lindab | we simplify construction. has been present in Hungary already for 20 years, ... products is high-strength steel coated with corrosion proofing hot-dip ... Lindab halls is

lindab | we simplify construction

Lindab halls For agricultural applicationsFunctional and technical guide for builders, investors and designers

www.lindab.hu/csarnok

Agricultural buildings – special function

Buildings are always realized to serve some purpose or to satisfy certain functions. Therefore it is worth to sum up, in general, the most important factors that influence the final design of a building (without a claim for completeness):

builders’ needs: function, aesthetics, expected lifetime, construction and operating (maintenance) costs

requirements of competent authorities (on EU, national or local levels) e.g. town planning or town development aspects

technical requirements (construction legislation, regulations, standards, etc.)

available construction materials, construction products and processes local aspects relating to the job site and to the execution of the

construction works (e.g. soil conditions, weather or environmental impacts, execution processes, and time- and machinery needs, etc.)

The numerous conditions listed above contain both mandatory and more flexible aspects – even contradictory ones in certain cases – therefore, the technical specifications should be specified individually that can meet all the requirements at some expected level (even if at the cost of compromises) and which become finally acceptable from all aspects – must be determined for each case individually. The design process can be interpreted as ensuring a match with this wide-ranging condition system. It is therefore of paramount importance that the economic construction of each building at the required technical quality level must take place on the basis of individual design. The activities conducted in the agricultural sector fundamentally determine the requirements for the buildings to be realized, therefore, in the design of such buildings, the primary and decisive focus is serving the function as economically as possible, any other conditions must be guided by this primary objective.

An aesthetical look of a building, in the case of agricultural halls, is a critical point only in the rarest cases. At the same time, when drawing up the technical/engineering concepts for a building, an optimal structural design is as important as the selection and quality of built-in materials, so that the building should be capable of serving its main purpose: its function, perspectively, in a long period of time.

The functional requirements of agricultural buildings are determined in each case by concrete technological processes (e.g. crop production, fruit storage, animal breeding, processing, etc.). It is normally a standard requirement to ensure large construction dimensions, to bridge over large spans, as well as the fastest and simplest

possible realization to ensure compliance with the stringent timing of agricultural activities. Specific environmental impacts arising from the specific agricultural activity give rise to further special requirements (e.g. coping with ammonia, chemical vapours, potentially aggressive chemical substances, etc.). Correct responses to such challenges can be given only through the involvement of technologists and specialist designers in the building design process and in the selection of compliant construction materials.

The Sweden-based Lindab Group operates in the field of developing, manufacturing and selling of products and system solutions in steel for simplified construction. Since its foundation in 1959, Lindab has become a continuously developing, determinant market player with enormous experience. The Hungarian daughter company, Lindab Kft. has been present in Hungary already for 20 years, operating by its own significant production capacity and excellent results. In this market segment, Lindab has got the widest and most complex product range (roof- and wall cladding products and systems, supporter elements, complete building structures and supplementary systems: rainwater system, roof safety systems, etc.) representing optimum solutions for residential buildings or industrial halls, new projects or renovations as well.

Lindab halls for agricultural applications

Function

Lindab halls for agricultural applications

Lindab light weight products systems, engineering, solutions

So, according to the aforesaid, agricultural buildings are constructed primarily and before everything else with the purpose of serving the activities and processes they accommodate, or, in other words, the function, which the investor wants to realize as soon as possible, within the shortest possible time. However, attention must be paid to creating an optimum building structure that is capable of providing the expected life span, as well as to selecting construction materials and construction products of the required quality. All these aspects, jointly, can be taken into consideration completely and correctly only through a well-considered and circumspect design work. The design process necessitates a close cooperation among the various special fields affected (agricultural technology, architecture, structural engineering, building mechanical engineering, fire safety, etc.)

With view to the above described wide-ranging requirements and the resulting complex design process, it can be established that Lindab’s lightweight steel construction materials, products, systems and services can offer in many fields technically excellent, economic and durable solutions for agricultural buildings while serving their functional needs perfectly.

The base material of Lindab’s lightweight steel (“fine steel”) products is high-strength steel coated with corrosion proofing hot-dip galvanizing (producing a zinc layer at both sides). The most important parameter to describe the mechanical strength of steel is the so-called yield point, whose numerical value for Lindab’s profiled sheeting products is at least 250 MPa, and 350 MPa as a minimum for load-bearing Z/C/U profiles, which ensures an outstanding load-bearing capacity and support framing safety. The quantity of zinc applied at both sides of the steel core as a coating layer determines the level of protection against corrosion (that is, in other words: “rusting”). In case of Lindab components, durability is ensured by a minimum of 275 g/m2 zinc for natural galvanized profiles (which gives 20 ym thickness for each side); in the case of pre-painted sheets, at least 200 g/m2 galvanisation layer is used. Depending of product types, a multilayer, colour paint coating is applied on the hot-dip galvanized steel sheets, which is important not only from an aesthetical point of view, but provides further technical protection (UV-resistivity, wear-resistance) and a longer life span too (typically 50 to 60 years under normal

environmental impacts). For outdoors applications, we offer 3 different Lindab coating systems, under the names of Classic, Premium and Elite, with 25, 35 and 50 ym total thickness respectively, which provides an increasing level of protection for steel profiles accordingly.

In the case of agricultural activities it occurs frequently that building structures are exposed to aggressive environmental impacts. The natural or coated hot-dip galvanized Lindab products are much more durable than those steel structures where only traditional painting is used for surface protection, but exposing them directly to aggressive environments should still be avoided generally, or else a very reflective and detailed specialist design is needed. A very wide range of special literature and standards are available for the usability of hot-dip galvanized steel structures in the case of environments containing various chemical substances (please refer to the publications of the Hungarian Hot-Dip Galvanizers’ Association for instance, or the standard MSZ EN ISO 14713)

Lindab steel base materials are used for the production of the various lightweight construction products, as well as the various systems, subsystems or even complete buildings that can be constructed from those products. The most important subsystems of Lindab hall buildings are the following:

Primary framing structure in steel Secondary framing structures Roof- and wall-cladding systems Supplementary systems, accessories

The primary framing system of Lindab halls is a spatial framework structure made from linearly sequenced planar frames and bracing systems. Principally three main types of frames made from traditional materials are available: solid-section frames are hot rolled, welded I-profile frames of variable cross-sections, and main lattice girder structures. Numerous further variants of these main types are possible, depending on further installations such as side-aisles, intermediate storey(s), crane-runway(s), etc. A tailor-made solution in conformity with builders’ needs (functions, aesthetics) and the technical requirements is realized in each case through individual design, that produces the required large dimensions (span, clear height), as well as the relevant optimised material consumption and, through this, economy. The surface protection solutions for the structural elements of main frames must be specified with view to needs and available options, which might be multi-layer painting or hot-dip galvanizing. With certain dimensional constraints, there are also such solutions and systems available, which are developed from Lindab Construline lightweight steel profiles, where already the base material is hot-dip galvanized (e.g. SBS framed shell system, Truss lattice girders).

technicaL possibiLities

Primer layerPassifierGalvanizationSteel core

Galvanization

Passifier

Reverse side coating

Colour coating

Classic, Premium, Elite

Upon the primary framing structure of halls, the so-called secondary load-bearing system system is installed, which directly supports the roof- and

wall sheeting and which transfers loads to the primary framing. Most frequently the secondary load-bearing system is constructed by using the optimized lightweight profiles of the Lindab Construline product family (linearly distributed load-bearing roof-purlin- and wall-stud systems), ensuring excellent load-bearing capacities through high strength, and a long-lasting

corrosion-resistance through the hot-dip galvanisation surface protection. The secondary framing can be realized by using Lindab’s Coverline structural elements too, using high-profile trapezoidal sheeting on roofs and structural wall-cassette products on walls.

The Lindab Coverline profiled sheeting products offered in several coatings and countless colours, and the self-supported board profiles render safe; watertight roofings and economic, and durable wall sheetings also for agricultural buildings. From an architectural point of view, the simplest look is given by linear-pattern trapezoidal profiles, however, a more aesthetical appearance can also be ensured if needed (e.g. head-buildings, servicing social blocks) by using products like the elegant sinusoidal profiles; facade wall-cassettes providing a strongly marked rectangular pattern (ECO and Pre-mium types); or even standing-seam sheetings (SRP, PLX) are all available. The sandwich panels of various types (all with steel sheeting at both sides with a thermal-insulation core in between) allow for a quick, thermally insulated cladding of large surfaces.

It is of high importance that besides its main framing and sheeting components, Lindab offers a wide range of accessories systems as well: the Rainline roof drainage system, the Protectline system for

roof safety (snow fences, roof walkways, roof- and wall-ladders), roof ventilation elements, roof foils, self-drilling screws, sealing profiles ensure a perfect design for the tiniest details.

It is important to note here, that the products and technical solutions enumerated above allow for a highly free and flexible design. In

certain cases, the wall structures of complete hall buildings can be realized by using Lindab components and solutions (steel framework structure, roof- and wall-claddings, roof drainage products and the relevant accessories), while in other cases Lindab products can be flexibly combined with structures made from other materials (e.g. prefabricated reinforced concrete framings combined with Lindab lightweight roof -and wall-claddings) in order to ensure the best and most economic realization of works.

Renovation of existing agricultural buildings

Generally there are several reasons to necessitate the renovation of existing buildings: technical reasons (maintenance, repair, improvement), functional reasons (changing functions), economic reasons (to increase its value in the real estate market) or, simply, aesthetical (“it should look better”). In general, these aspects are always present jointly, however the focus areas are chosen individually when a concrete renovation need appears. Similarly to newly built buildings, also for the renovation of agricultural buildings, the main aspect is function: an economic operation of the process related to the pursued activity, and all the other aspects must be subordinated to this one in most of the cases.

From technical aspects, the renovation activity may emerge at several levels. In simpler cases it might merely be a replacement of certain structural components (e.g. an outdated gutter, or a leaking roof may be replaced by newer, more modern products), or the supplementing of certain structural parts (e.g. existing bricklayer structures are insulated subsequently by better-performing facade cladding elements), or it might be a larger-scale, more complex reconstruction task (e.g. construction of a new roof structure and roofing after the old one has been removed). The advantages offered by lightweight structures bear even more significance in renovation works:

Low weight to expose the existing load-bearing structures to as low loads as possible (foundations, wall structures, roof structures)

Fast and dry installation technology, to restore any building parts disturbed during the renovation process, safely and within a short period of time, eliminating any possible hazard (like leakage) this way

High strength and a multilayer coating system to render the highest possible safety, durability and life span for the renovated building.

Lindab’s product range consisting from durable, hot-dip galvanized steel sheets provides economic alternatives for all kinds of renovation needs, ranging from the roof drainage system, through the trapezoidal profiles and tile effect roof sheets of various profiles and colours to the construction of complete additional building framing structures.

A well-functioning external roof-drainage system renders a safety level for the whole building whose value is much higher than the roof-drainage system’s own value, as a damaged, outdated, non-functioning gutter system may cause leakages for the floor and wall structures, which, in grave situations, may lead to a damage to the foundation or a sinking of the building. The Lindab roof drainage system provides safe solutions on the long run, through fast and high-quality restoration of the roof drainage system.

In the case of agricultural buildings, often arises the need for the renovation of existing, damaged, depreciated corrugated-sheet roofings. In this case a new Lindab roofing sheets can be constructed by removing the old roofing entirely, or, if the condition of the old roofing

technicaL possibiLities speciaL appLication - renovation

allows for it, the new Lindab trapezoidal roofing profiles or tile-effect roof sheets can be constructed over the existing roofing. In this latter case the thermal-engineering parameters of the building can also be improved (by the installation of additional thermal insulations, or by constructing a through-ventilated double-layer roof structure).

Renovation of flat roofs with the so-called Lindab Roof system represents a special application. In this case a higher-pitch, double-shell, ventilated roof structure is built. The supporting structure and the roofing can be designed individually by using the range of Lindab steel products mentioned above, which considerably improves the physical and energy parameters of the useful space, together with an additional floor insulation, with the renovated, better-looking appearance being a further bonus.

It is important to note here, that prior to the start of the renovation works, it is essential to assign a competent specialist with the task of surveying the structures and the condition of the existing building, of specifying the level of the required renovation or reinforcement, of realizing the builder’s needs in a technically correct and economic manner, and of prescribing the construction materials and construction products to be used for the purpose – all in all, of a correct designing of the renovation process.

Professional support

In addition to the developing and manufacturing of excellent-quality products, from the very beginning Lindab has attached importance to being able to provide professional and technical support to companies and persons playing a role in the construction process, at the highest possible level and in the highest number of fields all through the de-sign and installation of its products. The quickest way to have access to general information is to use our web site (www.lindab.hu), while detailed professional information is available at the Lindab Designer Portal that can be accessed via the website. In the following section, we provide a short summary of the services Lindab provides, broken down to target groups:

builders, investors: a collection of references, professional consultation, putting up designer- and contractor contacts, preparing preliminary quotations free of charge (in accordance with the level the technical specification have been elaborated to).

Designers: designers’ aids, technical guides for applications, design softwares, professional consultation.

contractors: short lead times and flexibility due to domestic manufacture, excellent logistics, minimum amounts of construction wastes due to a manufacture with accurate dimensions, safe packaging, professional consultation.

speciaL appLication - renovation

Advantages offered by Lindab products and systems High-strength steel raw material - high load-bearing capacity,

spanning over large spans Hot-dip galvanization for surface protection – excellent corrosion

protection, hardwearing quality Recyclable steel materials – environmentally friendly products A wide range of profiles and colours for cladding components -

aesthetical appearance, at a variety of levels Light weight - small loads to foundations, low transportation costs,

fast realization

Mounted, installed, dry technology - fast construction works, short realization times, faster return of investment

Accurate manufacture dimensions - low amount of wastes on site

Complete system (framings, roof- and wall-cladding, roof drainage, roof safety, accessories)

Variable system components - flexible, variable applications Outstanding services (for designers, contractors and builders)

services

Contact, quotations, informationIn specific questions related to hall systems, framing or sheeting elements, Lindab Kft.’s people are please to be available to your valued inquiry throughout the design, preparation, tendering (consignation, quotation-preparation) and the construction works phases.Please ask for our free professional consultation, and please do not hesitate to contact is with your special inquiries.

Budapest, Pest megye

polgár Dávid 06 30 248-2391 [email protected]

Csongrád, southern part of Pest megye and Bács-Kiskun megye

Kelemen Kornél 06 30 708-6463 [email protected]

Veszprém, Vas, Fejér and Győr-M-S and Komárom-Esztergom

Móricz Gábor 06 30 708-6462 [email protected]

Zala és Somogy, Tolna and Baranya megye

Devecz tamás 06 30 433-1603 [email protected]

Jász-Nagykun-Szolnok, Hajdú-Bihar and Békés megye

Kulcsár viktor 06 30 433-2064 [email protected] Nógrád, Heves, Borsod-A-Z and Szabolcs-Szatmár-Bereg megye

Fülep attila 06 30 433-1795 [email protected]

Design consultantMolnár istván06 30 [email protected]

Engineering, structural and fire-safety questionsKotormán istván06 30 [email protected]

Sales, quotationserőss Zoltán06 30 [email protected]

On-site project coordination, professional consultation and plans, design issues

Machinery shed

Sample building no.1. is a hall structure suitable for storing agricultural vehicles, machines, delivery tools and mobile equipment, that is necessary for every company acting in the agricultural sector. Important factors that influence the required dimensions (width, length, height): quantity, size and required space of the machines stored. Upon the primary framing, that is a uniquely dimensioned and optimized steel framing structure is the hot-dip galvanized purlin and the single layer steel trapezoid cladding installed, thus ptrotecting the machines from direct sunshine and rain. It has no wall cladding thus it is suitable for storing machines those are not sensitive to moisture and water vapour. However owing to the continuous ventilation, no persistant moisture have to be counted with, the place and the machines under the hood can dry up in a fast pace. Rainwater from outside can be diverted with raingutter system and water diversion rain chains. Throughout the design of the underlay and the floor structure both the weight of the machines and the external impacts have to be taken into consideration. (moisture, possibility of frost, etc.).

spectacuLar DraWinGs

Sample building, sample hall no. 1

Please note: The model halls, buildings we present here are intended for inspiration, which can be used as a starting point for the builders’ own designs, as an aid.

Machinery sheD DiMensions

Width (m) 12,0

Length (m) 30,0

Height of the eaves (m) 6,0

Roof pitch 18°

Floor area (m2) 360

haLL buiLDinG structure

Primary framing Steel framing structure, made from profiles produced from hot-roll forming

Secondary framing Lindab construline steel purlin system

Roof cladding Single layer steel roofing (Lindab LTP45 trapezoid sheet, LTF180 foil)

Wall cladding none

Rainwater drainage Lindab rainline rainwater system

1 000 6 000 6 000 6 000 6 000 6 000 1 000

-0,20

±0,00

+7,75

2 000 12 000 2 000

-0,20

±0,00

+5,80

+7,7518,00°

Homlokzatok

SIDE ELEVATION

ENDWALL ELEVATION

LINDAB MEZŐGAZDASÁGIMINTAÉPÜLET

1. - GÉPTÁROLÓ SZÍN

2012. december

Projekt neve: Rajz neve:

Készítette:

Ellenőrizte:

Méretarány:

Dátum:

2051 Biatorbágy, Állomás u. 1/aTel.: 06-23/531-100Fax.: 06-23/310-703Adószám: 10539260-2-13

Rajzszáma:

Referenciaszám:

Megrendelő:

–

16

25

34

43

52

61

BA B

A

MG-1/IV.

GrounD pLan

sections

eLevation

Machinery shed

6 000 6 000 6 000 6 000 6 000

1 000 30 000 1 000

2 00

012

000

2 00

0

1

AA



2 3 4 5 6

A

B


Készítette:

Ellenőrizte:

Méretarány:

Dátum:


Rajzszáma:

Referenciaszám:

Megrendelő:

–

Alaprajz

2012. december

MG-1/I.

MACHINERY SHED

BB

1 000 30 000 1 000

6 000 6 000 6 000 6 000 6 000

-0,20

+5,80

+7,751

2

32 4 5 61

1 - LTP 45/0,5 roof trapezoid sheet- LTF 180 breathable construction foil- "Z" purlin(Z200)- steel frame structure

2 - 15 cm reinforced concrete flooring- 25 cm gravel fill- original soil



2012. december


Készítette:

Ellenőrizte:

Méretarány:

Dátum:


Rajzszáma:

Referenciaszám:

Megrendelő:

–

B-B metszet MG-1/III.

6 00

0

8 412

±0,00

1501 800

1 800

1 800

1 5001 287

75

-0,20

+5,80

+7,75

2 000 12 000 2 000

18,00°

MG-1/II.LINDAB MEZŐGAZDASÁGIMINTAÉPÜLET


2012. december


Készítette:

Ellenőrizte:

Méretarány:

Dátum:


Rajzszáma:

Referenciaszám:

Megrendelő:

–

A-A metszet

1

BA

2




Technical drawings

1. Lindab LTP45 trapezoid sheet dark red (758), Classic coating2. Lindab Rainline 150/100 raingutter system dark red(758), Elite coating3. Visible steel frame structure, painted, dark grey

6 00

0

8 412

±0,00 floor level

1501 800

1 800

1 800

1 5001 287

75

-0,20 anchoring level

+5,80 eaves height

+7,75 ridge height

2 000 12 000 2 000

18,00°

rainwater chain"LS" Euro section primary framing(according to static specifications)

foundations (according to static specifications)

MG-1/II.LINDAB MEZŐGAZDASÁGIMINTAÉPÜLET


2012. december


Készítette:

Ellenőrizte:

Méretarány:

Dátum:


Rajzszáma:

Referenciaszám:

Megrendelő:

–

A-A metszet

1

BA

2 (ext

erna

l eav

es h

eigh

t of f

ram

e st

ruct

ure)

(external dimensions of primary frame)



Grain storage hall

Sample building no.2. is a hall building suitable for storing grain crops/cereals horizontally (in a horizontal plane). The following are the most important factors that influence the required dimensions for cereals storage halls (width, length, clear height, roof pitch angle): expected storage quantity (capacity) in air cubic metres and tons; the natural friction angle of the stored grain materials; process solutions for inbound/outbound warehousing; moving and handling needs.The sample hall presented here has a 30x60 m floor area and 6 m height of the eaves; this is a single-aisle cereal storage building of about 12000 m3 capacity, corresponding to about 8500-10000 tons of cereals depending on crop type. The primary framing structure is dimensioned individually in accordance with the building’s dimensions, resulting in an optimized-size steel framing structure with variable cross-sections. In order to ensure the uptaking of the lateral pressures exerted by the stored grain crop, a 4 m high reinforced concrete angular counterfort is built along the perimeter of the building, located practically within the steel framing pillars, to ensure the efficiency and the mechanisation of the manipulating, moving and handling operations within the building. The roof structure and the building envelope walls above the counterfort are made from longitudinal secondary framing parts (roof purlins, wall-stud beams), to which single-layer trapezoidal sheets are mounted by self-drilling screws with washers. A so-called anti condensation felt coating is applied over the inner surface of the roof sheets, to catch the vapours condensing within the steel profile, preventing it from dripping onto the storaged crops. However, it is also important to find a solution for an intensive outbound ventilation of the inner space to discharge any vapours generated and to ensure drying of the inner space. As a passive building-engineering solution, inbound ventilation may be placed above the counterfort, while the outbound ventilation may take place at the raised roof ridge. Besides, in order to enhance ventilation safely, force ventilation by using air extractors or other ventilation equipment may also become necessary. Decision-making and proper design in this question is possible only through a close cooperation among the affected specialist branches (architect, technologist, engineer of building mechanics). The dimensions, locations and numbers of doors/windows/gates must be defined depending on the technology chosen for the inbound and outbound warehousing operations. A need may arise for a longitudinal moving and handling of crops within the hall, for which a good solution is offered by a conveyor belt fastened to the steel framing structure under the ridge of the building. For rainwater drainage from the roof, a system of eavesgutters and downpipes can be used, either with simple spouters, or connected into a collector tank. For the flooring design, the storaging and handling needs must be taken into consideration, as well as a proper water tightness, load-bearing levels and any dilatation.



Grain storaGe haLL DiMensions

Width (m) 30,0

Length (m) 60,0


Roof pitch 23°

Floor area (m2) 1 800


Primary framing structure

Steel farming structure, made from welded sections with variable cross sections

Secondary framing structure

Lindab construline steel purlin and wall stud system

Roof cladding Lindab LTP35 trapezoidal sheets anti condensation felt coating

Wall cladding Lindab LVP20 trapezoidal sheets(above +4m), reinforced concrete counterfort (under +4m)

Rainwater drainage Lindab Rainline rainwater system


4 0004 000

4 00

04

000

4 0004 000

30 0

00

6 00

06

000

6 00

06

000

6 00

0

6 000 6 000 6 000 6 000 6 000 6 000 6 000 6 000 6 000 6 000

60 000

30 0

00

MG-2/I.Projekt neve: Rajz neve:

Készítette:

Ellenőrizte:

Méretarány:

Dátum:


Rajzszáma:

Referenciaszám:

Megrendelő:

–

Alaprajz

A

B

106 7 8 9


2. - GABONATÁROLÓ

11

2012. december

1 2 3 4 5

GRAIN STORAGE

AA

BB

-0,20

+3,60

30 000

60 0006 000 6 000 6 000 6 000 6 000 6 000 6 000 6 000 6 000 6 000

-0,20

+3,60

30 000

60 0006 0006 0006 0006 0006 0006 0006 0006 0006 0006 000

-0,20

+3,60

+6,05

+12,42

-0,20

+3,60

+6,05

+12,42

23,00°

23,00°

2012. december


2. - GABONATÁROLÓ

MG-2/IV.

10

LEFTSIDE FACADE

RIGHTSIDE FACADE

A B

Projekt neve:

106 7 8 9 111 2 3 4 5

FRONT FACADE

BACKSIDE FACADE

AB678911 12345

Rajz neve:

Készítette:

Ellenőrizte:

Méretarány:

Dátum:


Rajzszáma:

Referenciaszám:

Megrendelő:

–

Homlokzatok

±0,00

6 25

0

-0,20

+3,60

+3,80

+6,05

+12,42

30 000

23,00°

- LTP 35 trapezoid sheet with anti-condensation felt coverl- "Z" purlin (Z200)- steel frame structure

- LVP 20 tarpezoid sheet- "Z" purlin (Z150)- steel frame structure

2 31

A B

1

3

2


2. - GABONATÁROLÓ

MG-2/II.Projekt neve: Rajz neve:

Készítette:

Ellenőrizte:

Méretarány:

Dátum:


Rajzszáma:

Referenciaszám:

Megrendelő:

–

A-A metszet

2012. december

- 20 reinforced concrete flooring- 25 cm gravel fill- original soil

60 000

-0,20

+6,05

+12,42

±0,00

+3,80

6 000 6 000 6 000 6 000 6 000 6 000 6 000 6 000 6 000 6 000

106 7 8 9 111 2 3 4 5


2. - GABONATÁROLÓ


Készítette:

Ellenőrizte:

Méretarány:

Dátum:


Rajzszáma:

Referenciaszám:

Megrendelő:

–


2012. december




2 31

1

3

2

60 000

-0,20

+6,05

+12,42

±0,00 floor level

+3,80

6 000 6 000 6 000 6 000 6 000 6 000 6 000 6 000 6 000 6 000

reinforced concrete retaining wall (according to unique static specifications)


wind bracing

106 7 8 9 111 2 3 4 5


2. - GABONATÁROLÓ


Készítette:

Ellenőrizte:

Méretarány:

Dátum:


Rajzszáma:

Referenciaszám:

Megrendelő:

–


2012. december




2 31

1

3

2

GrounD pLan

sections

eLevation


Grain storage hallTechnical drawings

1. Lindab LTP 35 felt coated trapezoid sheet yellow (116), Classic coating

2. Lindab LTP 20 trapezoid sheet yellow (116), Classic coating

3. Lindab Rainline 190/120 raingutter system dark grey (087), Elite coating

4. Reinforced concrete angle supporting wall, raw concrete surface

5. Visible steel frame structure, painted, dark grey

6. Flashing, Lindab sheet, yellow (116), Classic coating

-0,20

+3,60

30 000

60 0006 000 6 000 6 000 6 000 6 000 6 000 6 000 6 000 6 000 6 000

-0,20

+3,60

30 000

60 0006 0006 0006 0006 0006 0006 0006 0006 0006 0006 000

-0,20

+3,60

+6,05

+12,42

-0,20

+3,60

+6,05

+12,42

23,00°

23,00°

2012. december


2. - GABONATÁROLÓ

MG-2/IV.

10

LEFTSIDE FACADE

RIGHTSIDE FACADE

A B

Projekt neve:

106 7 8 9 111 2 3 4 5

FRONT FACADE

BACKSIDE FACADE

AB678911 12345

Rajz neve:

Készítette:

Ellenőrizte:

Méretarány:

Dátum:


Rajzszáma:

Referenciaszám:

Megrendelő:

–

Homlokzatok

Pig feeder building

Sample building no.3 presents a concrete solution for an animal-keeping/pig-feeder building. The point of the following statement is the most applicable perhaps for the design/dimensioning of animal keeping/breeding/producing buildings: the architectural, structural solutions or possibilities are strictly determined by the operations and technologies conducted in the given building. The technology specified in accordance with the type, age of animals kept in the building for breeding includes, among others the feeding/watering of animals, the storage of animal fodders, manure-handling, heating- and ventilation-engineering, etc. These factors are crucial in determining the requirements for the given building. Further special feature in the case of animal keeping buildings is the presence of aggressive/corrosive solid or gaseous substances (e.g. ammonia) which has also significant impacts on the correct/proper design of structures, selection of materials.Sample building no.3 presents a lagoon-system pig feeding building with 22,3x67 m floor area (representing about 1500 m2, to accommodate about 1500 to 2000 animals). In architectural terms, in the middle of the building there is a wide, transversal, main service corridor, from which two longitudinal corridors open at both sides; from the latter ones, access to the actual animal keeping areas (sties) is ensured efficiently. The building-structure design presents solutions matching with functions and process needs. The load-bearing structure is made from reinforced concrete pillars fixed in prefabricated sleeve foundations. The pillars carry lightweight steel lattice girders; the gaps between the pillars are filled out with brickwork walls. The silicate materials used for the vertical structures, and the hot-dip galvanized surface protection of the steel structures of the roof are justified by the increased exposition levels caused by aggressive environmental impacts. At the upper side of the lattice girders, a lightweight, steel, Z-purlin system is attached, upon which steel trapezoidal sheet roof profiles, factory-coated by an anticondensation felt layer, are installed (to prevent condensating vapours from dripping), while to the horizontal bottom booms of girders, thermal-insulated, steel-sheeted sandwich panels are fixed to form a suspended ceiling. This way the inner space gets thermally insulated, heating is also possible when needed, while the space between the booms of lattice girders functions as an intensively ventilated air gap (inbound airflow at the eaves, and a raised ventilation border at the crest of the roof. This air gap is perfect to accommodate building-mechanical and other process equipment or ducts. A ventilation must be ensured for the inner space of the building under any circumstances to satisfy the biological needs and ensure the essential conditions for the animals, as well as to preserve the durability of building structures by exhausting the vapours that contain aggressive substances. In compliance with the lagoon-type manure-management system, the floor structure is made from partitioning reinforced concrete walls covered by pre-fabricated concrete floor grating.



piG FatteninG haLL DiMensions

Width (m) 22,3

Length (m) 67,0


Roof pitch 20 °



Primary framing Reinforced concrete columns in-filled with brick wall+ Lindab steel truss girder

Secondary framing Lindab construline steel purlin system

Roof cladding Roof: LTP45 trapezoid sheet anticondensation felt coating; Ceiling: Lindab sandwich panel

Wall cladding Plastered brick walling

Roof drainage Lindab Rainline rainwater system


pm: 1 250

1 20

01

200

pm: 1 250

1 20

01

200

pm: 1 250

1 20

01

200

pm: 1 2501

200

1 20

0

pm: 1 250

1 20

01

200

pm: 1 250

1 20

01

200

pm: 1 250

1 20

01

200

pm: 1 250

1 20

01

200

pm: 1 250

1 20

01

200

pm: 1 250

1 20

01

200

pm: 1 250

1 20

01

200

pm: 1 250

1 20

01

200

pm: 1 250

1 20

01

200

pm: 1 250

1 20

01

200

pm: 1 250

1 20

01

200

pm: 1 250

1 20

01

200

1 00

02

100

pm: 1 250

1 20

01

200

pm: 1 250

1 20

01

200

pm: 1 250

1 20

01

200

pm: 1 250

1 20

01

200

pm: 1 250

1 20

01

200

pm: 1 250

1 20

01

200

pm: 1 250

1 20

01

200

pm: 1 250

1 20

01

200

pm: 1 250

1 20

01

200

pm: 1 250

1 20

01

200

pm: 1 250

1 20

01

200

pm: 1 250

1 20

01

200

pm: 1 2501

200

1 20

0pm: 1 250

1 20

01

200

pm: 1 250

1 20

01

200

pm: 1 250

1 20

01

200

2 10

01

000

2 1001 000

2 1001 000

1 0002 100

1 0002 100

2 1001 000

2 1001 000

1 0002 100

1 0002 100

3 71

73

717

3 71

73

717

3 71

63

717

22 3

00

spa

n

22 6

00

4 000 4 000 4 000 4 000 4 000 4 000 4 000 4 000 3 000 4 000 4 000 4 000 4 000 4 000 4 000 4 000 4 000

67 000 span

300 31 700 300 2 700 300 31 700 300

300

22 0

0030

0

67 300

SERVICECORRIDOR

ANIMAL KEEPINGAREA

SERVICE CORRIDOR

ANIMAL KEEPINGAREA

ANIMAL KEEPINGAREA

SERVICE CORRIDOR

ANIMAL KEEPINGAREA BB

2120

ANIMAL KEEPINGAREA

A

SERVICE CORRIDOR

A

B

A

Projekt neve:Alaprajz

Rajz neve:

Készítette:

Ellenőrizte:

Méretarány:

Dátum:


Rajzszáma:

Referenciaszám:

Megrendelő:

–


3. - SERTÉSHÍZLALÓ

2012. december

MG-3/I.

193 142 6 18105 11 161 22151297

ANIMAL KEEPINGAREA

SERVICE CORRIDOR

67 460

22 300

22 760

-0,20

+4,00

+8,81

+2,10

+1,25

+2,45+2,10

-0,20

+4,00

+8,81

4 000 4 000 4 000 4 000 4 000 4 000 4 000 4 000 3 000 4 000 4 000 4 000 4 000 4 000 4 000 4 000 4 000

67 000

20,00°

21

MG-3/IV.HomlokzatokProjekt neve: Rajz neve:

Készítette:

Ellenőrizte:

Méretarány:

Dátum:


Rajzszáma:

Referenciaszám:

Megrendelő:

–



2012. december

ABA B

SIDE ELEVATION

ENDWALL ELEVATION

122

221

320

519

618

716

915

1014

1112

1211

1410

159

167

186

195

203 2

221

-1,02-0,12

±0,00

+3,90

400 2 000 200 2 000 200 2 000 200 2 000 200 2 000 200 2 000 200 2 000 200 2 000 200 2 000 200 2 000 400

22 60022 300 (column span)

-0,20

+4,00

+8,81

20,00°



MG-3/II.

- r.c. column + brick infill wall (30 cm)- mineral wool heat insulation (8 cm)- glass fiber layer- facade plaster

2012. december

3

4

3 41

Projekt neve:

2 - Lindab Truss steel truss girder- Lindab Monowall 100 heat insulated sandwich panel ceiling

- LTP 45 trapezoid sheet with anti-condensation felt cover- "Z" purlin (Z150)- Lindab Truss steel truss girder

- manure grid floor- manure lagoon space- reinforced concrete bottom plate (20 cm)- blind concrete (6 cm)- gravel fill (20 cm)- original soil

A B

ORDER OF LAYERS:

Rajz neve:

Készítette:

Ellenőrizte:

Méretarány:

Dátum:


Rajzszáma:

Referenciaszám:

Megrendelő:

–

A-A metszet

1

2

+2,10

-0,20

+4,00

+8,81

-1,02 -0,12

±0,00+1,25

+2,45

4 000 4 000 4 000 4 000 4 000 4 000 4 000 4 000 3 000 4 000 4 000 4 000 4 000 4 000 4 000 4 000 4 000

67 460

80 300 31 700 300 2 700 300 31 700 300 80

67 000

MG-3/III.

211

B-B metszet

2 3 5 6 7 9 10 11 12 14 15 16 18 19 20 22


3 41 2 - Lindab Truss steel truss girder- Lindab Monowall 100 heat insulated sandwich panel ceiling



ORDER OF LAYERS:


Készítette:

Ellenőrizte:

Méretarány:

Dátum:


Rajzszáma:

Referenciaszám:

Megrendelő:

–



2012. december

1

2

4

3

GrounD pLan

sections

eLevation


Pig feeder buildingTechnical drawings

1. Lindab LTP45 felt coated trapezoid sheet dark green (874), Classic coating2. Plastered brick walling, white3. Lindab Rainline 190/120 roof drainage copper metallic (778), Elite coating4. Flashing to doors and windows, Lindab sheet white (010), Classic coating

-1,02-0,12

±0,00

+3,90

400 2 000 200 2 000 200 2 000 200 2 000 200 2 000 200 2 000 200 2 000 200 2 000 200 2 000 200 2 000 400

22 60022 300 (column span)

-0,20

+4,00

+8,81

20,00°

r.c. column + brick infill wall

technológiai szellőzők

foundations (accordingto static specifications)

perforated steelsheet or birdnet

LTP45 trapezoid sheet withanti-condensation felt cover

prefabricated concrete grid floor

mineral wool heat insulation+ facade plaster

manure lagoon space

heat insulated sandwich panel ceiling

Lindab Truss steel truss girder(according to unique static specifications)



ventilation space

ventilationspace

MG-3/II.


2012. december

3

4

3 41

Projekt neve:

2 - Lindab Truss steel truss girder- Lindab Monowall 100 heat insulated sandwich panel ceiling



A B

ORDER OF LAYERS:

Rajz neve:

Készítette:

Ellenőrizte:

Méretarány:

Dátum:


Rajzszáma:

Referenciaszám:

Megrendelő:

–

A-A metszet

1

2

Riding hall (manége)

Sample building no.4 is a confined riding hall, whose function is only partly/indirectly related to the agricultural sector and animal keeping, as riding belongs rather to sports/leisure activities, however, due to its significance, and due to the role horses play in influencing the design of the building, we present an example of such buildings here. The size of the hall depends on the specific needs; its typical features are the following: large, unbroken inner space, at least cca. 1000 m2 floor area, and min. 5 m clear height.The actual riding hall building we present here is a single-space, closed hall of 25x50 m floor dimensioning (1250 m2 floor area). Its main load-bearing structure is made from welded I-profile steel framings of variable cross sections; the pillars rest on reinforced concrete point bases. The roof structure is made from lightweight, hot-dip galvanized steel Z-purlins, to which a single layer of trapezoidal sheet roofing is fixed by screws; to ensure natural lighting through the roof for the hall, plastic point-lighting elements are installed by joining to the profiles. The building envelope wall structure is made from 2 parts: the lower part is a 2,6 m high traditional brickwork wall all along the perimeter of the building, whose surface is left visible between the steel pillars (justified by aggressive environmental impacts arising from keeping live animals, and by a possibility of higher dynamic expositions); the upper part is a lightweight wall cladding solution, by using hot-dip galvanized steel, horizontal C-profile wall stud beams and vertical trapezoidal profiles. In the middle of each of the two gable walls, large, two-winged gates are installed for entry to and exit from the hall, while rows of windows are installed above the brickwork wall all around for a natural illumination of the riding hall. The uninsulated inner space of the riding hall must be continually ventilated to remove vapours that may condensate on the surface of steel components. This task is solved by placing ventilation gaps for inbound and outbound air flows (at the eaves and at the ridge of the roof), while in case of higher amounts of vapours, proper ventilation can be ensured either by natural ways (opening the gates and the windows) or by an installed mechanical ventilation system.



riDinG haLL DiMensions

Width (m) 25,0

Length (m) 50,0


Roof pitch 15 °



Primary framing Steel frame structure, variable cross-section welded profiles

Secondary framing Lindab construline steel purlin- and wall-stud system

Roof cladding Lindab LTP35 trapezoid sheet with anticondensation felt coating

Wall cladding LVP35 (above +2,60m), brick footing(under +2,60m)

Roof drainage Lindab Rainline rainwater system


pm: 2

400

3 6001 200

pm: 2

400

3 6001 200

pm: 2

400

3 6001 200

pm: 2

400

3 6001 200

4 0003 600

pm: 2 400

3 60

01

200

pm: 2 400

3 60

01

200

pm: 2 400

4 80

01

200

pm: 2 400

4 80

01

200

pm: 2 400

4 80

01

200

pm: 2 400

4 80

01

200

pm: 2 400

4 80

01

200

pm: 2

400

1 2003 600

pm: 2

400

1 2003 600

pm: 2

400

1 2003 600

pm: 2

400

1 2003 600

3 6004 000

pm: 2 400

1 20

03

600

pm: 2 400

1 20

04

800

pm: 2 400

1 20

04

800

pm: 2 4001

200

4 80

0

pm: 2 400

1 20

04

800

pm: 2 400

1 20

04

800

pm: 2 400

1 20

03

600

6 250 7 500 7 500 7 500 7 500 7 500 6 250

50 000

5 00

05

000

5 00

05

000

5 00

0

25 0

00

300

25 0

0030

025

600

2 3

RIDING HALL

4

Alaprajz MG-4/I.

5 6

B

A

B

7 8

AA

1

B


Készítette:

Ellenőrizte:

Méretarány:

Dátum:


Rajzszáma:

Referenciaszám:

Megrendelő:

–

2012. december

LINDAB MEZŐGAZDASÁGIMINTAÉPÜLET4. - LOVARDA

-0,20

+2,40

+4,80

+8,15

+2,40

+3,60

+2,40

+3,60

-0,20

+2,40

+4,80

+8,15

50 0006 250 7 500 7 500 7 500 7 500 7 500 6 250

25 000

15,00°


MG-4/IV.

A 2 3 4 5 6 7 8

HomlokzatokProjekt neve: Rajz neve:

Készítette:

Ellenőrizte:

Méretarány:

Dátum:


Rajzszáma:

Referenciaszám:

Megrendelő:

–

2012. december

SIDE ELEVATION

ENDWALL ELEVATION

B ABA

GrounD pLan

300 25 000 300

25 600

1 00

0

550

1 500

1 500

1 500

1 500

1 500

1 500

1 500

1 500391

500

5 00

0

25 000

13 440

±0,00 -0,20

+2,40

+4,80

+8,15

1 20

02

600

2 40

0

15,00°

1 2

ORDER OF LAYERS:

- facade brick wall (30 cm)- steel frame structure

- LVP 35 trapezoid sheet- "C" purlin (C200)- steel frame structure

- LTP 35 trapezoid sheet with anti-condensation felt cover- "Z" purlin (Z250)- steel frame structure

3 4 - sand spreading (20 cm)- gravel fill (15 cm)- original soil

A-A metszet

3

BA

2

1

4


Készítette:

Ellenőrizte:

Méretarány:

Dátum:


Rajzszáma:

Referenciaszám:

Megrendelő:

–

2012. december


MG-4/II.

300 25 000 300

25 600

1 00

0

550

1 500

1 500

1 500

1 500

1 500

1 500

1 500

1 500391

500

5 00

0

25 000

13 440

±0,00 floor level -0,20 anchoring level

+2,40 upper level of brick wall

+4,80 eaves height

+8,15 ridge height

1 20

02

600

2 40

0

15,00°

cement board covering

"LH" welded "I" section frame with variable cross section(according to static specifications)

brick wall


1 2

ORDER OF LAYERS:




3 4 - sand spreading (20 cm)- gravel fill (15 cm)- original soil

A-A metszet

3

(ext

erna

l eav

es h

eigh

t of f

ram

e st

ruct

ure)

(external dimensions of primary frame)

BA

2

(external dimensions of brick wall)

1

4

ventilation space


Készítette:

Ellenőrizte:

Méretarány:

Dátum:


Rajzszáma:

Referenciaszám:

Megrendelő:

–

2012. december


MG-4/II.

ventilation space(perforated steel sheet)

-0,20

+2,40

+4,80

+8,15

50 000

1 00

0

6 250 7 500 7 500 7 500 7 500 7 500 6 250

±0,00

1 2 3 4 5 6 7 8

1 2

ORDER OF LAYERS::

3 4


Készítette:

Ellenőrizte:

Méretarány:

Dátum:

Rajzszáma:

Referenciaszám:

Megrendelő:

–

2012. december

1

2

3

4

B-B metszet MG-4/III.2051 Biatorbágy, Állomás u. 1/aTel.: 06-23/531-100Fax.: 06-23/310-703Adószám: 10539260-2-13





- sand spreading (20 cm)- gravel fill (15 cm)- original soil

sections

eLevation


Riding hallTechnical drawings

1. Lindab LTP 35 felt coated trapezoid sheet brown (434), Classic coating2. Lindab LTP 35 trapezoid sheet brown (434), Classic coating3. Raw brick surface4. Lindab Rainline 190/120 roof drainage system brown (434), Elite coating5. Flashings, Lindab sheet brown (434), Classic coating6. Lindab LTP35 VCS skylight strip

References

Lindab agricultural halls

Take a look at some of

the various domestic and

international agricultural projects,

halls, where the ideas and needs

of the investors got into shape

with the application of Lindab

products.

Location: Sarkad /HUNGARY/Construction year: 2005Building size: 27,2x60,0x6,3m /23°

(~1650m2) Lindab products: complete hall (steel

frame structure, purlin- and wall-stud system, roof- and wall-trapezoid sheet, rainwater system)

Grain storage

Location: Abony /HUNGARY/Construction year: 2003-2006Building size: 21,0x60,0x5,0m/30°

(1260m2) / hall total 4 halls

Lindab products: complete hall (steel frame structure, purlin and wall-stud system, roof- and wall-trapezoid sheet, rainwater system)

References

Location: Törökszentmiklós /HUNGARY/Construction year: 2005-2006Building size: 6500 m2 / building total 13 buildingsLindab products: Lindab purlin system to reinforced concrete frame buildings, roof- and wall-cladding trapezoid sheet, rainwater system

Grain storage

Location: Sárpilis /HUNGARY/Construction year: 2005Building size: 1 670 m2 Lindab products: Roof purlin, LAF foil,

LTP 45 trapezoid sheet, LTP 20 trapezoid sheet, screws, flashings, LINDAB rainwater system

Location: Baja, AgroSziget /HUNGARY/

Construction year: 2004Building size: 1 400 m2 Lindab products: Roof purlin, LAF foil,

LTP 45 trapezoid sheet, screws, flashings

Location: Baja /HUNGARY/Construction year: 2005Building size: 4 800 m2

Lindab products: Lindab wall- and roof-cladding, Lindab foil, rainwater system

Location: Hódmezővásárhely /HUNGARY/Construction year: 2005Building size: 6800 m2 Lindab products: Lindab purlin- and wall-stud system, roof- and wall-cladding, rainwater

system

Location: Sárpilis /HUNGARY/Construction year: 2005Building size: 1 670 m2 Lindab products: Roof purlin, LAF foil,

LTP 45 trapezoid sheet, LTP 20 trapezoid sheet, screws, flashings, LINDAB rainwater system

Grain storage

Grain storage, machinery storage

References Agricultural storage, sheds

Location: Hódmezővásárhely /HUNGARY/Function: pre-storage dryingConstruction year: 2009Building size: 460 m2 Lindab products: Roof purlin, LAF foil, LTP 45 trapezoid sheet, screws, flashings, LINDAB roof drainage

Location: Békés /HUNGARY/Function: Machinery shedLindab products: Lindab purlin-system, roof-trapezoid sheet

Function: Haulm bale storage Location: Tedej (2012) /HUNGARY/ Kecel (2012) /HUNGARY/Lindab products: Lindab purlin-system, LTP45 roof-trapezoid sheet

Agricultural storage, sheds

Function: Pig-farmLocation: Gerde /HUNGARY/Construction year: 2010Hall size: 14 000m2

Lindab products: LTP45 felt coated roof-trapezoid sheets

Function: Chicken farmLocation: Bócsa /HUNGARY/Construction year: 2012Hall size: 8 000m2

Lindab products: LTP 35 roof-trapezoid sheet; wall-sandwich panel

Function: Duck farmLocation: Kecel /HUNGARY/Construction year: 2012Hall size: 6 000m2

Lindab products: LTP 35 roof-trapezoid sheet; wall-sandwich panel

Livestock building

References

Function: Pig-farm /HUNGARY/Location: HódmezővásárhelyConstruction year: 2008, 2012Building size: 6 903m2, 20 000m2 Lindab products: Lindab roof and wall-cladding,

roof purlin-system

Function: Cattle-shedLocation: SwedenConstruction year: 2009Lindab products: Lindab roof- and wall-cladding

Pig-farms, cattle sheds

Building: Cattle shedLocation: Onga /HUNGARY/Construction year: 2012Lindab products: purlin and wall-stud, roof- and wall-cladding

Pig-farms, cattle sheds

Location: Tedej /HUNGARY/Building size: 1 200 m2

Lindab products: Lindab roof-trapezoid sheet, roof purlin-system

Riding hall and manége, SwedenFloor area: 2 000 - 2 500 m2

Lindab products used: Lindab purlin – frame structure, Lindab trapezoid sheet

Riding halls

Function: Bio plant-growing, packagingLocation: SwedenConstruction year: 2010Lindab products: Lindab purlin, sandwich panel,

roof drainage

References

Function: Poultry preparation buildingLocation: Harkov, UkraineConstruction year: 2004Building size: 36x60x5,20m

(2160m2 floor area)Lindab products: Complete hall (steel frame structure, purlin-system, mounted heat insulated

roof- and wall-cladding, roof drainage, stave skylight)

Funkció: Sörgyár (SARMAT)Helyszín: Donyeck (Ukrajna)Kivitelezés éve: 2000Épület mérete: 30,0x24,0x16,85m (???) összes alapterület: 1625m2Lindab termékek: LTP3lemez ????

Agricultural, food industrial processing plant

Function: Grain processing buildingLocation: Mezőberény /HUNGARY/Construction year: 2011Lindab products: purlin- and wall-stud system,

roof- and wall-trapezoid sheet, roof drainage

Technical aspects and parametersthe directives of the european union concerning the construction industry set out the basic requirements for buildings. according to these aspects, we sum up here the options offered by Lindab’s product groups.

„Mechanical resistance and stability” – the design and construction of framing structures of compliant load-bearing capacity on the long run are ensured by the use of high-strength steel materials and optimized dimensions, as well as our self-developed structural dimensioning tools (charts, softwares).

„safety in case of fire” – There are a number of laboratory tests, standard calculations and qualifications available as regards the fire-protection classes and performance parameters (fire-resistance limit values) under applicable European standards (EN) of Lindab products and systems. By the help of these tools, the required framing solutions or sheeting systems can always be selected/specified for the requested fire safety level.

„hygiene, health and the environment” – The materials of Lindab light gauge steel products, throughout their entire life span, do not contain components, which are harmful to human health or the environment. A mention must be made here that the steel raw material is recyclable, and the minimum quantities of wastes produced in the manufacture and construction works phase does not impose a burden to the environment.

„safety of use” – In connection with this aspect it is worth mentioning that the durability of Lindab steel products is ensured by a multi-layer coating system applied over a hot-dip galvanized surface that ensures corrosion protection. This coating system can be selected from among various options (both for indoors and outdoors applications), depending on the strength of the environmental impacts and the expected life-span of the given product.

„protection against noise” – Two major areas should be distinguished in terms of acoustics: sound inhibition and sound absorption. For „sound inhibition” (where the task of the surface structural element in question is to ensure that the lowest possible part of a sound effect generated at one side should be detected at the other side), various Lindab assembled roof- and wall-cladding systems and pre-fabricated sandwich panels are available, with various test results, on the basis of which the required solution can be selected. Where „sound absorption” is prescribed (where the impact of a noise source located at one – generally the inner – side of a surface structure must be reduced for such „receivers” who stay/are located at the same side of the surface structure in question), the application of perforated wall cladding sheets (pierced densely by small-size holes) offers an excellent solution.

„energy economy and heat retention” – For buildings, one of the most important points of view today is the amount of energy they require for the purpose of use (heating and/or cooling, ventilation or other technologies), as this factor has a significant impact on operation costs. From among all the building structures, the thermal insulation capabilities of roof- and wall-claddings are the decisive parameters. The roof- and wall-cladding systems offered by Lindab provide a very wide choice also in terms of thermal insulation levels; the lightweight, thermal-insulated solutions are capable of meeting needs from a slightly tempered one to even a passive-building-level per-formance, with small spacings between the various solutions. The thermal insulation capability of building elements must always be specified individually, in a circumspect manner, based on relevant needs and prescriptions.

„sustainable use of natural resources” – From this point of view it is important to emphasize that Lindab’s roofing systems (producing especially large areas in case of halls for instance) allow for an excellent opportunity for the use of the various solar systems being on the market (solar collectors for hot water or heating, or electricity generating solar cells). In the case of each different Lindab roof-cladding system (trapezoidal profiles, tile-effect roof sheets, sandwich panels or standing seam roof sheets), pre-engineered accessory system components are available for accommodating and fastening solar components on the roof safely (through load-bearing and watertight connections).

Product identification and certificates of conformityAs the realization process in the construction industry involves a number of players in most cases (design, production, sales, specialized installation/construction works, general contracting, and organisation), it is of major importance to ensure the identification of makes and products, and the control of their technical conformity in every phase of a project. Identification of products at the building site is not always easy. For this end, the products manufactured by Lindab are marked by a videojet marking (product type, profile, serial number, date of production, etc.); while certain components are stamped in a raised print by the „Lindab” brand name (e.g. the joining ends of gutters), promoting a clear identification of Lindab products. Product identification is important also to ensure the assignment of products to quality documentations whose release is mandatory by law (ÉME, TMI, CE-mark, Declaration of Conformity).

Function: Bio plant-growing, packagingLocation: SwedenConstruction year: 2010Lindab products: Lindab purlin, sandwich panel,

roof drainage

Agricultural, food industrial processing plant

2051 Biatorbágy, Állomás u. 1/A.Tel.: +36-23-531-300, Fax: +36-23-531-141

www.lindab.hu/csarnokwww.lindab.hu

Lindab Profil

fehér alapra

fehér alapra

színes alapra

Documents

lindab | we simplify construction. has been present in Hungary already for 20 years, ... products is high-strength steel coated with corrosion proofing hot-dip ... Lindab halls is