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Operating Manual
Screw Compressor
ASK 901824 12 E
Manufacturer:
KAESER KOMPRESSOREN SE
96410 Coburg • PO Box 2143 • GERMANY • Tel. +49-(0)9561-6400 • Fax +49-(0)9561-640130
http://www.kaeser.com
Original instructions/KKW/SASK 2.22 en SBA-SCHRAUBEN-SC2IO
/KKW/SSC 2.0820170919 084918
1 Regarding this document1.1 Using this document ......................................................................................................... 11.2 Further documents ........................................................................................................... 11.3 Copyright .......................................................................................................................... 11.4 Symbols and labels .......................................................................................................... 1
1.4.1 Warnings ............................................................................................................. 11.4.2 Potential damage warnings ................................................................................ 21.4.3 Other alerts and their symbols ............................................................................ 2
2 Technical Specifications2.1 Nameplate ........................................................................................................................ 42.2 Options ............................................................................................................................. 42.3 Mass ................................................................................................................................. 52.4 Temperature ..................................................................................................................... 52.5 Ambient conditions ........................................................................................................... 52.6 Ventilation ........................................................................................................................ 62.7 Pressure ........................................................................................................................... 62.8 Flow rate (constant delivery volume relative to intake conditions) ................................... 72.9 Cooling oil recommendation ............................................................................................. 82.10 Cooling oil charge quantity ............................................................................................... 92.11 Motors and power ............................................................................................................ 10
2.11.1 Compressor drive motor ..................................................................................... 102.11.2 Fan motor ........................................................................................................... 11
2.12 Noise emission [dB(A)] ..................................................................................................... 112.13 Electrical connection ........................................................................................................ 112.14 Power supply specifications ............................................................................................. 12
2.14.1 Mains frequency: 50 Hz ...................................................................................... 122.14.2 Mains frequency: 60 Hz ...................................................................................... 13
2.15 Heat recovery ................................................................................................................... 14
3 Safety and Responsibility3.1 Basic instructions ............................................................................................................. 183.2 Specified use .................................................................................................................... 183.3 Improper use .................................................................................................................... 183.4 User's responsibilities ....................................................................................................... 18
3.4.1 Observe statutory and universally accepted regulations .................................... 183.4.2 Determining personnel ........................................................................................ 193.4.3 Keeping to Inspection Schedules and Accident Prevention Regulations ........... 19
3.5 Dangers ............................................................................................................................ 203.5.1 Safely dealing with sources of danger ................................................................ 203.5.2 Safe machine operation ...................................................................................... 223.5.3 Organisational Measures .................................................................................... 243.5.4 Danger Areas ...................................................................................................... 24
3.6 Safety devices .................................................................................................................. 253.7 Service life of safety functions .......................................................................................... 253.8 Safety signs ...................................................................................................................... 263.9 Emergency situations ....................................................................................................... 27
3.9.1 Correct fire fighting ............................................................................................. 273.9.2 Treating injuries from handling cooling oil .......................................................... 27
3.10 Warranty ........................................................................................................................... 283.11 Environment protection .................................................................................................... 28
4 Design and Function4.1 Housing ............................................................................................................................ 294.2 Machine function .............................................................................................................. 30
4.2.1 Safety devices .................................................................................................... 30
Contents
901824 12 EOperating Manual Screw Compressor ASK i
4.2.2 Floating relay contacts ........................................................................................ 314.3 Operating panel SIGMA CONTROL 2 ............................................................................. 314.4 Operating modes and control modes ............................................................................... 34
4.4.1 Machine operating modes .................................................................................. 344.4.2 Control modes .................................................................................................... 34
4.5 Options ............................................................................................................................. 364.5.1 SIGMA CONTROL 2 controller: Connection to control technology .................... 364.5.2 Machine mountings ............................................................................................. 364.5.3 Heat recovery ..................................................................................................... 36
5 Installation and Operating Conditions5.1 Ensuring safety ................................................................................................................ 385.2 Installation conditions ....................................................................................................... 38
5.2.1 Determining location and clearances .................................................................. 385.2.2 Ensuring the machine room ventilation ............................................................... 395.2.3 Exhaust duct design ........................................................................................... 40
5.3 Operating the machine in a compressed air network ....................................................... 40
6 Installation6.1 Ensuring safety ................................................................................................................ 416.2 Reporting Transport Damage ........................................................................................... 426.3 Connecting the machine with the compressed air network .............................................. 426.4 Connecting the external pressure transducer .................................................................. 426.5 Connecting the machine with the power supply ............................................................... 436.6 Options ............................................................................................................................. 44
6.6.1 Anchoring the machine ....................................................................................... 446.6.2 Connecting the heat recovery system ................................................................ 44
7 Initial Start-up7.1 Ensuring safety ................................................................................................................ 467.2 Instructions to be observed before commissioning .......................................................... 477.3 Checking installation and operating conditions ................................................................ 477.4 Setting the overload protection cut-out ............................................................................ 487.5 Setting the motor overload protection switch ................................................................... 487.6 Pouring cooling oil into the airend .................................................................................... 487.7 Activating and deactivating the MODULATING control .................................................... 497.8 Starting the machine for the first time .............................................................................. 507.9 Setting the set point pressure .......................................................................................... 517.10 Setting the display language ............................................................................................ 51
8 Operation8.1 Switching on and off ......................................................................................................... 52
8.1.1 Switching on ....................................................................................................... 528.1.2 Switching off ....................................................................................................... 52
8.2 Switching off in an emergency and switching on again .................................................... 538.3 Using the remote control for switching on and off ............................................................ 538.4 Using the timer for switching on and off ........................................................................... 548.5 Interpreting operation messages ...................................................................................... 558.6 Acknowledging alarm and warning messages ................................................................. 55
9 Fault Recognition and Rectification9.1 Basic instructions ............................................................................................................. 579.2 Other faults ....................................................................................................................... 57
10 Maintenance10.1 Ensuring safety ................................................................................................................ 5910.2 Following the maintenance plan ....................................................................................... 60
Contents
iiOperating Manual Screw Compressor ASK 901824 12 E
10.2.1 Logging maintenance work ................................................................................. 6010.2.2 Resetting maintenance interval counters ............................................................ 6010.2.3 Regular maintenance tasks ................................................................................ 6010.2.4 Cooling oil Change interval ................................................................................. 6110.2.5 Regular service tasks ......................................................................................... 62
10.3 Cooler: Cleaning or Renewing the Filter Mats ................................................................. 6310.4 Control cabinet: Clean or renew the filter mat .................................................................. 6310.5 Cooler maintenance ......................................................................................................... 6410.6 Maintain the heat recovery system .................................................................................. 6510.7 Air Filter Maintenance ...................................................................................................... 6610.8 Motor maintenance .......................................................................................................... 6610.9 Drive belt maintenance .................................................................................................... 6710.10 Testing the pressure relief valve ...................................................................................... 6810.11 Check the safety shut-down due to excessive airend discharge temperature. ................ 6910.12 Check the EMERGENCY STOP control device ............................................................... 6910.13 Checking the cooling oil level ........................................................................................... 6910.14 Venting the machine (de-pressurising) ............................................................................ 7010.15 Replenish cooling oil ........................................................................................................ 72
10.15.1 Venting the machine (de-pressurising) ............................................................... 7210.15.2 Topping up with cooling oil and trial run ............................................................. 73
10.16 Changing the cooling oil ................................................................................................... 7410.17 Changing the oil filter ....................................................................................................... 7910.18 Changing the oil separator cartridge ................................................................................ 8010.19 Documenting maintenance and service work .................................................................. 83
11 Spares, Operating Materials, Service11.1 Note the nameplate .......................................................................................................... 8411.2 Ordering consumable parts and operating fluids/materials .............................................. 8411.3 KAESER AIR SERVICE ................................................................................................... 8411.4 Replacement parts for service and repair ........................................................................ 85
12 Decommissioning, Storage and Transport12.1 De-commissioning ............................................................................................................ 88
12.1.1 Temporary de-commissioning ............................................................................ 8812.1.2 Long-term de-commissioning ............................................................................. 88
12.2 Packing ............................................................................................................................ 8912.3 Storage ............................................................................................................................. 8912.4 Transport .......................................................................................................................... 89
12.4.1 Safety .................................................................................................................. 8912.4.2 Transport with a forklift truck ............................................................................... 8912.4.3 Transport with a hoist ......................................................................................... 90
12.5 Disposal ........................................................................................................................... 9212.5.1 Dispose of the battery in accordance with local environmental regulations. ...... 92
13 Annex13.1 Pipeline and instrument flow diagram (P&I diagram) ....................................................... 9313.2 Pipeline and instrument flow diagram (P&I diagram) MODULATING control .................. 9913.3 Dimensional drawing ........................................................................................................ 10513.4 Electrical Diagram ............................................................................................................ 108
Contents
901824 12 EOperating Manual Screw Compressor ASK iii
Contents
ivOperating Manual Screw Compressor ASK 901824 12 E
Fig. 1 Maximum relative humidity of intake air ..................................................................................... 6Fig. 2 Location of safety signs .............................................................................................................. 26Fig. 3 Housing overview ....................................................................................................................... 29Fig. 4 Machine layout ........................................................................................................................... 30Fig. 5 Keys – overview ......................................................................................................................... 31Fig. 6 Indicators – overview .................................................................................................................. 32Fig. 7 RFID reader ................................................................................................................................ 33Fig. 8 Machine mountings .................................................................................................................... 36Fig. 9 Function of the heat recovery ..................................................................................................... 37
Fig. 10 Recommended machine placement and dimensions [mm] ........................................................ 39Fig. 11 Compressed air pipework ........................................................................................................... 42Fig. 12 Connecting the heat recovery system ........................................................................................ 44Fig. 13 Airend filling port ......................................................................................................................... 49Fig. 14 Activating and deactivating the MODULATING control .............................................................. 50Fig. 15 Switching on and off ................................................................................................................... 52Fig. 16 Switching off in an emergency ................................................................................................... 53Fig. 17 Using the remote control for switching on and off ...................................................................... 54Fig. 18 Using the timer for switching on and off ..................................................................................... 55Fig. 19 Acknowledging messages .......................................................................................................... 56Fig. 20 Filter mat for the air and oil cooler .............................................................................................. 63Fig. 21 Switching cabinet ventilation ...................................................................................................... 64Fig. 22 Filter mat for the air and oil cooler .............................................................................................. 65Fig. 23 Air filter maintenance .................................................................................................................. 66Fig. 24 Drive belt maintenance ............................................................................................................... 67Fig. 25 Check the EMERGENCY STOP control device ......................................................................... 69Fig. 26 Checking the cooling oil level ..................................................................................................... 70Fig. 27 Venting the machine ................................................................................................................... 71Fig. 28 Replenish cooling oil .................................................................................................................. 72Fig. 29 Changing the cooling oil, pressuring the oil separator tank ........................................................ 75Fig. 30 Changing the cooling oil Oil separator tank ................................................................................ 76Fig. 31 Changing the cooling oil Oil cooler ............................................................................................. 76Fig. 32 Changing the cooling oil Compressor block ............................................................................... 77Fig. 33 Changing the cooling oil Heat recovery ...................................................................................... 78Fig. 34 Changing the cooling oil Filling with cooling oil .......................................................................... 78Fig. 35 Changing the oil filter .................................................................................................................. 79Fig. 36 Changing the oil separator cartridge .......................................................................................... 81Fig. 37 Transporting with a forklift truck ................................................................................................. 90Fig. 38 Transporting with a crane ........................................................................................................... 91Fig. 39 Battery labelling .......................................................................................................................... 92
List of Illustrations
901824 12 EOperating Manual Screw Compressor ASK v
List of Illustrations
viOperating Manual Screw Compressor ASK 901824 12 E
Tab. 1 Danger levels and their definition (personal injury) .................................................................... 1Tab. 2 Danger levels and their definition (damage to property) ............................................................ 2Tab. 3 Nameplate .................................................................................................................................. 4Tab. 4 Options ....................................................................................................................................... 4Tab. 5 Mass ........................................................................................................................................... 5Tab. 6 Temperature ............................................................................................................................... 5Tab. 7 Ambient conditions ..................................................................................................................... 5Tab. 8 Overview Ventilation (50Hz) ....................................................................................................... 6Tab. 9 Overview Ventilation (60Hz) ....................................................................................................... 6
Tab. 10 Pressure relief valve activating pressure (50Hz) ........................................................................ 7Tab. 11 Pressure relief valve activating pressure (60Hz) ........................................................................ 7Tab. 12 Flow rate (50Hz) ......................................................................................................................... 7Tab. 13 Flow rate (60 Hz) ........................................................................................................................ 7Tab. 14 Cooling oil recommendation ....................................................................................................... 8Tab. 15 Cooling oil recommendation (food processing) .......................................................................... 8Tab. 16 Cooling oil recommendation (machines for snow cannons) ....................................................... 9Tab. 17 Cooling oil charge quantity ........................................................................................................ 10Tab. 18 Cooling oil charge (Option W2) .................................................................................................. 10Tab. 19 Cooling oil charge (option W3) ................................................................................................... 10Tab. 20 Compressor drive motor ............................................................................................................. 10Tab. 21 Compressor drive motor: Rated speed for 50 Hz ....................................................................... 10Tab. 22 Compressor drive motor: Rated speed for 60 Hz ....................................................................... 10Tab. 23 Fan motor (50Hz) ....................................................................................................................... 11Tab. 24 Fan motor (60Hz) ....................................................................................................................... 11Tab. 25 Noise emission [dB(A)] ............................................................................................................... 11Tab. 26 Supply details 200V / 3 / 50Hz ................................................................................................... 12Tab. 27 Supply details 230V / 3 / 50Hz ................................................................................................... 13Tab. 28 Supply details 400V / 3 / 50Hz ................................................................................................... 13Tab. 29 Network conditions at 400V / 3 / 50Hz ....................................................................................... 13Tab. 30 Supply details 230V / 3 / 60Hz ................................................................................................... 13Tab. 31 Supply details 380V / 3 / 60Hz ................................................................................................... 14Tab. 32 Supply details 440V / 3 / 60Hz ................................................................................................... 14Tab. 33 Supply details 460V / 3 / 60Hz ................................................................................................... 14Tab. 34 Heat recovery: Individual design data ........................................................................................ 15Tab. 35 Specification: Heat exchanger (Option W2/W3) ......................................................................... 15Tab. 36 Quality of the heat receiving medium ......................................................................................... 16Tab. 37 Heat capacity (Option W2/W3) ................................................................................................... 16Tab. 38 Flow rate / pressure drop (option W2) ........................................................................................ 16Tab. 39 Flow rate / pressure drop (option W3) ........................................................................................ 16Tab. 40 Inspection intervals according to Ordinance on Industrial Safety and Health ............................ 20Tab. 41 Danger Areas ............................................................................................................................. 25Tab. 42 Category and Performance Level ............................................................................................... 25Tab. 43 Safety signs ................................................................................................................................ 26Tab. 44 Keys ........................................................................................................................................... 31Tab. 45 LEDs ........................................................................................................................................... 32Tab. 46 RFID reader ................................................................................................................................ 33Tab. 47 Energy-saving control modes ..................................................................................................... 35Tab. 48 Components ............................................................................................................................... 36Tab. 49 Re-commissioning after storage ................................................................................................. 47Tab. 50 Installation conditions checklist .................................................................................................. 47Tab. 51 Activating and deactivating the MODULATING control .............................................................. 49Tab. 52 Machine identification ................................................................................................................. 54Tab. 53 Remote control identification ...................................................................................................... 54Tab. 54 Machine identification ................................................................................................................. 55
List of Tables
901824 12 EOperating Manual Screw Compressor ASK vii
Tab. 55 Other faults and remedies .......................................................................................................... 57Tab. 56 Advise others that the machine is being serviced. ..................................................................... 59Tab. 57 Regular maintenance tasks ........................................................................................................ 61Tab. 58 Cooling oil Change intervals ....................................................................................................... 62Tab. 59 Regular service tasks ................................................................................................................. 62Tab. 60 Logged maintenance tasks ........................................................................................................ 83Tab. 61 Consumable parts ...................................................................................................................... 84
List of Tables
viiiOperating Manual Screw Compressor ASK 901824 12 E
1 Regarding this document1.1 Using this document
The operating manual is a component of the product. It describes the machine as it was at the timeof first delivery after manufacture.➤ Keep the operating manual in a safe place throughout the life of the machine.➤ Supply any successive owner or user with this operating manual.➤ Please insert any amendment or revision of the operating manual sent to you.➤ Enter details from the machine nameplate and individual items of equipment in the table in
chapter 2.
1.2 Further documentsFurther documents included with this operating manual are:■ Certificate of acceptance / operating instructions for the pressure vessel■ Declaration of Conformity in accordance with the applicable directive■ Operating manual for SIGMA CONTROL 2
Missing documents can be requested from KAESER.➤ Make sure all documents are complete and observe the instructions contained in them.➤ Make sure you provide the data from the nameplate when ordering documents.
1.3 CopyrightThis operating manual is protected by copyright. Any queries regarding the use or duplication ofthis documentation should be referred to KAESER. Correct use of information will be fully suppor‐ted.
1.4 Symbols and labels➤ Please note the symbols and labels used in this document.
1.4.1 Warnings
Warning notices indicate dangers that may result in injury when disregarded.
Warning notices indicate three levels of danger identified by the corresponding signal word:
Signal term Meaning Consequences of non-compliance
DANGER Warns of an imminent threat of danger Will result in death or severe injury
WARNING Warns of possible danger May result in death or severe injury
CAUTION Warns of a potentially dangerous situation May result in a moderate physical injury
Tab. 1 Danger levels and their definition (personal injury)
Warning notices preceding a chapter apply to the entire chapter, including all sub-sections.
1 Regarding this document1.1 Using this document
901824 12 EOperating Manual Screw Compressor ASK 1
Example:
DANGERThese show the kind of danger and its source.The possible consequences of ignoring a warning are shown here.If you ignore the warning notice, the "DANGER" signal word indicates a lethal or severe in‐jury will occur.➤ The measures required to protect yourself from danger are shown here.
Warning notes referring to a sub-section or the subsequent action are integrated into the procedureand numbered as an action.Example:
1. WARNING! These show the kind of danger and its source.The possible consequences of ignoring a warning are shown here.If you ignore the warning notice, the "WARNING" signal word indicates that a lethal or severeinjury may occur.➤ The measures required to protect yourself from danger are shown here.
2. Always read and comply with warning instructions.
1.4.2 Potential damage warnings
Contrary to the warnings shown above, damage warnings do not indicate a potential personal in‐jury.
Warning notices for damages are identified by their signal term.
Signal term Meaning Consequences of non-compliance
NOTE Warns of a potentially dangerous situation Damage to property is possible
Tab. 2 Danger levels and their definition (damage to property)
Example:
NOTICEThese show the kind of danger and its source.Potential effects when ignoring the warning are indicated here.➤ The protective measures against the damages are shown here.
➤ Carefully read and fully comply with warnings against damages.
1.4.3 Other alerts and their symbols
This symbol identifies particularly important information.
1 Regarding this document1.4 Symbols and labels
2Operating Manual Screw Compressor ASK 901824 12 E
Material Here you will find details on special tools, operating materials or spare parts.
Precondition Here you will find conditional requirements necessary to carry out the task.Here conditions relevant to safety are named that will help you to avoid dangerous situations.
➤ This symbol denotes lists of actions comprising one stage of a task.Operating instructions with several steps are numbered in the sequence of the operating steps.Information relating to one option only are marked with an option code (e.g., H1 indicates thatthis section applies only to machines with screw-in machine feet). Option codes used in thisoperating manual are explained in chapter 2.2.
Information referring to potential problems are identified by a question mark.The cause is named in the help text ...➤ ... as is a solution.
This symbol identifies important information or measures regarding the protection of the envi‐ronment.
Further information Further subjects are introduced here.
1 Regarding this document1.4 Symbols and labels
901824 12 EOperating Manual Screw Compressor ASK 3
Option H1
2 Technical Specifications2.1 Nameplate
The model designation and important technical information are given on the machine's nameplate.
The nameplate is located on the outside of the machine:■ above the cooler, or■ on the rear of the machine.
➤ Enter here the nameplate data as a reference:
Feature Value
Rotary screw compressor
Material no.
Serial no.
Year of manufacture
Rated power
Rated motor speed
Maximum working pressure
Ambient temperature
Tab. 3 Nameplate
2.2 OptionsThe table contains a list of possible options. The options for this machine are shown near thenameplate.➤ Enter options here as a reference:
Option Option code Provided?
MODULATINGcontrol C1
SIGMA CONTROL 2:Connection to control technology available
C3 —
IT 3-phase supply C35 —
SIGMA CONTROL 2:Connection to control technology not provided
C48 ✓
Bolt-down machine mounts H1
Air cooling K1 ✓
Transformer power supply for refrigeration dryer T2 —
Heat recovery ΔT=25 K W2
Heat recovery ΔT=55 K W3
Provided: ✓not available: —
Tab. 4 Options
2 Technical Specifications2.1 Nameplate
4Operating Manual Screw Compressor ASK 901824 12 E
2.3 MassThe values shown are maximum values. Actual mass of individual machines are dependent onequipment fitted.
ASK 28 ASK 34 ASK 40
Mass [kg] 485 505 525
Tab. 5 Mass
2.4 Temperature
ASK 28 ASK 34 ASK 40
Minimum cut-in tempera‐ture [°C]
3 3 3
Typical airend dischargetemperature during oper‐ation [°C]
65 – 100 65 – 100 65 – 100
Maximum airend dis‐charge temperature (au‐tomatic safety shut-down)[°C]
110 110 110
Tab. 6 Temperature
2.5 Ambient conditions
ASK 28 ASK 34 ASK 40
Maximum elevation amsl[m]
1000 1000 1000
Permissible ambient tem‐perature [°C]
3 – 45 3 – 45 3 – 45
Cooling air temperature[°C]
3 – 45 3 – 45 3 – 45
Intake air temperature[°C]
3 – 45 3 – 45 3 – 45
* Higher altitudes are permissible only after consultation with the manufacturer.
Tab. 7 Ambient conditions
2 Technical Specifications2.3 Mass
901824 12 EOperating Manual Screw Compressor ASK 5
Fig. 1 Maximum relative humidity of intake airT Intake air temperature [°C]H Maximum relative humidity of intake air [%]
2.6 VentilationThe values given are minimum guide values.
Mains frequency: 50 Hz
ASK 28 ASK 34 ASK 40
Inlet aperture Z see fig‐ure 10 [m2]
0.5 0.5 0.6
Forced ventilation withexhaust fan:Flow rate [m3/h] at 100Pa
6000 7500 9000
Tab. 8 Overview Ventilation (50Hz)
Mains frequency: 60 Hz
ASK 28 ASK 34 ASK 40
Inlet aperture Z see fig‐ure 10 [m2]
0.5 0.5 0.6
Forced ventilation withexhaust fan:Flow rate [m3/h] at 100Pa
6000 7500 9000
Tab. 9 Overview Ventilation (60Hz)
2.7 PressureMaximum working pressure: (see nameplate)
2 Technical Specifications2.6 Ventilation
6Operating Manual Screw Compressor ASK 901824 12 E
Pressure relief valve activating pressure at 50 Hz [bar]:
Maximum working over‐pressure [bar]
ASK 28 ASK 34 ASK 40
8.0 10 10 10
11.0 13 13 13
15.0 16* 16* 16*
* China: 15.9
Tab. 10 Pressure relief valve activating pressure (50Hz)
Pressure relief valve activating pressure at 60 Hz [bar]:
Maximum working over‐pressure [bar]
ASK 28 ASK 34 ASK 40
8.5 10 10 10
11.0 13 13 13
15.0 16 16 16
Tab. 11 Pressure relief valve activating pressure (60Hz)
2.8 Flow rate (constant delivery volume relative to intake conditions)Flow rate [m3/min] at 50 Hz mains frequency:
Max. working pres‐sure [bar]
ASK 28 ASK 34 ASK 40
8.0 2.85 3.50 4.05
11.0 2.38 2.98 3.50
15.0 1.90 2.47 2.90
Flow rate as per ISO 1217:2009. Annex C
Tab. 12 Flow rate (50Hz)
Flow rate [m3/min] at 60 Hz mains frequency:
Max. working pres‐sure [bar]
ASK 28 ASK 34 ASK 40
8.5 2.80 3.40 4.00
11.0 2.40 2.90 3.45
15.0 1.82 2.40 2.83
Flow rate as per ISO 1217:2009. Annex C
Tab. 13 Flow rate (60 Hz)
2 Technical Specifications2.8 Flow rate (constant delivery volume relative to intake conditions)
901824 12 EOperating Manual Screw Compressor ASK 7
2.9 Cooling oil recommendationA sticker showing the type of oil used is located near the oil separator tank filler.Information on ordering cooling oil is found in chapter 11.
Cooling oils for general applications
SIGMA FLUID
MOL S-460 S-570
Description Mineral oil Silicone-freesynthetic oil
Synthetic oil
Application Standard oil for all appli‐cations except in con‐nection with foodstuffs.Particularly suitable formachines with a low du‐ty cycle.
Standard oil for all applica‐tions except in connectionwith foodstuffs.Particularly suitable for ma‐chines with a high duty cycle.Not suitable for East- / South-East-Asian countries.
Special oil for ambientconditions with high tem‐peratures and humidity.Standard oil for all appli‐cations except in connec‐tion with foodstuffs.Particularly suitable formachines with a high dutycycle.
Approval — — —
Viscosity at40 °C
44 mm2/s(DIN 51562–1)
45 mm2/s(D 445; ASTM test)
52.8 mm2/s(D 445; ASTM test)
Viscosity at100 °C
6.8 mm2/s(DIN 51562-1)
7.2 mm2/s(D 445; ASTM test)
8.0 mm2/s(D 445; ASTM test)
Flash point 220 °C(ISO 2592)
238 °C(D 92; ASTM test)
258 °C(D 92; ASTM test)
Density at15 °C
— 864 kg/m3
(ISO 12185)0.869 kg/l(D 1298; ASTM test)
Pour point –33 C(ISO 3016)
–46 ℃(D 97; ASTM test)
–54 ℃(D 97; ASTM test)
Demulsibilityat 54 °C
— 40/40/0/10 min(D 1401; ASTM test)
15 min(D 1401; ASTM test)
Tab. 14 Cooling oil recommendation
Cooling oils for applications in food processing
SIGMA FLUID
FG-460 FG-680
Description Synthetic oil Synthetic oil
Application Specifically for machines in applica‐tions where the compressed airmay come into contact with food‐stuff.
Special oil for ambient conditions withhigh temperatures and humidity.Specifically for machines in applicationswhere the compressed air may come intocontact with foodstuff.
2 Technical Specifications2.9 Cooling oil recommendation
8Operating Manual Screw Compressor ASK 901824 12 E
SIGMA FLUID
FG-460 FG-680
Approval USDA H-1, NSFApproved for the manufacture offood packaging, meat and poultryprocessing and other food process‐ing applications.
USDA H-1, NSFApproved for the manufacture of foodpackaging, meat and poultry processingand other food processing applications.
Viscosity at 40 °C 50.7 mm2/s(D 445; ASTM test)
70.0 mm2/s(D 445; ASTM test)
Viscosity at100 °C
8.2 mm2/s(D 445; ASTM test)
10.4 mm2/s(D 445; ASTM test)
Flash point 245 °C(D 92; ASTM test)
245 °C(D 92; ASTM test)
Density at 15 °C — —
Pour point — —
Demulsibility at54 °C
— —
Tab. 15 Cooling oil recommendation (food processing)
Cooling oils for the operation with snow cannons
SIGMA FLUID
PANOLIN HLP SYNTH 46
Description Saturated synthetic ester with additives (mineral oil free).Easily biologically degradable as per OECD criteria.
Application Specifically designed for machines intended for the operation with snowcannons.
Approval —
Viscosity at 40 °C 47 mm2/s
Viscosity at100 °C
8.1 mm2/s
Flash point >210 °C
Density at 15 °C 0.92 g/ml
Pour point –35 °C
Demulsibility at 54 °C —
Tab. 16 Cooling oil recommendation (machines for snow cannons)
2.10 Cooling oil charge quantityThe cooling oil charge quantity depends on the optional heat recovery system. For machines withoptions W2 or W3, the volume required additionally for the heat recovery must be added to thecharge.
2 Technical Specifications2.10 Cooling oil charge quantity
901824 12 EOperating Manual Screw Compressor ASK 9
ASK 28 ASK 34 ASK 40
Fluid volume* [l] 11 11 11
Topping up volume [l](minimum–maximum)
2 2 2
* plus the cooling oil volume of the heat recovery system.
Tab. 17 Cooling oil charge quantity
Heat recovery
ASK 28 ASK 34 ASK 40
Additional charge vol‐ume [l]
1.2 1.2 1.2
Tab. 18 Cooling oil charge (Option W2)
ASK 28 ASK 34 ASK 40
Additional charge vol‐ume [l]
1.2 1.2 1.2
Tab. 19 Cooling oil charge (option W3)
2.11 Motors and power
2.11.1 Compressor drive motor
ASK 28 ASK 34 ASK 40
Rated power [kW] 15.0 18.5 22.0
Enclosure protection IP 55 IP 55 IP 55
Tab. 20 Compressor drive motor
Rated speed [min−1] (Mains frequency: 50 Hz):
Max. working pres‐sure [bar]
ASK 28 ASK 34 ASK 40
8.0 2960 2960 2960
11.0 2960 2960 2960
15.0 2960 2960 2960
Tab. 21 Compressor drive motor: Rated speed for 50 Hz
Rated speed [min−1] (Mains frequency: 60 Hz):
Max. working pres‐sure [bar]
ASK 28 ASK 34 ASK 40
8.5 3565 3565 3565
2 Technical Specifications2.11 Motors and power
10Operating Manual Screw Compressor ASK 901824 12 E
Option W2/W3
Option W2
Option W3
Max. working pres‐sure [bar]
ASK 28 ASK 34 ASK 40
11.0 3565 3565 3565
15.0 3565 3565 3565
Tab. 22 Compressor drive motor: Rated speed for 60 Hz
2.11.2 Fan motor
Mains frequency: 50 Hz
ASK 28 ASK 34 ASK 40
Rated power [kW] 0.55 0.55 0.55
Rated speed [rpm] 940 940 1440
Protection class IP 55 IP 55 IP 55
h = operating hours
Tab. 23 Fan motor (50Hz)
Mains frequency: 60 Hz
ASK 28 ASK 34 ASK 40
Rated power [kW] 0.55 0.55 0.55
Rated speed [rpm] 1150 1150 1150
Protection class IP 55 IP 55 IP 55
h = operating hours
Tab. 24 Fan motor (60Hz)
2.12 Noise emission [dB(A)]
Mains frequency ASK 28 ASK 34 ASK 40
50 Hz 65 67 69
60 Hz 67 69 71
Noise pressure level in operation at maximum working gauge pressure as per ISO 2151 and thebasic standard ISO 9614-2, uncertainty: ±3 dB(A)
Tab. 25 Noise emission [dB(A)]
2.13 Electrical connectionThe machine is designed in accordance with the conditions for an electrical power supply specifiedin EN 60204-1 (IEC 60204-1) section 4.3.If no other conditions are specified by the operator, the thresholds described in this standard mustbe adhered to.It is recommended that the user and the supplier reach an agreement on the basis of EN 60204-1,Annex B.
2 Technical Specifications2.12 Noise emission [dB(A)]
901824 12 EOperating Manual Screw Compressor ASK 11
For electrical connection of the machine, a symmetric three-phase supply is necessary.In a symmetrical three-phase supply the phase angles and voltages are all the same.Incoming line within the switching cabinet to be as short as possible.If external sensors or communications lines are to be connected to the machine, use shielded ca‐bles and insert the same through EMC connections into the switching cabinet.
This machine may only be supplied from an earthed TN or TT three-phase supply in whichthe neutral point is earthed.The connection to an IT three-phase supply or a three-phase supply with one earthed phaseis not permitted.
Further information The wiring diagram in chapter 13.4 contains further details of the power supply connection.
2.14 Power supply specificationsSupply diameters and fusing (class gG) are selected according to DIN VDE 0100 part 430(IEC 60364-4-43) and DIN VDE 0298-4:2013-06 if the following conditions are met:■ multi-core copper conductors at an operating temperature up to 70 °C■ Cable length <50 m■ For an ambient temperature of 30 °C■ Wiring type C, without cable contact■ Current carrying capacity: Table 3 Column 11
(European Harmonisation Directive HD 60364-5-522011)■ Bundled cables: Table 21
─ Single layer on wall or floor─ Spacing ≥ outside diameter
➤ For other application conditions, check and determine the supply diameters according toDIN VDE 0100 and DIN VDE 0298-4:2013-06 or the local energy provider.
Other conditions would include, for example:■ Higher ambient temperature■ Other cable installation method■ Other bundled cables■ Cable length >50 m
Further information The wiring diagram in chapter 13.4 contains further details of the electrical connection data.
2.14.1 Mains frequency: 50 Hz
Rated voltage: 200V / 3 / 50Hz
ASK 28 ASK 34 ASK 40
Backup fuse [A] 80 100 100
Supply cable [mm2] 4x25 4x35 4x35
Current drawn [A] 65 80 90
Tab. 26 Supply details 200V / 3 / 50Hz
2 Technical Specifications2.14 Power supply specifications
12Operating Manual Screw Compressor ASK 901824 12 E
Rated voltage: 230V / 3 / 50Hz
ASK 28 ASK 34 ASK 40
Backup fuse [A] 63 80 100
Supply cable [mm2] 4x16 4x25 4x35
Current drawn [A] 57 69 78
Tab. 27 Supply details 230V / 3 / 50Hz
Rated voltage: 400V / 3 / 50Hz
ASK 28 ASK 34 ASK 40
Backup fuse [A] 40 50 50
Supply cable [mm2] 4x10 4x10 4x10
Current drawn [A] 33 40 45
Tab. 28 Supply details 400V / 3 / 50Hz
2.14.1.1 Network conditions
The network conditions apply to machines connected to public mains supplies with the followingcharacteristics.■ Mains frequency: 50 Hz■ Voltage between exterior and neutral lines 220 V... 250 V■ Voltage between the exterior lines 380 V... 430 V
They do not apply to private power supplies within industrial areas isolated from the public mains.The machines listed in the table are intended for operation with a public power supply with a net‐work impedance at the transfer point (house connection) of maximum Zmax. [Ohm].The operator must ensure that the machines are only connected to a network that meets these re‐quirements. If necessary, ask the local electricity company for the value of the network impedance.
ASK 28 ASK 34 ASK 40
Anticipated number ofstart-stop cycles per hour
15 15 15
Highest permissiblemains impedance*Zmax. [Ohm]
0.033 0.022 0.017
*Specification related to the sum of impedances in external and neutral lines.
Tab. 29 Network conditions at 400V / 3 / 50Hz
Machines with current consumption 16 A...≤75 A comply fully with IEC 61000-3-12.
2.14.2 Mains frequency: 60 Hz
Rated voltage: 230V / 3 / 60Hz
ASK 28 ASK 34 ASK 40
Backup fuse [A] 63 80 100
2 Technical Specifications2.14 Power supply specifications
901824 12 EOperating Manual Screw Compressor ASK 13
ASK 28 ASK 34 ASK 40
Supply cable [mm2] 4x16 4x25 4x35
Current drawn [A] 58 71 80
Tab. 30 Supply details 230V / 3 / 60Hz
Rated voltage: 380V / 3 / 60Hz
ASK 28 ASK 34 ASK 40
Backup fuse [A] 40 50 63
Supply cable [mm2] 4x10 4x10 4x16
Current drawn [A] 35 43 49
Tab. 31 Supply details 380V / 3 / 60Hz
Rated voltage: 440V / 3 / 60Hz
ASK 28 ASK 34 ASK 40
Backup fuse [A] 40 50 50
Supply cable [mm2] 4x10 4x10 4x10
Current drawn [A] 30 36 42
Tab. 32 Supply details 440V / 3 / 60Hz
Rated voltage: 460V / 3 / 60Hz
ASK 28 ASK 34 ASK 40
Backup fuse [A] 40 40 50
Supply cable [mm2] 4x10 4x10 4x10
Current drawn [A] 29 35 40
Tab. 33 Supply details 460V / 3 / 60Hz
2.15 Option W2/W3Heat recoveryThere are typical layout examples. Conditions for each individual installation could vary from theseguidelines.
The reasons may be (examples):■ Fluctuating condensate flow■ Working pressure■ Inlet conditions■ Ambient conditions■ Machine settings
Water is generally the heat-receiving medium. The water must meet the quality specified below inorder not to damage the heat exchanger.
2 Technical Specifications2.15 Heat recovery
14Operating Manual Screw Compressor ASK 901824 12 E
The specified flow rate relates to the maximum available heat capacity.➤ If required, enter your individual values in the prepared table.➤ Consult KAESER SERVICE if you wish to use a different heat-receiving medium.The primary side of the heat exchanger is connected to the cooling oil circuit of the machine.The specifications refer to the secondary side of the heat exchanger.
Individual design data
My value
Heating from [°C]
Heating to [°C]
Temperature difference(ΔT) [K]
Maximum available heatoutput [kW](relative to ___ bar work‐ing pressure)
Flow rate [m3/h]
Pressure drop [bar]
Tab. 34 Heat recovery: Individual design data
Component sprecification:
Feature Value
Material 1.4401
Braze Copper (Cu)
Max. working pres‐sure [bar]
10
Minimum permissible in‐let temperature [°C]
5
Max. permissible inlettemperature* [°C]
45
Continuously possibleoutlet temperature [°C]
70
Maximum permissibleoutlet temperature [°C](Component limit value)
100
Maximum permissibleflow rate [m3/h]
8.7
Unsuitable cooling media Salt waterConsult KAESER on the suitability of water.
* Consult KAESER about higher values.
Tab. 35 Specification: Heat exchanger (Option W2/W3)
2 Technical Specifications2.15 Heat recovery
901824 12 EOperating Manual Screw Compressor ASK 15
Quality of the heat receiving medium
Characteristics/content Value
pH value 7.5 – 9.0
Hardness [°dH] 0 – 20
Carbonate hardness* [°dH] <20
Chlorides (Cl) [mg/l] <100
Iron (Fe), dissolved [mg/l] <0.5
Sulphate (SO4) [mg/l] <100
HCO3/SO4 ratio >1
Electrical conductivity [µS/cm] 10 – 800
Ammonia (NH4+) [mg/l] <1
Manganese (Mn), dissolved [mg/l] <0.1
Glycol [%] 20–40
Solids (particle size) [mm] <0.1
Bacterial count [CFU*/ml] 10,000
Suspended solids [ppm](portion of undissolved matter)
<20
* CFU: colony-forming units
Tab. 36 Quality of the heat receiving medium
Heat capacity
Maximum heat capacityavailable
ASK 28 ASK 34 ASK 40
[kW] 13.6 16.9 19.8
[MJ/h] 49 61 71
[kcal/h] 11700 14500 17000
Tab. 37 Heat capacity (Option W2/W3)
Flow rate for heating from 45 °C to 70 °C (equates to ΔT=25K)
ASK 28 ASK 34 ASK 40
Flow rate [m3/h] 0.47 0.58 0.68
Pressure drop [bar] 0.15 0.15 0.15
Tab. 38 Flow rate / pressure drop (option W2)
Flow rate for heating from 15 °C to 70 °C (equates to ΔT=55K)
ASK 28 ASK 34 ASK 40
Flow rate [m3/h] 0.21 0.26 0.31
2 Technical Specifications2.15 Heat recovery
16Operating Manual Screw Compressor ASK 901824 12 E
Option W2
Option W3
ASK 28 ASK 34 ASK 40
Pressure drop [bar] 0.10 0.10 0.10
Tab. 39 Flow rate / pressure drop (option W3)
2 Technical Specifications2.15 Heat recovery
901824 12 EOperating Manual Screw Compressor ASK 17
3 Safety and Responsibility3.1 Basic instructions
The machine is manufactured to the latest engineering standards and acknowledged safety regula‐tions. Nevertheless, dangers can arise through its operation:■ danger to life and limb of the operator or third parties,■ impairments to the machine and other material assets.
Disregard of warning or safety instructions can cause serious injuries!
➤ Use this machine only if it is in a technically perfect condition and only for the purpose forwhich it is intended; observe all safety measures and the instructions in the operating manual.
➤ Immediately rectify (have rectified) any faults that could be detrimental to safety.
3.2 Specified useThe machine is intended solely for generating compressed air for industrial use. Any other use isconsidered incorrect. The manufacturer is not liable for any damages that may result from incorrectuse. The user alone is liable for any risks incurred.➤ Comply with the instructions in this operating manual.➤ Operate the machine only within its performance limits and under the permitted ambient condi‐
tions.➤ Do not use compressed air for breathing purposes unless it is specifically treated.➤ Do not use compressed air for any application that will bring it into direct contact with foodstuffs
unless it is specifically treated.
3.3 Improper useImproper usage can cause damage to property and/or (severe) injuries.➤ Only use the machine as intended.➤ Never direct compressed air at persons or animals.➤ Use hot cooling air for heating purposes only if there is no risk to the health of humans or ani‐
mals. If necessary, hot cooling air should be treated by suitable means.➤ Do not allow the machine to take in toxic, acidic, flammable of explosive gases or vapours.➤ Do not operate the machine in areas in which specific requirements with regard to explosion
protection are in force.
3.4 User's responsibilities
3.4.1 Observe statutory and universally accepted regulations
These are, for example, nationally implemented European directives and/or applicable national leg‐islation, safety and accident prevention regulations.
3 Safety and Responsibility3.1 Basic instructions
18Operating Manual Screw Compressor ASK 901824 12 E
➤ Observe relevant statutory and accepted regulations during installation, operation and mainte‐nance of the machine.
3.4.2 Determining personnel
Suitable personnel are experts who, by virtue of their training, knowledge and experience as wellas their knowledge of relevant regulations can assess the work to be done and recognize the pos‐sible dangers involved.
Authorised operators possess the following qualifications:■ are of legal age,■ are conversant with and adhere to the safety instructions and sections of the operating manual
relevant to operation,■ they have received adequate training and authorization to operate electrical and compressed
air devices,■ Additional qualifications for machines with refrigeration dryers:
─ they must have training and qualification for safe operation of refrigeration devices.
Authorised installation and maintenance personnel have the following qualifications:■ are of legal age,■ must have read, be conversant with and adhere to the safety instructions and sections of the
operating manual applicable to installation and maintenance,■ are fully conversant with the safety concepts and regulations of electrical and compressed air
engineering,■ are able to recognise the possible dangers of electrical and compressed air devices and take
appropriate measures to safeguard persons and property,■ have received adequate training in and authorization for the safe installation and maintenance
of this machine.■ Additional qualifications for machines with refrigeration dryers:
─ fully conversant with the safety concepts and regulations concerning refrigeration devices,─ must be able to recognise the possible dangers of refrigeration devices and take appropri‐
ate measures to safeguard persons and property.
➤ Ensure that personnel entrusted with operation, installation and maintenance are qualified andauthorised to carry out their tasks.
3.4.3 Keeping to Inspection Schedules and Accident Prevention Regulations
The machine is subject to local inspection schedules.
Examples of German operation
➤ Carry out recurring inspections to DGUV Regel 100 – 500, chapter 2.11:The user must ensure that the machine's safety devices are checked for function as requiredor at least annually.
➤ Carry out oil changes to DGUV Regel 100 – 500, chapter 2.11.The user must ensure that the cooling oil is changed as required or at least annually and the oilchange must be documented. Intervals may be varied if an analysis proves that the oil is stillusable.
3 Safety and Responsibility3.4 User's responsibilities
901824 12 EOperating Manual Screw Compressor ASK 19
➤ Keep to inspection intervals in accordance with the Ordinance on Industrial Safety and Healthwith maximum intervals as laid down in § 15:
Inspection Inspection interval Inspecting authority
Installation and equip‐ment inspection
Before commissioning Competent person(e. g. KAESER SERVICE technician)
Internal inspection Every 5 years after installation orthe last inspection
Competent person(e. g. KAESER SERVICE technician)
Strength test Every 10 years after installation orthe last inspection
Competent person(e. g. KAESER SERVICE technician)
Tab. 40 Inspection intervals according to Ordinance on Industrial Safety and Health
3.5 DangersBasic instructions
The following describes the various forms of danger that can occur during machine operation.Basic safety instructions are found in this service manual at the beginning of each chapter in thesection entitled 'Safety'.Warning instructions are found before a potentially dangerous task.
3.5.1 Safely dealing with sources of danger
The following describes the various forms of danger that can occur during machine operation.
Electricity
Touching voltage carrying components can result in electric shocks, burns or death.➤ Allow only qualified and authorised electricians or trained personnel under the supervision of a
qualified and authorised electrician to carry out work on electrical equipment according to elec‐trical engineering regulations.
➤ Before commissioning or re-commissioning the machine, the user must ensure adequate pro‐tection against electric shock from direct or indirect contact.
➤ Before starting any work on electrical equipment:Switch off and lock out the power supply isolator and verify the absence of any voltage.
➤ Switch off any external power sources.These could be connections to floating relay contacts or the electrical machine heating, for ex‐ample.
➤ Use fuses corresponding to machine power.➤ Check regularly that all electrical connections are tight and in proper condition.
Forces of compression
Compressed air is contained energy. Uncontrolled release of this energy can cause serious injuryor death. The following information concerns work on components that could be under pressure.➤ Close shut-off valves or otherwise isolate the machine from the distribution network to ensure
that no compressed air can flow back into the machine.
3 Safety and Responsibility3.5 Dangers
20Operating Manual Screw Compressor ASK 901824 12 E
➤ De-pressurise all pressurised components and enclosures.➤ Do not carry out welding, heat treatment or mechanical modifications on pressurised compo‐
nents (e.g. pipes and vessels) as this influences the component's resistance to pressure.The safety of the machine is then no longer ensured.
Compressed air quality
The composition of the compressed air must be suitable for the actual application in order to pre‐clude health and life-threatening dangers.➤ Use appropriate systems for air treatment before using the compressed air from this machine
as breathing air and/or for the processing of foodstuffs.➤ Use foodstuff-compatible cooling oil whenever compressed air is to come into contact with
foodstuffs.
Spring forces
Springs under tension or compression store energy. Uncontrolled release of this energy can causeserious injury or death.Minimum pressure / check valves, pressure relief valves and inlet valves are powerfully spring-loa‐ded.➤ Do not open or dismantle any valves.
Rotating components
Touching the fan wheel, the coupling or the belt drive while the machine is switched on can resultin serious injury.➤ Do not open the enclosure while the machine is activated.➤ Switch off and lock out the power supply disconnecting device and verify the absence of any
voltage.➤ Wear close-fitting clothes and a hair net if necessary.➤ Make sure all covers and safety guards are in place and secured before re-starting.
Temperature
High temperatures are generated during compression. Touching hot components may cause inju‐ries.➤ Avoid contact with hot components.
These include, for example, compressor airends or blocks, oil and compressed air lines, cool‐ers, oil separator tanks, motors and machine heaters.
➤ Wear protective clothing.➤ If welding is carried out on or near the machine, take adequate measures to prevent sparks or
heat from igniting oil vapours or parts of the machine.
Noise
The enclosure absorbs the machine noise to a tolerable level. This function will be effective only ifthe enclosure is closed.➤ Operate the machine only with intact sound insulation.➤ Wear hearing protection if necessary.
The blowing-off of the pressure relief valve can be particularly loud.
3 Safety and Responsibility3.5 Dangers
901824 12 EOperating Manual Screw Compressor ASK 21
Operating fluids/materials
The used operating fluids and materials can cause adverse health effects. Suitable safety meas‐ures must be taken in order to prevent injuries.➤ Strictly forbid fire, open flame and smoking.➤ Follow safety regulations when dealing with oils, lubricants and chemical substances.➤ Avoid contact with skin and eyes.➤ Do not inhale oil mist or vapour.➤ Do not eat or drink while handling cooling and lubricating fluids.➤ Keep suitable fire extinguishing agents ready for use.➤ Use only KAESER approved operating materials.
Unsuitable spare parts
Unsuitable spare parts compromise the safety of the machine.➤ Use only spare parts approved by the manufacturer for use in this machine.➤ Use only genuine KAESER replacement parts on pressure bearing parts.
Conversion or modification of the machine
Modifications, additions to and conversions of the machine or the controller can result in unpredict‐able dangers.➤ Do not convert or modify the machine!➤ Obtain written approval by the manufacturer prior to any technical modification or expansion of
the machine, the controller, or the control programs.
Extending or modifying the compressor station
If dimensioned appropriately, pressure relief valves reliably prevent an impermissible rise in pres‐sure. New dangers may arise if you modify or extend the compressed air station.➤ When extending or modifying the compressed air system:
Check the blow-off capacity of pressure relief valves on air receivers and compressed air linesbefore installing a new machine.
➤ If the blow-off capacity is insufficient:Install pressure relief valves with larger blow-off capacity.
3.5.2 Safe machine operation
The following is information supporting you in the safe handling of the machine during individualproduct life phases.
Personal protective equipment
When working on the machine you may be exposed to dangers that can result in accidents withsevere adverse health effects.➤ Wear protective clothing as necessary.
Suitable protective clothing (examples):■ Safety work wear■ Protective gloves
3 Safety and Responsibility3.5 Dangers
22Operating Manual Screw Compressor ASK 901824 12 E
■ Safety boots■ Eye protection■ Ear protection
Transport
The mass and size of the machine require safety measures during its transport to prevent acci‐dents.➤ Use suitable lifting gear that conforms to local safety regulations.➤ Allow transportation only by personnel trained in the safe movement of loads.➤ Attach lifting gear only to suitable lifting points.➤ Be aware of the centre of gravity to avoid tipping.➤ Make sure the danger zone is clear of personnel.➤ Do not step onto machine components to climb up the machine.
Assembly
➤ Use only electrical cables that are suitable and approved for the surroundings and electricalloads applied.
➤ Never dismantle compressed air pipes until they are fully vented.➤ Only use pressure lines that are suitable and approved for the maximum working pressure and
the intended medium.➤ Do not allow connection pipes to be placed under mechanical stress.➤ Do not induce any forces into the machine via the connections, so that the compressive forces
must be balanced by bracing.
Installation
A suitable installation location for the machine prevents accidents and faults.➤ Install the machine in a suitable compressor room.➤ Ensure sufficient and suitable lighting such that the display can be read and work carried out
comfortably and safely.➤ Ensure accessibility so that all work on the machine can be carried out without danger or hin‐
drance.➤ If installed outdoors, the machine must be protected from frost, direct sunlight, dust, rain and
splashing water.➤ Do not operate in areas in which specific requirements with regard to explosion protection are
in force.For instance, the requirements of ATEX directive 2014/34/EC "Equipment and Protective Sys‐tems intended for use in Potentially Explosive Atmospheres".
➤ Ensure adequate ventilation.➤ Place the machine in such a manner that the working conditions in its environment are not im‐
paired.➤ Comply with limit values for ambient temperature and humidity.➤ The intake air must not contain any damaging contaminants,
Damaging contaminants are for instance: explosive or chemically instable gases and vapours,acid or base forming substances such as ammonia, chlorine or hydrogen sulfide.
➤ Do not position the machine in the warm exhaust air flow from other machines.➤ Keep suitable fire extinguishing agents ready for use.
3 Safety and Responsibility3.5 Dangers
901824 12 EOperating Manual Screw Compressor ASK 23
Commissioning, operation and maintenance
During commissioning, operation and maintenance you may be exposed to dangers resulting from,e.g., electricity, pressure and temperature. Careless actions can cause accidents with severe ad‐verse effects for your health.➤ Allow maintenance work to be carried out only by authorised personnel.➤ Wear close-fitting, flame-resistant clothing. Wear protective clothing as necessary.➤ Switch off and lock out the power supply disconnecting (isolating) device and check that no
voltage is present.➤ Check that there is no voltage on potential-free contacts.➤ Close shut-off valves or otherwise isolate the machine from the compressed air network to en‐
sure that no compressed air can flow back into the machine.➤ De-pressurise all pressurised components and enclosures.➤ Allow the machine to cool down.➤ Do not open the cabinet while the machine is switched on.➤ Do not open or dismantle any valves.➤ Use only spare parts approved by KAESER for use in this machine.➤ Carry out regular inspections:
for visible damages,of safety installations,of the EMERGENCY STOP command device,of any components requiring monitoring.
➤ Pay particular attention to cleanliness during all maintenance and repair work. Cover compo‐nents and openings with clean cloths, paper or tape to keep them clean.
➤ Do not leave any loose components, tools or cleaning rags on or in the machine.➤ Components removed from the machine can still be dangerous.
Do not attempt to open or destroy any components taken from the machine.
De-commissioning, storage and disposal
Improper handling of old operating fluids and components represent a danger for the environment.➤ Drain off fluids and dispose of them according to environmental regulations.
These include, for example, compressor oil and cooling water.➤ Have refrigerant disposed of by authorized bodies only.➤ Dispose of the machine in accordance with local environmental regulations.
3.5.3 Organisational Measures
➤ Designate personnel and their responsibilities.➤ Give clear instructions on reporting faults and damage to the machine.➤ Give instructions on fire reporting and fire-fighting measures.
3.5.4 Danger Areas
The table gives information on the areas dangerous to personnel.Only authorised personnel may enter these areas.
3 Safety and Responsibility3.5 Dangers
24Operating Manual Screw Compressor ASK 901824 12 E
Activity Danger area Authorised personnel
Transport Within a 3 m radius of the machine. Installation personnel for transportpreparation.No personnel during transport.
Beneath the lifted machine. No personnel!
Installation Within the machine.Within 1 m radius of the machine and its sup‐ply cables.
Installation personnel
Operation Within a 1 m radius of the machine. Operating personnel
Maintenance Within the machine.Within a 1 m radius of the machine.
Maintenance personnel
Tab. 41 Danger Areas
3.6 Safety devicesVarious safety devices ensure safe working with the machine.➤ Do not change, bypass or disable safety devices.➤ Regularly check safety devices for their correct function.➤ Do not remove or obliterate labels and notices.➤ Ensure that labels and notices are clearly legible.
Further information More information on safety devices is contained in chapter 4, section 4.2.1.
3.7 Service life of safety functionsPursuant to ISO 13849-1:2008, Category and Performance Level (PL) of the machine's safetyfunctions have been analysed and assessed:
Safety function Category Performance Level
Safety shut-down due to excessive airend dischargetemperature
2 c
EMERGENCY STOP device 1 c
Tab. 42 Category and Performance Level
The safety-relevant components of the safety functions are designed for a working life of 20 years.The working life starts with the commissioning, and is not extended by times during which the ma‐chine was not in use.
The following components are affected:■ Resistance thermometer (Pt100 sensor for measuring the compression discharge temperature)■ EMERGENCY STOP control device■ Mains contactor
1. The components of the safety functions must be replaced by KAESER SERVICE after a work‐ing life of 20 years.
2. Have the KAESER SERVICE check the reliability of the safety functions.
3 Safety and Responsibility3.6 Safety devices
901824 12 EOperating Manual Screw Compressor ASK 25
3.8 Safety signsThe illustration shows the position of the safety signs on the machine. The table lists the varioussafety signs used and their meanings.
Fig. 2 Location of safety signs
Item Sign Meaning
1 Danger of fatal injury from electric shock!➤ Before starting any work on electrical equipment:
Switch off and lock out the power supply disconnecting device and verify theabsence of any voltage.
2 Hot surface!Risk of burns caused by contact with hot components!➤ Do not touch the surface.➤ Wear long-sleeved garments (no synthetics such as polyester) and protective
gloves.
3 Risk of serious injuries (to the hands, in particular) or even severing of extremitiesfrom rotating components!➤ Operate the machine only with closed safety guards, access doors and panels.➤ Switch off and lock out the mains isolating device and secure against uninten‐
tional reactivation.
4 Personal injury or damage to the machine due to incorrect operation!➤ Read and understand the operating manual and all safety signs before switch‐
ing on this machine.
Risk of injury caused by an automatic machine start!➤ Switch off and lock out the mains isolating device and secure against uninten‐
tional reactivation.
3 Safety and Responsibility3.8 Safety signs
26Operating Manual Screw Compressor ASK 901824 12 E
Item Sign Meaning
5 Risk of fatal injury when dismantling valves (spring-loaded or under pressure)!➤ Do not open or dismantle valves.➤ Call an authorised Service Technician in the event of a fault.
6 Serious injury, particularly to the eyes, from foreign objects ejected from rotatingcomponents.➤ Do not allow anything to fall through the ventilation grille.➤ Do not work above the machine if it is switched on.
Tab. 43 Safety signs
3.9 Emergency situations
3.9.1 Correct fire fighting
Suitable measures
Calm and prudent action can safe lives in the event of a fire.➤ Keep calm.➤ Give the alarm.➤ Shut off supply lines if possible.
Mains disconnecting device (all poles)Cooling water (if present)Heat recovery (if present)
➤ Warn and move endangered personnel to safety.➤ Help incapacitated persons.➤ Close the doors.➤ When trained accordingly: Attempt to extinguish the fire.
Extinguishing substances
➤ Suitable extinguishing media:FoamCarbon dioxideSand or soil
➤ Unsuitable extinguishing media:Strong jet of water
3.9.2 Treating injuries from handling cooling oil
Eye contact:
Cooling oil can cause irritation.➤ Rinse open eyes thoroughly for a few minutes under running water.➤ Seek medical help if irritation persists.
Skin contact:
Cooling oil may irritate after prolonged contact.
3 Safety and Responsibility3.9 Emergency situations
901824 12 EOperating Manual Screw Compressor ASK 27
➤ Wash thoroughly with skin cleaner, then with soap and water.➤ Contaminated clothing should be dry-cleaned before reuse.
Inhalation:
Cooling oil mist may make breathing difficult.➤ Clear air passages of oil mist.➤ Seek medical help if difficulty with respiration continues.
Ingestion
➤ Wash out the mouth immediately.➤ Do not induce vomiting.➤ Seek medical aid.
3.10 WarrantyThis operating manual does not contain any independent warranty commitment. Our general termsand conditions apply with regard to warranty.A condition of our warranty is that the machine is used solely for the purpose for which it is inten‐ded and under the conditions specified.Due to the multitude of applications for which the machine is suitable, the user is obliged to deter‐mine its suitability for his specific application.
Furthermore, we do not assume any warranty obligation for damages caused by:■ the use of unsuitable parts or operating materials,■ arbitary modifications,■ incorrect maintenance,■ incorrect repair.
Correct maintenance and repair includes the use of genuine KAESER spare parts and operatingmaterials.➤ Obtain confirmation from KAESER that your specific operating conditions are suitable.
3.11 Environment protectionThe operation of this machine may cause dangers for the environment.➤ Do not allow cooling oil to escape to the environment or into the sewage system.➤ Store and dispose of operating materials and replaced parts in accordance with local environ‐
ment protection regulations.➤ Observe national regulations.
This applies particularly to parts contaminated with compressor cooling oil.
3 Safety and Responsibility3.10 Warranty
28Operating Manual Screw Compressor ASK 901824 12 E
4 Design and Function4.1 Housing
Fig. 3 Housing overview1 Control cabinet door2 Latch3 Access door
4 Sight glass: Cooling oil level indicator5 Sight glass: V-belt tension
When closed, the enclosure serves various functions:■ Sound insulation■ Protection against contact with components■ Cooling air flow
The enclosure is not suitable for the following uses:■ Walking on, standing on or sitting on the machine.■ Loads of any kind should not be placed or stored on the machine.
Safe and reliable operation is only assured with the enclosure closed.Access doors are hinged to swing open and removable panels can be lifted off.The latches should be opened using the supplied key.
4 Design and Function4.1 Housing
901824 12 EOperating Manual Screw Compressor ASK 29
4.2 Machine function
Fig. 4 Machine layout1 Inlet valve2 Minimum pressure/check valve3 Compressor motor4 Oil filter5 Airend
6 Control cabinet7 Oil separator tank8 Air filter9 Oil/air cooler
Ambient air is cleaned as it is drawn in through the filter 8 .The air is then compressed in the airend 5 .The airend is driven by an electric motor 3 .Cooling oil is injected into the airend. It lubricates moving parts and forms a seal between the ro‐tors themselves and between them and the airend casing. This direct cooling in the compressionchamber ensures a very low airend discharge temperature.Cooling oil recovered from the compressed air in the oil separator tank 7 gives up its heat in the oilcooler 9 . The oil then flows through the oil filter 4 and back to the point of injection. Pressure with‐in the machine keeps the oil circulating. A separate pump is not necessary. A thermostatic valvemaintains optimum cooling oil temperature.Compressed air, freed of cooling oil in the oil separator tank 7 , flows through the minimum pres‐sure / check valve 2 into the air cooler 9 . The minimum pressure / check valve ensures that thereis always a minimum internal pressure sufficient to maintain cooling oil circulation in the machine.The aftercooler brings down the compressed air temperature to 5K to 10K above ambient. Most ofthe moisture carried in the air is removed in the aftercooler.
4.2.1 Safety devices
The following safety devices are provided and must not be modified or disabled.■ EMERGENCY STOP control device:
Stops the machine immediately in an emergency situation. The motor is stopped. The pressuresystem is vented.
4 Design and Function4.2 Machine function
30Operating Manual Screw Compressor ASK 901824 12 E
■ Pressure relief valve:The pressure relief valve protects the system against excessive pressure. It is factory set.
■ Resistance thermometer:Monitoring the airend discharge temperature protects the compressed air system from imper‐missible temperature rises.
■ Housing and covers for moving parts and electrical connections:Protect against accidental contact.
4.2.2 Floating relay contacts
Floating relay contacts are provided for the transfer of signals, messages.Information on location, loading capacity and type of message or signal is found in the electricaldiagram.
If the floating relay contacts are connected to an external voltage source, voltage may bepresent even when the machine is isolated from the power supply.
4.3 Operating panel SIGMA CONTROL 2Keys
Fig. 5 Keys – overview
Position Name Function
1 «OFF» Switches the machine off.
2 «ON» Switch on the machine.
3 «Cancel» Returns to the next higher menu option level.Exits the edit mode without saving.
4 «Accept» Jumps to the selected menu option.Exits the edit mode and saves.
4 Design and Function4.3 Operating panel SIGMA CONTROL 2
901824 12 EOperating Manual Screw Compressor ASK 31
Position Name Function
5 «Down» Scrolls down the menu options.Reduces a parameter value.
6 «Right» Jumps to the right.Moves the cursor position to the next right field.
7 «Left» Jumps to the left.Moves the cursor position to the next left field.
8 «Up» Scrolls up the menu options.Increases a parameter value.
9 «Information» Operating mode:Displays the event memory.
10 «Acknowledgement» Confirms/acknowledges alarms and warning messages.If permissible: Resets the fault counter (RESET).
11 «LOAD/IDLE» Toggles between the LOAD and IDLE operating modes.
12 «Remote control» Switches the remote control on and off.
13 «Time control» Switches the time control on and off.
Tab. 44 Keys
LEDs
Fig. 6 Indicators – overview
Position Name Function
14 Display Graphic display with 8 lines and 30 characters per line.
15 Fault Flashes red to indicate a machine fault.Continuous red light after acknowledgement.
16 Communicationserror
Continuous red light to indicate a faulty communication connec‐tion, or an external fault message without machine shut-down.
4 Design and Function4.3 Operating panel SIGMA CONTROL 2
32Operating Manual Screw Compressor ASK 901824 12 E
Position Name Function
17 Warning Flashes in yellow in the following events:■ Maintenance work due■ Warning message
Continuous yellow light after acknowledgement.
18 Voltage applied tocontroller
Continuous green light when voltage is applied to the controller.
19 LOAD Continuous green light when the machine is running in LOAD.
20 IDLE Continuous green light when the machine is running in IDLE.Flashes when the «LOAD/IDLE» toggle key is pressed.
21 Remote control Continuous green light when the machine is in remote control.
22 Time control Continuous green light when the machine is in time control.
23 ON Continuous green light when the machine switched on.
Tab. 45 LEDs
RFID reader
RFID is the abbreviation for “Radio Frequency Indentification” and enables the identification of per‐sons or objects.Placing a suitable transponder in front of the RFID reader of the controller will automatically acti‐vate the communication between transponder and SIGMA CONTROL 2.A suitable transponder is the KAESER RFID Equipment Card. Two of them have been providedwith the machine.
Typical application:■ Users log on to the machine.
(no manual input of the password required.)
Fig. 7 RFID reader
Position Name Function
24 RFID RFID reader for the communication with a suitable RFID transponder.
Tab. 46 RFID reader
Further information More information about the use of RFID technology is provided in the SIGMA CONTROL 2 operat‐ing manual.
4 Design and Function4.3 Operating panel SIGMA CONTROL 2
901824 12 EOperating Manual Screw Compressor ASK 33
4.4 Operating modes and control modes
4.4.1 Machine operating modes
STOP
The machine is connected to the power supply.The voltage applied to controller LED lights green.The machine is switched off. The on LED is extinguished.
READY
The machine has been activated with «ON»:■ The on LED lights green.■ The drive motor is stopped.■ The inlet valve is closed.■ The minimum pressure/check valve isolates the oil separator tank from the air system.■ The venting valve is open.
The compressor motor starts as soon as system pressure is lower than the set point pressure (cut-off pressure).In addition, timing and/or remote control may affect the start of the motor.
LOAD
The compressor motor runs under load.■ The inlet valve is open.■ The compressor block delivers compressed air to the system.
IDLE
The compressor motor runs unloaded with low power consumption.■ The inlet valve is closed.■ The minimum pressure/check valve isolates the oil separator tank from the air system.■ The venting valve is open.
A small volume of air circulates through the bypass bore in the inlet valve, through the compressorblock and back to the inlet valve via the venting line.
4.4.2 Control modes
Using the selected control mode, the controller switches the machine between its various opera‐tional states in order to maintain the gauge working pressure between the set minimum and maxi‐mum values, regardless of the drawn compressed air volume. The control mode also rules the de‐gree of energy efficiency of the machine.The shortest possible times for the various parameters is preset by the factory to ensure that thecompressor motor earlier and more frequently is at standstill. If you want to change these parame‐ters, select the shortest possible times in order for the machine working energy-efficiently.The machine-dependant venting time between the LOAD and READY operating modes ensuresload changes at minimum material stresses.
4 Design and Function4.4 Operating modes and control modes
34Operating Manual Screw Compressor ASK 901824 12 E
The following control modes can be set:■ DUAL■ QUADRO■ VARIO
Supplementary mechanical flow rate regulation:■ MODULATING control
Energy-efficient control modes for various applications:
Application Recommendedcontrol mode
Compressed air station with one machine or several machines supplyingsimilar volumes.
VARIO
Machine for peak load in a compressed air station DUAL
Machine for intermediate load in a compressed air station VARIO
Machine for basic load in a compressed air station QUADRO
Tab. 47 Energy-saving control modes
The QUADRO control mode is preset by the factory, unless a different agreement has been madewith the manufacturer.
DUAL
In the DUAL control mode, the machine is switched back and forth between LOAD and IDLE tomaintain the machine working pressure between the preset minimum and maximum values. Whenmaximum pressure is reached, the machine switches to IDLE. When the preset idling time haselapsed, the machine switches to READY.
QUADRO
In contrast to DUAL mode, the machine will switch in QUADRO after short periods between LOADto READY after being in IDLE.Following extended times in the various operating modes, the machine switches from LOAD toREADY.In this event, the controller considers the time in READY mode as standstill time. The time in LOADand IDLE operating modes are taken as minimum runtime.
VARIO
The VARIO mode is based on the DUAL control mode. The difference to DUAL is that the idlingtime is automatically lengthened or shortened to compensate for higher or lower machine startingfrequencies.
MODULATING control
The MODULATING control is an additional mechanical regulation. It continuously changes the flowrate within the machine's control range.A control valve, the proportional controller, changes the degree of opening of the inlet valve whenthe machine transports compressed air into the air network (LOAD)The load and power consumption of the drive motor rises and falls with the air demand.
4 Design and Function4.4 Operating modes and control modes
901824 12 EOperating Manual Screw Compressor ASK 35
Option C1
Option C1
4.5 OptionsThe options available for your machine are described below.
4.5.1 Option C3/C48SIGMA CONTROL 2 controller: Connection to control technology
Connection to various control technology systems is possible with the C3 option.
Option C3 Option C48
Main Control System (MCS):■ Slot for a communication mod‐
ule to connect to a controltechnology system
Main Control System Input Output (MCSIO):■ Without slot for a communication module to connect to a
control technology system■ Digital and analogue inputs and outputs integrated
Input-Output-Module (IOM): ■ Module with digital and ana‐
logue inputs and outputs
Tab. 48 Components
4.5.2 Option H1Machine mountings
These mountings allow the machine to be anchored firmly to the floor.
Fig. 8 Machine mountings
4.5.3 Option W2/W3Heat recovery
The cooling oil circuit includes 2 valves regulating the cooling oil temperature:■ Thermostatic valve, machine■ Thermostatic valve, heat recovery
The thermostatic valves ensure that the cooling oil is kept at the ideal temperature for machine op‐eration.The thermostatic valve of the heat recovery opens first so that surplus heat is released into theheat recovery system. If the heat recovery system cannot carry away enough heat, the thermostat‐ic valve of the machine opens to allow hot oil through the oil cooler circuit.
Condition:Opening temperature machine thermostatic valve = Opening temperature heat recovery ther‐mostatic valve
The heat available for recovery depends on the individual operating conditions of the machine.A plate-type heat exchanger is installed for heat recovery.The plate-type heat exchanger transfers heat from the cooling oil to a heat-receiving medium.
4 Design and Function4.5 Options
36Operating Manual Screw Compressor ASK 901824 12 E
Both oil temperature regulators are equipped with working elements that ensure trouble-free func‐tioning of the cooling and heat recovery systems.
Fig. 9 Function of the heat recovery1 Plate-type heat exchanger
4 Design and Function4.5 Options
901824 12 EOperating Manual Screw Compressor ASK 37
5 Installation and Operating Conditions5.1 Ensuring safety
The conditions in which the machine is installed and operated have a decisive effect on safety.Warning instructions are located before a potentially dangerous task.
Disregard of warning instructions can cause serious injuries!
Complying with safety notes
Disregard of safety notes can cause unforeseeable dangers!➤ Strictly forbid fire, open flame and smoking.➤ If welding is carried out on or near the machine, take adequate measures to prevent sparks or
heat from igniting oil vapours or parts of the machine.➤ Do not store inflammable material in the vicinity of the machine.➤ The machine is not explosion-proof!
Do not operate in areas in which specific requirements with regard to explosion protection arein force.For instance, the requirements of ATEX directive 2014/34/EC "Equipment and Protective Sys‐tems intended for use in Potentially Explosive Atmospheres".
➤ Ensure sufficient and suitable lighting such that the display can be read and work carried outcomfortably and safely.
➤ Keep suitable fire extinguishing agents ready for use.➤ Ensure that required ambient conditions are maintained.
Required ambient conditions may be:■ Maintain ambient temperature and humidity■ Ensure the appropriate composition of the air within the machine room:
─ clean with no damaging contaminants (e.g., dust, fibres, fine sand)─ free of explosive or chemically unstable gases or vapours─ free of acid/alkaline forming substances, particularly ammonia, chlorine or hydrogen sulfide.
5.2 Installation conditions
5.2.1 Determining location and clearances
The machine is intended for installation in an appropriate machine room. Information on distancesfrom walls and ventilation of the machine room is provided below.
The clearances given are recommended and ensure unhindered access to all machine parts.➤ Please consult KAESER if they cannot be adhered to.
Precondition The floor must be level, firm and capable of bearing the mass of the machine.
5 Installation and Operating Conditions5.1 Ensuring safety
38Operating Manual Screw Compressor ASK 901824 12 E
Fig. 10 Recommended machine placement and dimensions [mm]A Exhaust fanB Exhaust air ductZ Air inlet aperture
1. NOTICE! Ambient temperature too low.Frozen condensate and highly viscous cooling oil can cause damage when starting the ma‐chine.➤ Make sure that the temperature of the machine is at least +3 °C before starting.➤ Heat the machine room adequately or install an auxiliary heater.
2. Ensure adequate lighting so that all work on the machine can be carried out without danger orhindrance.
3. Ensure that the indicators can be read without glare and that the controller display cannot bedamaged by direct sunlight (UV radiation).
4. Ensure that all intake and exhaust apertures of the enclosure remain opened.5. If installed outdoors, the machine must be protected from frost, direct sunlight, dust and rain.
5.2.2 Ensuring the machine room ventilation
Adequate ventilation of the machine room has several tasks:■ It prevents subatmospheric pressure in the machine room.■ It evacuates the exhaust heat of the machine and thus ensures the required operating condi‐
tions.
➤ Consult with KAESER if you cannot ensure the conditions for an adequate ventilation ofthe machine room.
1. Ensure that the flow volume of fresh air is at least the same as the volume taken by the ma‐chine and exhaust fan from the machine space.
2. Make sure that the machine and exhaust fan can only operate when the inlet aperture is ac‐tually open.
3. Keep the inlet and exhaust apertures free of obstructions so that the cooling air can flow freelythrough the room.
4. Ensure clean air in order to support the proper functioning of the machine.
5 Installation and Operating Conditions5.2 Installation conditions
901824 12 EOperating Manual Screw Compressor ASK 39
5.2.3 Exhaust duct design
At the cooling air inlet and exhaust, the machine can only overcome the air resistance resultingfrom the duct design. Any additional air resistance will reduce airflow and deteriorate machine cool‐ing.➤ Consult the KAESER SERVICE representative before deciding on:
■ Design of the exhaust air ducting■ Transition between the machine and the exhaust air duct■ Length of the ducting■ Number of duct bends■ Design of flaps or shutters
Further information Further information on the design of exhaust air ducts can be found in chapter 13.3.
5.3 Operating the machine in a compressed air networkIf the machine is supplying an air network, the network working pressure may not exceed 16 bar(China: 15.9 bar).When charging a fully vented air system there is generally a very high rate of airflow through the airtreatment devices. These conditions are detrimental to correct air treatment. Air quality suffers.To ensure the desired air quality when charging a vented air network, we recommend the installa‐tion of an air main charging system.➤ Consult KAESER for advice on this subject.
5 Installation and Operating Conditions5.3 Operating the machine in a compressed air network
40Operating Manual Screw Compressor ASK 901824 12 E
6 Installation6.1 Ensuring safety
Follow the instructions below for safe installation.Warning instructions are located before a potentially dangerous task.
Disregard of warning instructions can cause serious injuries!
Complying with safety notes
Disregard of safety notes can cause unforeseeable dangers!➤ Follow the instructions in chapter 3 'Safety and Responsibility'.➤ Installation work may only be carried out by authorised personnel.➤ Make sure that no one is working on the machine.➤ Ensure that all service doors and panels are locked.
When working on live components
Touching voltage carrying components can result in electric shocks, burns or death.➤ Work on electrical equipment may only be carried out by authorised electricians.➤ Switch off and lock out the power supply isolating device and verify the absence of voltage.➤ Check that there is no voltage on floating relay contacts.
When working on the compressed air system
Compressed air is contained energy. Uncontrolled release of this energy can cause serious injuryor death. The following safety concerns relate to any work on components that could be underpressure.➤ Close shut-off valves or otherwise isolate the machine from the compressed air network to en‐
sure that no compressed air can flow back into the machine.➤ De-pressurise all pressurised components and enclosures.➤ Check all hose couplings in the compressed air system with a hand-held pressure gauge to en‐
sure that they all read 0 bar.➤ Do not open or dismantle any valves.
When working on the drive system
Touching voltage carrying components can result in electric shocks, burns or death.Touching the fan wheel, the coupling or the belt drive while the machine is switched on can resultin serious injury.➤ Switch off and lock out the power supply isolating device and verify the absence of voltage.➤ Do not open the cabinet while the machine is switched on.
Further information Details of authorised personnel are found in chapter 3.4.2.Details of dangers and their avoidance are found in chapter 3.5.
6 Installation6.1 Ensuring safety
901824 12 EOperating Manual Screw Compressor ASK 41
6.2 Reporting Transport Damage1. Check the machine for visible and hidden transport damage.2. Inform the carrier and the manufacturer in writing of any damage without delay.
6.3 Connecting the machine with the compressed air networkCondensate in the compressed air network can damage the pipework:➤ Install only corrosion-resistant pipes.➤ Use fluoroelastomers as sealing material for seals.➤ Note the electro-chemical voltage sequence.➤ Consult with KAESER for suitable materials for the compressed air network.
Precondition The compressed air system is vented completely to atmospheric pressure.
Fig. 11 Compressed air pipework1 Flexible pressure hose2 Shut-off valve
➤ Do not induce any forces into the machine for which the compressive forces must be bal‐anced by bracing.
1. WARNING! Serious injury or death can result from loosening or opening components under pressure.➤ Vent all pressurized components and chambers completely.
2. A shut-off valve must be installed by the user in the connection line.3. Connect a flexible pressure hose.
Further information The dimensional drawing in chapter 13.3 provides the size and position of the connection ports.
6.4 Connecting the external pressure transducerMaterial Retrofit kit: "External pressure transducer SIGMA CONTROL 2"
Use suitable screened, copper-core cable (e.g.: LIYCY 2x0.75 mm2 for ambient temperatures up to30 °C and wiring method C).
Precondition Cut-off the electrical power supply via the power supply isolating device,ensure that the device is locked off,verify the absence of any voltage.Cable length between the machine and the pressure transducer: <30 m
6 Installation6.2 Reporting Transport Damage
42Operating Manual Screw Compressor ASK 901824 12 E
By means of a pressure transducer, the pressure in the compressed air network can be measuredat any selected location and this signal used to regulate the compressor.This ensures optimum compressor regulation with regard to the network pressure at the selectedlocation.
Safety monitoring of the machine's internal pressure is unaffected.Your authorized KAESER SERVICE technician will be glad to provide support on planningand executing an individual solution.
1. Install the pressure transducer at the selected location in the compressed air network.2. Using a suitable cable, connect the pressure transducer to a spare analog input.
➤ Connect as large an area of the screening as possible to the mounting plate in the controlcabinet or use an EMC fitting to make contact.
3. When commissioning the machine with SIGMA CONTROL 2, select the <Network actualpressure> setting in the <AII> menu.
4. Select and activate the used analog input (AII).
Further information The electrical diagram in chapter 13.4 contains further details of the pressure transducer connec‐tion.
6.5 Connecting the machine with the power supplyPrecondition The power supply is switched off,
the device is locked off,the absence of any voltage has been verified.The tolerance limits of the mains voltage (power supply) are within the permissible tolerance limitsof the rated voltage (machine).
1. The power supply must only be connected by authorised installation personnel or an author‐ised electrician.
2. Carry out safety measures as stipulated in relevant regulations (IEC 364 or DIN VDE 0100, forexample) and in national accident prevention regulations (BGV A3 in Germany). In addition,observe the regulations of the local electricity supplier.
3. Test the overcurrent protection cut-out (backup fuse) to ensure that the time it takes to discon‐nect in response to a fault is within the permitted limit.
4. Select supply cable conductor diameters and fusing in accordance with local regulations.5. The user is required to fit the machine with a lockable isolating device which must comply with
the requirements of EN60204-1:2006, 5.3.This could be, for example, a load disconnect switch with upstream fuse. If a circuit breaker isused it must be suitable for the motor starting characteristics.
6. Check that the control voltage transformer is connected according to the supply voltage.If not, change the connections to suit the power supply voltage.
7. DANGER! Danger of fatal injury from electric shock!➤ Switch off and lock out the power supply disconnecting device and check the absence of
any voltage.
8. Connect the machine to the power supply.9. Ensure that the cabinet again complies with the requirements of degree of protection IP54.
Further information The electrical diagram in chapter 13.4 contains further details of the power supply connection.
6 Installation6.5 Connecting the machine with the power supply
901824 12 EOperating Manual Screw Compressor ASK 43
6.6 Options
6.6.1 Option H1Anchoring the machine
➤ Use appropriate fixing bolts to anchor the machine.
Further information Details of the fixing holes are contained in the dimensional drawing in chapter 13.3.
6.6.2 Option W2/W3Connecting the heat recovery system
➤ Take the electrochemical series into consideration and choose suitable materials for con‐nections.
➤ Keep the effect of pressure surges on the heat exchanger as low as possible.➤ Install an expansion tank to act as a damper if pressure surges cannot be avoided.➤ Install appropriate regulating devices if the heat transfer medium is to be kept constant.➤ Avoid very low inlet temperatures of the heat transfer medium as it can cause condensa‐
tion. If required, contactKAESER for suitable insulation measures.
WARNINGCooling oil in the heat-receiving medium!Oil may contaminate the medium if a leak occurs.➤ Do not use the heat-receiving medium as drinking water.
Fig. 12 Connecting the heat recovery systemA OutletB Inlet10 Shut-off valve
12 Connection port with plug17 Pressure relief valve
1. The user is to provide the following fittings:■ Dirt trap with max. 0.1 mm strainer mesh■ Shut-off valves 10 and connection ports 12 for maintenance and venting.■ Pressure relief valve 17 to prevent build-up of excessive pressure.
Actuating pressure and blow-off capacity of the safety valve are governed by the user's in‐stallation design. The technical specification of the heat exchanger must be taken into con‐sideration.
2. Connect the supply lines and fittings.3. Open the shut-off valve 10 at the outlet A .
6 Installation6.6 Options
44Operating Manual Screw Compressor ASK 901824 12 E
4. Slowly open the shut-off valve 10 at the inlet B to gradually fill the heat exchanger with theheat transfer medium.
5. Bleed the lines.
Further information The dimensional drawing in chapter 13.3 gives the flow direction, size and position of the connec‐tion ports.
6 Installation6.6 Options
901824 12 EOperating Manual Screw Compressor ASK 45
7 Initial Start-up7.1 Ensuring safety
Here you will find instructions for a safe commissioning of the machine.Warning instructions are located before a potentially dangerous task.
Disregard of warning instructions can cause serious injuries!
Complying with safety notes
Disregard of safety notes can cause unforeseeable dangers!➤ Follow the instructions in chapter 3 'Safety and Responsibility'.➤ Commissioning tasks may only be carried out by authorised personnel!➤ Make sure that no one is working on the machine.➤ Ensure that all service doors and panels are locked.
When working on live components
Touching voltage carrying components can result in electric shocks, burns or death.➤ Work on electrical equipment may only be carried out by authorised electricians.➤ Switch off and lock out the power supply isolating device and verify the absence of voltage.➤ Check that there is no voltage on floating relay contacts.
When working on the compressed air system
Compressed air is contained energy. Uncontrolled release of this energy can cause serious injuryor death. The following safety concerns relate to any work on components that could be underpressure.➤ Close shut-off valves or otherwise isolate the machine from the compressed air network to en‐
sure that no compressed air can flow back into the machine.➤ De-pressurise all pressurised components and enclosures.➤ Check all hose couplings in the compressed air system with a hand-held pressure gauge to en‐
sure that they all read 0 bar.➤ Do not open or dismantle any valves.
When working on the drive system
Touching voltage carrying components can result in electric shocks, burns or death.Touching the fan wheel, the coupling or the belt drive while the machine is switched on can resultin serious injury.➤ Switch off and lock out the power supply isolating device and verify the absence of voltage.➤ Do not open the cabinet while the machine is switched on.
Further information Details of authorised personnel are found in chapter 3.4.2.Details of dangers and their avoidance are found in chapter 3.5.
7 Initial Start-up7.1 Ensuring safety
46Operating Manual Screw Compressor ASK 901824 12 E
7.2 Instructions to be observed before commissioningIncorrect or improper commissioning can cause injury to persons and damage to the machine.➤ Commissioning may only be carried out by authorised installation and service personnel who
have been trained on this machine.
Special measures for re-commissioning after storage
Storage periodlonger than:
Remedy
3 months ➤ Manually fill the airend with cooling oil.
12 months ➤ Change the oil filter.➤ Change the oil separator cartridge.➤ Change the cooling oil.➤ Have the motor bearings checked by an authorized KAESER SERVICE
technician.
36 months ➤ Have the overall technical condition checked by an authorisedKAESER SERVICE technician.
Tab. 49 Re-commissioning after storage
7.3 Checking installation and operating conditions➤ Check and confirm all the items in the checklist before commissioning the machine.
To be checked Seechapter
Confirmed?
➤ Are the operators fully conversant with safety regulations? –
➤ Have all the positioning conditions been fulfilled? 5
➤ Is a user-supplied lockable power supply disconnection device instal‐led?
6.5
➤ Are the tolerance limits of the mains voltage (power supply) within thepermissible tolerance limits of the nominal voltage (machine)?(see nameplate in the control cabinet)
13.4
➤ Are the power supply cable conductor diameters and fuse ratings ad‐equate?
2.14
➤ Drive motor overload protection switch set according to the mainsvoltage?
7.4
➤ Fan motor overload protection switch set according to the mains volt‐age?
7.5
➤ Have all electrical connections been checked for tightness?➤ Has the inspection been repeated after 50 operating hours following
the initial commissioning?
–
➤ Has the connection to the air system been made with a shut-off valveand a flexible hose?
6.3
➤ Has the drive belt tension been checked? 10.9
7 Initial Start-up7.2 Instructions to be observed before commissioning
901824 12 EOperating Manual Screw Compressor ASK 47
To be checked Seechapter
Confirmed?
➤ Is there sufficient cooling oil in the separator tank?(Cooling oil level indicator outside the red zone)
10.13
➤ Sufficient cooling oil in the airend? 7.6
➤ Machine firmly anchored to the floor?(Option H1)
6.6.1
➤ Are all access doors closed and latched and removable panels inplace and secured?
–
Tab. 50 Installation conditions checklist
7.4 Setting the overload protection cut-outElectrical diagram 13.4 gives the location of the overload relay.With star-delta starting, the phase current is fed via the overload relay. This phase current is 0.58-times the rated motor current.To prevent the overload relay being triggered by voltage fluctuations, temperature influences orcomponent tolerances, the setting can be higher than the arithmetical phase current.➤ Check the settings of the overload relay.
The overload relay shuts the machine down despite being correctly set?➤ Contact the authorised KAESER SERVICE.
7.5 Setting the motor overload protection switchElectrical diagram in chapter 13.4 gives the setting values for the motor overload protection switch.In direct on-line starting, the current for the fan motor is fed via the motor overload protectionswitch.
To prevent the motor overload protection switch from being triggered by voltage fluctuations,temperature influences or component tolerances, the setting can be higher than the ratedmotor current.
➤ Check the motor overload protection switch setting.
The overload protection switch shuts the machine down despite being correctly set?➤ Contact the authorised KAESER SERVICE.
7.6 Pouring cooling oil into the airendBefore starting the compressor for the very first time and before re-starting after a shutdown periodof more than 3 months it is necessary to manually add a quantity of cooling oil into the airend. Inorder to avoid that the cooling oil exceeds the permissible level, drain the required quantity fromthe de-pressurised oil separator tank.Chapter 10.16 provides detailed information on how to drain cooling oil from the oil separator tank.
7 Initial Start-up7.4 Setting the overload protection cut-out
48Operating Manual Screw Compressor ASK 901824 12 E
Material 1 l cooling oil
Precondition Cut-off the electrical power supply via the power supply isolating device,ensure that the device is locked off,verify the absence of any voltage.
Fig. 13 Airend filling port1 Screw plug2 Compressor block
4 Screw plug5 Belt guard
1. Remove the filler plug from the airend.2. Pour the stipulated amount of cooling oil into the airend and replace the filler plug.3. Loosen the screw plugs 4 and lift the belt guard 5 .4. Turn the rotors manually by means of the belt pulley to distribute the oil.5. Replace the belt guard and tighten the screw plugs.
7.7 Option C1Activating and deactivating the MODULATING controlUse a shut-off valve to activate and deactivate the MODULATING control. If the MODULATINGcontrol is deactivated, the machine always delivers the maximum possible compressed air quantityin LOAD mode.
MODULATING control Shut-off valve
switch on open
switch off close
Tab. 51 Activating and deactivating the MODULATING control
Precondition The power supply isolating device is switched off,the device is locked off,the absence of any voltage has been verified.
7 Initial Start-up7.7 Activating and deactivating the MODULATING control
901824 12 EOperating Manual Screw Compressor ASK 49
Fig. 14 Activating and deactivating the MODULATING control1 Control valve (proportional control)2 Shut-off valve
➤ Open or close the shut-off valve, depending on the required control mode.
The regulating valve is factory set. Consult with KAESER SERVICE before changing.
7.8 Starting the machine for the first timePrecondition No personnel are working on the machine.
All access doors are closed.All removable panels in place and secured.
1. Open the user's shut-off valve to the air network.2. Switch on the power supply disconnecting device.
After the controller has carried out a self-test, the green Control voltage LED is lit continuously.3. If required:
Change the display language as described in chapter 7.10.4. Press the «ON »key.
The compressor motor runs up and after a short time the machine switches to LOAD and deliv‐ers compressed air.
➤ Watch for any faults occurring in the first hour of operation.➤ After the first 50 operating hours, check all electrical connections and tighten where nec‐
essary.
Does the machine stop when the compressor motor rotates in the wrong direction?➤ Switch off and lock out the power supply disconnecting (isolating) device and check that
no voltage is present.➤ Changeover phase lines L1 and L2.➤ Acknowledge any existing alarm messages and switches the machine on again.
7 Initial Start-up7.8 Starting the machine for the first time
50Operating Manual Screw Compressor ASK 901824 12 E
7.9 Setting the set point pressureThe system pressure pA is factory set to the highest possible value.Adjustment is necessary for individual operating conditions.
Do not set the set point pressure of the machine higher than the maximum working pressureof the compressed air system.The machine may not toggle more than twice per minute between LOAD and IDLE.To reduce the cycling (toggling) frequency:➤ Increase the difference between cut-in and cut-out pressure.➤ Add a larger air receiver downstream to increase buffer capacity.
➤ Set the set point pressure as described in the SIGMA CONTROL 2 operating manual.
7.10 Setting the display languageThe controller can display text messages in several languages.You can set the language for texts on the display. This setting will be retained even when the ma‐chine is switched off.1. In operating mode, switch to the main menu with the «Return» key.2. Press the «UP» or «DOWN» keys until the current language is shown as active line (inverse):
6 . 1 b a r 8 0 . 0 ° C –––––––– de_DE Deutsch –––––––– Current language (active line)
▶1 xxxxxxxxxx Submenu
▶2 xxxxxxxxxx Submenu
▶3 xxxxxxxxxx Submenu
▶4 xxxxxxxxxx Submenu
▶5 xxxxxxxxxx Submenu
▶6 xxxxxxxxxx Submenu
3. Use the «Return» key to switch to setting mode.The language display flashes.
4. Move to the required language with «UP »or «DOWN».5. Confirm the setting with the «Enter» key.
Result The display texts are now in the selected language.
Further information Detailed information can be found in the SIGMA CONTROL 2 operating manual.
7 Initial Start-up7.9 Setting the set point pressure
901824 12 EOperating Manual Screw Compressor ASK 51
8 Operation8.1 Switching on and off
Always switch the machine on with the «ON» key and off with the «OFF» key.A power supply disconnecting device has been installed by the user.
Fig. 15 Switching on and off1 ON LED2 «ON» key3 «OFF» key8 Voltage applied to controller LED
11 «LOAD/IDLE» toggle key19 LOAD LED20 IDLE LED
8.1.1 Switching on
Precondition No personnel are working on the machine.All access doors and panels are closed and secure.
1. Switch on the power supply isolating device.The Voltage applied to controller LED lights green.
2. Press the «ON »key.The ON LED lights green.
If a power failure occurs, the machine is not prevented from re-starting automatically whenpower is resumed.It can re-start automatically as soon as power is restored.
Result The compressor motor starts as soon as system pressure is lower than the set point pressure (cut-off pressure).
8.1.2 Switching off
1. Press the «OFF» key.The machine switches to IDLE and the IDLE LED flashes. The SIGMA CONTROL 2 displaysStopping. The ON LED extinguishes as soon as the automatic shut-off action is completed.
2. Switch off and lock out the power supply disconnecting device.
8 Operation8.1 Switching on and off
52Operating Manual Screw Compressor ASK 901824 12 E
Result The Voltage applied to controller LED extinguishes. The machine is switched off and disconnectedfrom the mains supply.
In rare cases, you may want to shut down the machine immediately and cannot wait until theautomatic shut-down process is finished.➤ Press «OFF» once again.
8.2 Switching off in an emergency and switching on againThe EMERGENCY STOP control device is located below the control panel.
Fig. 16 Switching off in an emergency9 EMERGENCY STOP control device
Switching off
➤ Press the EMERGENCY STOP control device.
Result The EMERGENCY STOP control device remains latched after actuation.The compressor's pressure system is vented and the machine is prevented from automatically re-starting.
Switching on
Precondition The fault has been rectified
1. Turn the EMERGENCY STOP control device in the direction of the arrow to unlatch it.2. Acknowledge any existing alarm messages.
Result The machine can now be started again.
8.3 Using the remote control for switching on and offPrecondition A link to the remote control centre exists.
8 Operation8.2 Switching off in an emergency and switching on again
901824 12 EOperating Manual Screw Compressor ASK 53
Fig. 17 Using the remote control for switching on and off1 «Remote control» key2 Remote control LED
1. Attach an easily seen notice to the machine that warns of remote operation.
Remote control: Risk of injury caused by unexpected starting!➤ Make sure that the power supply disconnecting device is switched off before commencing any
work on the machine.
Tab. 52 Machine identification
2. Label the starting device in the remote control centre as follows:
Remote control: Risk of injury caused by unexpected starting!➤ Before starting, make sure that no one is working on the machine and that it can be safely
started.
Tab. 53 Remote control identification
3. Press the «remote control» key.The remote control LED lights. The machine can be remotely controlled.
8.4 Using the timer for switching on and offPrecondition The timer is programmed.
8 Operation8.4 Using the timer for switching on and off
54Operating Manual Screw Compressor ASK 901824 12 E
Fig. 18 Using the timer for switching on and off1 «Timer» key2 Timer LED
1. Attach an easily seen notice warning of time-controlled operation:
Time control: Risk of injury caused by unexpected starting!➤ Make sure that the power supply disconnecting device is switched off before commencing any
work on the machine.
Tab. 54 Machine identification
2. Press «Timer».The time control LED lights. The timer switches the machine on and off.
8.5 Interpreting operation messagesThe controller will automatically display operation messages informing you about the current opera‐tional state of the machine.Operating messages are identified with the letter O.
Further information Detailed information can be found in the SIGMA CONTROL 2 operating manual.
8.6 Acknowledging alarm and warning messagesMessages are displayed on the "new value" principle:■ Message coming: LED flashes■ Message acknowledged: LED illuminates■ Message going: LED off
or
■ Message coming: LED flashes■ Message going: LED flashes■ Message acknowledged: LED off
8 Operation8.5 Interpreting operation messages
901824 12 EOperating Manual Screw Compressor ASK 55
Fig. 19 Acknowledging messages10 Warning LED (yellow)11 Fault LED (red)12 «Acknowledge» key
Alarm message
An alarm shuts the machine down automatically. The Fault LED flashes red.The system displays the appropriate message.
Precondition The fault has been rectified
➤ Acknowledge the message with the «acknowledge» key.The Fault LED extinguishes.The machine is again ready for operation.
If the machine was switched off with the EMERGENCY STOP button:➤ Unlatch the EMERGENCY STOP button (turn in direction of the arrow) before acknowl‐
edging the alarm message.
Further information Please refer to the SIGMA CONTROL 2 operating manual for a list of possible fault messages dur‐ing operation.
Warning message
If maintenance work is to be carried out or if the warning is displayed before an alarm, the WarningLED flashes yellow.The system displays the appropriate message.
Precondition The danger of an alarm is passed,maintenance has been carried out.
➤ Acknowledge the message with the «acknowledge» key.The Warning LED extinguishes.
Further information Please refer to the SIGMA CONTROL 2 operating manual for a list of possible warning messagesduring operation.
8 Operation8.6 Acknowledging alarm and warning messages
56Operating Manual Screw Compressor ASK 901824 12 E
9 Fault Recognition and Rectification9.1 Basic instructions
Error messages are classified in these categories:■ Warning:
─ Warning messagesW■ Fault (with indication):
─ Alarm messagesA─ System messages Y─ Diagnostic messages D
■ Other faults (without indication): See chapter 9.2
The messages valid for your machine are dependent on how the individual machine is equipped.1. Do not attempt fault rectification measures other than those given in this manual!2. In all other cases:
Have the fault rectified by an authorised KAESER SERVICE representative.
Further information See the operating manual of SIGMA CONTROL 2 for details regarding the various messages.
9.2 Other faults
Fault Possible cause Remedy
Machine runs but produces nocompressed air.
Inlet valve not opening or onlyopening partially.
Call KAESER SERVICE.
Venting valve not closing. Call KAESER SERVICE.
Leaks in the pressure system. Check pipework and connec‐tions for leaks and tighten anyloose connections.
Compressed air demand ex‐ceeds the volumetric flow ratefrom the compressor.
Check the air system for leaks.Shut down consumer(s).
Hose coupling or maintenancehose still plugged into thequick-release coupling on theoil separator tank.
Remove coupling or mainte‐nance hose.
Cooling oil runs out of the in‐take filter.
Oil level in the oil separatortank too high.
Drain off oil until the correct lev‐el is reached.
Inlet valve defective. Call KAESER SERVICE.
Compressor switches be‐tween LOAD and IDLE morethan twice per minute.
Receiver too small. Increase size of receiver.
Airflow into the compressed airnetwork restricted.
Increase air pipe diameters.Check filter elements.
The differential between cut-inand cut-out pressure too issmall.
Check switching differential.
9 Fault Recognition and Rectification9.1 Basic instructions
901824 12 EOperating Manual Screw Compressor ASK 57
Fault Possible cause Remedy
Cooling oil leaking into the ma‐chine interior.
Hose coupling or maintenancehose still plugged into thequick-release coupling on theoil separator tank.
Remove coupling or mainte‐nance hose.
Oil cooler leaking. Call KAESER SERVICE.
Leaking pipe joints. Tighten pipe joints.Replace seals.
Cooling oil consumption toohigh.
Unsuitable oil is being used. Change to SIGMA FLUID cool‐ing oil.
Oil separator cartridge split. Changing the oil separator car‐tridge
Oil level in the oil separatortank too high.
Drain off oil until the correct lev‐el is reached.
Oil return line clogged. Check the dirt trap strainer inthe oil return line.
Tab. 55 Other faults and remedies
9 Fault Recognition and Rectification9.2 Other faults
58Operating Manual Screw Compressor ASK 901824 12 E
10 Maintenance10.1 Ensuring safety
Follow the instructions below to ensure safe machine maintenance.Warning instructions are located before a potentially dangerous task.
Disregard of warning instructions can cause serious injuries!
Complying with safety notes
Disregard of safety notes can cause unforeseeable dangers!➤ Follow the instructions in chapter 3 'Safety and Responsibility'.➤ Maintenance work may only be carried out by authorized personnel.➤ Use one of the safety signs below to advise others that the machine is currently being serv‐
iced:
Sign Meaning
Don't activate the machine.
Warning:The machine is being serviced.
Tab. 56 Advise others that the machine is being serviced.
➤ Before switching on, make sure that nobody is working on the machine and all access doorsand panels are closed.
When working on live components
Touching voltage carrying components can result in electric shocks, burns or death.➤ Work on electrical equipment may only be carried out by authorized electricians.➤ Switch off and lock out the power supply isolating device and verify the absence of voltage.➤ Check that there is no voltage on potential-free contacts.
When working on pressure system
Compressed air is contained energy. Uncontrolled release of this energy can cause serious injuryor death. The following safety concerns relate to any work on components that could be underpressure.➤ Close shut-off valves or otherwise isolate the machine from the compressed air network to en‐
sure that no compressed air can flow back into the machine.➤ De-pressurise all pressurised components and enclosures.➤ Check all hose couplings in the compressed air system with a hand-held pressure gauge to en‐
sure that they all read 0 bar.➤ Do not open or dismantle any valves.
10 Maintenance10.1 Ensuring safety
901824 12 EOperating Manual Screw Compressor ASK 59
When working on the drive system
Touching voltage carrying components can result in electric shocks, burns or death.Touching the fan wheel, the coupling or the belt drive while the machine is switched on can resultin serious injury.➤ Switch off and lock out the power supply isolating device and verify the absence of voltage.➤ Do not open the cabinet while the machine is switched on.
Further information Details of authorized personnel are found in chapter 3.4.2.Details of dangers and their avoidance are found in chapter 3.5.
10.2 Following the maintenance plan
10.2.1 Logging maintenance work
The maintenance intervals given are those recommended for KAESER original componentswith average operating conditions.➤ In adverse conditions, perform maintenance work at shorter intervals.
Adverse conditions are, e.g.:■ high temperatures■ much dust■ high number of load changes■ low load
➤ Adjust the maintenance intervals with regard to local installation and operating condi‐tions.
➤ Document all maintenance and service work.This enables the frequency of individual maintenance tasks and deviations from our recom‐mendations to be determined.
Further information A prepared list is provided in chapter 10.19.
10.2.2 Resetting maintenance interval counters
According to the way a machine is equipped, sensors and/or maintenance interval counters moni‐tor the operational state of important functional devices. Required maintenance work is shown onSIGMA CONTROL 2.
Precondition Maintenance performed andmaintenance message acknowledged.
➤ Reset the maintenance interval counter as described in the SIGMA CONTROL 2 operatingmanual.
10.2.3 Regular maintenance tasks
The table below lists the required maintenance tasks.
10 Maintenance10.2 Following the maintenance plan
60Operating Manual Screw Compressor ASK 901824 12 E
➤ Take note of the controller's service messages and carry out tasks punctually, taking ambientand operating conditions into account:
Interval Maintenance task See chapter
Weekly Check the cooling oil level. 10.13
Cooler:Check the filter mat
10.3
Control cabinet:Check the filter mat
10.4
up to 1000 h Clean the cooler. 10.5
Check the air filter. 10.7
Cooler:Clean the filter mat.
10.3
Control cabinet:Clean the filter mat.
10.4
up to 3000 h Control cabinet:Change the filter mat.
10.4
Cooler:Change the filter mat.
10.3
Display:SIGMA CONTROL 2
Maintain the drive belt. 10.9
Change the air filter. 10.7
Display:SIGMA CONTROL 2At least annually
Change the oil filter. 10.17
Change the oil separator cartridge. 10.18
Variable, see table 58 Change the cooling oil. 10.16
up to 12000 h Replace the drive belt. 10.9
Annually Check the pressure relief valve. 10.10
Check the function:Safety shut-down due to excessive airend discharge tem‐perature
10.11
Check the EMERGENCY STOP device. 10.12
Check the cooler for leaks. 10.5
Maintain the heat recovery system. 10.6
Check that all electrical connections are tight. –
h = operating hours
Tab. 57 Regular maintenance tasks
10.2.4 Cooling oil Change interval
Duty cycles and ambient conditions are important factors influencing the number and length of theoil change intervals.
KAESER SERVICE will support you in determining appropriate intervals and provide informa‐tion on the possibilities of oil analysis.
10 Maintenance10.2 Following the maintenance plan
901824 12 EOperating Manual Screw Compressor ASK 61
➤ Observe national regulations regarding the use of cooling oil in oil-injected rotary screw com‐pressors.
➤ Check operating conditions and adjust intervals as necessary; log the results in table 58 for fu‐ture reference.
Maximum permissible oil change interval[operating hours/years]
SIGMA FLUID Favourable operatingconditions*
Unfavourable operat‐ing conditions
My operating condi‐tions
S-460 6000**/2 4000/1
S-570 6000**/2 4000/1
MOL 3000/1 2000/1
FG-460 3000/1 2000/1
FG-680 3000/1 2000/1
PANO‐LIN HLP SYNTH 46
3000/1 2000/1
* Cool to moderate ambient temperatures, low humidity, high duty cycle** Change intervals of >6000 perating hours are not permissible without an oil analysis.
Tab. 58 Cooling oil Change intervals
10.2.5 Regular service tasks
The table below lists necessary service tasks.➤ Have an authorised KAESER SERVICE technician carry out service tasks.➤ Have service tasks carried out in a timely manner, taking the ambient and operating conditions
into account:
Interval Service task
Display:SIGMA CONTROL 2
Service valves.
Compressor drive motor:Replace the motor bearings.
Fan motor:Replace the motor bearings.
up to 36000 hEvery 6 years at the lat‐est.
Have the plastic pipes and hose lines replaced.
up to 36000 h Replace the control cabinet fan.
After 20 years at the lat‐est
Replace safety-relevant components of the safety functions.
h = operating hours
Tab. 59 Regular service tasks
10 Maintenance10.2 Following the maintenance plan
62Operating Manual Screw Compressor ASK 901824 12 E
10.3 Cooler: Cleaning or Renewing the Filter MatsThe filter mats help to keep the cooler clean. If the filter mats are clogged, adequate cooling of thecomponents is no longer ensured.
Material Filter mats:Warm water and household detergentSpare parts (as required)
Precondition The machine is switched off.
Fig. 20 Filter mat for the air and oil cooler1 Filter mat
No tools are needed to remove the filter mat.1. Carefully remove the filter mat from the retaining frame.2. Beat the mat or use a vacuum cleaner to remove loose dirt. If necessary, wash with lukewarm
water and household detergent.3. Change the filter mat if cleaning is not possible or if the change interval has expired.4. Carefully insert the filter mat in the retaining frame.
10.4 Control cabinet: Clean or renew the filter matA filter mat is placed behind every ventilation grille. Filter mats protect the control cabinet from in‐gress of dirt. If the filter mats are clogged, adequate cooling of the components is no longer ensur‐ed. In such a case, clean or replace the filter mats.
Material Warm water and household detergentSpare parts (as required)
Precondition The power supply isolating device is switched off,the device is locked off,the absence of any voltage has been verified.The machine has cooled down.
10 Maintenance10.3 Cooler: Cleaning or Renewing the Filter Mats
901824 12 EOperating Manual Screw Compressor ASK 63
Fig. 21 Switching cabinet ventilation1 Ventilation grille2 Filter mat
1. Carefully remove the ventilation grille and take out the filter mat.2. Beat the mat or use a vacuum cleaner to remove loose dirt. If necessary, wash with lukewarm
water and household detergent.3. Change the filter mat if cleaning is not possible or if the change interval has expired.4. Insert the filter mat in the frame and latch in the ventilation grille.
10.5 Cooler maintenanceRegular cleaning of the cooler ensures reliable cooling of the machine and the compressed air.The frequency is mainly dependent on local operating conditions.A leaking cooler results in loss of cooling oil and compressed air.
Clogged coolers are indicative of unfavourable ambient conditions. Such ambient conditionsclog the cooling air ducts in the machine's interior and the motors resulting in increased wearand tear.➤ Have the authorised KAESER SERVICE technician clean the cooling air ducts.
Material Brush and vacuum cleanerFace mask (as required)
Precondition The power supply isolating device is switched off,the device is locked off,the absence of any voltage has been verified.The machine has cooled down.
10 Maintenance10.5 Cooler maintenance
64Operating Manual Screw Compressor ASK 901824 12 E
Fig. 22 Filter mat for the air and oil cooler1 Filter mat
Cleaning the cooler and radiator
A filter mat helps to keep the cooler clean. Despite this fact, the cooler will clog over a period oftime.Do not use sharp objects to clean the cooler. It could be damaged.Avoid creating clouds of dust.1. Carefully remove the filter mat from the retaining frame.2. Dry brush the oil and air coolers and use a vacuum cleaner to suck up the dirt.3. Carefully insert the filter mat in the retaining frame.
The air and oil coolers can no longer be properly cleaned?➤ Have stubborn clogging removed by an authorized KAESER SERVICE technician.
Checking the cooler for leaks
➤ Carry out visual inspection: Did cooling oil escape?
Is a cooler leaking?➤ Have the defective cooler repaired immediately by a KAESER SERVICE technician.
10.6 Option W2/W3Maintain the heat recovery systemDeposits in the heat exchanger can significantly reduce its capacity to transfer heat.Check the heat exchanger regularly for leaks and contamination. Frequency of checking is depend‐ant on the characteristics of the heat transfer medium.Pressure in the cooling oil circuit is generally higher than that in the heat recovery system. If a leakoccurs, oil will run into the heat-receiving medium. Increased cooling oil loss can indicate a leakingheat exchanger.
Precondition Cut-off the electrical power supply via the power supply isolating device,ensure that the device is locked off,verify the absence of any voltage.
10 Maintenance10.6 Maintain the heat recovery system
901824 12 EOperating Manual Screw Compressor ASK 65
1. Check the heat exchanger visually for leaks.2. Have KAESER SERVICE check the heat exchanger for internal leaks and clean if contamina‐
ted.
10.7 Air Filter MaintenanceCheck that all sealing surfaces match each other. The use of an unsuitable air filter elementcan permit dirt to ingress the pressure system and cause damage to the machine.The air filter element cannot be cleaned.
Material Replacement part
Precondition The power supply disconnecting (isolating) device is switched off,the disconnect device is locked in the off position,a check has been made that no voltage is present.The machine has cooled down.
Fig. 23 Air filter maintenance1 Snap fastener2 Air filter element3 Air filter housing
1. Release the spring clips and remove the element.2. Clean all parts and sealing surfaces.3. Insert the new element in the housing.4. Clip the air filter housing onto the inlet valve.
10.8 Motor maintenanceThe drive motor and fan motor bearings are permanently greased. Re-greasing is not necessary.➤ Have the motor bearings checked by an authorised KAESER SERVICE technician during the
course of a visit.
10 Maintenance10.7 Air Filter Maintenance
66Operating Manual Screw Compressor ASK 901824 12 E
10.9 Drive belt maintenanceMaterial Spare parts (if required)
Precondition Cut-off the electrical power supply via the power supply isolating device,ensure that the device is locked off,verify the absence of any voltage.The machine has cooled down.
WARNINGTouching the moving drive belt may result in severe bruising or even loss of limb or extremi‐ties.➤ Switch off and lock out the power supply isolating device and verify the absence of volt‐
age.
Fig. 24 Drive belt maintenance1 Nut2 Nut3 Marker pin (shown as: belt tensioning re‐
quired)
4 Screw plug5 Belt guard
Checking belt tension and adjustment
The tensioning device uses spring force to apply correct tension to the belt.Adjust the tension when the marker pin reaches the top end of the elongated hole.The marker pin can be seen through a viewing window from outside. This means that belt tensioncan be checked without opening the machine.1. Loosen the nut 2 .2. Use the adjusting nut 1 to adjust spring tension until the marker pin reaches the lower end of
the elongated hole.3. Retighten the locking nut 2 .
Visually check for damages.
1. Loosen the screw plugs 4 and lift the belt guard 5 .2. Manually turn the pulley so that all of the belt can be inspected for damage.
10 Maintenance10.9 Drive belt maintenance
901824 12 EOperating Manual Screw Compressor ASK 67
3. In case of damage: Replace the drive belt immediately.4. Replace the belt guard and tighten the screw plugs.
Replace the drive belt.
1. Loosen the screw plugs 4 and lift the belt guard 5 .2. Loosen the nut 2 .3. Turn adjusting nut 1 to loosen the tension on the belts until they can be removed from the pul‐
ley.4. Install the new set of belts and use the adjusting nut 1 to adjust tension until the marker pin
reaches the lower end of the elongated hole.5. Retighten the locking nut 2 .6. Replace the belt guard and tighten the screw plugs.
10.10 Testing the pressure relief valveIn order to check the pressure relief valve, the machine's working pressure is raised above the acti‐vating pressure of the valve.Blow off protection and air system pressure monitoring are switched off during the test. In normaloperation, the blow-off protection will switch off the machine before the pressure relief valve re‐sponds. During the inspection, the blow-off protection will switch off the machine only when the ac‐tivating pressure of the pressure relief valve has been exceeded by 1 bar.
➤ Follow the detailed description of this procedure in theSIGMA CONTROL 2 operatingmanual
➤ Never operate the machine without a correctly functioning pressure relief valve.➤ Have a defect pressure relief valve replaced immediately.
WARNINGExcessive noise is caused when the pressure relief valve blows off!➤ Close all access doors, replace and secure all removable panels.➤ Wear hearing protection.
Precondition The machine is switched off.
1. Close the user's shut-off valve between the machine and the air distribution network.2. Read off the activating pressure on the valve.
(the activating pressure is usually to be found at the end of the part identification)3. Log on to SIGMA CONTROL 2 with access level 2.4. Observe the display of pressure on SIGMA CONTROL 2 and call up the test function.
5. WARNING! Risk of burns due to released cooling oil and compressed air when blowing off the pressurerelief valve!➤ Close all access doors, replace and secure all removable panels.➤ Wear eye protection.
6. End the test as soon as the pressure relief valve blows off or working pressure exceeds theactivating pressure of the pressure relief valve by nearly 1 bar.
7. If necessary, vent the machine and replace the defective pressure relief valve.
10 Maintenance10.10 Testing the pressure relief valve
68Operating Manual Screw Compressor ASK 901824 12 E
8. Deactivate the test function9. Open the user's shut-off valve between the machine and the air distribution network.
10.11 Check the safety shut-down due to excessive airend dischargetemperature.The machine should shut down if the airend discharge temperature reaches a maximum of 110 °C.➤ Check the safety shutdown function as described in the SIGMA CONTROL 2 operating man‐
ual.
The machine does not shut down?➤ Have the safety shut-down function checked by an authorised KAESER SERVICE tech‐
nician.
10.12 Check the EMERGENCY STOP control device
Fig. 25 Check the EMERGENCY STOP control device9 EMERGENCY STOP control device
Precondition Compressor motor running
1. Press the EMERGENCY STOP control device.The compressor motor stops, the pressure system is vented, and the machine is preventedfrom automatically re-starting.
The compressor motor does not stop?The safety function of the EMERGENCY STOP device is no longer ensured.➤ Shut down the machine immediately and call KAESER SERVICE.
2. Turn the EMERGENCY STOP device in the direction of the arrow to unlatch it.3. Acknowledge the alarm message.
10.13 Checking the cooling oil levelIn frequency-controlled compressors (SFC) the cooling oil level indicator is only accuratewhen the machine is running at or near maximum speed.The lower the pressure at the compressed air outlet, the higher the speed.The SIGMA CONTROL 2 displays this value.
Precondition The machine has been running at least 5 minutes in LOAD mode.
10 Maintenance10.11 Check the safety shut-down due to excessive airend discharge temperature.
901824 12 EOperating Manual Screw Compressor ASK 69
Fig. 26 Checking the cooling oil level1 Oil level minimum2 Oil level maximum3 Oil level optimum
1. CAUTION! Danger of burning - hot surfaces!➤ Wear long-sleeved clothing and protective gloves.
2. Check the cooling oil level with machine running under LOAD.
Result As soon as the minimum level is reached: Top up the cooling oil.
10.14 Venting the machine (de-pressurising)Venting takes place in three stages:■ Isolate the compressor from the air system.■ Vent the oil separator tank.■ Manually vent the air cooler.
The machine must be isolated from the compressed air network and completely vented be‐fore undertaking any work on the pressure system.
Material The hose coupling, shut-off valve and maintenance hose required for venting lie beneath the oilseparator tank.
Precondition Cut-off the electrical power supply via the power supply isolating device,ensure that the device is locked off,verify the absence of any voltage.
CAUTIONEscaping oil mist is damaging to health.➤ Do not direct the maintenance hose at persons while venting.➤ Do not inhale the oil mist.
10 Maintenance10.14 Venting the machine (de-pressurising)
70Operating Manual Screw Compressor ASK 901824 12 E
Fig. 27 Venting the machine1 Hose coupling (air cooler venting)2 Pressure gauge3 Hose coupling (oil separator tank venting)6 Plug-in nozzle
7 Shut-off valveA Shut-off valve openB Shut-off valve closed8 Maintenance hose
Isolating the machine from the air system
➤ Close the user's shut-off valve between the machine and the air distribution network.
If no shut-off valve is provided by the user, the complete air network must be vented.
Venting the oil separator tank
The oil circulation vents automatically as soon as the machine is stopped.➤ Check that the oil separator tank pressure gauge reads 0 bar.
The pressure gauge does not read 0 bar after automatic venting?➤ Make sure that the user's shut-off valve is closed or that the complete air system is ven‐
ted.➤ With the shut-off valve closed, insert the plug-in nozzle 6 into the hose coupling 3 .➤ Slowly open the shut-off valve 7 to release pressure.➤ Disconnect the male hose fitting 6 and close the shut-off valve 7 .➤ If manual venting does not bring the oil separator tank pressure gauge to zero: Contact
the authorised KAESER SERVICE.
Manually venting the air cooler
After shutting down the compressor and venting the oil separator tank, the machine is still un‐der pressure from the air system or the section from the shut-off valve to the minimum pres‐sure/check valve.
1. With the shut-off valve closed, insert the plug-in nozzle 6 into the hose coupling 1 .2. Slowly open the shut-off valve 7 to release pressure.3. Disconnect the male hose fitting 6 and close the shut-off valve 7 .
10 Maintenance10.14 Venting the machine (de-pressurising)
901824 12 EOperating Manual Screw Compressor ASK 71
10.15 Replenish cooling oil
The machine must be isolated from the compressed air network and completely vented be‐fore undertaking any work on the pressure system.
Material The hose coupling, shut-off valve and maintenance hose required for venting lie beneath the oilseparator tank.
Precondition Cut-off the electrical power supply via the power supply isolating device,ensure that the device is locked off,verify the absence of any voltage.
Fig. 28 Replenish cooling oil1 Hose coupling (air cooler venting)2 Pressure gauge3 Hose coupling (oil separator tank venting)4 Oil filler port with plug5 Cooling oil level indicator.
6 Plug-in nozzle7 Shut-off valveA Shut-off valve openB Shut-off valve closed8 Maintenance hose
1. Vent the machine as described in section 10.15.1.2. Fill with cooling oil and test run as described in section 10.15.2.
10.15.1 Venting the machine (de-pressurising)
Venting takes place in three stages:■ Isolate the compressor from the air system.■ Vent the oil separator tank.■ Manually vent the air cooler.
CAUTIONEscaping oil mist is damaging to health.➤ Do not direct the maintenance hose at persons while venting.➤ Do not inhale the oil mist.
10 Maintenance10.15 Replenish cooling oil
72Operating Manual Screw Compressor ASK 901824 12 E
Isolating the machine from the air system
➤ Close the user's shut-off valve between the machine and the air distribution network.
If no shut-off valve is provided by the user, the complete air network must be vented.
Venting the oil separator tank
The oil circulation vents automatically as soon as the machine is stopped.➤ Check that the oil separator tank pressure gauge reads 0 bar.
The pressure gauge does not read 0 bar after automatic venting?➤ Make sure that the user's shut-off valve is closed or that the complete air system is ven‐
ted.➤ With the shut-off valve closed, insert the plug-in nozzle 6 into the hose coupling 3 .➤ Slowly open the shut-off valve 7 to release pressure.➤ Disconnect the male hose fitting 6 and close the shut-off valve 7 .➤ If manual venting does not bring the oil separator tank pressure gauge to zero: Contact
the authorised KAESER SERVICE.
Manually venting the air cooler
After shutting down the compressor and venting the oil separator tank, the machine is still un‐der pressure from the air system or the section from the shut-off valve to the minimum pres‐sure/check valve.
1. With the shut-off valve closed, insert the plug-in nozzle 6 into the hose coupling 1 .2. Slowly open the shut-off valve 7 to release pressure.3. Disconnect the male hose fitting 6 and close the shut-off valve 7 .
10.15.2 Topping up with cooling oil and trial run
Replenish cooling oil
A sticker on the oil separator tank specifies the type of oil used.
1. WARNING! Compressed air!Compressed air and components under pressure can injure or cause death if the containedenergy is suddenly released.➤ Fully vent all pressurised components and enclosures.
2. NOTICE! The machine could be damaged by unsuitable oil!➤ Never mix different types of oil.➤ Never top up with a different type of oil to that already used in the machine.
3. Open the filler plug 4 slowly.4. Top up to bring the oil to the correct level.5. Renew the filler plug's gasket if necessary and screw the plug into the filler port.
10 Maintenance10.15 Replenish cooling oil
901824 12 EOperating Manual Screw Compressor ASK 73
Starting the machine and performing a trial run
1. Close all access doors, replace and secure all removable panels.2. Open the user's shut-off valve between the machine and the air distribution network.3. After approx. 10 minutes of operation: Check the cooling oil level and top up if necessary.4. Switch off the machine and check for leaks.
10.16 Changing the cooling oilDrain the oil completely from the following components in the sequence shown:■ Oil separator tank■ Oil cooler■ Compressor block■ Heat exchanger (Option W2/W3)
Always change the oil filter and oil separator cartridge when changing the oil.
Compressed air helps to expel the oil. This compressed air can be taken either from the compres‐sor itself or from an external source.
An external source of compressed air is necessary in the following cases (examples):■ The machine is not operational.■ The machine is to be restarted after a long period of standstill.
The machine must be isolated from the compressed air network and completely vented be‐fore undertaking any work on the pressure system.
Material Cooling oilCooling oil receptacleThe maintenance hose with hose coupling and shut-off valve is stowed beneath the oil separatortank.
CAUTIONThere is risk of burns from hot components and oil!➤ Wear long-sleeved clothing and gloves.
10 Maintenance10.16 Changing the cooling oil
74Operating Manual Screw Compressor ASK 901824 12 E
Fig. 29 Changing the cooling oil, pressuring the oil separator tank2 Pressure gauge3 Hose coupling (oil separator tank venting)6 Plug-in nozzle7 Shut-off valve
A Shut-off valve openB Shut-off valve closed8 Maintenance hose10 Shut-off valve (venting line)
Changing the oil with internal pressure Oil change with an external compressed airsource
The machine has been running at least 5 mi‐nutes in LOAD mode.The machine is fully vented,the pressure gauge on the oil separator tankreads 0 bar.1. Close the shut-off valve 10 in the venting
line.2. Start the machine and watch the oil separa‐
tor tank pressure gauge 2 until it reads 3–5 bar.
3. Switch off the machine.4. Wait at least 2 minutes to allow the oil to
flow back to the separator tank.5. Switch off and lock out the power supply
isolating device and verify the absence ofvoltage.
Cut-off the electrical power supply via the powersupply isolating device,ensure that the device is locked off,verify the absence of any voltage.The machine is fully vented,the pressure gauge on the oil separator tankreads 0 bar.An external source of compressed air is availa‐ble.1. Close the shut-off valve 10 in the venting
line.2. With the shut-off valve closed, insert the
plug-in nozzle 6 into the hose coupling 3 .3. Connect the maintenance hose to the exter‐
nal air supply.4. Open the shut-off valve 7 until the pressure
gauge on the oil separator tank reads 3 – 5 bar.
5. Close the shut-off valve 7 and remove themale hose fitting from the coupling.
Draining the oil from the separator tank
Contact KAESER SERVICE if condensate is detected in the cooling oil.It is necessary to adapt the airend discharge temperature to individual ambient conditions.
10 Maintenance10.16 Changing the cooling oil
901824 12 EOperating Manual Screw Compressor ASK 75
Fig. 30 Changing the cooling oil Oil separator tank6 Plug-in nozzle7 Shut-off valve8 Maintenance hose
9 Hose coupling (oil drainage)11 Shut-off valve (oil drainage)
1. Prepare a cooling oil receptacle.2. With the shut-off valve closed, insert the plug-in nozzle 6 into the hose coupling 9 .3. Place the other end of the maintenance hose in the oil receptacle and secure it in place.4. Open the shut-off valve 11 .5. Slowly open the shut-off valve 7 in the maintenance hose and allow the condensate to drain
completely.6. Close the shut-off valve 11 and unplug the male hose fitting.
➤ Dispose of used oil in accordance with environment protection regulations.
Draining the oil from the cooler
Fig. 31 Changing the cooling oil Oil cooler1 Oil cooler2 Hose coupling (oil drainage)3 Shut-off valve
6 Plug-in nozzle7 Shut-off valve8 Maintenance hose
1. Prepare a cooling oil receptacle.2. With the shut-off valve closed, insert the plug-in nozzle 6 into the hose coupling 2 .3. Place the other end of the maintenance hose in the oil receptacle and secure it in place.4. Open the shut-off valve 3 .
10 Maintenance10.16 Changing the cooling oil
76Operating Manual Screw Compressor ASK 901824 12 E
5. Slowly open the shut-off valve 7 and allow cooling oil and air to escape completely until thepressure gauge reads 0 bar.
6. Close the shut-off valve 3 and unplug the male hose fitting.
➤ Dispose of used oil in accordance with environment protection regulations.
Draining the oil from the airend
Fig. 32 Changing the cooling oil Compressor block2 Hose coupling (oil drainage)3 Shut-off valve4 Screw plug5 Belt guard
6 Plug-in nozzle7 Shut-off valve8 Maintenance hose9 Belt pulley
1. Prepare a cooling oil receptacle.2. With the shut-off valve closed, insert the plug-in nozzle 6 into the hose coupling 2 .3. Place the other end of the maintenance hose in the oil receptacle and secure it in place.4. Open the shut-off valves 3 and 7 .5. Loosen the screw plugs 4 and lift the belt guard 5 .6. Rotate the pulley 9 for at least five times to ensure that the entire cooling oil has drained off.7. Replace the belt guard and tighten the screw plugs.8. Close the shut-off valve 3 and unplug the male hose fitting.
Result The cooling oil is drained from the airend.A small amount of cooling oil may flow back into the oil separator tank as a result of turning thepulley.Repeat the procedure for draining oil from the separator tank to remove this oil.
➤ Dispose of used oil in accordance with environment protection regulations.
10 Maintenance10.16 Changing the cooling oil
901824 12 EOperating Manual Screw Compressor ASK 77
Draining the oil from the heat exchanger
Fig. 33 Changing the cooling oil Heat recovery1 Hose coupling3 Shut-off valve6 Plug-in nozzle
7 Shut-off valve8 Maintenance hose
1. Prepare a cooling oil receptacle.2. Insert the male hose fitting 6 in the hose coupling 1 .3. Place the other end of the maintenance hose in the oil receptacle and secure it in place.4. Open the shut-off valves 3 and 7 and allow the oil to drain completely.5. Close the shut-off valve 3 and unplug the male hose fitting.
➤ Dispose of used oil in accordance with environment protection regulations.
Filling with cooling oil
Fig. 34 Changing the cooling oil Filling with cooling oil2 Pressure gauge4 Oil filler port with plug
5 Cooling oil level indicator.10 Shut-off valve (venting line)
1. Open the shut-off valve 10 in the venting line.
2. WARNING! Compressed air!Compressed air and devices under pressure can injure or cause death if the contained energyis released suddenly.➤ Fully vent all pressurised components and enclosures.
3. Open the filler plug 4 slowly.
10 Maintenance10.16 Changing the cooling oil
78Operating Manual Screw Compressor ASK 901824 12 E
Option W2/W3
4. Fill with cooling oil.5. Check the filler plug and ring seal for damage and screw the plug back in again.
Starting the machine and performing a trial run
1. Close all access doors, replace and secure all removable panels.2. Open the user's shut-off valve between the machine and the air distribution network.3. Switch on the electrical power supply via the power supply isolating device and reset the main‐
tenance interval counter.4. Start the machine and check the oil level again after about 10 minutes, topping up if necessary.5. Switch off the machine and check for leaks.
10.17 Changing the oil filter
The machine must be isolated from the compressed air network and completely vented be‐fore undertaking any work on the pressure system.
Material SparesCooling oil receptacle
Precondition The power supply isolating device is switched off,the device is locked off,the absence of any voltage has been verified.The machine is fully vented,the pressure gauge on the oil separator tank reads 0 bar.
CAUTIONThere is risk of burns from hot components and oil!➤ Wear long-sleeved clothing and gloves.
Fig. 35 Changing the oil filter1 Oil filter2 Direction to unscrew
10 Maintenance10.17 Changing the oil filter
901824 12 EOperating Manual Screw Compressor ASK 79
Changing the oil filter
1. WARNING! Compressed air!Compressed air and devices under pressure can injure or cause death if the contained energyis released suddenly.➤ De-pressurise all pressurised components and enclosures.
2. Unscrew the oil filter anti-clockwise, catch oil spillage and dispose of in accordance with envi‐ronmental protection regulations.
3. Lightly oil the new filter's gasket.4. Turn the oil filter clockwise by hand to tighten.
➤ Dispose of parts and materials contaminated with oil in accordance with environmentalprotection regulations.
Starting the machine and carrying out a trial run
1. Close all access doors, replace and secure all removable panels.2. Open the user's shut-off valve between the machine and the air distribution network.3. Switch on the power supply and reset the maintenance interval counter.4. After approx. 10 minutes of operation: Check the cooling oil level and top up if necessary.5. Switch off the machine and check visually for leaks.
10.18 Changing the oil separator cartridgeThe oil separator cartridge cannot be cleaned.
The life of the oil separator cartridge is influenced by:■ contamination in the air drawn into the compressor,■ Adherence to the changing intervals for:
─ Cooling oil─ Oil filter─ Air filter
The machine must be isolated from the compressed air network and completely vented be‐fore undertaking any work on the pressure system.
Material SparesCleaning cloth
Precondition The supply disconnecting device is switched off.The disconnecting device is locked in the off position.A check has been made that no voltage is present.The machine is fully vented,the pressure gauge on the oil separator tank reads 0 bar.
10 Maintenance10.18 Changing the oil separator cartridge
80Operating Manual Screw Compressor ASK 901824 12 E
Fig. 36 Changing the oil separator cartridge14 Cover15 Dirt trap16 Air pipe17 Retaining screw19 Self-locking nut
20 Screw connection21 seal23 Oil separator cartridge30 Ball (functioning as a check valve)31 Strainer
Changing the oil separator cartridge
1. WARNING! Compressed air!Compressed air and pressurised devices can cause serious injury or death if the containedenergy is suddenly released.➤ Vent all pressurized components and chambers completely.
2. Unscrew the fitting 20 and carefully put the parts to one side, then pull out the copper pipe atitem 15 .
3. Unscrew the nut 19 and turn the air pipe 16 to one side.4. Remove the cover fixing screws 17 and carefully remove the cover 14 .5. Take out the old oil separator cartridge 23 together with the gaskets 21 and dispose of ac‐
cording to environmental protection regulations.6. Clean all sealing faces.7. Insert the new oil separator cartridge with gaskets and re-fix the cover.8. Renew the O-ring and strainer in the dirt trap 15 .
➤ Make sure the ball 30 is properly seated.The ball prevents cooling oil being pressed into the separator cartridge.
9. Attach the air pipe to the cover 14 with a new, self-locking nut.10. Replace and tighten all fittings.
➤ Dispose of parts and materials contaminated with oil in accordance with environmentalprotection regulations.
10 Maintenance10.18 Changing the oil separator cartridge
901824 12 EOperating Manual Screw Compressor ASK 81
Start the machine and carry out a trial run
1. Close all access doors, replace and secure all removable panels.2. Open the user's shut-off valve between the machine and the air distribution network.3. Switch on the power supply and reset the maintenance interval counter.4. After approx. 10 minutes of operation: Switch off the machine and check visually for leaks.
10 Maintenance10.18 Changing the oil separator cartridge
82Operating Manual Screw Compressor ASK 901824 12 E
10.19 Documenting maintenance and service workMachine number:➤ Enter maintenance and service work carried out in the list.
Date Maintenance task carried out Operating hours Signature
Tab. 60 Logged maintenance tasks
10 Maintenance10.19 Documenting maintenance and service work
901824 12 EOperating Manual Screw Compressor ASK 83
11 Spares, Operating Materials, Service11.1 Note the nameplate
The nameplate contains all information to identify your machine. This information is essential to usin order to provide you with optimal service.➤ Please give the information from the nameplate with every enquiry and order for spares.
11.2 Ordering consumable parts and operating fluids/materialsKAESER consumable parts and operating materials are original components. They are specificallyselected for use in KAESER machines.Unsuitable or poor quality consumable parts and operating fluids/materials may result in damage tothe machine or impair its proper function.Personal injury may result from damage.
WARNINGThere is risk of personal injury or damage to the machine resulting from the use of unsuita‐ble spares or operating fluids/materials.➤ Use only original parts and operating fluids/materials.➤ Have an authorized KAESER SERVICE technician carry out regular maintenance.
Machine
Name Number
Air filter cartridge 1250
Filter mat (cooler) 1050
Filter mat (control cabinet) 1100
Oil filter 1200
Oil separator cartridge 1450
Cooling oil 1600
Drive belt 1801
Tab. 61 Consumable parts
11.3 KAESER AIR SERVICEKAESER AIR SERVICE offers:■ Authorised service technicians with KAESER factory training■ Increased operational reliability ensured by preventive maintenance■ Energy savings achieved by avoidance of pressure losses■ optimum conditions for operation of the compressed air system,■ The security of genuine KAESER spares.■ Increased legal certainty as all regulations are kept to.
11 Spares, Operating Materials, Service11.1 Note the nameplate
84Operating Manual Screw Compressor ASK 901824 12 E
➤ It make sense to sign a KAESER AIR SERVICE maintenance agreement.Your advantage:lower costs and higher compressed air availability.
11.4 Replacement parts for service and repairUse this spare parts list to plan your material requirement according to operating conditions and toorder the required spare parts.
➤ Make sure that any service or repair tasks not described in this manual are carried out byan authorized KAESER SERVICE technician.
11 Spares, Operating Materials, Service11.4 Replacement parts for service and repair
901824 12 EOperating Manual Screw Compressor ASK 85
11 Spares, Operating Materials, Service11.4 Replacement parts for service and repair
86Operating Manual Screw Compressor ASK 901824 12 E
11 Spares, Operating Materials, Service11.4 Replacement parts for service and repair
901824 12 EOperating Manual Screw Compressor ASK 87
12 Decommissioning, Storage and Transport12.1 De-commissioning
De-commissioning is necessary, for example, under the following circumstances:■ The machine is (temporarily) not needed.■ The machine is to be moved to another location.■ The machine is to be scrapped.
➤ The following tasks must be carried out only by authorised personnel.
12.1.1 Temporary de-commissioning
Precondition The machine can be started at regular intervals.
➤ Run the machine once a week for at least 30 minutes under LOAD to ensure sufficient protec‐tion against corrosion.
12.1.2 Long-term de-commissioning
Precondition Immediately prior to de-commissioning, run the machine in LOAD operation for at least 30 minutes.
12.1.2.1 Draining condensate
If the machine is equipped with a condensate drain, then drain the condensate from the conden‐sate drain.
Precondition The machine is switched off.
1. Drain condensate from the condensate drain and dispose of according to applicable environ‐mental protection regulations.
2. Remove the user-supplied condensate lines.
12.1.2.2 Isolating the machine from supply lines
Precondition The power supply isolating device is switched off,it has been locked off against unintentional reactivation andthe absence of voltage has been verified.The machine is fully vented (depressurised).The user's shut-off valve to the compressed air network is closed or the compressed air networkhas been fully vented.
1. Allow the machine to completely cool down.2. Detach the power supply and connecting line to the compressed air network at the user side.3. Option W2/W3:
Detach the user connecting lines and use compressed air (<2 bar) to blow out the heat recov‐ery system until liquid no longer escapes.
4. Properly close all open connecting ports.
12 Decommissioning, Storage and Transport12.1 De-commissioning
88Operating Manual Screw Compressor ASK 901824 12 E
12.2 PackingA wooden crate is required for overland transport to protect the machine from mechanical damage.Other measures must be taken for the transport of machines by sea or air. Please contactKAESER SERVICE for more information.
Material DesiccantPlastic sheetingWooden crate
Precondition The machine is decommissioned.The machine is dry and cooled down.
1. Place sufficient desiccant silica gel or desiccant clay) in the machine.2. Wrap the machine fully in plastic sheeting.3. Protect the machine in a wooden crate against mechanical damages.
12.3 StorageMoisture can lead to corrosion, particularly on the surfaces of the airend and in the oil separatortank.Frozen moisture can damage components, valve diaphragms and gaskets.The following measures also apply to machines not yet commissioned.
Please consult with KAESER if you have questions to the appropriate storage and commis‐sioning.
1. NOTICE! Moisture and frost can damage the machine!➤ Prevent ingress of moisture and formation of condensation.➤ Maintain a storage temperature of >0 °C.
2. Store the machine in a dry, frost-proof room.
12.4 Transport
12.4.1 Safety
Mass and centre of gravity determine the most suitable method of transportation. The centre ofgravity is shown in the drawing in chapter 13.3.
➤ Please consult with KAESER if you intend to transport the machine in freezing tempera‐tures.
Precondition Transport only by forklift truck or lifting gear and only by personnel trained in the safe transportationof loads.
➤ Ensure the danger area is clear of personnel.
12.4.2 Transport with a forklift truck
Precondition The whole machine is over the forks.
12 Decommissioning, Storage and Transport12.2 Packing
901824 12 EOperating Manual Screw Compressor ASK 89
Fig. 37 Transporting with a forklift truck
1. Take note of the centre of gravity.2. Drive the forks completely under the machine or palette and lift carefully.
12.4.3 Transport with a hoist
Only suitable and approved load-carrying and attachment devices ensure proper transport of themachine with a hoist (e.g., crane). Suitable crossbeams ensure sufficient distance of the attach‐ment resources from the machine housing to prevent damage.The machine is not equipped with fastening points.
Examples of unsuitable fastening points:■ Pipe sockets■ Flanges■ Attached components such as centrifugal separators, condensate drains or filters■ Rain protection covers
➤ Consult KAESER if you require suitable load-carrying and attachment devices or havequestions regarding the correct use.
Precondition Load-carrying and attachment devices meet the local safety regulations.The hoist, load-carrying and attachment devices or the lifted machine do not endanger personnel.
12 Decommissioning, Storage and Transport12.4 Transport
90Operating Manual Screw Compressor ASK 901824 12 E
Fig. 38 Transporting with a crane1 Load carrying devices2 Attachment resources3 Crossbeam
1. WARNING! Risk of accident caused by incorrect use of load-carrying and attachment devices!➤ Comply with permissible load limits.➤ Comply with specific safety information of used load-carrying and attachment devices.
2. Properly use load-carrying and attachment devices:■ Ensure proper distribution of the fastening points relative to the centre of gravity position
(symmetrical load distribution).■ Ensure equal slope angles of 15° to 45° for attachment devices with multiple strands.
─ Slope angles between 45° and 60° may be unsuitable.─ Slope angles larger than 60° are prohibited.
■ Ensure the maximum incline of 6° of the machine to the horizontal.■ Ensure sufficient distance of the attachment devices to the machine.■ Ensure a positive stability height: Dimension B > Dimension A■ Do not attach the attachment devices to any machine component.
3. Carry out a lifting test:Slightly lift the machine to check whether machine remains in horizontal position and does notteeter.
4. Transport the machine only after a successful lifting test.
12 Decommissioning, Storage and Transport12.4 Transport
901824 12 EOperating Manual Screw Compressor ASK 91
12.5 DisposalWhen disposing of a machine, drain out all liquids and remove old filters.
Precondition The machine is decommissioned.
1. Completely drain the cooling oil from the machine.2. Remove used filters and the oil separator cartridge.3. Hand the machine over to an authorized disposal expert.
➤ Components contaminated with cooling oil must be disposed of in accordance with localenvironment protection regulations.
Machines with refrigeration dryers
The refrigerant circuit still contains both refrigerant and oil.➤ Refrigerant and oil must be drained and disposed of by an authorized specialist workshop.
12.5.1 Dispose of the battery in accordance with local environmental regulations.
Batteries contain substances that are harmful to living beings and the environment. For this reason,batteries must not be disposed of with unsorted residential waste. They must be delivered to thenational battery collection system. This procedure facilitates the handling and recycling of batteries.The 2006/66/EC directive stipulates for the EU member states that old batteries are returned to thepoint of sale or delivered to a designated disposal system (free of charge). These disposal facilitiesmay be local recycling yards for used electric and electronic devices and their points of sale.
Fig. 39 Battery labelling1 Do not dispose of batteries with residential waste.2 Battery contains lead (if applicable)
➤ Comply with national disposal regulations and dispose of batteries in an environmentally-friendly manner.
You actively contribute to the protection of our environment when you bring used bateries tothe appropriate recycling system.
12 Decommissioning, Storage and Transport12.5 Disposal
92Operating Manual Screw Compressor ASK 901824 12 E
13 Annex13.1 Pipeline and instrument flow diagram (P&I diagram)
13 Annex13.1 Pipeline and instrument flow diagram (P&I diagram)
901824 12 EOperating Manual Screw Compressor ASK 93
13 Annex13.1 Pipeline and instrument flow diagram (P&I diagram)
94Operating Manual Screw Compressor ASK 901824 12 E
13 Annex13.1 Pipeline and instrument flow diagram (P&I diagram)
901824 12 EOperating Manual Screw Compressor ASK 95
13 Annex13.1 Pipeline and instrument flow diagram (P&I diagram)
96Operating Manual Screw Compressor ASK 901824 12 E
13 Annex13.1 Pipeline and instrument flow diagram (P&I diagram)
901824 12 EOperating Manual Screw Compressor ASK 97
13 Annex13.1 Pipeline and instrument flow diagram (P&I diagram)
98Operating Manual Screw Compressor ASK 901824 12 E
13.2 Option C1Pipeline and instrument flow diagram (P&I diagram)MODULATING control
13 Annex13.2 Pipeline and instrument flow diagram (P&I diagram) MODULATING control
901824 12 EOperating Manual Screw Compressor ASK 99
13 Annex13.2 Pipeline and instrument flow diagram (P&I diagram) MODULATING control
100Operating Manual Screw Compressor ASK 901824 12 E
13 Annex13.2 Pipeline and instrument flow diagram (P&I diagram) MODULATING control
901824 12 EOperating Manual Screw Compressor ASK 101
13 Annex13.2 Pipeline and instrument flow diagram (P&I diagram) MODULATING control
102Operating Manual Screw Compressor ASK 901824 12 E
13 Annex13.2 Pipeline and instrument flow diagram (P&I diagram) MODULATING control
901824 12 EOperating Manual Screw Compressor ASK 103
13 Annex13.2 Pipeline and instrument flow diagram (P&I diagram) MODULATING control
104Operating Manual Screw Compressor ASK 901824 12 E
13.3 Dimensional drawing
13 Annex13.3 Dimensional drawing
901824 12 EOperating Manual Screw Compressor ASK 105
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405
25
565
25
540
326 262
25
312
32
646
382
25
696
. .A
SK
28
/34
: V
= 3
.30
0m
³/h
AS
K 4
0
: V
= 4
.30
0m
³/h
with f
ilte
rmats
AS
K 2
8/3
4∆
p m
ax.
60 P
a (
6 m
m w
ate
r colu
mn)
AS
K 4
0∆
p m
ax.
40 P
a (
4 m
m w
ate
r colu
mn)
Tota
l perm
issib
le p
ressure
loss f
or
insta
lled d
ucting
13 Annex13.3 Dimensional drawing
901824 12 EOperating Manual Screw Compressor ASK 107
13.4 Electrical Diagram
13 Annex13.4 Electrical Diagram
108Operating Manual Screw Compressor ASK 901824 12 E
Comp
ress
or se
ries A
SKDA
SK-0
3070
.00
12
34
56
78
page
Bl.
Cove
r pag
e
SC2 M
CSIO
E
The d
rawi
ngs r
emain
our e
xclus
ive pr
oper
ty. T
hey a
re en
truste
don
ly for
the a
gree
d pur
pose
. Cop
ies or
any o
ther r
epro
ducti
ons,
includ
ing st
orag
e, tre
atmen
t and
diss
emina
tion b
y use
ofele
ctron
ic sy
stems
mus
t not
be m
ade f
or an
y othe
r tha
n the
agre
ed pu
rpos
e. Ne
ither
origi
nals
nor r
epro
ducti
ons m
ust b
efor
ward
ed or
othe
rwise
mad
e acc
essib
le to
third
partie
s.
ATTE
NTIO
N !!!
The d
ocum
ent g
ives c
ollec
tive i
nform
ation
onpo
wer s
upply
volta
ges a
nd fr
eque
ncies
for a
ll mac
hines
.Th
e volt
age a
nd fr
eque
ncy a
nd lo
cal c
ondit
ions u
nder
which
any p
artic
ular m
achin
e may
be us
edar
e give
n on t
he na
mepla
te of
the m
achin
ean
d in t
he ac
comp
anyin
g ser
vice m
anua
l.
200V
±10%
50/60
Hz38
0V±1
0% 60
Hz44
0V±1
0% 60
Hz
KAES
ER K
OMPR
ESSO
REN
SEMa
nufac
turer
:96
450
Cobu
rgGE
RMAN
Y
230V
±10%
50/60
Hz40
0V±1
0% 50
Hz46
0V±1
0% 60
Hz
TT/T
N po
wer s
upply
with
comm
on po
int gr
ound
ing
Ersa
tz für
:Er
satz
durch
:abc
Ände
rung
Datum
Datum
Bear
beite
rGe
prüft
Norm
Name
Ursp
rung
:1
1
20.10
.2016
= +
A
Sitte
rBü
chne
r
Comp
ress
or se
ries A
SK
Elec
trical
diagr
ams
13 Annex13.4 Electrical Diagram
901824 12 EOperating Manual Screw Compressor ASK 109
Comp
ress
or se
ries A
SKZA
SK-0
3070
.00pa
geBl
.
List o
f con
tents
SC2 M
CSIO
Lfd. N
r.No
.Be
nenn
ung
Name
Zeich
nung
snum
mer (
Kund
e)Dr
awing
No.
(custo
mer)
Zeich
nung
snum
mer (
Herst
eller
)
Draw
ing N
o. (m
anufa
cture
r)Bl
attPa
geAn
lagen
kenn
zeich
enUn
it des
ignati
on
1Co
ver p
age
DASK
-030
70.00
12
List o
f con
tents
ZASK
-030
70.00
13
gene
ral in
struc
tions
UASK
-030
70.00
14
electr
ical e
quipm
ent id
entifi
catio
nUA
SK-0
3070
.002
5Eq
uipme
nt pa
rts lis
tUA
SK-0
3070
.003
6Eq
uipme
nt pa
rts lis
tUA
SK-0
3070
.004
7Eq
uipme
nt pa
rts lis
tUA
SK-0
3070
.005
8Ci
rcuit d
iagra
mPo
wer s
witch
ingSA
SK-0
3070
.001
9Ci
rcuit d
iagra
mCo
ntrol
SASK
-030
70.00
210
Circu
it diag
ram
Contr
ol vo
ltage
tapp
ingSA
SK-0
3070
.003
11Ci
rcuit d
iagra
mPo
wer s
upply
unit
SASK
-030
70.00
412
Circu
it diag
ram
IO-m
odule
/Con
figur
ation
SASK
-030
70.00
513
Circu
it diag
ram
sens
ors/a
ctuato
rsSA
SK-0
3070
.006
14Ci
rcuit d
iagra
mVo
lt-fre
e con
tacts
SASK
-030
70.00
715
Circu
it diag
ram
inputs
/outpu
tsSA
SK-0
3070
.008
16Ci
rcuit d
iagra
mtra
nsfor
mer d
iagra
msSA
SK-0
3070
.009
17Ci
rcuit d
iagra
mHa
ndlin
g: Te
rmina
ls / F
eed l
ine co
nnec
tion
SASK
-030
70.00
1018
Term
inal s
ched
uleTe
rmina
l strip
-X0,-
X11,-
X11.1
KASK
-030
70.00
119
Comp
onen
t layo
utMo
untin
g plat
eAA
SK-0
3070
.001
Ersa
tz für
:Er
satz
durch
:abc
Ände
rung
Datum
Datum
Bear
beite
rGe
prüft
Norm
Name
Ursp
rung
:1
1
20.10
.2016
= +Si
tter
BBü
chne
r
13 Annex13.4 Electrical Diagram
110Operating Manual Screw Compressor ASK 901824 12 E
Comp
ress
or se
ries A
SKUA
SK-0
3070
.00
ATTE
NTIO
N !!!
Instal
l sup
plies
, gro
undin
g and
shoc
k pro
tectio
nto
local
safet
y reg
ulatio
ns.
Do no
t mak
e or b
reak
live p
lug-in
conn
ector
s.
contr
ol ca
binet
wirin
g for
non-
desig
nated
cond
uctor
swi
th mu
lti-sta
ndar
d stra
nded
cond
uctor
spr
imar
y circ
uits:
Contr
ol vo
ltage
AC
ungr
ound
ed:
Contr
ol vo
ltage
AC
grou
nded
:Co
ntrol
volta
ge D
C un
grou
nded
:Co
ntrol
volta
ge D
C gr
ound
ed:
exter
nal v
oltag
e:me
asur
ing ci
rcuits
:ea
rth co
nduc
tor:
black
red 1
mm²
H05V
-K, 1
8AW
G UL
-Styl
e 101
5, CS
A-TE
Wwh
ite 1m
m² H
05V-
K, 18
AWG
UL-S
tyle 1
015,
CSA-
TEW
blue 1
mm²
H05V
-K, 1
8AW
G UL
-Styl
e 101
5, CS
A-TE
Wwh
ite/bl
ue 1m
m² H
05V-
K, 18
AWG
UL-S
tyle 1
015,
CSA-
TEW
oran
ge 1,
5mm²
H07
V-K,
16AW
G UL
-Styl
e 101
5, CS
A-TE
Wvio
let 1m
m² H
05V-
K, 18
AWG
UL-S
tyle 1
015,
CSA-
TEW
gree
n/yell
ow H
07V-
K, U
L-St
yle 10
15, C
SA-T
EW
12
34
56
78
page
Bl.
gene
ral in
struc
tions
SC2 M
CSIO
gene
ral in
struc
tions
Ersa
tz für
:Er
satz
durch
:abc
Ände
rung
Datum
Datum
Bear
beite
rGe
prüft
Norm
Name
Ursp
rung
:1
5
20.10
.2016
= +
C
Sitte
rBü
chne
r
13 Annex13.4 Electrical Diagram
901824 12 EOperating Manual Screw Compressor ASK 111
Comp
ress
or se
ries A
SKUA
SK-0
3070
.00
-B25 -F4
-F11 -M
1-M
4-M
7-Q
1-Q
2-Q
3-S
1-T
11-T
21
Over
load r
elay,
Comp
ress
or m
otor
Over
load p
rotec
tion s
witch
,Fa
n moto
rOv
erloa
d pro
tectio
n swi
tch,
Contr
ol tra
nsfor
mer
Comp
ress
or m
otor
Fan m
otor
Contr
ol ca
binet
venti
lator
Mains
conta
ctor
Delta
conta
ctor
Star
conta
ctor
EMER
GENC
Y ST
OP pu
shbu
tton
Contr
ol tra
nsfor
mer
Powe
r unit
-K20 -X1
-X3
-X5
-X6
-X7
-X8
-X9
-X10 -X0
-X11
,-X11
.1
SIGM
A CO
NTRO
L 2 M
CSIO
Ethe
rnet
RS48
5-FC
(USS
)SD
card
slot
Earth
conn
ectio
nPo
wer s
upply
unit,
digita
l inpu
tsdig
ital in
puts,
digit
al ou
tputs
analo
g inp
uts, 4
-20m
A, P
t100
Relay
outpu
ts
Term
inal s
trip, P
ower
supp
lyTe
rmina
l strip
, Con
trol
-B1
-B2
-B40 -K1
Pres
sure
tran
sduc
er,
Air m
ain pr
essu
reDi
recti
on of
rotat
ion pr
essu
re sw
itch
Temp
eratu
re pr
obe,
Aire
nd di
scha
rge t
empe
ratur
eCo
ntrol
valve
12
34
56
78
page
Bl.
electr
ical e
quipm
ent id
entifi
catio
n
SC2 M
CSIO
electr
ical e
quipm
ent id
entifi
catio
nge
nera
l com
pone
ntsCo
ntrol
termi
nal s
trips
sens
ors/a
ctuato
rs
Ersa
tz für
:Er
satz
durch
:abc
Ände
rung
Datum
Datum
Bear
beite
rGe
prüft
Norm
Name
Ursp
rung
:2
5
20.10
.2016
= +
C
Sitte
rBü
chne
r
13 Annex13.4 Electrical Diagram
112Operating Manual Screw Compressor ASK 901824 12 E
Comp
ress
or se
ries A
SKUA
SK-0
3070
.00pa
geBl
.
Equip
ment
parts
list
SC2 M
CSIO
Outlet filter Rübsamen&HerrRübsamen&Herr 7.2752.00020 / GV200 7.2752.00020 / GV200 7.2752.00020 / GV200 7.2752.00020 / GV2007.2752.00020 / GV200Control cabinet ventilator -M7-M7 7.2751.00031 / LV200 7.2751.00031 / LV200 7.2751.00031 / LV200 7.2751.00031 / LV2007.2751.00031 / LV200Switching element SchlegelSchlegel 7.3218.0 / MHTOO 7.3218.0 / MHTOO 7.3218.0 / MHTOO 7.3218.0 / MHTOO7.3218.0 / MHTOOEMERGENCY STOP pushbutton -S1-S1 7.3217.0 / QRUV 7.3217.0 / QRUV 7.3217.0 / QRUV 7.3217.0 / QRUV7.3217.0 / QRUV
ProdriveProdrive SIGMA CONTROL 2 MCSIO SIGMA CONTROL 2 MCSIO SIGMA CONTROL 2 MCSIOSIGMA CONTROL 2 MCSIOCompressor control -K20-K20 7.9700.0 7.9700.0 7.9700.0 7.9700.07.9700.0
500 V, 90°C 500 V, 90°C 500 V, 90°C 500 V, 90°C500 V, 90°Ccables -W19.1/.2-W19.1/.2 1x16 mm² 1x6 mm² 1x6 mm² 1x6 mm²1x16 mm²
SiemensSiemens 3RA2933-3FA00 3RV1915-1AB 3RV1915-1AB 3RV1915-1AB3RA2933-3FA00connection -W14-W14 7.3140.05270 7.6861.0 7.6861.0 7.6861.07.3140.05270
SiemensSiemens 3RA2933-3FA00 3RV1915-1AB 3RV1915-1AB 3RV1915-1AB3RA2933-3FA00connection -W13-W13 7.3140.05270 7.6861.0 7.6861.0 7.6861.07.3140.05270
ProdriveProdrive PSDC24/2.5 PSDC24/2.5 PSDC24/2.5 PSDC24/2.5PSDC24/2.5Power supply -T21-T21 7.7605P0 7.7605P0 7.7605P0 7.7605P07.7605P0
diagram 3, Sht. 9 diagram 1, Sht. 9 diagram 1, Sht. 9 diagram 2, Sht. 9diagram 2, Sht. 9250 VA 250 VA 250 VA 250 VA250 VAUTT 0,25 EMB B0001090 Block B0001090 Block USTE250 BlockUSTE250 Block
Transformer -T11-T11 7.0776.1 7.0772.2 7.0772.2 7.2239.200807.2239.20080SiemensSiemens setting: 1,3 A setting: 1,1 A setting: 1,1 A setting: 1,1 Asetting: 1,2 A
1,1-1,6 A 1,1-1,6 A 1,1-1,6 A 1,1-1,6 A1,1-1,6 A3RV2021-1AA10 3RV2021-1AA10 3RV2021-1AA10 3RV2021-1AA103RV2021-1AA10
Overload protection switch -F11-F11 7.8742.01110 7.8742.01110 7.8742.01110 7.8742.011107.8742.01110SiemensSiemens 3RV2901-1E 3RV2901-1E 3RV2901-1E 3RV2901-1E3RV2901-1E
Auxiliary switch 7.8742.05000 7.8742.05000 7.8742.05000 7.8742.050007.8742.05000setting: 1,6 A (460 V)setting: 3,3 A (60 Hz)
setting: 3,6 A (50 Hz) setting: 1,9 A setting: 1,8 A setting: 1,7 A (440 V)setting: 3,1 A (50 Hz)2,8-4 A 1,8-2,5 A 1,4-2 A 1,4-2 A2,8-4 A3RV2021-1EA10 3RV2021-1CA10 3RV2021-1BA10 3RV2021-1BA103RV2021-1EA10
Overload protection switch -F4-F4 7.8742.01150 7.8742.01130 7.8742.01120 7.8742.011207.8742.01150SiemensSiemens setting: 18 A (460 V)setting: 35 A (60 Hz)
setting: 40 A (50 Hz) setting: 21 A setting: 20 A setting: 18 A (440 V)setting: 34 A (50 Hz)12-50 A 6-25 A 6-25 A 6-25 A12-50 A3RB3036-1UB0 3RB3026-1QB0 3RB3026-1QB0 3RB3026-1QB03RB3036-1UB0
Overload relay -B25-B25 7.8741.00090 7.8741.00070 7.8741.00070 7.8741.000707.8741.00090SiemensSiemens 3RT2936-1CD00 3RT2926-1CD00 3RT2926-1CD00 3RT2926-1CD003RT2936-1CD00
Interference suppressor 7.8740.05120 7.8740.05110 7.8740.05110 7.8740.051107.8740.051203RT2035-1AL20 3RT2025-1AL20 3RT2025-1AL20 3RT2025-1AL203RT2035-1AL20
Contactor -Q3-Q3 7.8740.00100 7.8740.00060 7.8740.00060 7.8740.000607.8740.00100SiemensSiemens 3RT2936-1CD00 3RT2926-1CD00 3RT2926-1CD00 3RT2926-1CD003RT2936-1CD00
Interference suppressor 7.8740.05120 7.8740.05110 7.8740.05110 7.8740.051107.8740.051203RT2036-1AL20 3RT2026-1AL20 3RT2026-1AL20 3RT2026-1AL203RT2036-1AL20
Contactor -Q2-Q2 7.8740.00110 7.8740.00070 7.8740.00070 7.8740.000707.8740.00110SiemensSiemens 3RT2936-1CD00 3RT2926-1CD00 3RT2926-1CD00 3RT2926-1CD003RT2936-1CD00
Interference suppressor 7.8740.05120 7.8740.05110 7.8740.05110 7.8740.051107.8740.051203RH2911-1HA11 3RH2911-1HA11 3RH2911-1HA11 3RH2911-1HA113RH2911-1HA11
Auxiliary switch 7.8740.05010 7.8740.05010 7.8740.05010 7.8740.050107.8740.050103RT2036-1AL20 3RT2026-1AL20 3RT2026-1AL20 3RT2026-1AL203RT2036-1AL20
Contactor -Q1-Q1 7.8740.00110 7.8740.00070 7.8740.00070 7.8740.000707.8740.00110HandlingHandling fig. 1, Sht. 10 fig. 1, Sht. 10 fig. 1, Sht. 10 fig. 1, Sht. 10fig. 1, Sht. 10
Terminal strip -X11-X11 7.6836.00390 Wieland 7.6836.00390 Wieland 7.6836.00390 Wieland 7.6836.00390 Wieland7.6836.00390 WielandTerminal strip -X0-X0 7.7676.00020 Wieland 7.7676.00020 Wieland 7.7676.00020 Wieland 7.7676.00020 Wieland7.7676.00020 Wielandsupply connectionconnection fig. 10, Sht. 10 fig. 10, Sht. 10 fig. 10, Sht. 10 fig. 10, Sht. 10fig. 10, Sht. 10
Stripped lengthStripped length 20 mm 20 mm 20 mm 20 mm20 mmTorqueTorque 3 Nm 3 Nm 3 Nm 3 Nm3 Nm
WielandWieland WKN35SL/U WKN35SL/U WKN35SL/U WKN35SL/UWKN35SL/U-X0:PE-X0:PE 7.3291.00010 7.3291.00010 7.3291.00010 7.3291.000107.3291.00010
Stripped lengthStripped length 25 mm 10 mm 10 mm 10 mm25 mmTorqueTorque 6 Nm 4 Nm 4 Nm 4 Nm6 Nm
SiemensSiemens 3RV2935-5A 3RV2925-5AB 3RV2925-5AB 3RV2925-5AB3RV2935-5Asupply terminals -X0:U1/V1/W1-X0:U1/V1/W1 7.3140.05060 7.3140.05050 7.3140.05050 7.3140.050507.3140.05060Motor -M4-M4 0,55 kW 0,55 kW 0,55 kW 0,55 kW0,55 kW
diagram 2, Sht. 1 (60 Hz)diagram 2, Sht. 1 diagram 1, Sht. 1 diagram 1, Sht. 1 diagram 1, Sht. 1diagram 1, Sht. 1 (50 Hz)
Motor -M1-M1 15 kW 15 kW 15 kW 15 kW15 kW
200 V ±10 %, 60 Hz200 V ±10 %, 60 Hz 230 V ±10 %, 60 Hz 460 V ±10 %, 60 Hz460 V ±10 %, 60 Hz230 V ±10 %, 60 Hzmachine power supply 200 V ±10 %, 50 Hz200 V ±10 %, 50 Hz 230 V ±10 %, 50 Hz 380 V ±10 %, 60 Hz380 V ±10 %, 60 Hz 400 V ±10 %, 50 Hz400 V ±10 %, 50 Hz 440 V ±10 %, 60 Hz440 V ±10 %, 60 Hz230 V ±10 %, 50 Hz
model ASK 28Equipment parts list
Ersa
tz für
:Er
satz
durch
:abc
Ände
rung
Datum
Datum
Bear
beite
rGe
prüft
Norm
Name
Ursp
rung
:3
5
20.10
.2016
= +Si
tter
CBü
chne
r
SIGMA CONTROL 2 MCSIO
13 Annex13.4 Electrical Diagram
901824 12 EOperating Manual Screw Compressor ASK 113
Comp
ress
or se
ries A
SKUA
SK-0
3070
.00pa
geBl
.
Equip
ment
parts
list
SC2 M
CSIO
Outlet filter Rübsamen&HerrRübsamen&Herr 7.2752.00020 / GV200 7.2752.00020 / GV200 7.2752.00020 / GV200 7.2752.00020 / GV2007.2752.00020 / GV200Control cabinet ventilator -M7-M7 7.2751.00031 / LV200 7.2751.00031 / LV200 7.2751.00031 / LV200 7.2751.00031 / LV2007.2751.00031 / LV200Switching element SchlegelSchlegel 7.3218.0 / MHTOO 7.3218.0 / MHTOO 7.3218.0 / MHTOO 7.3218.0 / MHTOO7.3218.0 / MHTOOEMERGENCY STOP pushbutton -S1-S1 7.3217.0 / QRUV 7.3217.0 / QRUV 7.3217.0 / QRUV 7.3217.0 / QRUV7.3217.0 / QRUV
ProdriveProdrive SIGMA CONTROL 2 MCSIO SIGMA CONTROL 2 MCSIO SIGMA CONTROL 2 MCSIOSIGMA CONTROL 2 MCSIOCompressor control -K20-K20 7.9700.0 7.9700.0 7.9700.0 7.9700.07.9700.0
500 V, 90°C 500 V, 90°C 500 V, 90°C 500 V, 90°C500 V, 90°Ccables -W19.1/.2-W19.1/.2 1x16 mm² 1x10 mm² 1x6 mm² 1x6 mm²1x16 mm²
SiemensSiemens 3RA2933-3FA00 500 V, 70°C 500 V, 70°C 500 V, 70°C3RA2933-3FA00connection -W14-W14 7.3140.05270 1x6 mm² black 1x6 mm² black 1x6 mm² black7.3140.05270
SiemensSiemens 3RA2933-3FA00 3RA2933-3FA00 3RA2933-3FA00 3RA2933-3FA003RA2933-3FA00connection -W13-W13 7.3140.05270 7.3140.05270 7.3140.05270 7.3140.052707.3140.05270
ProdriveProdrive PSDC24/2.5 PSDC24/2.5 PSDC24/2.5 PSDC24/2.5PSDC24/2.5Power supply -T21-T21 7.7605P0 7.7605P0 7.7605P0 7.7605P07.7605P0
diagram 3, Sht. 9 diagram 1, Sht. 9 diagram 1, Sht. 9 diagram 2, Sht. 9diagram 2, Sht. 9250 VA 250 VA 250 VA 250 VA250 VAUTT 0,25 EMB B0001090 Block B0001090 Block USTE250 BlockUSTE250 Block
Transformer -T11-T11 7.0776.1 7.0772.2 7.0772.2 7.2239.200807.2239.20080SiemensSiemens setting: 1,3 A setting: 1,1 A setting: 1,1 A setting: 1,1 Asetting: 1,2 A
1,1-1,6 A 1,1-1,6 A 1,1-1,6 A 1,1-1,6 A1,1-1,6 A3RV2021-1AA10 3RV2021-1AA10 3RV2021-1AA10 3RV2021-1AA103RV2021-1AA10
Overload protection switch -F11-F11 7.8742.01110 7.8742.01110 7.8742.01110 7.8742.011107.8742.01110SiemensSiemens 3RV2901-1E 3RV2901-1E 3RV2901-1E 3RV2901-1E3RV2901-1E
Auxiliary switch 7.8742.05000 7.8742.05000 7.8742.05000 7.8742.050007.8742.05000setting: 1,6 A (460 V)setting: 3,3 A (60 Hz)
setting: 3,6 A (50 Hz) setting: 1,9 A setting: 1,8 A setting: 1,7 A (440 V)setting: 3,1 A (50 Hz)2,8-4 A 1,8-2,5 A 1,4-2 A 1,4-2 A2,8-4 A3RV2021-1EA10 3RV2021-1CA10 3RV2021-1BA10 3RV2021-1BA103RV2021-1EA10
Overload protection switch -F4-F4 7.8742.01150 7.8742.01130 7.8742.01120 7.8742.011207.8742.01150SiemensSiemens setting: 22 A (460 V)setting: 43 A (60 Hz)
setting: 49 A (50 Hz) setting: 26 A setting: 25 A setting: 22 A (440 V)setting: 43 A (50 Hz)20-80 A 12-50 A 12-50 A 12-50 A20-80 A3RB3036-1WB0 3RB3036-1UB0 3RB3036-1UB0 3RB3036-1UB03RB3036-1WB0
Overload relay -B25-B25 7.8741.00100 7.8741.00090 7.8741.00090 7.8741.000907.8741.00100SiemensSiemens 3RT2936-1CD00 3RT2926-1CD00 3RT2926-1CD00 3RT2926-1CD003RT2936-1CD00
Interference suppressor 7.8740.05120 7.8740.05110 7.8740.05110 7.8740.051107.8740.051203RT2035-1AL20 3RT2026-1AL20 3RT2026-1AL20 3RT2026-1AL203RT2035-1AL20
Contactor -Q3-Q3 7.8740.00100 7.8740.00070 7.8740.00070 7.8740.000707.8740.00100SiemensSiemens 3RT2936-1CD00 3RT2936-1CD00 3RT2936-1CD00 3RT2936-1CD003RT2936-1CD00
Interference suppressor 7.8740.05120 7.8740.05120 7.8740.05120 7.8740.051207.8740.051203RT2038-1AL20 3RT2035-1AL20 3RT2035-1AL20 3RT2035-1AL203RT2038-1AL20
Contactor -Q2-Q2 7.8740.00130 7.8740.00100 7.8740.00100 7.8740.001007.8740.00130SiemensSiemens 3RT2936-1CD00 3RT2936-1CD00 3RT2936-1CD00 3RT2936-1CD003RT2936-1CD00
Interference suppressor 7.8740.05120 7.8740.05120 7.8740.05120 7.8740.051207.8740.051203RH2911-1HA11 3RH2911-1HA11 3RH2911-1HA11 3RH2911-1HA113RH2911-1HA11
Auxiliary switch 7.8740.05010 7.8740.05010 7.8740.05010 7.8740.050107.8740.050103RT2038-1AL20 3RT2035-1AL20 3RT2035-1AL20 3RT2035-1AL203RT2038-1AL20
Contactor -Q1-Q1 7.8740.00130 7.8740.00100 7.8740.00100 7.8740.001007.8740.00130HandlingHandling fig. 1, Sht. 10 fig. 1, Sht. 10 fig. 1, Sht. 10 fig. 1, Sht. 10fig. 1, Sht. 10
Terminal strip -X11-X11 7.6836.00390 Wieland 7.6836.00390 Wieland 7.6836.00390 Wieland 7.6836.00390 Wieland7.6836.00390 WielandTerminal strip -X0-X0 7.7676.00030 Wieland 7.7676.00020 Wieland 7.7676.00020 Wieland 7.7676.00020 Wieland7.7676.00030 Wielandsupply connectionconnection fig. 10, Sht. 10 fig. 10, Sht. 10 fig. 10, Sht. 10 fig. 10, Sht. 10fig. 10, Sht. 10
Stripped lengthStripped length 24 mm 20 mm 20 mm 20 mm24 mmTorqueTorque 6 Nm 3 Nm 3 Nm 3 Nm6 Nm
WielandWieland WKN70SL/U WKN35SL/U WKN35SL/U WKN35SL/UWKN70SL/U-X0:PE-X0:PE 7.3149.01660 7.3291.00010 7.3291.00010 7.3291.000107.3149.01660
Stripped lengthStripped length 25 mm 25 mm 25 mm 25 mm25 mmTorqueTorque 6 Nm 6 Nm 6 Nm 6 Nm6 Nm
SiemensSiemens 3RV2935-5A 3RV2935-5A 3RV2935-5A 3RV2935-5A3RV2935-5Asupply terminals -X0:U1/V1/W1-X0:U1/V1/W1 7.3140.05060 7.3140.05060 7.3140.05060 7.3140.050607.3140.05060Motor -M4-M4 0,55 kW 0,55 kW 0,55 kW 0,55 kW0,55 kW
diagram 2, Sht. 1 (60 Hz)diagram 2, Sht. 1 diagram 1, Sht. 1 diagram 1, Sht. 1 diagram 1, Sht. 1diagram 1, Sht. 1 (50 Hz)
Motor -M1-M1 18,5 kW 18,5 kW 18,5 kW 18,5 kW18,5 kW
200 V ±10 %, 60 Hz200 V ±10 %, 60 Hz 230 V ±10 %, 60 Hz 460 V ±10 %, 60 Hz460 V ±10 %, 60 Hz230 V ±10 %, 60 Hzmachine power supply 200 V ±10 %, 50 Hz200 V ±10 %, 50 Hz 230 V ±10 %, 50 Hz 380 V ±10 %, 60 Hz380 V ±10 %, 60 Hz 400 V ±10 %, 50 Hz400 V ±10 %, 50 Hz 440 V ±10 %, 60 Hz440 V ±10 %, 60 Hz230 V ±10 %, 50 Hz
model ASK 34Equipment parts list
Ersa
tz für
:Er
satz
durch
:abc
Ände
rung
Datum
Datum
Bear
beite
rGe
prüft
Norm
Name
Ursp
rung
:4
5
20.10
.2016
= +Si
tter
CBü
chne
r
SIGMA CONTROL 2 MCSIO
13 Annex13.4 Electrical Diagram
114Operating Manual Screw Compressor ASK 901824 12 E
Comp
ress
or se
ries A
SKUA
SK-0
3070
.00pa
geBl
.
Equip
ment
parts
list
SC2 M
CSIO
Outlet filter Rübsamen&HerrRübsamen&Herr 7.2752.00020 / GV200 7.2752.00020 / GV200 7.2752.00020 / GV200 7.2752.00020 / GV2007.2752.00020 / GV200Control cabinet ventilator -M7-M7 7.2751.00031 / LV200 7.2751.00031 / LV200 7.2751.00031 / LV200 7.2751.00031 / LV2007.2751.00031 / LV200Switching element SchlegelSchlegel 7.3218.0 / MHTOO 7.3218.0 / MHTOO 7.3218.0 / MHTOO 7.3218.0 / MHTOO7.3218.0 / MHTOOEMERGENCY STOP pushbutton -S1-S1 7.3217.0 / QRUV 7.3217.0 / QRUV 7.3217.0 / QRUV 7.3217.0 / QRUV7.3217.0 / QRUV
ProdriveProdrive SIGMA CONTROL 2 MCSIO SIGMA CONTROL 2 MCSIO SIGMA CONTROL 2 MCSIOSIGMA CONTROL 2 MCSIOCompressor control -K20-K20 7.9700.0 7.9700.0 7.9700.0 7.9700.07.9700.0
500 V, 90°C 500 V, 90°C 500 V, 90°C 500 V, 90°C500 V, 90°Ccables -W19.1/.2-W19.1/.2 1x16 mm² 1x10 mm² 1x6 mm² 1x6 mm²1x16 mm²
SiemensSiemens 3RA2933-3FA00 500 V, 70°C 500 V, 70°C 500 V, 70°C3RA2933-3FA00connection -W14-W14 7.3140.05270 1x6 mm² black 1x6 mm² black 1x6 mm² black7.3140.05270
SiemensSiemens 3RA2933-3FA00 3RA2933-3FA00 3RA2933-3FA00 3RA2933-3FA003RA2933-3FA00connection -W13-W13 7.3140.05270 7.3140.05270 7.3140.05270 7.3140.052707.3140.05270
ProdriveProdrive PSDC24/2.5 PSDC24/2.5 PSDC24/2.5 PSDC24/2.5PSDC24/2.5Power supply -T21-T21 7.7605P0 7.7605P0 7.7605P0 7.7605P07.7605P0
diagram 3, Sht. 9 diagram 1, Sht. 9 diagram 1, Sht. 9 diagram 2, Sht. 9diagram 2, Sht. 9250 VA 250 VA 250 VA 250 VA250 VAUTT 0,25 EMB B0001090 Block B0001090 Block USTE250 BlockUSTE250 Block
Transformer -T11-T11 7.0776.1 7.0772.2 7.0772.2 7.2239.200807.2239.20080SiemensSiemens setting: 1,3 A setting: 1,1 A setting: 1,1 A setting: 1,1 Asetting: 1,2 A
1,1-1,6 A 1,1-1,6 A 1,1-1,6 A 1,1-1,6 A1,1-1,6 A3RV2021-1AA10 3RV2021-1AA10 3RV2021-1AA10 3RV2021-1AA103RV2021-1AA10
Overload protection switch -F11-F11 7.8742.01110 7.8742.01110 7.8742.01110 7.8742.011107.8742.01110SiemensSiemens 3RV2901-1E 3RV2901-1E 3RV2901-1E 3RV2901-1E3RV2901-1E
Auxiliary switch 7.8742.05000 7.8742.05000 7.8742.05000 7.8742.050007.8742.05000setting: 1,6 A (460 V)setting: 3,3 A (60 Hz)
setting: 3 A (50 Hz) setting: 1,9 A setting: 1,5 A setting: 1,7 A (440 V)setting: 2,8 A (50 Hz)2,8-4 A 1,8-2,5 A 1,4-2 A 1,4-2 A2,8-4 A3RV2021-1EA10 3RV2021-1CA10 3RV2021-1BA10 3RV2021-1BA103RV2021-1EA10
Overload protection switch -F4-F4 7.8742.01150 7.8742.01130 7.8742.01120 7.8742.011207.8742.01150SiemensSiemens setting: 25 A (460 V)setting: 49 A (60 Hz)
setting: 56 A (50 Hz) setting: 30 A setting: 28 A setting: 26 A (440 V)setting: 49 A (50 Hz)20-80 A 12-50 A 12-50 A 12-50 A20-80 A3RB3036-1WB0 3RB3036-1UB0 3RB3036-1UB0 3RB3036-1UB03RB3036-1WB0
Overload relay -B25-B25 7.8741.00100 7.8741.00090 7.8741.00090 7.8741.000907.8741.00100SiemensSiemens 3RT2936-1CD00 3RT2926-1CD00 3RT2926-1CD00 3RT2926-1CD003RT2936-1CD00
Interference suppressor 7.8740.05120 7.8740.05110 7.8740.05110 7.8740.051107.8740.051203RT2035-1AL20 3RT2027-1AL20 3RT2026-1AL20 3RT2026-1AL203RT2035-1AL20
Contactor -Q3-Q3 7.8740.00100 7.8740.00080 7.8740.00070 7.8740.000707.8740.00100SiemensSiemens 3RT2936-1CD00 3RT2936-1CD00 3RT2936-1CD00 3RT2936-1CD003RT2936-1CD00
Interference suppressor 7.8740.05120 7.8740.05120 7.8740.05120 7.8740.051207.8740.051203RT2038-1AL20 3RT2035-1AL20 3RT2035-1AL20 3RT2035-1AL203RT2038-1AL20
Contactor -Q2-Q2 7.8740.00130 7.8740.00100 7.8740.00100 7.8740.001007.8740.00130SiemensSiemens 3RT2936-1CD00 3RT2936-1CD00 3RT2936-1CD00 3RT2936-1CD003RT2936-1CD00
Interference suppressor 7.8740.05120 7.8740.05120 7.8740.05120 7.8740.051207.8740.051203RH2911-1HA11 3RH2911-1HA11 3RH2911-1HA11 3RH2911-1HA113RH2911-1HA11
Auxiliary switch 7.8740.05010 7.8740.05010 7.8740.05010 7.8740.050107.8740.050103RT2038-1AL20 3RT2035-1AL20 3RT2035-1AL20 3RT2035-1AL203RT2038-1AL20
Contactor -Q1-Q1 7.8740.00130 7.8740.00100 7.8740.00100 7.8740.001007.8740.00130HandlingHandling fig. 1, Sht. 10 fig. 1, Sht. 10 fig. 1, Sht. 10 fig. 1, Sht. 10fig. 1, Sht. 10
Terminal strip -X11-X11 7.6836.00390 Wieland 7.6836.00390 Wieland 7.6836.00390 Wieland 7.6836.00390 Wieland7.6836.00390 WielandTerminal strip -X0-X0 7.7676.00030 Wieland 7.7676.00020 Wieland 7.7676.00020 Wieland 7.7676.00020 Wieland7.7676.00030 Wielandsupply connectionconnection fig. 10, Sht. 10 fig. 10, Sht. 10 fig. 10, Sht. 10 fig. 10, Sht. 10fig. 10, Sht. 10
Stripped lengthStripped length 24 mm 20 mm 20 mm 20 mm24 mmTorqueTorque 6 Nm 3 Nm 3 Nm 3 Nm6 Nm
WielandWieland WKN70SL/U WKN35SL/U/V0 WKN35SL/U/V0 WKN35SL/U/V0WKN70SL/U-X0:PE-X0:PE 7.3149.01660 7.3291.00010 7.3291.00010 7.3291.000107.3149.01660
Stripped lengthStripped length 25 mm 25 mm 25 mm 25 mm25 mmTorqueTorque 6 Nm 6 Nm 6 Nm 6 Nm6 Nm
SiemensSiemens 3RV2935-5A 3RV2935-5A 3RV2935-5A 3RV2935-5A3RV2935-5Asupply terminals -X0:U1/V1/W1-X0:U1/V1/W1 7.3140.05060 7.3140.05060 7.3140.05060 7.3140.050607.3140.05060Motor -M4-M4 0,55 kW 0,55 kW 0,55 kW 0,55 kW0,55 kW
diagram 2, Sht. 1 (60 Hz)diagram 2, Sht. 1 diagram 1, Sht. 1 diagram 1, Sht. 1 diagram 1, Sht. 1diagram 1, Sht. 1 (50 Hz)
Motor -M1-M1 22 kW 22 kW 22 kW 22 kW22 kW
200 V ±10 %, 60 Hz200 V ±10 %, 60 Hz 230 V ±10 %, 60 Hz 460 V ±10 %, 60 Hz460 V ±10 %, 60 Hz230 V ±10 %, 60 Hzmachine power supply 200 V ±10 %, 50 Hz200 V ±10 %, 50 Hz 230 V ±10 %, 50 Hz 380 V ±10 %, 60 Hz380 V ±10 %, 60 Hz 400 V ±10 %, 50 Hz400 V ±10 %, 50 Hz 440 V ±10 %, 60 Hz440 V ±10 %, 60 Hz230 V ±10 %, 50 Hz
model ASK 40Equipment parts list
Ersa
tz für
:Er
satz
durch
:abc
Ände
rung
Datum
Datum
Bear
beite
rGe
prüft
Norm
Name
Ursp
rung
:5
5
20.10
.2016
= +Si
tter
CBü
chne
r
SIGMA CONTROL 2 MCSIO
13 Annex13.4 Electrical Diagram
901824 12 EOperating Manual Screw Compressor ASK 115
Comp
ress
or se
ries A
SKSA
SK-0
3070
.00
-X0
-X11
.1
-X11
diagr
am 1
diagr
am 2
-Q1
-B25
3~ -M1
3~ -M1
-X0
-Q2
Motor
term
inal b
lock
-Q3
-F4
3~ -M4
-X11
.1
12
34
56
78
page
Bl.
Circu
it diag
ram
Powe
r swi
tching
SC2 M
CSIO
****
Main
powe
r sup
ply
U1 L1
V1 L2
W1 L3
See o
pera
ting m
anua
l for s
upply
cable
cros
s-sec
tion a
nd fu
sing
PE1 PE
Feed
line c
onne
ction
see:
Sht. 1
0
Main
switc
h,Fu
se su
pplie
dby
user1x10
mm² g
reen
/yello
w50
0V 70
°C
1x16
mm² g
reen
/yello
w50
0V 70
°C
PE1
PE2
1x4m
m² gr
een/y
ellow
500V
70°C
-W19
.1 ****/2.
3
135
246
213 45 6
****
97 9895 96 /2.4
-W13 ***
*
****
U1V1W1
W2
U2V2
PE ****
U1V1W1
W4
U4V4
PEPE2
Comp
ress
or m
otor
Powe
r swi
tching
/2.5
135
246
-W19
.2***
*
U1U3U4
V1V3V4
W1
W3
W4
U2V2
W2
-W14 ***
*/2.4
135
246
NSGA
Föu
2,5mm
² blac
k
****
perfo
rman
ce-re
lated
comp
onen
ts,se
e: Eq
uipme
nt pa
rts lis
t
-W29
4G2,5
mm²
500V
70°C
21
****
3 45 6
I>>
I>>
I>>
/2.613 1421 22
U1V1 ***
*
W1PE
Fan m
otor
PE1
L1/3.
1L2
/3.1
L3 PE
M M
M
Ersa
tz für
:Er
satz
durch
:abc
Ände
rung
Datum
Datum
Bear
beite
rGe
prüft
Norm
Name
Ursp
rung
:1
10
20.10
.2016
= +
Func
tion:
Grou
p of fu
nctio
ns:
D
Sitte
rBü
chne
r
Unit f
rame
Oil s
epar
ator
Moun
ting p
late
Swing
fram
e
Unit f
rame
-Q2:2
-B25
:4
-Q2:4
-B25
:6
-Q2:6
-B25
:2
13 Annex13.4 Electrical Diagram
116Operating Manual Screw Compressor ASK 901824 12 E
Comp
ress
or se
ries A
SKSA
SK-0
3070
.00
-X11
1~-M
7 -X11
-X11
-Q3
DI_P
A-K
20
DOR
1.00
-K20
-Q1
-Q1
-B25
DI 1.
01-K
20
DOR
1.01
-K20
-Q2
-Q3
-Q1 DI
1.02
-K20
DOR
1.02
-K20
-Q3
-Q2
-F4 DI
1.04
-K20
12
34
56
78
page
Bl.
Circu
it diag
ram
Contr
olSC
2 MCS
IO
5
L1 N
20W
230V
50/60
Hz
PE
02
Contr
ol ca
binet
venti
lator
PE2
1x1,5
mm²
gree
n/yell
ow50
0V 70
°C
4
13 14
/5.2X7
7
Mains
conta
ctor
/5.2
X10
11
3
13 14 A1 A2
/1.3
/1.3
/1.3 3
1 3 5 13
2 4 6 14
521
22
/7.4
3132
/7.5
4344
/1.3
95 96
Over
load r
elay
Comp
ress
or m
otor
/5.2X7
10
Star
conta
ctor
/5.2
X10
10
5
21 22 A1 A2
/1.5
/1.5
/1.5 3
1 3 5 13
2 4 6 14
521
22
****
Star
-delt
a cha
ngeo
ver
perfo
rman
ce-re
lated
comp
onen
ts,se
e: Eq
uipme
nt pa
rts lis
t
3
21 22
Answ
erba
ck si
gnal
Mains
conta
ctor
/5.2X7
11
Delta
conta
ctor
/5.2
X10
9
4
21 22 A1 A2
/1.5
/1.5
/1.5
1 3 5 13
2 4 6 14
421
22
L02
/3.1
/1.7
13 14
Over
load p
rotec
tion s
witch
Fan m
otor
/5.2X7
13
M
Ersa
tz für
:Er
satz
durch
:abc
Ände
rung
Datum
Datum
Bear
beite
rGe
prüft
Norm
Name
Ursp
rung
:2
10
20.10
.2016
= +
Func
tion:
Grou
p of fu
nctio
ns:
D
Sitte
rBü
chne
r
U
COM
COM
COM
13 Annex13.4 Electrical Diagram
901824 12 EOperating Manual Screw Compressor ASK 117
Comp
ress
or se
ries A
SKSA
SK-0
3070
.00
-X11
-X11
-T11 -X11
-F11
-X11
-X11
-X11
-X11
-S1
-X11
DI 1.
00-K
20
DOR
COM
-K20
12
34
56
78
page
Bl.
Circu
it diag
ram
Contr
ol vo
ltage
tapp
ingSC
2 MCS
IO
L1/1.
8L2
/1.8
L02
/2.6
****
perfo
rman
ce-re
lated
comp
onen
ts,se
e: Eq
uipme
nt pa
rts lis
t
1x1,5
mm² g
reen
/yello
w50
0V 70
°C
PE2
PE1
1x2,5
mm² g
reen
/yello
w50
0V 70
°C
1x1,5
mm² b
lack
500V
70°C ***
*
0 03
NSGA
Föu
2,5mm
² blac
k
mode
l-spe
cific
electr
ical d
iagra
mse
e pag
e 9
230V
/1~/50
/60Hz
Contr
ol vo
ltage
tapp
ing
12
****
4 36 5
I>>
I>>
I>>
s.b.c.
= su
pplie
d by c
ustom
er
1
. .
.
conn
ectio
ns.b
.c.10
VA 01
Cons
umer
exter
nal
PE2
3
EMER
GENC
Y ST
OP
11 12 4
EMER
GENC
Y ST
OP/5.
2
DI_P
ADI
8
9
X7 /5.2
8
7
X10
Door
safet
y inte
rlock
switc
h/EME
RGEN
CY S
TOP
Safet
y cha
in21 22
L01
/4.1
L02
/4.1
Ersa
tz für
:Er
satz
durch
:abc
Ände
rung
Datum
Datum
Bear
beite
rGe
prüft
Norm
Name
Ursp
rung
:3
10
20.10
.2016
= +
Func
tion:
Grou
p of fu
nctio
ns:
D
Sitte
rBü
chne
r
COM
13 Annex13.4 Electrical Diagram
118Operating Manual Screw Compressor ASK 901824 12 E
Comp
ress
or se
ries A
SKSA
SK-0
3070
.00
-X11
-T21
-X11
-X11
-K20
12
34
56
78
page
Bl.
Circu
it diag
ram
Powe
r sup
ply un
itSC
2 MCS
IO
1)Re
set: S
witch
off L
1 for
3 mi
nutes
L01
/3.8
L02
/3.8
022
1)
24V=
100-
240V
~L1 N
+ + - - -
24V
DCCo
ntrol
volta
gePE1
L01
L02 1x
4mm²
gree
n/yell
ow50
0V 70
°C
PE1
1x1,5
mm²
gree
n/yell
ow50
0V 70
°C
1x2,5
mm²
gree
n/yell
ow50
0V 70
°C
RS48
5-FC
Ethe
rnet
X3X1
X6
SD card
X5
P24M24
X7
/5.2
MCS
Ersa
tz für
:Er
satz
durch
:abc
Ände
rung
Datum
Datum
Bear
beite
rGe
prüft
Norm
Name
Ursp
rung
:4
10
20.10
.2016
= +
Func
tion:
Grou
p of fu
nctio
ns:
D
Sitte
rBü
chne
r
2,5A
shor
t circ
uit pr
oof
Contr
ol ca
binet
door
2
1
13 Annex13.4 Electrical Diagram
901824 12 EOperating Manual Screw Compressor ASK 119
Comp
ress
or se
ries A
SKSA
SK-0
3070
.00
-K20
X10
X9X8
X7
12
34
56
78
page
Bl.
Circu
it diag
ram
IO-m
odule
/Con
figur
ation
SC2 M
CSIO
/4.4/4.4
/2.3/3.7/3.7/2.4/2.5
/2.6
/6.5/6.5
/6.7/6.7/6.6/6.6
/6.2/6.2/6.2
/6.3/6.3/6.3
/2.5/2.4/2.3
P24M24DI_PADI_PADI_PADI_PADI_PADI_PADI 1.00DI 1.01DI 1.02DI 1.03DI 1.04DI 1.05
DI 1.06
DI 1.07
DI_PA
DI_PA
DOT 1.00
DOT 1.00
DOT 1.01
M
M
M
AII_PA
AII_PA
AII 1.00
AII 1.01
FE
FE
FE
FE
GND
AIR 1.00AIR 1.00
AIR 1.01AIR 1.01
DOR COM
DOR COM
DOR COMDOR COM
DOR 1.04
DOR 1.03
DOR 1.02DOR 1.01DOR 1.00
/3.7
IOM
Ersa
tz für
:Er
satz
durch
:abc
Ände
rung
Datum
Datum
Bear
beite
rGe
prüft
Norm
Name
Ursp
rung
:5
10
20.10
.2016
= +
Func
tion:
Grou
p of fu
nctio
ns:
D
Sitte
rBü
chne
r
2
1
3
4
5
6
7
8
9
10
11
12
13
14
2
1
3
4
5
6
7
8
9
10
2
1
3
4
5
6
7
8
9
10
11
12
13
2
1
3
4
5
6
7
8
9
10
11
24V
0V
13 Annex13.4 Electrical Diagram
120Operating Manual Screw Compressor ASK 901824 12 E
Comp
ress
or se
ries A
SKSA
SK-0
3070
.00
-B1
AII 1
.00-K
20
-B40
AIR
1.00
-K20
DI 1.
06-K
20
-B2
-K1
DOT
1.00
-K20
DOT
1.00
-K20
12
34
56
78
page
Bl.
Circu
it diag
ram
sens
ors/a
ctuato
rsSC
2 MCS
IO
1
2-+ Ai
r main
pres
sure
/5.2
AII_P
AFE
AII
1
2
3
X9
-W11
52x
0,5mm
²50
0V 70
°C
1
4
Pt10
0
Aire
nd di
scha
rge t
empe
ratur
e/5.
2
AIR_
AFE
AIR_
B
8
9
10
X9
-W11
72x
0,34m
m²25
0V 80
°C
Dire
ction
of ro
tation
/5.2
DI_P
ADI
1
2
X8
1 2
P
>1,0
bar
-W10
42x
0,5mm
²50
0V 70
°C
1(+)
2(-)
1
2
Contr
ol va
lve
/5.2
DOT
M
7
8
X8
-W11
32x
0,5mm
²50
0V 70
°C
/5.2
DOT
M
5
6
X8
24VD
C / m
ax. 0
,1AFo
r ser
vice p
urpo
ses o
nly.
Ersa
tz für
:Er
satz
durch
:abc
Ände
rung
Datum
Datum
Bear
beite
rGe
prüft
Norm
Name
Ursp
rung
:6
10
20.10
.2016
= +
Func
tion:
Grou
p of fu
nctio
ns:
D
Sitte
rBü
chne
r
P 4...20
mA
1
2
BK
BN
1
2
1
2
13 Annex13.4 Electrical Diagram
901824 12 EOperating Manual Screw Compressor ASK 121
Comp
ress
or se
ries A
SKSA
SK-0
3070
.00
-X11
Volt-f
ree c
ontac
tsUs
er's
conn
ectio
n
-Q1
-X11
-Q1
-X11
12
34
56
78
page
Bl.
Circu
it diag
ram
Volt-f
ree c
ontac
tsSC
2 MCS
IO
All n
on-d
esign
ated c
ondu
ctors
1,5mm
² ora
nge 5
00V
70°C
15
/2.3
31 32 16
max.
250V
AC/
24V
DC, 3
A
Comp
ress
or m
otor r
unnin
gVo
lt-fre
e con
tacts
/2.3
43 44 17
Ersa
tz für
:Er
satz
durch
:abc
Ände
rung
Datum
Datum
Bear
beite
rGe
prüft
Norm
Name
Ursp
rung
:7
10
20.10
.2016
= +
Func
tion:
Grou
p of fu
nctio
ns:
D
Sitte
rBü
chne
r
13 Annex13.4 Electrical Diagram
122Operating Manual Screw Compressor ASK 901824 12 E
Comp
ress
or se
ries A
SKSA
SK-0
3070
.00
DOR
1.03
-K20
DI 1.
03-K
20
DOR
1.04
-K20
DI 1.
05-K
20DI
1.07
-K20
DOT
1.01
-K20
AII 1
.01-K
20AI
I 1.01
-K20
AIR
1.01
-K20
12
34
56
78
page
Bl.
Circu
it diag
ram
inputs
/outpu
tsSC
2 MCS
IO
** ***Pr
e-all
ocate
dAv
ailab
le for
use
***
4
5
X10
***
DI_P
ADI
5
12
X7
Digit
al ou
tput, U
ser's
conn
ectio
nma
x. 25
0V A
C/24
V DC
, 1A
max.
cable
leng
th 10
0m Contr
ol ON
**
2
1
X10
***
DI_P
ADI
5
14
X7 digita
l inpu
ts, U
ser's
conn
ectio
n18
V DC
/7mA
max.
cable
leng
th 10
0m
Remo
te ON
/OFF
**
DI_P
ADI
3
4
X8
Digit
al ou
tput, U
ser's
conn
ectio
n24
V DC
/0,3A
max.
cable
leng
th 30
m
***
DOT
M
9
10
X8
4...20
mA
L+L-
?
GND
AII
AII_P
A
4
5
6
FE7
4-20
mARi
= 20
0Ω
4-wi
re co
nnec
tion
Poss
ible c
onne
ction
s for
AII 1
.01
-+
GND
AII
AII_P
A
4
5
6
X9FE7
2-wi
re co
nnec
tion
analo
g inp
uts, U
ser's
conn
ectio
nma
x. ca
ble le
ngth
30m
4-20
mA, 1
8V D
CRi
= 20
0Ω
Pt10
0
AIR_
AFE
AIR_
B
11
12
13
X9
Inputs
/outpu
ts for
use b
y othe
rsEx
ample
conn
ectio
ns
Ersa
tz für
:Er
satz
durch
:abc
Ände
rung
Datum
Datum
Bear
beite
rGe
prüft
Norm
Name
Ursp
rung
:8
10
20.10
.2016
= +
Func
tion:
Grou
p of fu
nctio
ns:
D
Sitte
rBü
chne
r
-ou
t
? 4...20
mA
13 Annex13.4 Electrical Diagram
901824 12 EOperating Manual Screw Compressor ASK 123
Comp
ress
or se
ries A
SKSA
SK-0
3070
.00
PE2
PE2
PE2
230V
230V
230V
prim
ary L
1/L2
seco
ndar
y prim
ary
seco
ndar
y
prim
ary L
1/L2
seco
ndar
y
12
34
56
78
page
Bl.
Circu
it diag
ram
trans
forme
r diag
rams
SC2 M
CSIO
0
420V400V380V
0
115V
0
0
115V
32
34
35
1
37
382
33
31
36
115V
0
0
115V
0-20V
230V
400V
+20V
415V440V
500V550V
220V
L1 L02 L02L02
-F11:5
L2 -F11:5 -F11:5
prim
ary
420V
400V
380V
prim
ary
460V
440V
230V
prim
ary
200V
Powe
r con
necti
on 1-
2
L1 0 0 0 L1 -20VPo
wer c
onne
ction
Jump
erbe
twee
n:
32-3
632
-37
1-36
/2-32
Powe
r con
necti
onL2 420V
400V
380V L2 220V
diagr
am 1
diagr
am 2
diagr
am 3
-X11
-X11
-X11
-T11
-T11
-T11
Ersa
tz für
:Er
satz
durch
:abc
Ände
rung
Datum
Datum
Bear
beite
rGe
prüft
Norm
Name
Ursp
rung
:9
10
20.10
.2016
= +
D
Sitte
rBü
chne
r
13 Annex13.4 Electrical Diagram
124Operating Manual Screw Compressor ASK 901824 12 E
Comp
ress
or se
ries A
SKSA
SK-0
3070
.00
fig. 1
: Han
dling
: Con
trol li
ne te
rmina
lfig
. 10:
Feed
line c
onne
ction
12
34
56
78
page
Bl.
Circu
it diag
ram
Hand
ling:
Term
inals
/ Fee
d line
conn
ectio
nSC
2 MCS
IOEr
satz
für:
Ersa
tz du
rch:
abc
Ände
rung
Datum
Datum
Bear
beite
rGe
prüft
Norm
Name
Ursp
rung
:10
10
20.10
.2016
= +
D
Sitte
rBü
chne
r
13 Annex13.4 Electrical Diagram
901824 12 EOperating Manual Screw Compressor ASK 125
Comp
ress
or se
ries A
SKKA
SK-0
3070
.00
Terminal strip
Terminal strip: -X0
Terminal strip: -X11
Terminal strip: -X11.1
page
Bl.
Term
inal s
ched
ule
Term
inal s
trip -X
0,-X1
1,-X1
1.1SC
2 MCS
IO
Cable identificationDestination
internalDestination
externalCable identification
Conn
ectio
n num
ber
Comp
onen
t iden
tifica
tion
Loca
tion
Wire
link
Term
inal le
gend
Link
Term
inal n
umbe
r
Conn
ectio
n num
ber
Comp
onen
t iden
tifica
tion
-s.b.c
. *
-W29
4G2,5
mm² 5
00V
70°C
*Se
e ope
ratin
g man
ual fo
rsu
pply
cable
cros
s-sec
tion
total 2 Terminalssupply /1.2 Mounting platePE1
/1.4 PE -M1PE2
total 16 Terminals. /3.4 6 -F111. /3.4 A2 -Q101
/4.2 L1 -T212
Volt-f
ree c
ontac
ts, U
ser's
conn
ectio
n1)
N -M7 /2.2 N -T2102
Comp
ress
or m
otor r
unnin
g
11 -S1 /3.6 3. /3.2 0 -T1103
12 -S1 /3.6 8 -K20-X104L1 -M7 /2.2 13 -Q35
. /3.2 .PE1- -T21 /4.3 PE1
PE -M7 /2.2 PE -T11PE2. /1.2 PE1 -X11.1PE2
/7.4 43 -Q1151)/7.4 32 -Q1161)/7.5 44 -Q1171)
18
total 1 TerminalsPE2 -X11 /1.2 PE -M4PE1
GNYE
= gr
een/y
ellow
Ersa
tz für
:Er
satz
durch
:abc
Ände
rung
Datum
Datum
Bear
beite
rGe
prüft
Norm
Name
Ursp
rung
:1
1
20.10
.2016
= +Si
tter
HBü
chne
r
GN YE
Control cabinet door
GN YE
13 Annex13.4 Electrical Diagram
126Operating Manual Screw Compressor ASK 901824 12 E
Comp
ress
or se
ries A
SKAA
SK-0
3070
.00
450
490
1343
827.5
12
34
56
78
page
Bl.
Comp
onen
t layo
ut
Moun
ting p
late
SC2 M
CSIO
The components are performance-relatedand not shown to scale.
-B25
-X11
.1
-F4 -Q3 -Q2 -Q1 PE
-X0
230V
~
24V=
230V~
-F11
230V~24V=
-X11 -T21 -T11
230V~ 24V=
Ersa
tz für
:Er
satz
durch
:abc
Ände
rung
Datum
Datum
Bear
beite
rGe
prüft
Norm
Name
Ursp
rung
:1
1
20.10
.2016
= +
I
Sitte
rBü
chne
r
PE
13 Annex13.4 Electrical Diagram
901824 12 EOperating Manual Screw Compressor ASK 127
13 Annex13.4 Electrical Diagram
128Operating Manual Screw Compressor ASK 901824 12 E