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2.1A-30001-B96
LINCOLN GmbH • Postfach 1263 • D-69183 Walldorf • Tel +49 (6227) 33-0 • Fax +49 (6227) 33-259 • Tx 466088
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Owner ManualTechnical Description
10071327
QUICKLUB ®
2.1A-30001-B96
LINCOLN GmbH • Postfach 1263 • D-69183 Walldorf • Tel +49 (6227) 33-0 • Fax +49 (6227) 33-259 • Tx 466088
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Owner ManualTechnical Description
Pump Types
Fig. 1 - The different types of pump 203
• Control unit models 203
The following control units can be used for the 203 pumps: (refer tothe respective Technical Description)
a) external control units
PSG 01PSG 02 (Industry)
b) integrated control units
- with fixed pause time (6 hours) and adjustable operating time, F*- with adjustable pause and operating times, V00-V03*- with metering device monitoring (microprocessor control), F
M 00 - M 23*
c) integrated control unit (trailers)
- with fixed time of availability (6 hours) and adjustable operatingtime, H *
* Refer to the designation on the pump nameplate.Example: P203 -2XNBO - 1 K6 - 24 - 2A1.10 - V00Also refer to the designation code on page 6.
• The 203 pumps differ from each other only in the design andreservoir size as well as in the type of the electric connection(different plugs with or without electric cable).
• Reservoir sizes:2 l transparent plastic reservoir4 l transparent plastic reservoir8 l transparent plastic reservoir
• Electric connectionFor the industrial applications , the pumps are only equipped withplugs.The pumps model 203 used in commercial vehicles are equip-ped with a 10 m electric cable.
• All other data such as:- motor voltage- version of the control unit- remote control for triggering an additional lubrication- cycle (2A1)- design and number of pump elements- design and number of safety valves- filling type- use of return line connections- low - level control (option)
can be learnt from the pump type designation code.
1173b95
LINCOLN GmbH • Postfach 1263 • D-69183 Walldorf • Tel +49 (6227) 33-0 • Fax +49 (6227) 33-259 • Tx 466088
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Owner ManualTechnical Description
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Identification Code - Pump Models 203Examples of model designations
Basicpump model for grease or oilwith 1-3 outlets and 12 VDC or 24 VDC motor
Reservoir design2 = 2 l transparent plastic reservoir4 = 4 l transparent plastic reservoir8 = 8 l transparent plastic reservoir
X = Reservoire for greaseY = Reservoire for oil
N = Standard designL = Low - level control
without designation = Standard reservoire (2 Litre)BO = Filling from topFL = Flat-type reservoire (2 Litre)
Pump elements1-3 = Number of the use elements
K 5 = Piston diameter = 5 mmK 6 = Piston diameter = 6 mmK 7 = Piston diameter = 7 mm
Motor12 V DC or 24 V DC motor
Number of the possible connections1A = 1 connection,supply voltage2A = 2 connections, supply voltage +remote control for additional lubrication,for low - level control, piston detector (microprocessor)
Type of connection1 = Hirschmann plug4 = AMP - flanged plug (microprocessor)8 = PG - cable gland
Connection outside the pump00 = without socket-outlet, without cable01 = with socket-outlet, without cable10 = with 10 m cable11 = with 10 m ADR cable12 = with 10 m cable, 4 - wire (microprocessor M00 - M07)13 = with 10 m cable, 5 - wire (microprocessor M08 - M23)
Control p. c. b. s. 12V / 24 VF - with fixed pause time and variable adjustable operating timeF ADR - with fixed pause time and variable adjustable operating time**V00 -V03 -with adjustable pause and operating timeV00 -V03 - ADR with adjustable pause and operating time **M 00 ...M 23* - with microprocessor control (variousadjustments - see combinations of the jumper - positions)H - for trailer or semitrailersH - ADR for trailors and semitrailors**No designation: Pump without control p. c. b.
* Not in conjunction with Hirschmann plugs (type of connection 1)** for transport of hazard materials
Note: Any pumps combinations other the above standard pumps can be composed and ordered in accorcance with the valid model identification code.
P203- 2 X N - 1 K6- 24- 1A 1. 01- V00P203- 4 X L - 1 K7- 24- 2A 1. 10- V02P203- 2 X N - 1 K6- 12- 1A 8. 00P203- 2 X N - 1 K6- 24- 2A 1. 11- V00-ADRP203- 2 y N BO- 2 K5- 24- 1A 1. 01- FP203- 4 X N BO- 1 K6- 24- 2A 4. 12- M00
2.1A-30001-B96
LINCOLN GmbH • Postfach 1263 • D-69183 Walldorf • Tel +49 (6227) 33-0 • Fax +49 (6227) 33-259 • Tx 466088
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Owner ManualTechnical Description
Description of the QUICKLUB 203 Central Lubrication Pump
• The QUICKLUB 203 central lubrication pump
- is a compact multiline pump consisting of the following compon-ents:
Housing with integrated motorReservoir with stirring paddlePrinted circuit boardPump elementSafety valveFilling nippleElectrical connection parts
- can drive up to 3 pump elements- operates according to lubrication cycles (pause and operating
times)- can be equipped with a low-level control- can supply up to 300 lubrication points depending on the line
lengths- is designed for the automatic lubrication of the connected lubrica-
tion points- is designed for the delivery of greases up to NLGI 2 at tempera-
tures from - 25° C to 70° C or of mineral oils of at least 40 mm²/s(cST)
- can be used at low temperatures down to - 40° C.• During the operating time the pump dispenses lubricant to the
connected lubrication points via one or several metering devices.
Fig. 2 - Pump components
1 - Reservoir 5 - Plug 2A12 - Pump element 6 - Filling nipple, pump3 - Safety valve 7 - Printed circuit board4 - Filling nipple, system 8 - Plug 1A1
Emergency lubrication 9 - Return line connectionpossible
00002618
Low-level control (optional)
• The pump model 203 can be equipped with a low-level control.• The following versions are available:- Low-level control in conjunction with printed circuit boards
F* and V00-V03*- Low-level control in conjunction with printed circuit board
M00-M23*- Low-level control for pumps without printed circuit board .• When the reservoir is empty, the signal lamp flashes, thus indica-
ting the low level. Refer to the chapter Low-level control.
* The designation indicates the version of the printed circuit board. Itis part of the pump type designation code mentioned on the name-plate of each pump. Example: P203 ...- 2XN - 1K6 - 24 - 1A1.10 -V00
Fig. 3 - QUICKLUB central lubrication pump, 2 l reservoir
1006a93
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Mode of Operation
• The electric motor drives the eccentric 1 (Fig. 5, 6).• During the operating time:- piston 2 sucks in lubricant from the reservoir. Refer to Fig. 5.- piston 2 dispenses the lubricant to the connected lubrication
points via the metering device. Refer to Fig. 6.
• The following designs are available:Piston diameter, K5 ..................................................... 5 mmLubricant output ........................................ approx. 2 cm³/minPiston diameter K6 (standard) ...................................... 6 mmLubricant output ..................................... approx.. 2.8 cm³/minPiston diameter, K7 ..................................................... 7 mmLubricant output ........................................ approx. 4 cm³/min
20002068
Fig. 4 - Pump element
1 - Piston2 - Return spring3 - Check valve
1003a95
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Fig. 6 - The pump element dispenses lubricant
Fig. 5 - The pump element sucks in lubricant
1 - Eccentric 3 - Spring2 - Piston 4 - Check valve
Pump Elements
Suction Phase
Delivery Phase
1 - Eccentric 3 - Spring2 - Piston 4 - Check valve
2.1A-30001-B96
LINCOLN GmbH • Postfach 1263 • D-69183 Walldorf • Tel +49 (6227) 33-0 • Fax +49 (6227) 33-259 • Tx 466088
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Owner ManualTechnical Description
Check valve
• The check valve:- closes the pressure line during suctionstroke- prevents the lubricant from flowing back to the housing or reservoir
1 - Reservoir with stirring paddle2 - Pump3 - Check valve, spring-loaded4 - Pressure limiting valveR - Return linep - Pressure line
Arrangement of the pump elements
• If several pump elements are to be installed, the installation arran-gement shown in Fig. 8 must be adhered to.
• If there is only one pump element , it can be installed in any posi-tion. Standard position is no. 3.
• If there are two elements, install one in position 3 and the other inposition 1.
Pressure limiting valve without grease return
Important: Each pump element must be secured with a pressurelimiting valve.• The pressure limiting valve- limits the pressure build-up in the system- opens at an overpressure of 250 or 350 bar depending on the
safety valve design.• If lubricant is leaking at the pressure limiting valve, this indicates
that the system is malfunctioning.
Note: The pumps model 203 are equipped without pressure limitingvalve. When ordering the pumpe, order the safety valve seperatly.See the Parts Catalog under Safety valves.
Pressure limiting valve with grease return (optional)
If the system is blocked, grease will leak from the pressure limitingvalve. This grease quantity is returned to the reservoir.
Fig. 7 - Hydraulic diagram of the pump
Fig. 8 - Arrangement of the pump elements
Fig. 9 - Pressure limiting valve
Fig. 10 - Pressure limiting valve with grease return
10012618
00002626
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Pressure Limiting Valve (safety valve)
LINCOLN GmbH • Postfach 1263 • D-69183 Walldorf • Tel +49 (6227) 33-0 • Fax +49 (6227) 33-259 • Tx 466088
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Technical Data
PumpAdmissible operating temperature ...................... -40° C to 70° C*Number of outlets .......................................................... 1,2 or 3Reservoir capacity ....................................................... 2 l, 4 l, 8 lRefilling ........................ via hydraulic lubrication fitting or from topLubricant .................................. greases of at least NLGI grade 2
mineral oils up to 40mm²/s (cST) at 40° CClass of protection ......................... IP6K 9K acc. to DIN 40050 T9
*Note: The pump is designed for the above mentioned tempera-ture range. The lubricants used must still be pumpable at thetemperatures mentioned above. In case of doubt, consult thelubricant manufacturer.
Motor:DC gear motor (interference-suppressed)
Operating voltage. .................................... 12VDC or 24VDCMax. current input12V ............................................................................. 6.5 A24V ................................................................................ 3 ASpeed ...........................................................approx.17 rpm
Note: The pump motor is designed for intermittent operation. Forcontinous operation, contact the pump manufacturer.
Torsion torques
Electric motor on housing .................................................12 NmPump element in housing ................................................25 NmClosure plug in housing .................. ..........................................12 Nm
Pump elementPiston diameter, K5 ........................................................... 5 mm
Lubricant output ........................................ approx. 2 cm³/minPiston diameter, (standard) K6 ........................................... 6 mm
Lubricant output ...................................... approx. 2.8cm³/minPiston diameter, K7 ........................................................... 7 mm
Lubricant output ........................................ approx. 4 cm³/minMax. operating pressure. ................................................ 350 barConnection thread. ............................................................ G 1/4
suitable for tube DIA .................................................... 6 mm
Important! The lubricant output listed refers to grease of NLGI grade2 measured at 20°C, backpressure 100 bar, nominal voltage 12/24V. Any differing pressures or temperatures result in different lubricantoutputs. Any system design must be based on the above values.
Weights
The weights below include the following ‘‘individual weights”:- Pump kit with one pump element, safety valve, grease filling
(0.75 kg, 1.5 kg)- Packing (cardboard box)- Attaching parts- Operating Instructions
2 l reservoir, standard design (0.75 kg)
Pump 203 without connection cable ................................. 5.4 kgPump 203, version E 1 ..................................................... 6.5 kgPump 203, version E 2 ..................................................... 7.1 kg
4 l reservoir, standard design (1.5 kg)
Pump 203 without connection cable ................................. 8.3 kgPump 203, version E 1 ..................................................... 9.3 kgPump 203, version E 2 ..................................................... 9.9 kg
8 l reservoir, standard design (1.5 kg)
Pump 203 without connection cable ................................. 8.6 kgPump 203, version E 1 ..................................................... 9.6 kgPump 203, version E 2 .................................................... 10.2 kg
In the case of pump versions deviating from those mentioned, addthe weights of the following components to the mentioned weights.
Per pump element .......................................................... +0.2 kgPer safety valve ............................................................... +0.1 kg
10 m monitoring cable, 5-wire(microprocessor) E 4 ....................................................... +1.1 kg10 m monitoring cable, 4-wire(microprocessor) E 4 ....................................................... +0.4 kgConnection cable with piston detector ............................... 0.1 kgReservoir version “Filling from top” (only 2 l)* ..................+0.15 kg2 l flat-type reservoir ........................................................ +0.5 kg
* Note: The 4l and 8l reservoirs have the standard design ”filling fromtop”.
2.6A-20002-B962.6A-20002-B962.6A-20002-B962.6A-20002-B962.6A-20002-B96
LINCOLN GmbH • Postfach 1263 • D-69183 Walldorf • Tel +49 (6227) 33-0 • Fax +49 (6227) 33-259 • Tx 466088
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Owner ManualOwner ManualOwner ManualOwner ManualOwner ManualTTTTTececececechnical Descriptionhnical Descriptionhnical Descriptionhnical Descriptionhnical Description
Fig. 4 - Printed circuit board 236-13870-1
1059a95
Fig.5 - Time sequence diagram
tB - Working hours T - Lubrication cycletP - Various pause times T1 - Stored pause times
T2 - Operating times
20002443
• The printed circuit board automatically controls the sequence ofthe pause and operating times of the model 203 central lubricationpump as a function of the vehicle or machine working hours tB(Fig. 5).
• The sequence of the pause and operating times is activated whenthe machine contact or driving switch is switched on.
• A lubrication cycle consists of one pause time and one operatingtime. Once the pause time has elapsed, the operating time starts torun. This lubrication cycle is repeated permanently after the machi-ne or vehicle has been put into operation. Refer to Fig. 5.
• During the operating time the pump element dispenses the lubri-cant to the lubrication points via progressive metering devices.
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Owner ManualOwner ManualOwner ManualOwner ManualOwner ManualTTTTTececececechnical Descriptionhnical Descriptionhnical Descriptionhnical Descriptionhnical Description
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The pause timeThe pause timeThe pause timeThe pause timeThe pause time
- determines the frequency of the lubrication cycles within a wor-king cycle;
- is started and stopped via the machine contact or driving switch;- is adjustable.• When the machine contact or the driving switch is switched off, the
pause times which have already elapsed are stored and addedup (refer to T1, Fig. 5) until the time which has been set on the bluerotary switch (Fig.8) is reached.
• The pause time setting may be different for each application. Itmust be adjusted in accordance with the respective lubricationcycles. Also see ”To set the pause time”.
The operating timeThe operating timeThe operating timeThe operating timeThe operating time
- depends on the system’s lubricant requirement ;- is adjustable;- is finished when the machine contact or the driving switch is swit-
ched off.• The longer the operating time, the greater the lubricant require-
ment and vice-versa.• When the machine contact or the driving switch is switched off, the
operating times which have already elapsed are stored and ad-ded up until the time which has been set on the red rotary switch(Fig. 10) is reached. After this, the lubrication cycle starts again.
• The operating time setting may be different for each application. Itmust be adjusted in accordance with the respective lubricant re-quirement. Also see ”To set the operating time”.
20002438
Fig. 6 -Capacitor
Time storage when the power supply is switched offTime storage when the power supply is switched offTime storage when the power supply is switched offTime storage when the power supply is switched offTime storage when the power supply is switched off
• When the ignition voltage or operating voltage is switched off, acapacitor takes over the power supply to the printed circuit board,thus the times which have already elapsed are not lost.
••••• Switching off until 5 daysSwitching off until 5 daysSwitching off until 5 daysSwitching off until 5 daysSwitching off until 5 daysWhen the power supply is switched on again the printed circuitcircuit board continues to operate from the point where it had beeninterrupted.
••••• Switching on after 5 daysSwitching on after 5 daysSwitching on after 5 daysSwitching on after 5 daysSwitching on after 5 daysWhen the power supply is switched on again, the capaci-
tor is charged. The printed circuit board immediatel immediatel immediatel immediatel immediatelyyyyy starts with an operating time. starts with an operating time. starts with an operating time. starts with an operating time. starts with an operating time.
2.6A-20002-B962.6A-20002-B962.6A-20002-B962.6A-20002-B962.6A-20002-B96
LINCOLN GmbH • Postfach 1263 • D-69183 Walldorf • Tel +49 (6227) 33-0 • Fax +49 (6227) 33-259 • Tx 466088
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Owner ManualOwner ManualOwner ManualOwner ManualOwner ManualTTTTTececececechnical Descriptionhnical Descriptionhnical Descriptionhnical Descriptionhnical Description
Switch position Switch position Switch position Switch position Switch position 11111 22222 33333 44444 55555 66666 77777 88888 99999 AAAAA BBBBB CCCCC DDDDD EEEEE FFFFF
Minutes 3,75 7,5 11,25 15 18,75 22,5 26,25 30 33,75 37,5 41,25 45 48,75 52,5 56,25
Hours 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
* To set the pause or operating time, remove the cover on the pumphousing.
Note: To reset a jumper (Fig. 9), remove the printed circuit board.
Important:Important:Important:Important:Important: After having set the pause time or operating time, screwthe cover on the pump housing again
Fig. 9 - Preselection of the time range
Fig. 7 - The cover to access the printed circuit board has been removed
00002617
Fig. 8 - Rotary switch - Pause time
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20002451
TTTTTo set the pause timeo set the pause timeo set the pause timeo set the pause timeo set the pause time
The pause time can be set to 15 different settings by means of theblue rotary switch.blue rotary switch.blue rotary switch.blue rotary switch.blue rotary switch.
Time ranges: Minutes or hours
Time SettingTime SettingTime SettingTime SettingTime Setting
Note: The 0 setting has no function.
Factory settingFactory settingFactory settingFactory settingFactory setting
Rotary switch on : ............................................................ 6 hoursor ........................................................................... 22.5 minutes
• The time ranges can be modified by replugging the jumper (Fig. 9)on the printed circuit board.
• Factory setting of the jumper: see chart page 14. The combinationnumber can be learnt from the pump type designation code men-tioned on the nameplate of each pump.
LINCOLN GmbH • Postfach 1263 • D-69183 Walldorf • Tel +49 (6227) 33-0 • Fax +49 (6227) 33-259 • Tx 466088
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Owner ManualOwner ManualOwner ManualOwner ManualOwner ManualTTTTTececececechnical Descriptionhnical Descriptionhnical Descriptionhnical Descriptionhnical Description
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Switch positionSwitch positionSwitch positionSwitch positionSwitch position 11111 22222 33333 44444 55555 66666 77777 88888 99999 AAAAA BBBBB CCCCC DDDDD EEEEE FFFFF
Seconds 7,5 15 22,5 30 37,5 45 52,5 60 67,5 75 82,5 90 97,5 105 112,5
Minutes 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30
TTTTTo set the operating timeo set the operating timeo set the operating timeo set the operating timeo set the operating time
• The operating time can be set to 15 different setting by means ofthe red rotary switch.
Time ranges: Seconds or minutes
Fig. 10 - Rotary switch - Operating time
20002453
Fig. 11 - Preselection of the time range
20002437
Note: The 0 setting has no function.
Factory settingFactory settingFactory settingFactory settingFactory setting
Rotary switch on : ........................................................ 6 minutesor ......................................................................... 22.5 seconds
• The time ranges can be modified by replugging the jumper (Fig.11) on the printed circuit board.
• Factory setting of the jumper: see chart page 14. The combinationnumbers can be learnt from the pump type designation code men-tioned on the nameplate of each pump.
2.6A-20002-B962.6A-20002-B962.6A-20002-B962.6A-20002-B962.6A-20002-B96
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Owner ManualOwner ManualOwner ManualOwner ManualOwner ManualTTTTTececececechnical Descriptionhnical Descriptionhnical Descriptionhnical Descriptionhnical Description
RepairRepairRepairRepairRepairThe defective printed circuit boards should be suitably packed andreturned to the factory.
• If the printed cirIf the printed cirIf the printed cirIf the printed cirIf the printed circuit boarcuit boarcuit boarcuit boarcuit board md md md md must be replaced,ust be replaced,ust be replaced,ust be replaced,ust be replaced, a model a model a model a model a model V 00 V 00 V 00 V 00 V 00 willalways be delivered. See chart page 14.
• Before installing another printed circuit board, take care that thesetting of the jumper or that of the operating/pause time is thesame as on the old printed circuit board.
Note: In the case of model 203 pump, version 2A1, with externalilluminated pushbutton, it is also possible to trigger an additionallubrication cycle via this pushbutton.
Fig. 13 - To trigger an additional lubrication cycle, only pumps with illuminated pushbutton
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Fig. 12 - LED on the printed circuit board
• To check the pump operation it is possible to perform an operatio-nal test.
Pumps model 203 Pumps model 203 Pumps model 203 Pumps model 203 Pumps model 203 installed on machineson machineson machineson machineson machines
* Switch on the machine contact.
Pumps model 203Pumps model 203Pumps model 203Pumps model 203Pumps model 203 installed on commercial vehicleson commercial vehicleson commercial vehicleson commercial vehicleson commercial vehicles
* Switch on the driving switch
For all pumpsFor all pumpsFor all pumpsFor all pumpsFor all pumps• To check whether power is applied to the printed circuit board,
observe whether the LED 1 Fig. 10 is lit.* Press pushbutton 5 on the printed circuit board (> 2 seconds) (> 2 seconds) (> 2 seconds) (> 2 seconds) (> 2 seconds) until
the right-hand LED 3 lights up.
• A shorter pause time elapses, followed by a normal lubricationcycle.
• Additional lubrication cycles can be triggered at any time.
1 - LED, left-hand 4 - Rotary switch, operating time2 - Rotary switch, pause time 5 - Pushbutton for additional3 - LED, right-hand lubrication
Operational Operational Operational Operational Operational TTTTTest / est / est / est / est / TTTTTo o o o o TTTTTrigrigrigrigrigggggger an Ader an Ader an Ader an Ader an AdditionalditionalditionalditionalditionalLubrication CycleLubrication CycleLubrication CycleLubrication CycleLubrication Cycle
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Owner ManualOwner ManualOwner ManualOwner ManualOwner ManualTTTTTececececechnical Descriptionhnical Descriptionhnical Descriptionhnical Descriptionhnical Description
TTTTTececececechnical Datahnical Datahnical Datahnical Datahnical Data
Rated voltage ............................................................12/24V DCOperating voltage
12V/ 24V .......................................................... 9V to 30VResidual rippple in relationwith the operating voltage ....................... ± 5% acc. to DIN 41755Motor output ................................ Transistor 7A/short-circuit proof
Reverse voltage protection:The operating voltage inputs are protected againstpolarity reversalTemperature range .................................... -25°C to 70°C
Lamp current in the case of pump 2A1 ........................... max. 2 AClass of protectionPrinted circuit board installed in housing ........................ IP 6K 9K
In order to protect the printed circuit board against condensation ithas been covered with a protective varnish.
All the printed circuit boards comply with the EMC (Electromagneticcompatibility) guidelines for road vehicles acc. to DIN 40839 T1, 3and 4.The printed circuit boards model V additionnally comply with theEMC guideline 89 / 336 / EWGEmitted interference acc. to, ....................... EN 55011 / 03.91 and
......................................................... EN 50081-1 / 01.92Noise immunity acc. to .................................prEN 50082-2 / 1993
Time setting
Pause time, depending on the jumper position:...................................... 3.75; 7.5; 11.25; to 56.25 minutes.......................................................... 1, 2, 3...to 15 hours
Operating time, depending on the jumper position....................................... 7.5; 15; 22.5;....to 112.5 seconds..................................................... 2, 4, 6,....to 30 minutes
Factory settingPause time .......................................................... 6 hoursor ............................................................... 22.5 minutesOperating time .................................................. 6 minutesor ............................................................. 22.5 seconds
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1192b95
Fig. 14 - Connection diagram Quicklub 203 with adjustable pause timeConnection via Hirschmann plug-in connectors DIN 43650-A
A - Printed circuit boardB - Pump housingC - Cable connector 1D - Line socket 1 (black)
for connection cable, 3-wire
Connection Diagram - Industrial ApplicationsConnection Diagram - Industrial ApplicationsConnection Diagram - Industrial ApplicationsConnection Diagram - Industrial ApplicationsConnection Diagram - Industrial Applications
1A1 - Pump without illuminated pushbutton2A1 - Pump with cable connection for
illuminated pushbutton*F - Machine contact
* on request
G - Cable connector 2*H - Line socket 2 (grey)
for connection cable, 3-wire*I - Pushbutton for additional lubricationJ - Signal lamp in the case of low-level
control
Fig. 15 - Terminals of the printed circuit board
1009a93
- Low-level control
31 - Earth N - Level control
15 - Driving switch Z - Additional lubrication
M - Motor - Signal lamp
Attention! If a pump model 103 CS...E2 is replaced by a pump model P203-...-...-2A1.10, the lamp connection of the illuminatedAttention! If a pump model 103 CS...E2 is replaced by a pump model P203-...-...-2A1.10, the lamp connection of the illuminatedAttention! If a pump model 103 CS...E2 is replaced by a pump model P203-...-...-2A1.10, the lamp connection of the illuminatedAttention! If a pump model 103 CS...E2 is replaced by a pump model P203-...-...-2A1.10, the lamp connection of the illuminatedAttention! If a pump model 103 CS...E2 is replaced by a pump model P203-...-...-2A1.10, the lamp connection of the illuminatedpushbutton must be changed from minus to plus.pushbutton must be changed from minus to plus.pushbutton must be changed from minus to plus.pushbutton must be changed from minus to plus.pushbutton must be changed from minus to plus.
2.6A-20002-B962.6A-20002-B962.6A-20002-B962.6A-20002-B962.6A-20002-B96
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Owner ManualOwner ManualOwner ManualOwner ManualOwner ManualTTTTTececececechnical Descriptionhnical Descriptionhnical Descriptionhnical Descriptionhnical Description
A - Printed circuit boardB - Pump housingC - Cable connector 1D - Line socket 1 (black)
with connection cable, 3-wire1A1 - Pump without illuminated pushbutton
Fig. 16 - Connection diagram Quicklub 203 with adjustable pause timeConnection via Hirschmann plug-in connectors DIN 43650-A
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Connection DiaConnection DiaConnection DiaConnection DiaConnection Diagram - Applications fgram - Applications fgram - Applications fgram - Applications fgram - Applications for Commeror Commeror Commeror Commeror Commercial cial cial cial cial VVVVVehicehicehicehicehicleslesleslesles
2A1 - Pump with cable connectionfor illuminated pushbutton**
F - Driving switchG - Fuse 10 AH - Cable, blackI - Cable, brown
*does not belong to the scope of delivery**equipment available on request
J - Cable redK - Cable connector 2**L - Line socket 2 (grey)
with connection cable, 3-wire**M - Illuminated pushbutton**O - Signal lamp in the case of low-level
controlP - Battery cutoff*
Attention! If a pump model 103 CS...E2 is replaced by a pump model P203-...-...-2A1.10, the lamp connection of the illuminatedAttention! If a pump model 103 CS...E2 is replaced by a pump model P203-...-...-2A1.10, the lamp connection of the illuminatedAttention! If a pump model 103 CS...E2 is replaced by a pump model P203-...-...-2A1.10, the lamp connection of the illuminatedAttention! If a pump model 103 CS...E2 is replaced by a pump model P203-...-...-2A1.10, the lamp connection of the illuminatedAttention! If a pump model 103 CS...E2 is replaced by a pump model P203-...-...-2A1.10, the lamp connection of the illuminatedpushbutton must be changed from minus to plus.pushbutton must be changed from minus to plus.pushbutton must be changed from minus to plus.pushbutton must be changed from minus to plus.pushbutton must be changed from minus to plus.
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Note: It must nevertheless be ensured that the oils or greases useddo not alter their consistency significantly in the course of time orunder the influence of temperature or pressure.
Progressive Metering Devices Model SSVProgressive Metering Devices Model SSVProgressive Metering Devices Model SSVProgressive Metering Devices Model SSVProgressive Metering Devices Model SSV
• The progressive metering devices model SSV can be used fordispensing
- mineral oils with min. 40 mm²/s (cST) or- greases up to the penetration class NLGI 2
The progressive metering devicesThe progressive metering devicesThe progressive metering devicesThe progressive metering devicesThe progressive metering devices- are piston-operated metering devices;- automatically (progressively) dispense the lubricant fed by the
pump to the connected lubrication points;- have a lubricant output of 0.2 cm³ per outlet and piston stroke;- when one or more outlets are closed (see ”Combining outlets”)
they can dispense a double or multiple lubricant quantity;;;;;- are available with 6 to 12 outlets or up to 22 outlets;- offer the option of combining several lubrication points into one
centralized lubrication point.- meter the supplied lubricant into predetermined single quantities.- can be monitored visually or electronically.• The installation of max. 3 pump elements allows the supply of
lubricant to max. 3 separate lubrication circuits.• Each lubrication circuit is equipped with a pressure relief valve
(safety valve) which limits the pressure to the maximum admissi-ble value.
• Any blockage in a lubrication circuit is indicated by grease leakingfrom the respective pressure relief valve.
Suitable LubricantsSuitable LubricantsSuitable LubricantsSuitable LubricantsSuitable Lubricants
Progressive Plunger Metering Devices - GeneralProgressive Plunger Metering Devices - GeneralProgressive Plunger Metering Devices - GeneralProgressive Plunger Metering Devices - GeneralProgressive Plunger Metering Devices - General
Features of a Progressive Metering DeviceFeatures of a Progressive Metering DeviceFeatures of a Progressive Metering DeviceFeatures of a Progressive Metering DeviceFeatures of a Progressive Metering Device• The term ”progressive” refers to the special features of the lub-” refers to the special features of the lub-” refers to the special features of the lub-” refers to the special features of the lub-” refers to the special features of the lub-
ricant distribution within the metering devices, e.g.ricant distribution within the metering devices, e.g.ricant distribution within the metering devices, e.g.ricant distribution within the metering devices, e.g.ricant distribution within the metering devices, e.g.- the successive movements of the individual pistons within the
metering device due to the supplied lubricant being under pressu-re;
- the pistons move in a predetermined order and the cycles arerepeated constantly;
- each piston must have completed its movement fully before thenext piston can be moved, no matter whether the lubricant is dis-pensed continuously or intermittently;
- the pistons operate interdependently of one another;- no lubrication point which is connected to the system is omitted.
10002709
Fig. 2: Metering device typel SSV 8 shown as a model
10002710
Fig. 3: Sectional view of a SSV 8 metering device
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Owner ManualOperating Instructions
2.2A-10001-A96
• QUICKLUB progressive metering devices offer the option of com-bining several lubrication points on a machine to one or morecentral lubrication points, as shown in Fig. 4 which illustrates thisbasic feature.
Applications
Fig. 6: Multiline pump expanded by a progressive metering device
• Progressive metering devices can be used in two-line or single-line centralized lubrication systems in order to increase the num-ber of outlets of multiline pumps or to subdivide the single mete-ring devices and measuring valves (Fig. 4 - 8) also as secomdarymetering devices in large and small oil circulating systems.
Fig. 4: Central lubrication point
• When they are used in connection with hand-operated pumps,pneumatic or electric pumps the progressive metering devicesare a simple and low-cost centralized lubrication system. See Fig.5.
1 - Hand-operated pump2 - Pneumatically operated pump3 - Electrically operated pump4 - Lubrication fitting block5 - Hand-operated filling pump4024b95
Fig. 5: Possible pump connections
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Fig. 7: Two-line system expanded by a progressive metering device
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Lubricant DistribLubricant DistribLubricant DistribLubricant DistribLubricant Distribution ution ution ution ution Within the MeteringWithin the MeteringWithin the MeteringWithin the MeteringWithin the MeteringDeviceDeviceDeviceDeviceDevice
Phase 1Phase 1Phase 1Phase 1Phase 1• The lubricant enters the metering device from above (white arrow)
and flows to the right-hand end of piston A.• Piston A (black arrow) is moved to the left under the pressure of the
lubricant, causing the lubricant ahead of the left-hand end of pi-ston A to be dispensed to outlet 2 (dashed arrow).
Lubricant under pump pressure
Lubricant under delivery pressure of the piston
Lubricant, pressureless
Phase 2Phase 2Phase 2Phase 2Phase 2• Once piston A has reached its left-hand final position, the junction
channel to the right-hand end of piston B is opened.• The lubricant which arrives from above (white arrow) also moves
piston B (black arrow) to the left, causing the lubricant quantityahead of the left-hand end of piston B to be dispensed tooutlet 7 (dashed arrow).
Lubricant under pump pressure
Lubricant under delivery pressure of the piston
Fig. 9: Phase 1
Fig. 10: Phase 2
Fig. 8: Single-line system expanded by a progressive metering device
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• The 5 following illustrations show how the lubricant distribution ismade to the individual outlets.
Note: To simplify the description we only show the lubricant distribu-tion for outlets 2, 7, 5, 3 and 1. The remaining distribution operationsare derived from the logical pumping sequence.
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Fig. 12: Phase 4
Fig. 11: Phase 3
Phase 3Phase 3Phase 3Phase 3Phase 3• Once piston B has reached its left-hand final position, the junction
channel to the right-hand end of piston A is opened.• The lubricant which flows from above (white arrow) moves piston
C (black arrow) to the left, causing the lubricant quantity ahead ofthe left-hand end of piston C to be dispensed to outlet 5 (dashedarrow).
Lubricant under pump pressure
Lubricant under delivery pressure of the piston
Phase 4Phase 4Phase 4Phase 4Phase 4• The channel to the right-hand end of piston D is now open (black
arrow).• The lubricant which is fed from above (white arrow) moves piston
D to the left, causing the lubricant quantity ahead of the left-handend of piston D to be dispensed out of the metering device viaoutlet 3 (dashed arrow).
Lubricant under pump pressure
Lubricant under delivery pressure of the piston
Phase 5Phase 5Phase 5Phase 5Phase 5• In phase 4, piston D had opened the junction channel to the left-
hand end of piston A.• The lubricant flowing in (white arrow) moves piston A to the right
(black arrow), causing the lubricant quantity to be dispensed tooutlet 1(dashed arrow).
• In the subsequent distribution sequence, pistons B - D are movedfrom the left to the right one after the other.
• A complete distribution sequence is finished and a new cycle canbegin.
Lubricant under pump pressure
Lubricant under delivery pressure of the pistonFig.13: Phase 5
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When the lubricant supply is interruptedWhen the lubricant supply is interruptedWhen the lubricant supply is interruptedWhen the lubricant supply is interruptedWhen the lubricant supply is interrupted
- the pistons come to a halt;- the lubricant is no longer dispensed to the lubrication point.• When the lubricant is fed again to the metering device, the cycle
begins from the point where it had been interrupted.
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Fig.15: Indicator pin installed on metering device
Fig. 14: Example of a lubrication system
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System-dependent monitoringSystem-dependent monitoringSystem-dependent monitoringSystem-dependent monitoringSystem-dependent monitoring
• The main metering device (B, Fig. 14) and the secondary meteringdevices are connected by a high pressure plastic hose G. Thisfeature automatically causes the linkage of the progressive sy-stem connected downstream of the pump.
• If only one piston does not move in any metering device or if themetering device can no longer dispense any lubricant via its out-lets, this metering device will block itself.
• If one of the secondary metering devices is blocked, the mainmetering device is also blocked. The whole progressive systeminstalled downstream of the pump stops operating.
• The fundamental internal structure of the progressive meteringdevice guarantees the self-monitoring of the sequence within themetering device.
• The linkage makes it possible to monitor the operation of the who-le system.
Visual monitoringVisual monitoringVisual monitoringVisual monitoringVisual monitoring
• The metering devices can be equipped with an indicator pin whichis connected to the piston and moves back and forth during lubri-cant distribution.
• If there is a blockage in the system, the indicator pin stops moving.
Note: It is also possible to indicate the movements of the indicator pinor any blockage in the system by means of a control switch (KS) or aproximity switch (KN).Electrical monitoring (microprocessor controlElectrical monitoring (microprocessor controlElectrical monitoring (microprocessor controlElectrical monitoring (microprocessor controlElectrical monitoring (microprocessor control)))))
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Monitoring of the OperationMonitoring of the OperationMonitoring of the OperationMonitoring of the OperationMonitoring of the Operation
D - Secondary metering device SSV 6E - Lubricant plastic tubeF - Secondary metering device SSV 12G - High pressure plastic hose
A - Safety valveB - Main metering device SSV 6C - Secondary metering device
SSV 8
Fig. 16 - Piston detector installed on the metering device00002634
• A piston detectorpiston detectorpiston detectorpiston detectorpiston detector (initiator) which has been installed on a mete-ring device instead of a piston closure plug monitors the pumpoperating timeoperating timeoperating timeoperating timeoperating time and brings it to a close after all the pistons of thismetering device have dispensed their lubricant quantity.
• If there is a blockage in the system or if the pump reservoir is empty,the piston detector can no longer record the piston movements.The switching off signal is not transmitted to the control unit. A faultsignal occurs.
Important! Important! Important! Important! Important! For the system monitoring it is recommended that oneoneoneoneoneSSV metering device with pre-assembled piston detector SSV metering device with pre-assembled piston detector SSV metering device with pre-assembled piston detector SSV metering device with pre-assembled piston detector SSV metering device with pre-assembled piston detector beused per lubrication circuit. These special metering devices must beordered separately for each lubrication system. Refer to the PartsCatalog.• The pre-assembled metering devices have the designation
SSV ...SSV ...SSV ...SSV ...SSV ... - N - N - N - N - N (they are available for SSV 6, 8, 10 and 12). They mustbe installed in the system instead of a normal metering device.
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2.2A-10001-A962.2A-10001-A962.2A-10001-A962.2A-10001-A962.2A-10001-A96
Fig.17: Pressure relief valve
Determining the Lubricant Output by Combining OutletsDetermining the Lubricant Output by Combining OutletsDetermining the Lubricant Output by Combining OutletsDetermining the Lubricant Output by Combining OutletsDetermining the Lubricant Output by Combining Outlets
TTTTTube Fittings,ube Fittings,ube Fittings,ube Fittings,ube Fittings, Scre Scre Scre Scre Screw-Tw-Tw-Tw-Tw-Typeypeypeypeype
5 - Outlet fitting assembly6 - Clamping ring (brass)7 - Valve body8 - Cutting ring9 - Coupling nut
10 - Junction channel11 - Copper washer12 - Closure plug, outlet borehole
1 - Inlet fitting2 - Delivery hole of the piston3 - Closure plug, installed4 - Closure plug, piston (with champfered),
piston
Fig. 18: Install the outlet fittings and closure plugs in accordance with the dosage
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• The whole system can be monitored visually via the pressurerelief valve. If lubricant is leaking at the pressure relief valve duringthe distribution sequence, this indicates that there is a blockage inthe system.
ImportantImportantImportantImportantImportant: In the case of the progressive metering devices modelsSSV 6 - 12 the outlets 1 and/or 2 must never be closedoutlets 1 and/or 2 must never be closedoutlets 1 and/or 2 must never be closedoutlets 1 and/or 2 must never be closedoutlets 1 and/or 2 must never be closed. In the caseof the progressive metering devices model SSV 14 - 22, the twothe twothe twothe twothe twooutlets with the highest numbers must never be closed,outlets with the highest numbers must never be closed,outlets with the highest numbers must never be closed,outlets with the highest numbers must never be closed,outlets with the highest numbers must never be closed, otherwi-se the system would block owing to the structure of the meteringdevice.
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TTTTTube Fittings,ube Fittings,ube Fittings,ube Fittings,ube Fittings, Push-in-T Push-in-T Push-in-T Push-in-T Push-in-Type (main metering deype (main metering deype (main metering deype (main metering deype (main metering device)vice)vice)vice)vice)
Fig. 19 - Install the push-in type outlet fittings and the closure plugs in accordance with the dosage
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• The output quantities can be raised by closing outlet boreholes.• Install an outlet fitting assembly in each outlet borehole which will
be used. Refer to Fig. 18, 19, 20.• Never remove closure plug 4 Never remove closure plug 4 Never remove closure plug 4 Never remove closure plug 4 Never remove closure plug 4 (chamfered) on the piston side.• Never useNever useNever useNever useNever use closure plug 12 (Fig. 18) or 7 (Fig. 19, 20) as a pistonas a pistonas a pistonas a pistonas a piston
closure plug 4.closure plug 4.closure plug 4.closure plug 4.closure plug 4.
Important:Important:Important:Important:Important: Always use valve body 7 (Fig. 18) in conjunction withclamping ring 6.
• Clamping ring 6 (Fig. 18) closes the junction channels 10 to theother outlet channels.
Note: In the case of push-in type fittings the clamping ring is always afirm component part of the valve body.
Important: Important: Important: Important: Important: In the case of the progressive metering devices modelmodelmodelmodelmodelSSV 6 - 12 the outlets 1 and/or 2 must never be closed.SSV 6 - 12 the outlets 1 and/or 2 must never be closed.SSV 6 - 12 the outlets 1 and/or 2 must never be closed.SSV 6 - 12 the outlets 1 and/or 2 must never be closed.SSV 6 - 12 the outlets 1 and/or 2 must never be closed. In the caseof the progressive metering devices model SSV 14 - 22, the twomodel SSV 14 - 22, the twomodel SSV 14 - 22, the twomodel SSV 14 - 22, the twomodel SSV 14 - 22, the twooutlets with the highest numbers must never be closed,outlets with the highest numbers must never be closed,outlets with the highest numbers must never be closed,outlets with the highest numbers must never be closed,outlets with the highest numbers must never be closed, otherwi-se the system would block due to the structure of the metering de-vice.
5 - Valve body assembly (with reinforced collar)6 - Junction channels7 - Closure plug, outlet borehole8 - Copper washer
1 - Inlet fitting with protective cap *2 - Delivery borehole of the piston3 - Closure plug installed in outlet borehole4 - Closure plug (chamfered), piston
* on request
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TTTTTube Fittings,ube Fittings,ube Fittings,ube Fittings,ube Fittings, Push-inT Push-inT Push-inT Push-inT Push-inType (secondarype (secondarype (secondarype (secondarype (secondary metering dey metering dey metering dey metering dey metering devices)vices)vices)vices)vices)
Fig. 20: Install the push-in type outlets fittings and closure plugs in accordance with the dosage
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Single lubricant outputSingle lubricant outputSingle lubricant outputSingle lubricant outputSingle lubricant output
• The simple lubricant output is the lubricant quantity dispensed bya piston per stroke and per outlet borehole to one lubrication point.It amounts to 0.2 cm³.
Double or multiple lubricant outputDouble or multiple lubricant outputDouble or multiple lubricant outputDouble or multiple lubricant outputDouble or multiple lubricant output
• If one or more lubrication points require a double or a multiplelubricant amount, this can be performed by closing one or moreoutlets.
• As shown in Fig. 21, outlet borehole 10 has been closed. Thelubricant quantity supplied by this outlet flows out of the meteringdevice via outlet 8.
• Total quantity at outlet 8:- is the quantity of outlet 8- plus the lubricant quantity of outlet 10.• If a triple quantity is needed (at outlet 1), close the outlet borehole
located above the discharge borehole. Refer to outlets 3 and 5 onFig. 21.
5 - Valve body assembly (with knurled collar)6 - Junction channels7 - Closure plug, outlet borehole8 - Copper washer
1 - Inlet fitting2 - Delivery borehole of the piston3 - Closure plug installed in outlet borehole4 - Closure plug (chamfered), piston
Fig. 21: Single, double and triple lubricant output
x - Outlet quantity (1x: single, 2x: double, etc.)1 - 10 Outlet numbersA - Clamping ring (brass)
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TTTTTececececechnical Datahnical Datahnical Datahnical Datahnical Data
Tightening torquesTightening torquesTightening torquesTightening torquesTightening torques
Metering Device Model SSVMetering Device Model SSVMetering Device Model SSVMetering Device Model SSVMetering Device Model SSV
Lubricant output per outlet and per stroke ......................... 0.2cm³Max. operating pressure ................................................. 350 barMin. operating pressure .................................................... 20 barMax.differential pressurebetween two outlets ....................................................... 100 barOutlet connection for tube ................................................ Ø 6mmInlet connection ................................................................. G 1/8Operating temperature ........................................ - 25° C to 70°C
Push-inTPush-inTPush-inTPush-inTPush-inType ype ype ype ype TTTTTube Fittingsube Fittingsube Fittingsube Fittingsube FittingsHigh pressure range, p max. .......................................... 350 barInlet tube fittings of the metering devicesOutlet fittings, main metering deviceLow-pressure range, p max. ........................................... 250 barOutlet fittings, secondary metering devicesInlet fittings to the lubrication pointInlet fittings to the lubrication pointInlet fittings to the lubrication pointInlet fittings to the lubrication pointInlet fittings to the lubrication point
LinesLinesLinesLinesLines
High-pressure plastic hoseHigh-pressure plastic hoseHigh-pressure plastic hoseHigh-pressure plastic hoseHigh-pressure plastic hoseMin. bursting pressure (in connection withhose clamp, screwed). ................................................... 600 barMin. bending radius. ........................................................ 50 mmMin. temperature ............................................................. - 40° C
Plastic tubePlastic tubePlastic tubePlastic tubePlastic tubeMin. bending radius ......................................................... 30mmBursting pressure at 20° C .............................................approx. 250 barMin. temperature ............................................................. - 40° C
Closure plug (piston) in metering device ........................... 10 NmClosure plug (outlets) in metering device ..........................10 Nm
Inlet fitting in metering devicescrew-type .......................................................................17 Nmplug-type .........................................................................10 Nm
Outlet fitting in metering devicescrew-type .......................................................................10 Nmplug-type .......................................................................... 8 Nm
Compression nut onto inlet fitting ......................................10 Nm
Compression nut onto outlet fitting, screw-typeplastic tube ....................................................................... 5 Nmsteel tube ........................................................................10 NmInstallation of metering device ........................................... 10Nm