. Mp – Extreme
Advance – Manual Drawing Design Seite 15-31
Mp X – Contour Top GTA
Mp – Contour, Top / Ref. Mp – Extreme
Mp X – Contour Bottom GBA
Mp – Contour, Bottom / Ref. Mp – Extreme
Mp X – Template reference point GTA
Template reference point / Ref. Mp – Extreme
Seite 15-32 Advance – Manual Drawing Design
Mp X – Template reference point GBA
Template reference point / Ref. Mp – Extreme
Mp X – Bo+Ho Tv GTA
Bo – Tv / Ho – Tv / Ref. Mp - Extreme
Mp X – Bo+Ho Tv GBA
Bo – Tv / Ho – Tv / Ref. Mp - Extreme
Advance – Manual Drawing Design Seite 15-33
Mp X – Stiffeners Extreme Fr GTA
Stiffeners – Extreme Fr, Function / Ref. Mp – Extreme
Mp X – Stiffeners Extreme Fr GBA
Stiffeners – Extreme Fr, Function / Ref. Mp – Extreme
Mp Y – AttPl Extreme Tv LTS
AttPl - Extreme Tv / Ref. Mp - Extreme
Seite 15-34 Advance – Manual Drawing Design
Mp Y – AttPl Extreme Tv LBS
AttPl - Extreme Tv / Ref. Mp - Extreme
Mp Y – AttPl Extreme Fr LTS
AttPl - Extreme Fr / Ref. Mp - Extreme
Mp Y – AttPl Extreme Fr LBS
AttPl - Extreme Fr / Ref. Mp - Extreme
Advance – Manual Drawing Design Seite 15-35
Mp Y – AttPl Extreme Fr Function LTS
AttPl - Extreme Fr, Function / Ref. Mp - Extreme
Mp Y – AttPa Extreme Al LTS
AttPa - Extreme Al / Ref. Mp - Extreme
Mp Y – AttPa Extreme Al LBS
AttPa - Extreme Al / Ref. Mp - Extreme
Seite 15-36 Advance – Manual Drawing Design
Mp Y – AttPa Extreme Al Function LTS
AttPa - Extreme Al, Function / Ref. Mp - Extreme
Mp Y – AttPa Extreme Al Function LBS
AttPa - Extreme Al, Function / Ref. Mp - Extreme
Mp Y – AttPa Bo Tv GTA
AttPa – Bo Tv / Ref. Mp - Extreme
Advance – Manual Drawing Design Seite 15-37
Mp Y – AttPa Bo Tv GBA
AttPa – Bo Tv / Ref. Mp - Extreme
Mp Y – AttPa Bo Tv LTS
AttPa - Bo Tv / Ref. Mp – Extreme
Mp Y – AttPa Bo Tv LBS
AttPa - Bo Tv / Ref. Mp – Extreme
Seite 15-38 Advance – Manual Drawing Design
Mp Y – AttPa Bo Tv Center LTS
AttPa - Bo Tv / Ref. Mp – Center
Mp Y – AttPa Bo Tv Center LBS
AttPa - Bo Tv / Ref. Mp – Center
Mp Y – AttBea Extreme LTS
AttBea - Extreme Al / Ref. Mp - Extreme
Advance – Manual Drawing Design Seite 15-39
Mp Y – AttBea Extreme LBS
AttBea - Extreme Al / Ref. Mp - Extreme
Mp Y – Proc Left GBA
Mp - Proc All, Left / Ref. Mp – Extreme
Mp Y – Proc LTS
Mp - Proc Single / Ref. Mp – Extreme
Seite 15-40 Advance – Manual Drawing Design
Mp Y – Proc LBS
Mp - Proc Single / Ref. Mp – Extreme
Mp Y – Proc Top GTA
Mp - Proc All, Top / Ref. Mp – Extreme Bottom
Mp Y – Proc Right GTA
Mp - Proc All, Right / Ref. Mp – Extreme
Advance – Manual Drawing Design Seite 15-41
Mp Y – Proc Bottom GTA
Mp - Proc All, Bottom / Ref. Mp – Extreme Bottom
Mp Y – Proc+Contour Top GTA
Mp - Proc All, Top / Mp – Contour, Top / Ref. Mp – Extreme Bottom
Mp Y – Proc+Contour Bottom GBA
Mp - Proc All, Bottom / Mp – Contour, Bottom / Ref. Mp – Extreme, Bottom
Seite 15-42 Advance – Manual Drawing Design
Mp Y – Extreme GTA
Mp – Extreme
Mp Y – Extreme GBA
Mp – Extreme
Mp Y – Mp Ho Tv LTS
Mp - Ho Tv / Ref. Mp - Extreme
Advance – Manual Drawing Design Seite 15-43
Mp Y – Mp Ho Tv LBS
Mp - Ho Tv / Ref. Mp - Extreme
Mp Y – Mp Ho Tv Center LTS
Mp - Ho Tv / Ref. Mp - Center
Mp Y – Mp Ho Tv Center LBS
Mp - Ho Tv / Ref. Mp - Center
Seite 15-44 Advance – Manual Drawing Design
Mp Y – Mp Ho Tv Right LTS
Mp - Ho Tv / Ref. Mp – Extreme, Right
Mp Y – Mp Ho Tv Right LBS
Mp - Ho Tv / Ref. Mp – Extreme, Right
Mp Y – Mp Bo Tv LTS
Mp - Bo Tv / Ref. Mp - Extreme
Advance – Manual Drawing Design Seite 15-45
Mp Y – Mp Bo Tv LBS
Mp - Bo Tv / Ref. Mp - Extreme
Mp Y – Mp Bo Tv Center LTS
Mp - Bo Tv / Ref. Mp - Center
Mp Y – Mp Bo Tv Center LBS
Mp - Bo Tv / Ref. Mp - Center
Seite 15-46 Advance – Manual Drawing Design
Mp Y – Mp Bo Tv Right LTS
Mp - Bo Tv / Ref. Mp – Extreme, Right
Mp Y – Mp Bo Tv Right LBS
Mp - Bo Tv / Ref. Mp – Extreme, Right
Mp Y – Mp Bo+Ho Tv GTA
Mp – Ho Tv / Mp - Bo Tv / Ref. Mp – Extreme
Advance – Manual Drawing Design Seite 15-47
Mp Y – Mp Bo+Ho Tv GBA
Mp – Ho Tv / Mp - Bo Tv / Ref. Mp – Extreme
Mp Y – Stsh Tv LTS
Stsh – Tv / Ref. Mp - Extreme
Mp Y – Stsh Tv LBS
Stsh – Tv / Ref. Mp - Extreme
Seite 15-48 Advance – Manual Drawing Design
Mp Y – Stsh Tv Center LTS
Stsh – Tv / Ref. Mp - Center
Mp Y – Stsh Tv Center LBS
Stsh – Tv / Ref. Mp - Center
Mp Y – Colli GTA
Mp - Colli
Advance – Manual Drawing Design Seite 15-49
Mp Y – Colli GBA
Mp - Colli
Mp Y – Contour Left GTA
Mp – Contour, Left / Ref. Mp – Extreme, Top
Mp Y – Contour Top GTA
Mp – Contour, Top / Ref. Mp – Extreme
Seite 15-50 Advance – Manual Drawing Design
Mp Y – Contour Right GBA
Mp – Contour, Right / Ref. Mp – Extreme, Top
Mp Y – Contour Bottom GBA
Mp – Contour, Bottom / Ref. Mp – Extreme
Mp Y – Ho Tv LTS
Ho - Tv / Ref. Mp – Extreme
Advance – Manual Drawing Design Seite 15-51
Mp Y – Ho Tv LBS
Ho - Tv / Ref. Mp – Extreme
Mp Y – Ho Tv Center LTS
Ho - Tv / Ref. Mp – Center
Mp Y – Ho Tv Center LBS
Ho - Tv / Ref. Mp – Center
Seite 15-52 Advance – Manual Drawing Design
Mp Y – Bo Tv LTS
Bo – Tv / Ref. Mp - Extreme
Mp Y – Bo Tv LBS
Bo – Tv / Ref. Mp - Extreme
Mp Y – Bo Tv Center LTS
Bo – Tv / Ref. Mp - Center
Advance – Manual Drawing Design Seite 15-53
Mp Y – Bo Tv Center LBS
Bo – Tv / Ref. Mp - Center
Mp Y – Bo+Ho Tv GTA
Bo – Tv / Ho – Tv / Ref. Mp - Extreme
Mp Y – Bo+Ho Tv GBA
Bo – Tv / Ho – Tv / Ref. Mp - Extreme
Seite 15-54 Advance – Manual Drawing Design
Obj Y – Rail Hr+Kr+Bp Landing LBA
Rail – Hr Landing Extreme Al R, Function / Rail – Kr Landing Sy Al / Function, Rail – BpLanding Extreme Al, Function
Obj Y – Rail Hr+Kr+Bp Stair LBA
Rail – Hr Stair Extreme Al R, Function / Rail – Kr Stair Sy Al, Function / Rail – Bp StairExtreme Al, Function
Obj Y – Rail Landing Height GTA
Rail – Hr Landing Extreme Al R, Function / Rail – Bp Landing Extreme Al L, Function
Advance – Manual Drawing Design Seite 15-55
Obj Y – Rail Landing Height GBA
Rail – Hr Landing Extreme Al R, Function / Rail – Bp Landing Extreme Al L, Function
Seite 15-56 Advance – Manual Drawing Design
Dimension strategies
Off
Dimension type Dimension definition
Compression pipe
Dimension type Dimension definition
Linear Mp X – AttPa Extreme+Bo+Ho Tv GTA
Linear Mp X – Bo+Ho Tv GTA
Linear Mp Y – Bo Tv LTS
Linear Mp Y – Ho Tv LTS
End plates
Dimension type Dimension definition
Linear Ep X – Bo+Ho Tv GTA
Linear Ep X – Mp GTA
Linear Ep Y – Bo+Ho Tv GTA
Linear Ep Y – Mp GTA
Advance – Manual Drawing Design Seite 15-57
Sp Plate
Dimension type Dimension definition
Linear Mp X – Bo+Ho Tv GTA
Linear Mp X – Proc+Contour Top GTA
Linear Mp X – Stsh Tv GBA
Linear Mp X – Proc+Contour Bottom GBA
Linear Mp X – Extreme GBA
Linear Mp Y – Bo+Ho Tv GTA
Linear Mp Y – Proc+Contour Top GTA
Linear Mp Y – Proc+Contour Bottom GBA
Linear Mp Y – Extreme GBA
Radial Mp X – Contour GTA
Sp BentBeam
Dimension type Dimension definition
ArcLength Mp X – Mp Bo+Ho Tv GTA
ArcLength Mp X – Stsh Tv GTA
ArcLength Mp X – Proc+Contour GTA
ArcLength Mp X – Extreme GTA
Linear BentBea Y – Mp Ho LBS
Linear BentBea Y – Mp Bo LBS
Linear BentBea Y – Stsh Tv LBS
Linear BentBea Y – Mp Proc LTS
Linear Mp X – Extreme GBA
Linear Mp Y – Extreme GTA
Radial Mp X – Contour GBA
Seite 15-58 Advance – Manual Drawing Design
Sp Beam
Dimension type Dimension definition
Linear Mp X – Mp Bo+Ho Tv GTA
Linear Mp X – Proc+Contour Top GTA
Linear Mp X – Proc+Contour Bottom GBA
Linear Mp X – Stsh Tv GBA
Linear Mp X – Template reference point GBA
Linear Mp X – Extreme GBA
Linear Mp Y – Ho Tv LTS
Linear Mp Y – Bo Tv LTS
Linear Mp Y – Stsh Tv LTS
Linear Mp Y – Proc LTS
Linear Mp Y – Contour Top GTA
Linear Mp Y – Contour Bottom GBA
Radial Mp X – Contour GTA
Sp Beam Top
Dimension type Dimension definition
Linear Mp X – Mp Bo+Ho Tv GTA
Linear Mp X – Proc+Contour Top GTA
Linear Mp X – Proc+Contour Bottom GBA
Linear Mp X – Stsh Tv GBA
Linear Mp X – Template reference point GBA
Linear Mp X – Extreme GBA
Linear Mp Y – Ho Tv Re LTS
Linear Mp Y – Bo Tv Re LTS
Linear Mp Y – Stsh Tv Re LTS
Linear Mp Y – Proc LTS
Linear Mp Y – Contour Top GTA
Linear Mp Y – Contour Bottom GBA
Radial Mp X – Contour GTA
Advance – Manual Drawing Design Seite 15-59
Picket railing
Dimension type Dimension definition
Linear View X – Rail Post+Fd GBA
Linear View X – Rail Post+End GBA
Linear Mp X – Colli GBA
Linear View Y – Rail Hr+Post+End+Bp+Bb Landing GBA
Linear Mp Y – Colli GBA
Linear Obj Y – Rail Hr+Kr+Bp Stair LBA
Linear Obj Y – Rail Hr+Kr+Bp Landing LBA
Linear Obj Y – Rail Landing Height GTA
Linear Obj Y – Rail Stair Height GBA
Mainpart
Dimension type Dimension definition
Linear Mp X – Mp Bo+Ho Tv GTA
Linear Mp X – Proc+Contour Top GTA
Linear Mp X – Extreme+Ep Li GTA
Linear Mp X – Proc+Contour Bottom GBA
Linear Mp X – AttPa Extreme+Bo+Ho Tv GBA
Linear Mp X – Stsh Tv GBA
Linear Mp Y – Contour Top GTA
Linear Mp Y – Contour Bottom GBA
Linear Mp Y – Proc LTS
Linear Mp Y – AttPa Extreme Al Function LTS
Linear Mp Y – Ho Tv LTS
Linear Mp Y – Bo Tv LTS
Linear Mp Y – Stsh Tv LTS
Radial Mp X – Contour GTA
Seite 15-60 Advance – Manual Drawing Design
Mp Top
Dimension type Dimension definition
Linear Mp X – Mp Bo+Ho Tv GTA
Linear Mp X – Proc+Contour Top GTA
Linear Mp X – Extreme+Ep Li GTA
Linear Mp X – Proc+Contour Bottom GBA
Linear Mp X – AttPa Extreme+Bo+Ho Tv GBA
Linear Mp X – Stsh Tv GBA
Linear Mp Y – Contour Top GTA
Linear Mp Y – Contour Bottom GBA
Linear Mp Y – Proc LTS
Linear Mp Y – AttPa Extreme Al Function LTS
Linear Mp Y – Mp Ho Tv Re LTS
Linear Mp Y – Mp Bo Tv Re LTS
Linear Mp Y – AttPa Ho Tv LTS
Linear Mp Y – AttPa Bo Tv LTS
Linear Mp Y – Stsh Tv Re LTS
Radial Mp X – Contour GTA
Railing
Dimension type Dimension definition
Linear View X – Rail Post+End GBA
Linear Mp X – Colli GBA
Linear View Y – Rail Hr+Post+End+Bp+Bb Landing GBA
Linear Mp Y – Colli GBA
Linear Obj Y – Rail Hr+Kr+Bp Stair LBA
Linear Obj Y – Rail Hr+Kr+Bp Landing LBA
Linear Obj Y – Rail Landing Height GTA
Linear Obj Y – Rail Stair Height GBA
Advance – Manual Drawing Design Seite 15-61
Mp Flange
Dimension type Dimension definition
Linear Mp X – Mp Bo+Ho Tv GTA
Linear Mp X – AttPa Extreme+Bo+Ho Tv GTA
Linear Mp X – Stsh Tv GBA
Linear Mp X – Proc+Contour GBA
Linear Mp Y – Contour Top GTA
Linear Mp Y – Contour Bottom GBA
Linear Mp Y – Proc LTS
Linear Mp Y – AttPa Extreme Al Function LTS
Linear Mp Y – Ho Tv LTS
Linear Mp Y – Bo Tv LTS
Linear Mp Y – Stsh Tv LTS
Radial Mp X – Contour GTA
Mp Flange Center
Dimension type Dimension definition
Linear Mp X – Mp Bo+Ho Tv GTA
Linear Mp X – AttPa Extreme+Bo+Ho Tv GTA
Linear Mp X – Stsh Tv GBA
Linear Mp X – Proc+Contour GBA
Linear Mp Y – Contour Top GTA
Linear Mp Y – Contour Bottom GBA
Linear Mp Y – Proc LTS
Linear Mp Y – AttPa Extreme Al Function LTS
Linear Mp Y – Ho Tv Center LTS
Linear Mp Y – Bo Tv Center LTS
Linear Mp Y – Stsh Tv LTS
Radial Mp X – Contour GTA
Seite 15-62 Advance – Manual Drawing Design
Mp BentBeam
Dimension type Dimension definition
Linear Mp X – Mp Bo+Ho Tv GTA
Linear Mp X – AttPa Extreme+Bo+Ho Tv GTA
Linear Mp X – Stsh Tv GTA
Linear Mp X – Proc+Contour GTA
Linear Mp X – Extreme+Ep Fr GTA
Linear BentBea Y – AttPa Extreme+Bo+Ho+Tv LBS
Linear BentBea Y – Mp Ho LBS
Linear BentBea Y – Mp Bo LBS
Linear BentBea Y – Stsh Tv LBS
Radial Mp X – Contour GTA
Mp Intersection
Dimension type Dimension definition
Linear View X – AttPa GTA
Linear View Y – AttPa GTA
Mp System
Dimension type Dimension definition
Linear Mp X – Mp Bo+Ho Tv GTA
Linear Mp X – Proc+Contour Top GTA
Linear Mp X – Extreme+System GTA
Linear Mp X – Proc+Contour Bottom GBA
Linear Mp X – AttPa Extreme+Bo+Ho Tv GBA
Linear Mp X – Stsh Tv GBA
Linear Mp Y – Contour Top GTA
Linear Mp Y – Contour Bottom GBA
Linear Mp Y – Proc LTS
Linear Mp Y – AttPa Extreme Al Function LTS
Linear Mp Y – Ho Tv LTS
Linear Mp Y – Bo Tv LTS
Linear Mp Y – Stsh Tv LTS
Radial Mp X – Contour GTA
Advance – Manual Drawing Design Seite 15-63
Grid
Dimension type Dimension definition
Linear View X – Grid GBA
Linear View Y – Grid GTA
Grid Bolts
Dimension type Dimension definition
Linear View X – Grid GBA
Linear View X – Bo+Ho Tv GTA
Linear View Y – Grid GTA
Linear View Y – Bo+Ho Tv GBA
Grid BeamSystem
Dimension type Dimension definition
Linear View X – BeamSystem GBA
Linear View X – Grid GBA
Linear View Y – BeamSystem GTA
Linear View Y – Grid GTA
Template
Dimension type Dimension definition
Linear Mp Y – Bo+Ho Tv GTA
Linear Mp X – Stiffeners Extreme Fr GBA
Crossbracing
Dimension type Dimension definition
Linear View X – Bracing GTA
Linear View X – Bo+Ho Tv GTA
Seite 15-64 Advance – Manual Drawing Design
Advance – Manual Drawing Design Seite 16-1
16. Presentation Rules
In the following, the presentation rules available in the standard version will be listed. If apresentation rule is used, the request will be given under the respective table. Also therelated drawing styles are assgned. They are described in details in the manual DrawingDesign.
All, without welding lines
Model Object Presentation Type Label Type
Welding line – Al Off Off
Grid Grid Off
All Default Off
View V – MP NamePosGrGuid
Model Object Presentation Type Label Type
Not Visible – Al, Function Off Off
Mp – Beams Al Visible Section Name MpPosBig S30 Guid G
Mp – Plate Al Visible Plate Thickness MpPosBig S30 Guid G
Mp – BentBea Al Visible Section Name MpPosBig S30 Guid G
AttBea – Al Visible Off
AttPl – Al Visible Off
AttBentBea – Al Visible Off
Beams – Al Visible Off
Plates – Al Visible Off
Special parts Visible Off
Grid Grid Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al Visible Off
Is used in request and drawing style:View V – NoDim Mp NamePosGrGuid 1:20 CO Intersection V 500 – NoDim Mp NamePosGrGuid 1:20 CX
Seite 16-2 Advance – Manual Drawing Design
View V – MP NamePosKlGuid
Model Object Presentation Type Label Type
Not Visible – Al, Function Off Off
Mp – Beams Al Visible Section Name MpPosSm S30 Guid G
Mp – Plate Al Visible Plate Thickness MpPosSm S30 Guid G
Mp – BentBea Al Visible Section Name MpPosSm S30 Guid G
AttBea – Al Visible Off
AttPl – Al Visible Off
AttBentBea – Al Visible Off
Beams – Al Visible Off
Plates – Al Visible Off
Special parts Visible Off
Grid Grid Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al Visible Off
Is used in request and drawing style:View V – NoDim Mp NamePosKlGuid 1:20 CO 1 3Intersection V 500 – NoDim Mp NamePosKlGuid 1:20 CX 8 3
View V – MP PosGrGuid
Model Object Presentation Type Label Type
Not Visible – Al, Function Off Off
Mp – Beams Al Visible MpPosBig S30 Guid G
Mp – Plate Al Visible MpPosBig S30 Guid G
Mp – BentBea Al Visible MpPosBig S30 Guid G
AttBea – Al Visible Off
AttPl – Al Visible Off
AttBentBea – Al Visible Off
Beams – Al Visible Off
Plates – Al Visible Off
Special parts Visible Off
Grid Grid Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al Visible Off
Is used in request and drawing style:Intersection V 500 – NoDim Mp PosGrGuid 1:20 CX View V – NoDim Mp PosGrGuid 1:20 CO
Advance – Manual Drawing Design Seite 16-3
View V – MP PosKlGuid
Model Object Presentation Type Label Type
Not Visible – Al, Function Off Off
Mp – Beams Al Visible MpPosSm S30 Guid G
Mp – Plate Al Visible MpPosSm S30 Guid G
Mp – BentBea Al Visible MpPosSm S30 Guid G
AttBea – Al Visible Off
AttPl – Al Visible Off
AttBentBea – Al Visible Off
Beams – Al Visible Off
Plates – Al Visible Off
Special parts Visible Off
Grid Grid Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al Visible Off
Is used in request and drawing style:View V – NoDim Mp PosKlGuid 1:20 CO 1 2 / 1 7Intersection V 500 – NoDim Mp PosKlGuid 1:20 CX 8 2Intersection V 500 – Ra Mp PosKlGuid 1:20 CX 8 7Intersection V 500 – RaSy Mp PosKlGuid 1:20 CX 8 9Intersection V V8H0 – RaSy Mp PosKlGuid 1:20 CX 8 10
View V – NoLab
Model Object Presentation Type Label Type
Not Visible – Al, Function Off Off
Beams – Al Visible Off
Plates – Al Visible Off
BentBea – Al Visible Off
Special parts Visible Off
Grid Grid Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al Visible Off
Is used in request and drawing style:View V – NoDim NoLab 1:20 CO 1 1Intersection V 500 – NoDim NoLab 1:20 CX 8 1
Seite 16-4 Advance – Manual Drawing Design
View VA – MP NamePosGrGuid
Model Object Presentation Type Label Type
Not Visible – Al, Function Off Off
Mp – Beams Al VisibleAxis Section Name MpPosBig S30 Guid G
Mp – Plate Al Visible Plate Thickness MpPosBig S30 Guid G
Mp – BentBea Al VisibleAxis Section Name MpPosBig S30 Guid G
AttBea – Al VisibleAxis Off
AttPl – Al Visible Off
AttBentBea – Al VisibleAxis Off
Beams – Al VisibleAxis Off
Plates – Al Visible Off
Special parts Visible Off
Grid Grid Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al Visible Off
Is used in request and drawing style:View VA – NoDim Mp NamePosGrGuid 1:20 CO Intersection VA 500 – NoDim Mp NamePosGrGuid 1:20 CX
View VA – MP NamePosKlGuid
Model Object Presentation Type Label Type
Not Visible – Al, Function Off Off
Mp – Beams Al VisibleAxis Section Name MpPosSm S30 Guid G
Mp – Plate Al Visible Plate Thickness MpPosSm S30 Guid G
Mp – BentBea Al VisibleAxis Section Name MpPosSm S30 Guid G
AttBea – Al VisibleAxis Off
AttPl – Al Visible Off
AttBentBea – Al VisibleAxis Off
Beams – Al VisibleAxis Off
Plates – Al Visible Off
Special parts Visible Off
Grid Grid Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al Visible Off
Is used in request and drawing style:View VA – NoDim Mp NamePosKlGuid 1:20 CO Intersection VA 500 – NoDim Mp NamePosKlGuid 1:20 CX
Advance – Manual Drawing Design Seite 16-5
View VA – MP PosGrGuid
Model Object Presentation Type Label Type
Not Visible – Al, Function Off Off
Mp – Beams Al VisibleAchse MpPosBig S30 Guid G
Mp – Plate Al Visible MpPosBig S30 Guid G
Mp – BentBea Al VisibleAxis MpPosBig S30 Guid G
AttBea – Al VisibleAxis Off
AttPl – Al Visible Off
AttBentBea – Al VisibleAxis Off
Beams – Al VisibleAxis Off
Plates – Al Visible Off
Special parts Visible Off
Grid Grid Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al Visible Off
Is used in request and drawing style:View VA – NoDim Mp PosGrGuid 1:20 CO Intersection VA 500 – NoDim Mp PosGrGuid 1:20 CX
View VA – MP PosKlGuid
Model Object Presentation Type Label Type
Not Visible – Al, Function Off Off
Mp – Beams Al VisibleAxis MpPosSm S30 Guid G
Mp – Plate Al Visible MpPosSm S30 Guid G
Mp – BentBea Al VisibleAxis MpPosSm S30 Guid G
AttBea – Al VisibleAxis Off
AttPl – Al Visible Off
AttBentBea – Al VisibleAxis Off
Beams – Al VisibleAxis Off
Plates – Al Visible Off
Special parts Visible Off
Grid Grid Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al Visible Off
Is used in request and drawing style:View VA – NoDim Mp PosKlGuid 1:20 CO Intersection VA 500 – NoDim Mp PosKlGuid 1:20 CX
Seite 16-6 Advance – Manual Drawing Design
View VA – NoLab
Model Object Presentation Type Label Type
Not Visible – Al, Function Off Off
Beams – Al VisibleAxis Off
Plates – Al Visible Off
BentBea – Al VisibleAxis Off
Special parts Visible Off
Grid Grid Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al Visible Off
Is used in request and drawing style:View VA – NoDim NoLab 1:20 CO Intersection VA 500 – NoDim NoLab 1:20 CX
View VH – MP NamePosGrGuid
Model Object Presentation Type Label Type
Not Visible – Al, Function Off Off
Mp – Beams Al VisibleHidden Section Name MpPosBig S30 Guid G
Mp – Plate Al VisibleHidden Plate Thickness MpPosBig S30 Guid G
Mp – BentBea Al VisibleHidden Section Name MpPosBig S30 Guid G
AttBea – Al VisibleHidden Off
AttPl – Al VisibleHidden Off
AttBentBea – Al VisibleHidden Off
Beams – Al VisibleHidden Off
Plates – Al VisibleHidden Off
Special parts Visible Off
Grid Grid Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al VisibleHidden Off
Is used in request and drawing style:View VH – NoDim Mp NamePosGrGuid 1:20 CO Intersection VH 500 – NoDim Mp NamePosGrGuid 1:20 CX
Advance – Manual Drawing Design Seite 16-7
View VH – MP NamePosKlGuid
Model Object Presentation Type Label Type
Not Visible – Al, Function Off Off
Mp – Beams Al VisibleHidden Section Name MpPosSm S30 Guid G
Mp – Plate Al VisibleHidden Plate Thickness MpPosSm S30 Guid G
Mp – BentBea Al VisibleHidden Section Name MpPosSm S30 Guid G
AttBea – Al VisibleHidden Off
AttPl – Al VisibleHidden Off
AttBentBea – Al VisibleHidden Off
Beams – Al VisibleHidden Off
Plates – Al VisibleHidden Off
Special parts Visible Off
Grid Grid Off
Height notations Symbol Height notations
Add. ACIS-Solids – Al VisibleHidden Off
Is used in request and drawing style:View VH – NoDim Mp NamePosKlGuid 1:20 CO 1 6Intersection VH 500 – NoDim Mp NamePosKlGuid 1:20 CX 8 6
View VH – MP PosGrGuid
Model Object Presentation Type Label Type
Not Visible – Al, Function Off Off
Mp – Beams Al VisibleHidden MpPosBig S30 Guid G
Mp – Plate Al VisibleHidden MpPosBig S30 Guid G
Mp – BentBea Al VisibleHidden MpPosBig S30 Guid G
AttBea – Al VisibleHidden Off
AttPl – Al VisibleHidden Off
AttBentBea – Al VisibleHidden Off
Beams – Al VisibleHidden Off
Plates – Al VisibleHidden Off
Special parts Visible Off
Grid Grid Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al VisibleHidden Off
Is used in request and drawing style:View VH – NoDim Mp PosGrGuid 1:20 CO Intersection VH 500 – NoDim Mp PosGrGuid 1:20 CX
Seite 16-8 Advance – Manual Drawing Design
View VH – MP PosKlGuid
Model Object Presentation Type Label Type
Not Visible – Al, Function Off Off
Mp – Beams Al VisibleHidden MpPosSm S30 Guid G
Mp – Plate Al VisibleHidden MpPosSm S30 Guid G
Mp – BentBea Al VisibleHidden MpPosSm S30 Guid G
AttBea – Al VisibleHidden Off
AttPl – Al VisibleHidden Off
AttBentBea – Al VisibleHidden Off
Beams – Al VisibleHidden Off
Plates – Al VisibleHidden Off
Special parts Visible Off
Grid Grid Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al VisibleHidden Off
Is used in request and drawing style:View VH – NoDim Mp PosKlGuid 1:20 CO 1 5 / 1 8Intersection VH 500 – NoDim Mp PosKlGuid 1:20 CX 8 5Intersection VH 500 – Ra Mp PosKlGuid 1:20 CX 8 8
View VH – NoLab
Model Object Presentation Type Label Type
Not Visible – Al, Function Off Off
Beams – Al VisibleHidden Off
Plate – Al VisibleHidden Off
BentBea – Al VisibleHidden Off
Special parts Visible Off
Grid Grid Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al VisibleHidden Off
Is used in request and drawing style:View VH – NoDim NoLab 1:20 CO 1 4Intersection VH 500 – NoDim NoLab 1:20 CX 8 4
Advance – Manual Drawing Design Seite 16-9
View VHA – Mp NamePosGrGuid
Model Object Presentation Type Label Type
Not Visible – Al, Function Off Off
Mp – Beams Al VisibleHiddenAxis
Section Name MpPosBig S30 Guid G
Mp – Plate Al VisibleHidden Plate Thickness MpPosBig S30 Guid G
Mp – BentBea Al VisibleHiddenAxis
Section Name MpPosBig S30 Guid G
AttBea – Al VisibleHiddenAxis
Off
AttPl – Al VisibleHidden Off
AttBentBea – Al VisibleHiddenAxis
Off
Beams – Al VisibleHiddenAxis
Off
Plates – Al VisibleHidden Off
Special parts Visible Off
Grid Grid Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al VisibleHidden Off
Is used in request and drawing style:View VHA – NoDim Mp NamePosGrGuid 1:20 CO Intersection VHA 500 – NoDim Mp NamePosGrGuid 1:20 CX
Seite 16-10 Advance – Manual Drawing Design
View VHA – Mp NamePosKlGuid
Model Object Presentation Type Label Type
Not Visible – Al, Function Off Off
Mp – Beams Al VisibleHiddenAxis
Section Name MpPosSm S30 Guid G
Mp – Plate Al VisibleHidden Plate Thickness MpPosSm S30 Guid G
Mp – BentBea Al VisibleHiddenAxis
Section Name MpPosSm S30 Guid G
AttBea – Al VisibleHiddenAxis
Off
AttPl – Al VisibleHidden Off
AttBentBea – Al VisibleHiddenAxis
Off
Beams – Al VisibleHiddenAxis
Off
Plates – Al VisibleHidden Off
Special parts Visible Off
Grid Grid Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al VisibleHidden Off
Is used in request and drawing style:View VHA – NoDim Mp NamePosKlGuid 1:20 CO 1 9Intersection VHA 500 – NoDim Mp NamePosKlGuid 1:20 CX 8 14
Advance – Manual Drawing Design Seite 16-11
View VHA – Mp PosGrGuid
Model Object Presentation Type Label Type
Not Visible – Al, Function Off Off
Mp – Beams Al VisibleHiddenAxis
MpPosBig S30 Guid G
Mp – Plate Al VisibleHidden MpPosBig S30 Guid G
Mp – BentBea Al VisibleHiddenAxis
MpPosBig S30 Guid G
AttBea – Al VisibleHiddenAxis
Off
AttPl – Al VisibleHidden Off
AttBentBea – Al VisibleHiddenAxis
Off
Beams – Al VisibleHiddenAxis
Off
Plates – Al VisibleHidden Off
Special parts Visible Off
Grid Grid Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al VisibleHidden Off
Is used in request and drawing style:View VHA – NoDim Mp PosGrGuid 1:20 CO Intersection VHA 500 – NoDim Mp PosGrGuid 1:20 CX
Seite 16-12 Advance – Manual Drawing Design
View VHA – Mp PosKlGuid
Model Object Presentation Type Label Type
Not Visible – Al, Function Off Off
Mp – Beams Al VisibleHiddenAxis MpPosSm S30 Guid G
Mp – Plate Al VisibleHidden MpPosSm S30 Guid G
Mp – BentBea Al VisibleHiddenAxis MpPosSm S30 Guid G
AttBea – Al VisibleHiddenAxis Off
AttPl – Al VisibleHidden Off
AttBentBea – Al VisibleHiddenAxis Off
Beams – Al VisibleHiddenAxis Off
Plates – Al VisibleHidden Off
Special parts Visible Off
Grid Grid Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al VisibleHidden Off
Is used in request and drawing style:View VHA – NoDim Mp PosKlGuid 1:20 CO 1 10 / 1 12Intersection VHA 500 – NoDim Mp PosKlGuid 1:20 CX 8 13
View VHA – NoLab
Model Object Presentation Type Label Type
Not Visible – Al, Function Off Off
Beams – Al VisibleHiddenAxis
Off
Plate – Al VisibleHidden Off
BentBea – Al VisibleHiddenAxis
Off
Special parts Visible Off
Grid Grid Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al VisibleHidden Off
Is used in request and drawing style:View VHA – NoDim NoLab 1:20 CO 1 11Intersection VHA 500 – NoDim NoLab 1:20 CXY 8 12
Advance – Manual Drawing Design Seite 16-13
Detail S – MpSp NamePosGrGuid
Model Object Presentation Type Label Type
Mp – Beams Al Visible Section Name MpPosBig S30 Guid G
Mp – Plate Al Visible Plate Thickness MpPosBig S30 Guid G
Mp – BentBea Al Visible Section Name MpPosBig S30 Guid G
AttBea – Al Visible Section Name PosBig S30 Guid G
AttPl – Al Visible Plate Thickness PosBig S30 Guid G
AttBentBea – Al Visible Section Name PosBig S30 Guid G
Beams – Al Visible Off
Plates – Al Visible Off
Special parts Visible PosBig S30 Guid G
Grid Grid Off
Height notations Symbol Height notations
Add. ACIS-Solids – Al Visible Off
Stsh – Al Visible Off
Bo – Al Visible Off
Is used in request and drawing style:Detail S – NoDim MpSp NamePosGrGuid 1:10 CO
Detail S – MpSp NamePosGrGuid Bo
Model Object Presentation Type Label Type
Mp – Beams Al Visible Section Name MpPosBig S30 Guid G
Mp – Plate Al Visible Plate Thickness MpPosBig S30 Guid G
Mp – BentBea Al Visible Section Name MpPosBig S30 Guid G
AttBea – Al Visible Section Name PosBig S30 Guid G
AttPl – Al Visible Plate Thickness PosBig S30 Guid G
AttBentBea – Al Visible Section Name PosBig S30 Guid G
Beams – Al Visible Off
Plates – Al Visible Off
Special parts Visible PosBig S30 Guid G
Grid Grid Off
Height notations Symbol Height notations
Add. ACIS-Solids – Al Visible Off
Stsh – Al Visible Off
Bo – Al Visible Bolts 6M16x70 STAN 6914 Note S30Guid G
Seite 16-14 Advance – Manual Drawing Design
Detail S – MpSp NamePosKlGuid
Model Object Presentation Type Label Type
Mp – Beams Al Visible Section Name MpPosSm S30 Guid G
Mp – Plate Al Visible Plate Thickness MpPosSm S30 Guid G
Mp – BentBea Al Visible Section Name MpPosSm S30 Guid G
AttBea – Al Visible Section Name PosSm S30 Guid G
AttPl – Al Visible Plate Thickness PosSm S30 Guid G
AttBentBea – Al Visible Section Name PosSm S30 Guid G
Beams – Al Visible Off
Plates – Al Visible Off
Special parts Visible PosSm S30 Guid G
Grid Grid Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al Visible Off
Stsh – Al Visible Off
Bo – Al Visible Off
Is used in request and drawing style:Detail S – NoDim MpSp NamePosKlGuid 1:10 CO 2 3
Detail S – MpSp NamePosKlGuid Bo
Model Object Presentation Type Label Type
Mp – Beams Al Visible Section Name MpPosSm S30 Guid G
Mp – Plate Al Visible Plate Thickness MpPosSm S30 Guid G
Mp – BentBea Al Visible Section Name MpPosSm S30 Guid G
AttBea – Al Visible Section Name PosSm S30 Guid G
AttPl – Al Visible Plate Thickness PosSm S30 Guid G
AttBentBea – Al Visible Section Name PosSm F S30 Guid G
Beams – Al Visible Off
Plates – Al Visible Off
Special parts Visible PosSm S30 Guid G
Grid Grid Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al Visible Off
Stsh – Al Visible Off
Bo – Al Visible Bolts 6M16x70 STAN 6914 Note S30Guid G
Advance – Manual Drawing Design Seite 16-15
Detail S – MpSp PosGrGuid
Model Object Presentation Type Label Type
Mp – Beams Al Visible MpPosBig S30 Guid G
Mp – Plate Al Visible MpPosBig S30 Guid G
Mp – BentBea Al Visible MpPosBig S30 Guid G
AttBea – Al Visible PosBig S30 Guid G
AttPl – Al Visible PosBig S30 Guid G
AttBentBea – Al Visible PosBig S30 Guid G
Beams – Al Visible Off
Plates – Al Visible Off
Special parts Visible PosBig S30 Guid G
Grid Grid Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al Visible Off
Stsh – Al Visible Off
Bo – Al Visible Off
Is used in request and drawing style:Detail S – NoDim MpSp PosGrGuid 1:10 CO
Detail S – MpSp PosKlGuid
Model Object Presentation Type Label Type
Mp – Beams Al Visible MpPosSm S30 Guid G
Mp – Plate Al Visible MpPosSm S30 Guid G
Mp – BentBea Al Visible MpPosSm S30 Guid G
AttBea – Al Visible PosSm S30 Guid G
AttPl – Al Visible PosSm S30 Guid G
AttBentBea – Al Visible PosSm S30 Guid G
Beams – Al Visible Off
Plates – Al Visible Off
Special parts Visible PosSm S30 Guid G
Grid Grid Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al Visible Off
Stsh – Al Visible Off
Bo – Al Visible Off
Is used in request and drawing style:Detail S – NoDim MpSp PosKlGuid 1:10 CO 2 2
Seite 16-16 Advance – Manual Drawing Design
Detail S – NoLab
Model Object Presentation Type Label Type
Beams – Al Visible Off
Plate – Al Visible Off
BentBea – Al Visible Off
Special parts Visible Off
Grid Grid Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al Visible Off
Stsh – Al Visible Off
Bo – Al Visible Off
Is used in request and drawing style:Detail S – NoDim NoLab 1:10 CO 2 1
Detail VA – MpSp NamePosGrGuid
Model Object Presentation Type Label Type
Mp – Beams Al VisibleAxis Section Name MpPosBig S30 Guid G
Mp – Plate Al Visible Plate Thickness MpPosBig S30 Guid G
Mp – BentBea Al VisibleAxis Section Name MpPosBig S30 Guid G
AttBea – Al VisibleAxis Section Name PosBig S30 Guid G
AttPl – Al Visible Plate Thickness PosBig S30 Guid G
AttBentBea – Al VisibleAxis Section Name PosBig S30 Guid G
Beams – Al VisibleAxis Off
Plates – Al Visible Off
Special parts Visible PosBig S30 Guid G
Grid Grid Off
Height notations Symbol Height notations
Add. ACIS-Solids – Al Visible Off
Stsh – Al Visible Off
Bo – Al Visible Off
Is used in request and drawing style:Detail VA – NoDim MpSp NamePosGrGuid 1:10 CO
Advance – Manual Drawing Design Seite 16-17
Detail VA – MpSp NamePosGrGuid Bo
Model Object Presentation Type Label Type
Mp – Beams Al VisibleAxis Section Name MpPosBig S30 Guid G
Mp – Plate Al Visible Plate Thickness MpPosBig S30 Guid G
Mp – BentBea Al VisibleAxis Section Name MpPosBig S30 Guid G
AttBea – Al VisibleAxis Section Name PosBig S30 Guid G
AttPl – Al Visible Plate Thickness PosBig S30 Guid G
AttBentBea – Al VisibleAxis Section Name PosBig S30 Guid G
Beams – Al VisibleAxis Off
Plates – Al Visible Off
Special parts Visible PosBig S30 Guid G
Grid Grid Off
Height notations Symbol Height notations
Add. ACIS-Solids – Al Visible Off
Stsh – Al Visible Off
Bo – Al Visible Bolts 6M16x70 STAN 6914 Note S30Guid G
Detail VA – MpSp NamePosKlGuid
Model Object Presentation Type Label Type
Mp – Beams Al VisibleAxis Section Name MpPosSm S30 Guid G
Mp – Plate Al Visible Plate Thickness MpPosSm S30 Guid G
Mp – BentBea Al VisibleAxis Section Name MpPosSm S30 Guid G
AttBea – Al VisibleAxis Section Name PosSm S30 Guid G
AttPl – Al Visible Plate Thickness PosSm S30 Guid G
AttBentBea – Al VisibleAxis Section Name PosSm S30 Guid G
Beams – Al VisibleAxis Off
Plates – Al Visible Off
Special parts Visible PosSm S30 Guid G
Grid Grid Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al Visible Off
Stsh – Al Visible Off
Bo – Al Visible Off
Is used in request and drawing style:Detail VA – NoDim MpSp NamePosKlGuid 1:10 CO
Seite 16-18 Advance – Manual Drawing Design
Detail VA – MpSp NamePosKlGuid Bo
Model Object Presentation Type Label Type
Mp – Beams Al VisibleAxis Section Name MpPosSm S30 Guid G
Mp – Plate Al Visible Plate Thickness MpPosSm S30 Guid G
Mp – BentBea Al VisibleAxis Section Name MpPosSm S30 Guid G
AttBea – Al VisibleAxis Section Name PosSm S30 Guid G
AttPl – Al Visible Plate Thickness PosSm S30 Guid G
AttBentBea – Al VisibleAxis Section Name PosSm F S30 Guid G
Beams – Al VisibleAxis Off
Plates – Al Visible Off
Special parts Visible PosSm S30 Guid G
Grid Grid Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al Visible Off
Stsh – Al Visible Off
Bo – Al Visible Bolts 6M16x70 STAN 6914 Note S30Guid G
Detail VA – MpSp PosGrGuid
Model Object Presentation Type Label Type
Mp – Beams Al VisibleAxis MpPosBig S30 Guid G
Mp – Plate Al Visible MpPosBig S30 Guid G
Mp – BentBea Al VisibleAxis MpPosBig S30 Guid G
AttBea – Al VisibleAxis PosBig S30 Guid G
AttPl – Al Visible PosBig S30 Guid G
AttBentBea – Al VisibleAxis PosBig S30 Guid G
Beams – Al VisibleAxis Off
Plates – Al Visible Off
Special parts Visible PosBig S30 Guid G
Grid Grid Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al Visible Off
Stsh – Al Visible Off
Bo – Al Visible Off
Is used in request and drawing style:Detail VA – NoDim MpSp PosGrGuid 1:10 CO
Advance – Manual Drawing Design Seite 16-19
Detail VA – MpSp PosKlGuid
Model Object Presentation Type Label Type
Mp – Beams Al VisibleAxis MpPosSm S30 Guid G
Mp – Plate Al Visible MpPosSm S30 Guid G
Mp – BentBea Al VisibleAxis MpPosSm S30 Guid G
AttBea – Al VisibleAxis PosSm S30 Guid G
AttPl – Al Visible PosSm S30 Guid G
AttBentBea – Al VisibleAxis PosSm S30 Guid G
Beams – Al VisibleAxis Off
Plates – Al Visible Off
Special parts Visible PosSm S30 Guid G
Grid Grid Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al Visible Off
Stsh – Al Visible Off
Bo – Al Visible Off
Is used in request and drawing style:Detail VA – NoDim MpSp PosKlGuid 1:10 CO
Detail VA – NoLab
Model Object Presentation Type Label Type
Beams – Al VisibleAxis Off
Plate – Al Visible Off
BentBea – Al VisibleAxis Off
Special parts Visible Off
Grid Grid Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al Visible Off
Stsh – Al Visible Off
Bo – Al Visible Off
Is used in request and drawing style:Detail VA – NoDim NoLab 1:10 CO
Seite 16-20 Advance – Manual Drawing Design
Detail VH – MpSp NamePosGrGuid
Model Object Presentation Type Label Type
Mp – Beams Al VisibleHidden Section Name MpPosBig S30 Guid G
Mp – Plate Al VisibleHidden Plate Thickness MpPosBig S30 Guid G
Mp – BentBea Al VisibleHidden Section Name MpPosBig S30 Guid G
AttBea – Al VisibleHidden Section Name PosBig S30 Guid G
AttPl – Al VisibleHidden Plate Thickness PosBig S30 Guid G
AttBentBea – Al VisibleHidden Section Name PosBig S30 Guid G
Beams – Al VisibleHidden Off
Plates – Al VisibleHidden Off
Special parts Visible PosBig S30 Guid G
Grid VisibleHidden Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al VisibleHidden Off
Stsh – Al VisibleHidden Off
Bo – Al VisibleHidden Off
Is used in request and drawing style:Detail VH – NoDim MpSp NamePosGrGuid 1:10 CO
Detail VH – MpSp NamePosGrGuid Bo
Model Object Presentation Type Label Type
Mp – Beams Al VisibleHidden Section Name MpPosBig S30 Guid G
Mp – Plate Al VisibleHidden Plate Thickness MpPosBig S30 Guid G
Mp – BentBea Al VisibleHidden Section Name MpPosBig S30 Guid G
AttBea – Al VisibleHidden Section Name PosBig S30 Guid G
AttPl – Al VisibleHidden Plate Thickness PosBig S30 Guid G
AttBentBea – Al VisibleHidden Section Name PosBig S30 Guid G
Beams – Al VisibleHidden Off
Plates – Al VisibleHidden Off
Special parts Visible PosBig S30 Guid G
Grid VisibleHidden Off
Height notations Symbol Height notations
Add. ACIS-Solids – Al VisibleHidden Off
Stsh – Al VisibleHidden Off
Bo – Al VisibleHidden Bolts 6M16x70 STAN 6914 Note S30Guid G
Advance – Manual Drawing Design Seite 16-21
Detail VH – MpSp NamePosKlGuid
Model Object Presentation Type Label Type
Mp – Beams Al VisibleHidden Section Name MpPosSm S30 Guid G
Mp – Plate Al VisibleHidden Plate Thickness MpPosSm S30 Guid G
Mp – BentBea Al VisibleHidden Section Name MpPosSm S30 Guid G
AttBea – Al VisibleHidden Section Name PosSm S30 Guid G
AttPl – Al VisibleHidden Plate Thickness PosSm S30 Guid G
AttBentBea – Al VisibleHidden Section Name PosSm S30 Guid G
Beams – Al VisibleHidden Off
Plates – Al VisibleHidden Off
Special parts Visible PosSm S30 Guid G
Grid VisibleHidden Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al VisibleHidden Off
Stsh – Al VisibleHidden Off
Bo – Al VisibleHidden Off
Is used in request and drawing style:Detail VH – NoDim MpSp NamePosKlGuid 1:10 CO 2 6
Detail VH – MpSp NamePosKlGuid Bo
Model Object Presentation Type Label Type
Mp – Beams Al VisibleHidden Section Name MpPosSm S30 Guid G
Mp – Plate Al VisibleHidden Plate Thickness MpPosSm S30 Guid G
Mp – BentBea Al VisibleHidden Section Name MpPosSm S30 Guid G
AttBea – Al VisibleHidden Section Name PosSm S30 Guid G
AttPl – Al VisibleHidden Plate Thickness PosSm S30 Guid G
AttBentBea – Al VisibleHidden Section Name PosSm S30 Guid G
Beams – Al VisibleHidden Off
Plates – Al VisibleHidden Off
Special parts Visible PosSm S30 Guid G
Grid VisibleHidden Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al VisibleHidden Off
Stsh – Al VisibleHidden Off
Bo – Al VisibleHidden Bolts 6M16x70 STAN 6914 Note S30Guid G
Seite 16-22 Advance – Manual Drawing Design
Detail VH – MpSp PosGrGuid
Model Object Presentation Type Label Type
Mp – Beams Al VisibleHidden MpPosBig S30 Guid G
Mp – Plate Al VisibleHidden MpPosBig S30 Guid G
Mp – BentBea Al VisibleHidden MpPosBig S30 Guid G
AttBea – Al VisibleHidden PosBig S30 Guid G
AttPl – Al VisibleHidden PosBig S30 Guid G
AttBentBea – Al VisibleHidden PosBig S30 Guid G
Beams – Al VisibleHidden Off
Plates – Al VisibleHidden Off
Special parts Visible PosBig S30 Guid G
Grid VisibleHidden Off
Height notations Symbol Height notations
Add. ACIS-Solids – Al VisibleHidden Off
Stsh – Al VisibleHidden Off
Bo – Al VisibleHidden Off
Is used in request and drawing style:Detail VH – NoDim MpSp PosGrGuid 1:10 CO
Detail VH – MpSp PosSm Guid
Model Object Presentation Type Label Type
Mp – Beams Al VisibleHidden MpPosSm S30 Guid G
Mp – Plate Al VisibleHidden MpPosSm S30 Guid G
Mp – BentBea Al VisibleHidden MpPosSm S30 Guid G
AttBea – Al VisibleHidden PosSm S30 Guid G
AttPl – Al VisibleHidden PosSm S30 Guid G
AttBentBea – Al VisibleHidden PosSm S30 Guid G
Beams – Al VisibleHidden Off
Plates – Al VisibleHidden Off
Special parts Visible PosSm S30 Guid G
Grid VisibleHidden Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al VisibleHidden Off
Stsh – Al VisibleHidden Off
Bo – Al VisibleHidden Off
Is used in request and drawing style:Detail VH – NoDim MpSp PosKlGuid 1:10 CO 2 5
Advance – Manual Drawing Design Seite 16-23
Detail VH – MpSp PosSm Guid Bo
Model Object Presentation Type Label Type
Mp – Beams Al VisibleHidden MpPosSm S30 Guid G
Mp – Plate Al VisibleHidden MpPosSm S30 Guid G
Mp – BentBea Al VisibleHidden MpPosSm S30 Guid G
AttBea – Al VisibleHidden PosSm S30 Guid G
AttPl – Al VisibleHidden PosSm S30 Guid G
AttBentBea – Al VisibleHidden PosSm S30 Guid G
Beams – Al VisibleHidden Off
Plates – Al VisibleHidden Off
Special parts Visible PosSm S30 Guid G
Grid VisibleHidden Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al VisibleHidden Off
Stsh – Al VisibleHidden Off
Bo – Al VisibleHidden Bolts 6M16x70 STAN 6914 Note S30Guid G
Is used in request and drawing style:Intersection VH V5H8 – RaSy Mp PosKlGuid 1:20 CXY 8 11
Detail VH – NoLab
Model Object Presentation Type Label Type
Beams – Al VisibleHidden Off
Plate – Al VisibleHidden Off
BentBea – Al VisibleHidden Off
Special parts Visible Off
Grid Grid Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al VisibleHidden Off
Stsh – Al VisibleHidden Off
Bo – Al VisibleHidden Off
Is used in request and drawing style:Detail VH – NoDim NoLab 1:10 CO 2 4
Seite 16-24 Advance – Manual Drawing Design
Detail VHA – MpSp NamePosGrGuid
Model Object Presentation Type Label Type
Mp – Beams Al VisibleHiddenAxis Section Name MpPosBig S30 Guid G
Mp – Plate Al VisibleHidden Plate Thickness MpPosBig S30 Guid G
Mp – BentBea Al VisibleHiddenAxis Section Name MpPosBig S30 Guid G
AttBea – Al VisibleHiddenAxis Section Name PosBig S30 Guid G
AttPl – Al VisibleHidden Plate Thickness PosBig S30 Guid G
AttBentBea – Al VisibleHiddenAxis Section Name PosBig S30 Guid G
Beams – Al VisibleHiddenAxis Off
Plates – Al VisibleHidden Off
Special parts Visible PosBig S30 Guid G
Grid VisibleHidden Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al VisibleHidden Off
Stsh – Al VisibleHidden Off
Bo – Al VisibleHidden Off
Is used in request and drawing style:Detail VHA – NoDim MpSp NamePosGrGuid 1:10 CO
Detail VHA – MpSp NamePosGrGuid Bo
Model Object Presentation Type Label Type
Mp – Beams Al VisibleHiddenAxis Section Name MpPosBig S30 Guid G
Mp – Plate Al VisibleHidden Plate Thickness MpPosBig S30 Guid G
Mp – BentBea Al VisibleHiddenAxis Section Name MpPosBig S30 Guid G
AttBea – Al VisibleHiddenAxis Section Name PosBig S30 Guid G
AttPl – Al VisibleHidden Plate Thickness PosBig S30 Guid G
AttBentBea – Al VisibleHiddenAxis Section Name PosBig S30 Guid G
Beams – Al VisibleHiddenAxis Off
Plates – Al VisibleHidden Off
Special parts Visible PosBig S30 Guid G
Grid VisibleHidden Off
Height notations Symbol Height notations
Add. ACIS-Solids – Al VisibleHidden Off
Stsh – Al VisibleHidden Off
Bo – Al VisibleHidden Bolts 6M16x70 STAN 6914 Note S30Guid G
Advance – Manual Drawing Design Seite 16-25
Detail VHA – MpSp NamePosKlGuid
Model Object Presentation Type Label Type
Mp – Beams Al VisibleHidden Section Name MpPosSm S30 Guid G
Mp – Plate Al VisibleHidden Plate Thickness MpPosSm S30 Guid G
Mp – BentBea Al VisibleHidden Section Name MpPosSm S30 Guid G
AttBea – Al VisibleHidden Section Name PosSm S30 Guid G
AttPl – Al VisibleHidden Plate Thickness PosSm S30 Guid G
AttBentBea – Al VisibleHidden Section Name PosSm S30 Guid G
Beams – Al VisibleHidden Off
Plates – Al VisibleHidden Off
Special parts Visible PosSm S30 Guid G
Grid VisibleHidden Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al VisibleHidden Off
Stsh – Al VisibleHidden Off
Bo – Al VisibleHidden Off
Is used in request and drawing style:Detail VHA – NoDim MpSp NamePosKlGuid 1:10 CO 2 7
Detail VHA – MpSp NamePosKlGuid Bo
Model Object Presentation Type Label Type
Mp – Beams Al VisibleHidden Section Name MpPosSm S30 Guid G
Mp – Plate Al VisibleHidden Plate Thickness MpPosSm S30 Guid G
Mp – BentBea Al VisibleHidden Section Name MpPosSm S30 Guid G
AttBea – Al VisibleHidden Section Name PosSm S30 Guid G
AttPl – Al VisibleHidden Plate Thickness PosSm S30 Guid G
AttBentBea – Al VisibleHidden Section Name PosSm S30 Guid G
Beams – Al VisibleHidden Off
Plates – Al VisibleHidden Off
Special parts Visible PosSm S30 Guid G
Grid VisibleHidden Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al VisibleHidden Off
Stsh – Al VisibleHidden Off
Bo – Al VisibleHidden Bolts 6M16x70 STAN 6914 Note S30Guid G
Seite 16-26 Advance – Manual Drawing Design
Detail VHA – MpSp PosGrGuid
Model Object Presentation Type Label Type
Mp – Beams Al VisibleHidden MpPosBig S30 Guid G
Mp – Plate Al VisibleHidden MpPosBig S30 Guid G
Mp – BentBea Al VisibleHidden MpPosBig S30 Guid G
AttBea – Al VisibleHidden PosBig S30 Guid G
AttPl – Al VisibleHidden PosBig S30 Guid G
AttBentBea – Al VisibleHidden PosBig S30 Guid G
Beams – Al VisibleHidden Off
Plates – Al VisibleHidden Off
Special parts Visible PosBig S30 Guid G
Grid VisibleHidden Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al VisibleHidden Off
Stsh – Al VisibleHidden Off
Bo – Al VisibleHidden Off
Is used in request and drawing style:Detail VHA – NoDim MpSp PosGrGuid 1:10 CO
Detail VHA – MpSp PosKlGuid
Model Object Presentation Type Label Type
Mp – Beams Al VisibleHidden MpPosSm S30 Guid G
Mp – Plate Al VisibleHidden MpPosSm S30 Guid G
Mp – BentBea Al VisibleHidden MpPosSm S30 Guid G
AttBea – Al VisibleHidden PosSm S30 Guid G
AttPl – Al VisibleHidden PosSm S30 Guid G
AttBentBea – Al VisibleHidden PosSm S30 Guid G
Beams – Al VisibleHidden Off
Plates – Al VisibleHidden Off
Special parts Visible PosSm S30 Guid G
Grid VisibleHidden Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al VisibleHidden Off
Stsh – Al VisibleHidden Off
Bo – Al VisibleHidden Off
Is used in request and drawing style:Detail VHA – NoDim MpSp PosKlGuid 1:10 CO 2 8
Advance – Manual Drawing Design Seite 16-27
Detail VHA – NoLab
Model Object Presentation Type Label Type
Beams – Al VisibleHiddenAxis
Off
Plate – Al VisibleHidden Off
BentBea – Al VisibleHiddenAxis
Off
Special parts Visible Off
Grid Grid Off
Height notations Symbol Height notations GLR
Add. ACIS-Solids – Al VisibleHidden Off
Stsh – Al VisibleHidden Off
Bo – Al VisibleHidden Off
Is used in request and drawing style:Detail VHA – NoDim NoLab 1:10 CO 2 9
Sp VH
Model Object Presentation Type Label Type
Beams – Al VisibleHidden Off
Plates – Al VisibleHidden Off
BentBea – Al VisibleHidden Off
Threaded hole – Al Axis Threaded hole S30 G
Slotted hole – Al Axis Slotted hole 6∅18–40 S30 GTB
Blind hole – Al Axis Blind hole S30 G
Countersunk hole – Al Axis Countersunk hole S30 G
Ho – Al Axis Holes 6∅17 S30 GTB
Bo – Fr Axis Off
Bo – Tv Symbol Bolts 6∅17 S30 GTB
Bo – Nl Symbol Bolts 6∅17 S30 GTB
Stsh – Tv Axis Stud shear Stsh ∅19x90 GTB
Stsh – Al Axis Off
Center punch – Al Axis Center punch
Template Templaten–bezugspunkt
Off
Seite 16-28 Advance – Manual Drawing Design
Sp VHA
Model Object Presentation Type Label Type
Beams – Al VisibleHiddenAxis
Off
Plates – Al VisibleHidden Off
BentBea – Al VisibleHiddenAxis
Off
Threaded hole – Al Axis Threaded hole S30 G
Slotted hole – Al Axis Slotted hole 6∅18–40 S30 GTB
Blind hole – Al Axis Blind hole S30 G
Countersunk hole – Al Axis Countersunk hole S30 G
Ho – Al Axis Holes 6∅17 S30 GTB
Bo – Fr Axis Off
Bo – Tv Symbol Bolts 6∅17 S30 GTB
Bo – Nl Symbol Bolts 6∅17 S30 GTB
Stsh – Tv Axis Stud shear Stsh ∅19x90 GTB
Stsh – Al Axis Off
Center punch – Al Axis Center punch
Template Schablonen–bezugspunkt
Off
Is used in request and drawing style:Sp AlleAnsichten 1:10 CX 3 5Sp Plate 1:1 CO 3 13Sp Plate 1:1 CX 3 10 / 6 1Sp Plate 1:10 CO 3 14Sp Plate 1:10 CX 3 7 / 6 2Sp Plate UCS 1:10 CXY 3 12Sp GebTrägerOben 1:10 CO 3 6Sp Beams UCS 1:10 CO 3 11Sp Beams Rear 1:10 CO Sp Beams Rear 1:10 CX Sp Beams Top, Bottom 1:1 CX 3 9 / 6 3Sp Beams Top, Bottom 1:10 CO 3 8 / 6 4Sp Beams Top, Bottom 1:10 CX 3 2 / 3 3 / 6 5 / 9 3Sp Beams Object 1:10 CX Sp Beams Bottom, Top 1:1 CX 3 9 / 6 3Sp Beams Bottom, Top 1:10 CO 3 8 / 6 4Sp Beams Bottom, Top 1:10 CX 3 3 / 3 4Sp Beams Front 1:1 CX 3 9 / 6 3Sp Beams Front 1:10 CO 3 8 / 6 4Sp Beams Front 1:10 CX 3 1 / 3 2 / 3 3 / 3 4 / 6 5 / 9 3
Advance – Manual Drawing Design Seite 16-29
Picket Railing VHA
Model Object Presentation Type Label Type
Mp – Beams Al VisibleHiddenAxis
SpPos MpPos S30 Guid G
Mp – Plate Al VisibleHidden SpPos MpPos S30 Guid G
Rail – Fd Landing Al,Function
VisibleHiddenAxis
PosSm Object L
Rail – Fd Stair Al,Function
VisibleHiddenAxis
PosSm Object L
Rail – Post Landing Al,Function
VisibleHidden PosSm Object L
Rail – Post Stair Al,Function
VisibleHidden PosSm Object L
AttBea – Al VisibleHiddenAxis
PosSm S30 Guid G
AttPl – Al VisibleHidden PosSm S30 Guid G
AttBentBea – Al VisibleHiddenAxis
PosSm S30 Guid G
Blind hole – Al Axis Blind hole S30 G
Threaded hole – Al Axis Threaded hole S30 G
Countersunk hole – Al Axis Countersunk hole S30 G
Slotted hole – Al Axis Slotted hole 6LL ∅18–40 S30Guid G
Mp – Ho Tv Axis Holes 6∅17 S30 GTB
AttPa – Ho Tv Axis Off
Anker Bo – Tv, Function Axis Anchorbolts 6M16x70 Note S30 Guid G
Bo – Fr Axis Off
Mp – Bo Tv Symbol Bolts 6M16x70 STAN 6914 Note S30GTB
Mp – Bo Nl Symbol Bolts 6M16x70 STAN 6914 Note S30GTB
AttPa – Bo Tv Symbol Bolts 6M16x70 STAN 6914 Note S30Guid G
Stsh – Tv Axis Stud shear Stsh ∅19x90 GTB
Stsh – Fr Axis Off
Center punch – Al Axis Center punch G
Add. Parts without Grid –Al
VisibleHidden PosSm S30 Guid G
Welding line – Al Welding line Welding line S30 L
Is used in request and drawing style:Picket railing UCS 1:10 CO 9 7
Seite 16-30 Advance – Manual Drawing Design
Mp SpMpPos VH
Model Object Presentation Type Label Type
Mp – Beams Al VisibleHidden SpPos MpPos S30 Guid G
Mp – Plate Al VisibleHidden SpPos MpPos S30 Guid G
Mp – BentBea Al VisibleHidden SpPos MpPos S30 Guid G
AttBea – Al VisibleHidden PosSm S30 Guid G
AttPl – Al VisibleHidden PosSm S30 Guid G
AttBentBea – Al VisibleHidden PosSm S30 Guid G
Blind hole – Al Axis Blind hole S30 G
Threaded hole – Al Axis Threaded hole S30 G
Countersunk hole – Al Axis Countersunk hole S30 G
Slotted hole – Al Axis Slotted hole 6∅18–40 S30 GTB
Mp – Ho Tv Axis Holes 6∅17 S30 GTB
AttPa – Ho Tv Axis Off
Anker Bo – Tv, Function Axis Anchorbolts 6M16x70 Note S30 GuidG
Bo – Fr Axis Off
Mp – Bo Tv Symbol Bolts 6M16x70 STAN 6914 Note S30Guid G
Mp – Bo Nl Symbol Bolts 6M16x70 STAN 6914 Note S30Guid G
AttPa – Bo Tv Symbol Bolts 6M16x70 STAN 6914 Note S30Guid G
AttPa – Bo Nl Axis Bolts 6M16x70 STAN 6914 Note S30Guid G
Stsh – Tv Axis Stud shear Stsh ∅19x90 GTB
Stsh – Fr Axis Off
Center punch – Al Axis Off
Add. Parts without Grid –Al
EnvironmentVisibleHidden
PosSm S30 Guid G
Special parts – Al Visible PosSm S30 Guid G
Welding line – Al Welding line Welding line S30 L
Advance – Manual Drawing Design Seite 16-31
Mp SpMpPos VHA
Model Object Presentation Type Label Type
Mp – Beams Al VisibleHiddenAxis SpPos MpPos S30 Guid G
Mp – Plate Al VisibleHidden SpPos MpPos S30 Guid G
Mp – BentBea Al VisibleHiddenAxis SpPos MpPos S30 Guid G
AttBea – Al VisibleHiddenAxis PosSm S30 Guid G
AttPl – Al VisibleHidden PosSm S30 Guid G
AttBentBea – Al VisibleHiddenAxis PosSm S30 Guid G
Blind hole – Al Axis Blind hole S30 G
Threaded hole – Al Axis Threaded hole S30 G
Countersunk hole –Al
Axis Countersunk hole S30 G
Slotted hole – Al Axis Slotted hole 6∅18–40 S30 GTB
Mp – Ho Tv Axis Holes 6∅17 S30 GTB
AttPa – Ho Tv Axis Off
Anker Bo – Tv,Function
Axis Anchorbolts 6M16x70 Note S30 Guid G
Bo – Fr Axis Off
Mp – Bo Tv Symbol Bolts 6M16x70 STAN 6914 Note S30 Guid G
Mp – Bo Nl Symbol Bolts 6M16x70 STAN 6914 Note S30 Guid G
AttPa – Bo Tv Symbol Bolts 6M16x70 STAN 6914 Note S30 Guid G
AttPa – Bo Nl Axis Bolts 6M16x70 STAN 6914 Note S30 Guid G
Stsh – Tv Axis Stud shear Stsh ∅19x90 GTB
Stsh – Fr Axis Off
Center punch – Al Axis Off
Add. Parts withoutGrid – Al
EnvironmentVisibleHiddenAxis
PosSm S30 Guid G
Special parts – Al Visible PosSm S30 Guid G
Welding line – Al Welding line Welding line S30 L
Is used in request and drawing style:Compression pipe Front 1:10 CX 9 1Holmgeländer UCS 1:10 CX 9 5Mp UCS BemSystem 1:10 CX 4 6Mp GebTrägerOben 1:10 CO 4 3Mp Rear 1:10 CXY Mp Rear Choice 1:10 CX 7 5 / 10 8Mp Right, Left 1:10 CX Mp Front 1:10 CO 6 7Mp Front 1:10 CX 4 2 / 6 6 / 6 8 / 7 1 – 7 5 / 7 7 / 10 8Mp Front WithEnvironment1:10 CX 7 6 / 10 6Mp Front Choice 1:10 CX Crossbracing Front 1:10 CX 9 2
Seite 16-32 Advance – Manual Drawing Design
Mp Intersection VHAS
Model Object Presentation Type Label Type
Mp – Beams Al VisibleHiddenAxisCut Off
Mp – Plate Al VisibleHiddenCut Off
Mp – BentBea Al VisibleHiddenAxisCut PosSm Guid
AttBea – Al VisibleHiddenAxisCut PosSm Guid
AttPl – Al VisibleHiddenCut PosSm Guid
AttBentBea – Al VisibleHiddenAxisCut PosSm Guid
Ho – Tv Axis Off
Bo – Tv Axis Bolts 6M16x70 Guid
Bo – Fr Axis Off
Stsh – Al Axis Off
Special parts – Al Visible PosSm S30 Guid G
Welding line – Al VisibleHidden Welding line
Is used in request and drawing style:Mp Querschnitt 1:10 CO 4 7IntersectionsR Choice, Top 1:10 CO IntersectionsR Choice, Top 1:5 CO IntersectionsR Choice, Bottom 1:10 CO 4 1 / 4 5 / 4 6 / 7 1 – 7 6 / 9 5 / 9 7 / 9 8 / 10 1 /
10 3 – 10 6 / 10 8IntersectionsR Choice, Bottom 1:5 CO IntersectionsR, Top 1:10 CO IntersectionsR, Top 1:5 CO IntersectionsR, Bottom 1:10 CO 4 2 / 6 6 – 6 10 / 7 7 / 10 7IntersectionsR, Bottom 1:5 CO
Advance – Manual Drawing Design Seite 16-33
Mp Intersection VHC
Model Object Presentation Type Label Type
Mp – Beams Al VisibleHiddenCut Off
Mp – Plate Al VisibleHiddenCut Off
Mp – BentBea Al VisibleHiddenCut PosSm Guid
AttBea – Al VisibleHiddenCut PosSm Guid
AttPl – Al VisibleHiddenCut PosSm Guid
AttBentBea – Al VisibleHiddenCut PosSm Guid
Ho – Tv Axis Off
Bo – Tv Axis Bolts 6M16x70 Guid
Bo – Fr Axis Off
Stsh – Al Axis Off
Special parts – Al Visible PosSm S30 Guid G
Welding line – Al VisibleHidden Welding line
Seite 16-34 Advance – Manual Drawing Design
Mp VH
Model Object Presentation Type Label Type
Mp – Beams Al VisibleHidden Off
Mp – Plate Al VisibleHidden Off
Mp – BentBea Al VisibleHidden Off
AttBea – Al VisibleHidden PosSm S30 Guid G
AttPl – Al VisibleHidden PosSm S30 Guid G
AttBentBea – Al VisibleHidden PosSm S30 Guid G
Blind hole – Al Axis Blind hole S30 G
Threaded hole – Al Axis Threaded hole S30 G
Countersunk hole – Al Axis Countersunk hole S30 G
Slotted hole – Al Axis Slotted hole 6∅18–40 S30 GTB
Mp – Ho Tv Axis Holes 6∅17 S30 GTB
AttPa – Ho Tv Axis Off
Anker Bo – Tv, Function Axis Anchorbolts 6M16x70 Note S30 GuidG
Bo – Fr Axis Off
Mp – Bo Tv Symbol Bolts 6M16x70 STAN 6914 Note S30Guid G
Mp – Bo Nl Symbol Bolts 6M16x70 STAN 6914 Note S30Guid G
AttPa – Bo Tv Symbol Bolts 6M16x70 STAN 6914 Note S30Guid G
AttPa – Bo Nl Axis Bolts 6M16x70 STAN 6914 Note S30Guid G
Stsh – Tv Axis Stud shear Stsh ∅19x90 GTB
Stsh – Fr Axis Off
Center punch – Al Axis Off
Add. Parts without Grid –Al
EnvironmentVisibleHiddenAxis
PosSm S30 Guid G
Special parts – Al Visible PosSm S30 Guid G
Welding line – Al Welding line Welding line S30 L
Advance – Manual Drawing Design Seite 16-35
Mp VHA
Model Object Presentation Type Label Type
Mp – Beams Al VisibleHiddenAxis Off
Mp – Plate Al VisibleHidden Off
Mp – BentBea Al VisibleHiddenAxis Off
AttBea – Al VisibleHiddenAxis PosSm S30 Guid G
AttPl – Al VisibleHidden PosSm S30 Guid G
AttBentBea – Al VisibleHiddenAxis PosSm S30 Guid G
Blind hole – Al Axis Blind hole S30 G
Threaded hole – Al Axis Threaded hole S30 G
Countersunk hole –Al
Axis Countersunk hole S30 G
Slotted hole – Al Axis Slotted hole 6∅18–40 S30 GTB
Mp – Ho Tv Axis Holes 6∅17 S30 GTB
AttPa – Ho Tv Axis Off
Anker Bo – Tv,Function
Axis Anchorbolts 6M16x70 Note S30 Guid G
Bo – Fr Axis Off
Mp – Bo Tv Symbol Bolts 6M16x70 STAN 6914 Note S30 Guid G
Mp – Bo Nl Symbol Bolts 6M16x70 STAN 6914 Note S30 Guid G
AttPa – Bo Tv Symbol Bolts 6M16x70 STAN 6914 Note S30 Guid G
AttPa – Bo Nl Axis Bolts 6M16x70 STAN 6914 Note S30 Guid G
Stsh – Tv Axis Stud shear Stsh ∅19x90 GTB
Stsh – Fr Axis Off
Center punch – Al Axis Off
Add. Parts withoutGrid – Al
EnvironmentVisibleHiddenAxis
PosSm S30 Guid G
Special parts – Al Visible PosSm S30 Guid G
Welding line – Al Welding line Welding line S30 L
Is used in request and drawing style:Compression pipe Bottom, Top 1:10 CX 9 1Endplates from inside 1:10 CO 4 1 / 4 3 / 4 5 / 4 6 /6 7 – 6 9 / 7 1 – 7 5 / 7 7 /
9 1 / 9 8 / 10 1 – 10 5 / 10 7 / 10 8Endplates from inside 1:5 CO Endplates from inside 1:10 CXY 7 6 / 10 6Mp UCS 1:10 CXY 4 1 / 4 5Mp Top WithEnvironment 1:10 CX 7 6 / 10 6Mp Top Choice, Top 1:10 CX Mp Top Choice, Bottom 1:10 CX 7 5 / 10 8Mp Top, Top 1:10 CX 4 2 / 6 6Mp Top, Bottom 1:10 CO 6 7Mp Top, Bottom 1:10 CX 6 8 / 7 2 / 7 3 / 7 7
Seite 16-36 Advance – Manual Drawing Design
Mp Bottom Choice, Top 1:10 CX 7 5 / 10 8Mp Bottom Choice, Bottom 1:10 CX Mp Bottom, Top 1:10 CO 6 7Mp Bottom, Top 1:10 CX 6 8 / 7 3 / 7 4 / 7 7Mp Bottom, Bottom 1:10 CX Crossbracing Bottom, Top 1:10 CX 9 2
Mp Vertical SpMpPos VH
Model Object Presentation Type Label Type
Mp – Beams Al VisibleHidden SpPos MpPos S30 Guid G
Mp – Plate Al VisibleHidden SpPos MpPos S30 Guid G
AttBea – Al VisibleHidden PosSm S30 Guid G
AttPl – Al VisibleHidden PosSm S30 Guid G
AttBentBea – Al VisibleHidden PosSm S30 Guid G
Blind hole – Al Axis Blind hole S30 G
Threaded hole – Al Axis Threaded hole S30 G
Countersunk hole – Al Axis Countersunk hole S30 G
Slotted hole – Al Axis Slotted hole 6∅18–40 S30 GTB
Mp – Ho Tv Axis Holes 6∅17 S30 GTB
AttPa – Ho Tv Axis Off
Anker Bo – Tv, Function Axis Anchorbolts 6M16x70 Note S30 GuidG
Bo – Fr Axis Off
Mp – Bo Tv Symbol Bolts 6M16x70 STAN 6914 S30Vertical GLR
Mp – Bo Nl Symbol Bolts 6M16x70 STAN 6914 S30Vertical GLR
AttPa – Bo Tv Symbol Bolts 6M16x70 STAN 6914 Note S30Guid G
AttPa – Bo Nl Axis Bolts 6M16x70 STAN 6914 Note S30Guid G
Stsh – Tv Axis Stud shear Stsh ∅19x90 VerticalGLR
Stsh – Fr Axis Off
Center punch – Al Axis Off
Add. Parts without Grid –Al
EnvironmentVisibleHidden
PosSm S30 Guid G
Special parts – Al Visible PosSm S30 Guid G
Welding line – Al Welding line Welding line S30 L
Advance – Manual Drawing Design Seite 16-37
Mp Vertical SpMpPos VHA
Model Object Presentation Type Label Type
Mp – Beams Al VisibleHiddenAxis SpPos MpPos S30 Guid G
Mp – Plate Al VisibleHidden SpPos MpPos S30 Guid G
AttBea – Al VisibleHiddenAxis PosSm S30 Guid G
AttPl – Al VisibleHidden PosSm S30 Guid G
AttBentBea – Al VisibleHiddenAxis PosSm S30 Guid G
Blind hole – Al Axis Blind hole S30 G
Threaded hole – Al Axis Threaded hole S30 G
Countersunk hole – Al Axis Countersunk hole S30 G
Slotted hole – Al Axis Slotted hole 6∅18–40 S30 GTB
Mp – Ho Tv Axis Holes 6∅17 S30 GTB
AttPa – Ho Tv Axis Off
Anker Bo – Tv, Function Axis Anchorbolts 6M16x70 Note S30 GuidG
Bo – Fr Axis Off
Mp – Bo Tv Symbol Bolts 6M16x70 STAN 6914 S30Vertical GLR
Mp – Bo Nl Symbol Bolts 6M16x70 STAN 6914 S30Vertical GLR
AttPa – Bo Tv Symbol Bolts 6M16x70 STAN 6914 Note S30Guid G
AttPa – Bo Nl Axis Bolts 6M16x70 STAN 6914 Note S30Guid G
Stsh – Tv Axis Stud shear Stsh ∅19x90 VerticalGLR
Stsh – Fr Axis Off
Center punch – Al Axis Off
Add. Parts without Grid –Al
EnvironmentVisibleHiddenAxis
PosSm S30 Guid G
Special parts – Al Visible PosSm S30 Guid G
Welding line – Al Welding line Welding line S30 L
Is used in request and drawing style:Mp Rear Vertical Choice 1:10 CX 10 5Mp Front Vertical 1:10 CX 6 9 / 10 1 – 10 5 / 10 7Mp Front Vertical Choice 1:10 CX
Seite 16-38 Advance – Manual Drawing Design
Mp Vertical VH
Model Object Presentation Type Label Type
Mp – Beams Al VisibleHidden Off
Mp – Plate Al VisibleHidden Off
AttBea – Al VisibleHidden PosSm S30 Guid G
AttPl – Al VisibleHidden PosSm S30 Guid G
AttBentBea – Al VisibleHidden PosSm S30 Guid G
Blind hole – Al Axis Blind hole S30 G
Threaded hole – Al Axis Threaded hole S30 G
Countersunk hole – Al Axis Countersunk hole S30 G
Slotted hole – Al Axis Slotted hole 6∅18–40 S30 GTB
Mp – Ho Tv Axis Holes 6∅17 S30 GTB
AttPa – Ho Tv Axis Off
Anker Bo – Tv, Function Axis Anchorbolts 6M16x70 Note S30 GuidG
Bo – Fr Axis Off
Mp – Bo Tv Symbol Bolts 6M16x70 STAN 6914 S30Vertical GLR
Mp – Bo Nl Symbol Bolts 6M16x70 STAN 6914 S30Vertical GLR
AttPa – Bo Tv Symbol Bolts 6M16x70 STAN 6914 Note S30Guid G
AttPa – Bo Nl Axis Bolts 6M16x70 STAN 6914 Note S30Guid G
Stsh – Tv Axis Stud shear Stsh ∅19x90 VerticalGLR
Stsh – Fr Axis Off
Center punch – Al Axis Off
Add. Parts without Grid –Al
EnvironmentVisibleHidden
PosSm S30 Guid G
Special parts – Al Visible PosSm S30 Guid G
Welding line – Al Welding line Welding line S30 L
Advance – Manual Drawing Design Seite 16-39
Mp Vertical VHA
Model Object Presentation Type Label Type
Mp – Beams Al VisibleHiddenAxis Off
Mp – Plate Al VisibleHidden Off
AttBea – Al VisibleHiddenAxis PosSm S30 Guid G
AttPl – Al VisibleHidden PosSm S30 Guid G
AttBentBea – Al VisibleHiddenAxis PosSm S30 Guid G
Blind hole – Al Axis Blind hole S30 G
Threaded hole – Al Axis Threaded hole S30 G
Countersunk hole – Al Axis Countersunk hole S30 G
Slotted hole – Al Axis Slotted hole 6∅18–40 S30 GTB
Mp – Ho Tv Axis Holes 6∅17 S30 GTB
AttPa – Ho Tv Axis Off
Anker Bo – Tv, Function Axis Anchorbolts 6M16x70 Note S30 GuidG
Bo – Fr Axis Off
Mp – Bo Tv Symbol Bolts 6M16x70 STAN 6914 S30Vertical GLR
Mp – Bo Nl Symbol Bolts 6M16x70 STAN 6914 S30Vertical GLR
AttPa – Bo Tv Symbol Bolts 6M16x70 STAN 6914 Note S30Guid G
AttPa – Bo Nl Axis Bolts 6M16x70 STAN 6914 Note S30Guid G
Stsh – Tv Axis Stud shear Stsh ∅19x90 VerticalGLR
Stsh – Fr Axis Off
Center punch – Al Axis Off
Add. Parts without Grid –Al
EnvironmentVisibleHiddenAxis
PosSm S30 Guid G
Special parts – Al Visible PosSm S30 Guid G
Welding line – Al Welding line Welding line S30 L
Is used in request and drawing style:Mp Top Vertical Choice, Bottom 1:10 CX 10 5Mp Top Vertical, Bottom 1:10 CX 6 9 / 10 3 / 10 4 / 10 7Mp Bottom Vertical Choice, Top 1:10 CX 10 5Mp Bottom Vertical, Top 1:10 CX 6 9 /10 2 / 10 3 / 10 7
Seite 16-40 Advance – Manual Drawing Design
Modell Function
Model Object Presentation Type Label Type
Not Visible – Al, Function Off Off
Beams – Al Visible Modell Function Guid G
Plates – Al Visible Modell Function Guid G
BentBea – Al Visible Modell Function Guid G
Special parts – Al Visible Off
Grid Grid Off
Height notations – Al Symbol Height notations GLR
Add. ACIS-Solids – Al Visible Off
Template
Model Object Presentation Type Label Type
Template Tenplate with symbol Off
Is used in request and drawing style:Template 1:1 CO 9 4Template main view blank 1:1 CO 9 4Template Left 1:1 CO 9 3 / 9 4Template Right 1:1 CO 9 3
Statics plan with Pos
Model Object Presentation Type Label Type
Beams – Al Axis Section Name PosSm Object L
BentBea – Al Axis Section Name PosSm Object L
Grid Grid Off
Is used in request and drawing style:Statics plan UCS 1:20 CX 11 1Statics plan UCS Digi VH500 1:20 CX 11 2
Statics plan without Pos
Model Object Presentation Type Label Type
Beams – Al Axis Section Name Object L
BentBea – Al Axis Section Name Object L
Grid Grid Off
Is used in request and drawing style:Statics plan without Pos UCS 1:20 CXY 11 3Statics plan without Pos UCS Digi VH500 1:20 CXY 11 4
Advance – Manual Drawing Design Seite 16-41
Stair VH
Model Object Presentation Type Label Type
Mp – Beams Al VisibleHidden Off
Mp – Plate Al VisibleHidden Off
AttBea – Al VisibleHidden PosSm S30 Guid G
AttPl – Al VisibleHidden PosSm S30 Guid G
AttBentBea – Al VisibleHidden PosSm S30 Guid G
Blind hole – Al Axis Blind hole S30 G
Threaded hole – Al Axis Threaded hole S30 G
Countersunk hole – Al Axis Countersunk hole S30 G
Slotted hole – Al Axis Slotted hole 6∅18–40 S30 GTB
Mp – Ho Tv Axis Holes 6∅17 S30 GTB
AttPa – Ho Tv Axis Off
Anker Bo – Tv, Function Axis Anchorbolts 6M16x70 Note S30 GuidG
Bo – Fr Axis Off
Mp – Bo Tv Symbol Bolts 6M16x70 STAN 6914 NoteZ500 Guid G
Mp – Bo Nl Symbol Bolts 6M16x70 STAN 6914 Note S30Guid G
AttPa – Bo Tv Symbol Bolts 6M16x70 STAN 6914 Note S30Guid G
AttPa – Bo Nl Axis Bolts 6M16x70 STAN 6914 Note S30Guid G
Stsh – Tv Axis Stud shear Stsh ∅19x90 GTB
Stsh – Fr Axis Off
Center punch – Al Axis Off
Add. Parts without Grid –Al
EnvironmentVisibleHiddenAxis
PosSm S30 Guid G
Special parts – Al Visible PosSm S30 Guid G
Welding line – Al Welding line Welding line S30 L
Seite 16-42 Advance – Manual Drawing Design
Stair VHA
Model Object Presentation Type Label Type
Mp – Beams Al VisibleHiddenAxis Off
Mp – Plate Al VisibleHidden Off
AttBea – Al VisibleHiddenAxis PosSm S30 Guid G
AttPl – Al VisibleHidden PosSm S30 Guid G
AttBentBea – Al VisibleHiddenAxis PosSm S30 Guid G
Blind hole – Al Axis Blind hole S30 G
Threaded hole – Al Axis Threaded hole S30 G
Countersunk hole – Al Axis Countersunk hole S30 G
Slotted hole – Al Axis Slotted hole 6∅18–40 S30 GTB
Mp – Ho Tv Axis Holes 6∅17 S30 GTB
AttPa – Ho Tv Axis Off
Anker Bo – Tv, Function Axis Anchorbolts 6M16x70 Note S30 GuidG
Bo – Fr Axis Off
Mp – Bo Tv Symbol Bolts 6M16x70 STAN 6914 NoteZ500 Guid G
Mp – Bo Nl Symbol Bolts 6M16x70 STAN 6914 Note S30Guid G
AttPa – Bo Tv Symbol Bolts 6M16x70 STAN 6914 Note S30Guid G
AttPa – Bo Nl Axis Bolts 6M16x70 STAN 6914 Note S30Guid G
Stsh – Tv Axis Stud shear Stsh ∅19x90 GTB
Stsh – Fr Axis Off
Center punch – Al Axis Off
Add. Parts without Grid –Al
EnvironmentVisibleHiddenAxis
PosSm S30 Guid G
Special parts – Al Visible PosSm S30 Guid G
Welding line – Al Welding line Welding line S30 L
Is used in request and drawing style:Stairway Front 1:10 CO 9 8
Advance – Manual Drawing Design Seite 16-43
ZED-Purlin
Model Object Presentation Type Label Type
Mp – Beams Al VisibleHiddenAxis Off
Mp – Plate Al VisibleHidden Off
AttBea – Al VisibleHiddenAxis PosSm S30 Guid G
AttPl – Al VisibleHidden PosSm S30 Guid G
AttBentBea – Al VisibleHiddenAxis PosSm S30 Guid G
Blind hole – Al Axis Blind hole S30 G
Threaded hole – Al Axis Threaded hole S30 G
Countersunk hole – Al Axis Countersunk hole S30 G
Slotted hole – Al Axis Slotted hole 6∅18–40 S30 GTB
Mp – Ho Tv Axis Holes 6∅17 S30 GTB
AttPa – Ho Tv Axis Off
Anker Bo – Tv, Function Axis Anchorbolts 6M16x70 Note S30 GuidG
Bo – Fr Axis Off
Mp – Bo Tv Symbol Bolts 6M16x70 STAN 6914 Note S30Guid G
Mp – Bo Nl Symbol Off
AttPa – Bo Tv Symbol Bolts 6M16x70 STAN 6914 Note S30Guid G
AttPa – Bo Nl Axis Bolts 6M16x70 STAN 6914 Note S30Guid G
Stsh – Tv Axis Stud shear Stsh ∅19x90 GTB
Stsh – Fr Axis Off
Center punch – Al Axis Off
Add. Parts without Grid –Al
EnvironmentVisibleHiddenAxis
PosSm S30 Guid G
Special parts – Al Visible PosSm S30 Guid G
Welding line – Al Welding line Welding line S30 L
Is used in request and drawing style:ZED-Purlin Top Choice, Bottom 1:10 CX 6 10 / 9 6ZED-Purlin Right 1:10 CX 9 6ZED-Purlin Bottom Choice, Top 1:10 CX 6 10 / 9 6
Seite 16-44 Advance – Manual Drawing Design
ZED-Purlin SpMpPos
Model Object Presentation Type Label Type
Mp – Beams Al VisibleHiddenAxis SpPos MpPos S30 Guid G
Mp – Plate Al VisibleHidden SpPos MpPos S30 Guid G
AttBea – Al VisibleHiddenAxis PosSm S30 Guid G
AttPl – Al VisibleHidden PosSm S30 Guid G
AttBentBea – Al VisibleHiddenAxis PosSm S30 Guid G
Blind hole – Al Axis Blind hole S30 G
Threaded hole – Al Axis Threaded hole S30 G
Countersunk hole – Al Axis Countersunk hole S30 G
Slotted hole – Al Axis Slotted hole 6∅18–40 S30 GTB
Mp – Ho Tv Axis Holes 6∅17 S30 GTB
AttPa – Ho Tv Axis Off
Anker Bo – Tv, Function Axis Anchorbolts 6M16x70 Note S30 GuidG
Bo – Fr Axis Off
Mp – Bo Tv Symbol Bolts 6M16x70 STAN 6914 Note S30Guid G
Mp – Bo Nl Symbol Off
AttPa – Bo Tv Symbol Bolts 6M16x70 STAN 6914 Note S30Guid G
AttPa – Bo Nl Axis Bolts 6M16x70 STAN 6914 Note S30Guid G
Stsh – Tv Axis Stud shear Stsh ∅19x90 GTB
Stsh – Fr Axis Off
Center punch – Al Axis Off
Add. Parts without Grid –Al
EnvironmentVisibleHiddenAxis
PosSm S30 Guid G
Special parts – Al Visible PosSm S30 Guid G
Welding line – Al Welding line Welding line S30 L
Is used in request and drawing style:ZED-Purlin Rear Choice 1:10 CX 9 6ZED-Purlin Front 1:10 CX 6 10 / 9 6
Advance – Manual Drawing Design Seite 17-1
17. Appendix
Tables for drawing styles
The tables from AstorDetails.mdb and AstorBase.mdb are listed below that are necessary forthe drawing styles and their connection to other tables.
Table name ExplanationDetAcadSettings Color settings for details. Defined by standard in the defaults.
DetailFilenameSelector Processes: prototype-file, prefixConnection to DetailProcessScales
DetailMasterTable Start table for drawing styleConnection to DetBaseCategories / DetailStyle
DetailOrientation Orientation of the DetailViews on the sheet DetailProcessDefinition Start table for processes (all MP A0)
Connection to ProcessStepDetailProcessScales Scale for processesDetailProcessSelection Selection of the model objects (all MP)DetailProcessSort Sorting (according pos., length)DetailProcessStep Arrangement processes
Connection to DetCoordSystemSelector /DetailFilenameSelector / DetailProcessSelection /DetailProcessSort / DetailStyleMap /DetProcStepPrecondition
DetailStencil Calculation method of the templatesDetailStyle Arrangement of the drawing styles
Distance of the views, title textConnection to DetViewArrangeStrategy / DetailOrientation /DetObjSelectionStrategy / DetViewRequest
DetailStyleMap Assignment of the ModelRole to the processesConnection to DetObjQualifierSet / DetailStyle /DetailStyleOverrides
DetAnnotationType Label model objectsConnection to DetObjQualifier
DetAnnotationTypeContents Variables for labelsDetArrangerControl Positioning rule for labelsDetBaseCategories Basis categories (column, tie beam etc.)DetCoordSystemSelector Coordinate system for processesDetLeaderStyle Guiding line
Seite 17-2 Advance – Manual Drawing Design
Table name ExplanationDetModelType Model type of the elementsDetObjAnnotationStrategy Assignment of the labels
Connection to DetAnnotationType /DetLeaderStyle / DetArrangerControl
DetObjAppearance Presentation of the objectsConnection to DetAcadSettings
DetObjQualifier Filter for model objectsConnection to DetRole / DetModelType
DetObjQualifierSet Arrangement of the selection setConnection to DetObjQualifierSet / ModelRole
DetObjReprMaps Presentation ruleConnection to DetObjQualifierSet / DetObjAppearance /DetObjAnnotationStrategy
DetObjSelectionStrategy Selection of the model objectsDetProcStepPrecondition Selection of the model objects for the processesDetRequestLinearDirection Direction of the dimension chain (main part X, View Y etc.)DetRequestTypes Dimensioning type (linear, radial etc.)DetRole Element typeDetViewArrangeDirection Arrangement of the DetailViews (left, right etc.)DetViewArrangeStrategy Distance of the DetailViews (10 – 40 mm)DetViewDimPointSelection Selection of the dimensional points
Connection to DetObjQualifierSet / DetViewDimPointtype /DetVwDimGeomRestrictions
DetViewDimPointtype Dimensional points of the objects (Object dimension ..)DetViewDimRequestLinear Single dimension chains (Mp X etc.)
Connection toDetViewDimPointtype / DetRequestLinearDirection
DetViewDimStrategy Dimensioning rule (arrangement of the dimension chains)Connection toDetViewDimRequestLinear / DetRequestTypes
DetViewDimSum Sum dimensionsDetViewLengthClip Clipping in X, Y, XY, OffDetViewRequest Arrangement of the DetailViews
Connection to DetViewSystemAndBox /DetObjReprMaps / DetObjAppearanceDetViewSelectMode / DetViewDimStrategyDetViewLengthClip / Scale / DetViewArrangeDirection
DetViewSelectMode Generation of the DetailViews (always, interactive)DetViewSystemAndBox Model box
Connection to DetViewSystemSourcesDetViewSystemSources Viewing direction of the DetailViewDetVwDimGeomRestrictions Restriction of the points to dimensionScale ScaleModelRole Function in the model
Advance – Manual Drawing Design Seite 17-3
Abbreviations
Below the used abbreviations are listed:
Abbreviation ExplanationAB Above, BelowAl AllAssGr Assembly GroupAttBea Attached BeamAttBentBea Attached Bent BeamAttPa Attached PartAttPl Attached Plate
Bb BaseboardBentBea Bent BeamBp BaseplateBo Bolts
CO Clipping OffCX Clipping in X-directionCXY Clipping in XY- direction
Den Denotation
Eb EllbowEnd End of railingEp Endplate
F, Fr Front, FrontF8 Front infiniteFd Filled RodGTA Global, Top, AllGBA Global, Bottom, AllGr GridGuid with Guidline
Ho HolesHr Hand railing
Kr Knee railing
LTS Local, Top, SingleLBS Local, Bottom, SingleLR Left, RightLi Linear
Seite 17-4 Advance – Manual Drawing Design
Abbreviation ExplanationMat MaterialMax MaximumMp Mainpart
Nl Not linearNoDim No DimensionNoLab No Label
Object Text orientation by ObjectPosBig Textheight Positionnumber Big (Textheight 5 mm)PosSm Textheight Positionnumber Small (Textheight Default)Pl PlateProc Processing
R RearRail Railing
S30 Summarize 30 mm (Object label)Sp SinglepartStsh Stud shearSy System
Tv Top view
V VisibleVH VisibleHiddenVHA VisibleHiddenAxisVHC VisibleHiddenCutVHAC VisibleHiddenAxisCut