GEA InTouch HAX12P/60-4 User manual

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GEA Refrigeration Technologies / GEA Bock
HA12P/60-4 HAX12P/60-4
HA12P/75-4 HAX12P/75-4
HA12P/90-4 HAX12P/90-4
HA12P/110-4 HAX12P/110-4
Assembly instructions

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About these instructions
Read these instructions before assembly and before using the compressor. This will avoid misunder-
standings and prevent damage. Improper assembly and use of the compressor can result in serious
or fatal injury.
Observe the safety instructions contained in these instructions.
These instructions must be passed onto the end customer along with the unit in which the compres-
sor is installed.
GEA Bock GmbH
72636 Frickenhausen
GEA Bock GmbH
Benzstraße 7
72636 Frickenhausen
Germany
Telephone +49 7022 9454 0
Fax +49 7022 9454 137
www.bock.de
Manufacturer
Contact

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Contents Page
1 Safety 4
1.1 Identicationofsafetyinstructions
1.2 Qualicationsrequiredofpersonnel
1.3 General safety instructions
1.4 Intended use
2 Product description 6
2.1 Short description
2.2 Name plate
2.3 Type key
3 Areas of application 8
3.1 Refrigerants
3.2 Oil charge
3.3 Limits of application
4Compressor assembly 10
4.1 Setting up
4.2 Pipe connections
4.3 Pipes
4.4 Laying suction and pressure lines
4.5 Operating the shut-off valves
4.6 Operating mode of the lockable service connections
5 Electrical connection 13
5.1 Information for contactor and motor contactor selection
5.2 Connection of the driving motor
5.3 Circuit diagram for direct start 230 V Δ/ 400 V Y
5.4 Electronic trigger unit MP 10
5.5 Connection of the electronic trigger unit MP 10
5.6 Functional test of the electronic trigger unit MP 10
5.7 Fan motor
6 Commissioning 18
6.1 Preparations for start-up
6.2 Pressure strength test
6.3 Leak test
6.4 Evacuation
6.5 Refrigerant charge
6.6 Start-up
6.7 Avoiding slugging
6.8 Connection of oil level regulator
7 Maintenance 20
7.1 Preparation
7.2 Work to be carried out
7.3 Spare parts recommendation
7.4 Accessories
7.5 Extract from the lubricants table
7.6 Decommissioning
8 Technical data 22
9 Dimensions and connections 23
10 Declaration of conformity and installation 24
11 Service 25

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1|Safety
1.2 Qualicationsrequiredofpersonnel
1.3 General safety instructions
WARNING! Inadequately qualied personnel poses the risk of accidents, the
consequence being serious or fatal injury. Work on compressors
mustthereforeonlybeperformedbypersonnelwiththequalica-
tions listed below:
•For example, a refrigeration technician, refrigeration mechatron-
icsengineer.Aswellasprofessions withcomparabletraining,which
enablepersonneltoassemble,install,maintainandrepairrefrigeration
and air-conditioning systems. Personnel must be capable of assessing
thework to be carried out and recognising any potential dangers.
WARNING! •Refrigerating compressors are pressurised machines and
thereforerequireparticularcautionandcareinhandling.
•Risk of burns! Depending on the operating conditions, surface
temperatures of over 60 °C on the pressure side or below 0 °C on
the suction side can be reached.
•The maximum permissible overpressure must not be exceeded,
even for testing purposes.
1.1 Identicationofsafetyinstructions:
DANGER! Indicatesadangeroussituationwhich,ifnot
avoided,willcauseimmediatefatalorseriousinjury.
WARNING!
Indicatesadangeroussituationwhich,ifnot
avoided,maycausefatalorseriousinjury.
CAUTION!
Indicatesadangeroussituationwhich,ifnot
avoided,maycausefairlysevereorminorinjury.
ATTENTION! Indicatesasituationwhich,ifnot
avoided,maycausepropertydamage.
INFO! Importantinformationortipsonsimplifyingwork.

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1|Safety
These assembly instructions describe the standard version of the HA12P manufactured by Bock. The
compressor is intended for use in refrigeration systems in compliance with the limits of application.
Onlytherefrigerantspeciedintheseinstructionsmaybeused.
Any other use of the compressor is prohibited!
The Bock refrigerating compressor named in the title is intended for installing in a machine (within
theEUaccordingtotheEUDirectives2006/42/ECMachineryDirective,97/23/ECPressureEquipment
Directive and 2006/95/EC – Low Voltage Directive).
Commissioning is only permissible if the compressor has been installed in accordance with these
assembly instructions and the entire system into which it is integrated has been inspected and
approved in accordance with legal regulations.
1.4 Intended use
WARNING! The compressor may not be used in potentially
explosive environments!

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2|Product description
2.1 Short description
• Semi-hermetictwo-cylinderreciprocatingcompressorwithoilpumplubrication.
• Air cooled drive motor.
Name plate
Fig. 1
Fig. 2
Oil sight glass
Valve plate
Cylinder cover
Discharge
shut-off valve
Oil pump
Terminal box
Suction
shut-off valve
Drive section
Dimension and connection values can be found in Chapter 9
Transport eyelet
Air guide hood
with fan

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Typschild (Beispiel)
1
2
3
4
513
12
7
11
6
10
8
9
1 Typbezeichnung
2 Maschinennummer
3 maximaler Betriebsstrom
4 Anlaufstrom (Rotor blockiert)
5 ND (LP): max. zulässiger Stillstandsdruck
Saugseite
HD (HP): max. zulässiger Betriebsdruck
Hochdruckseite
Einsatzgrenzendiagramme beachten!
50 Hz
60 Hz
6 Spannung, Schaltung, Frequenz
7 Nenndrehzahl
8 Hubvolumen
9 Spannung, Schaltung, Frequenz
10 Nenndrehzahl
11 Hubvolumen
12 Werkseitig eingefüllte Ölsorte
13 Schutzart Klemmenkasten
AS35830A001
SE 55
HAX12P/110-4
2|Product description
2.2 Name plate (example)
1 Typedesignation 6 Voltage,circuit,frequency
2 Machine number 7 Nominal rotation speed
3 maximum operating current 8 Displacement
4 Startingcurrent(rotorblocked) 9 Voltage,circuit,frequency
5 ND (LP): max. admissible operating 10 Nominal rotation speed
pressure (g) Low pressure side 11 Displacement
HD (HP):
max. admissible operating
12 Oiltypelledatthefactory
pressur
e(g) High pressure side 13 Terminal box protection type
Observe the limits of application Electrical accessories can change
diagrams! the IP protection class!
50 Hz
}
60 Hz
}
Fig. 3
/
HA 21 P 110- 4X
2.3 Typekey (example)
¹) HA - Hermetic Air-cooled (air-cooled) for deep freezing
²) X
-Esteroilcharge(HFCrefrigerant,e.g.R404A/R507)
³) Additional declaration for Pluscom compressors
Number of poles
Swept volume
³)
Numbers of cylinders
Size
Oil charge ²)
Series ¹)
GEA Bock GmbH
72636 Frickenhausen, Germany

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3|Areas of application
ATTENTION! Compressor operation is possible within the operating limits
shown in the diagrams. Please note the signicance
of the shaded areas. Thresholds should not be selected as design
or continuous operation points.
- Max. permissible ambient temperature 45 °C
- Max. permissible discharge end temperature 140 °C
-Max.permissibleswitchingfrequency8x/h.
- A minimum running time of 3 min. steady-state condition
(continuous operation) must be achieved.
Foroperationwithfrequencyconverter:
- The maximum current and power consumption must not be
exceeded. Inthecaseof operationabovethe mainsfrequency,
the application limit can therefore be limited.
When operating in the vacuum range, there is a danger of air
enteringonthesuctionside.Thiscancausechemicalreactions,
a pressure rise in the condenser and an elevated compressed-gas
temperature. Prevent the ingress of air at all costs!
Thecompressorsarelledatthefactorywiththefollowingoiltype:
- for R404A/R507 FUCHS Reniso Triton SE 55
- for R22 FUCHS Reniso SP 46
Compressors with ester oil charge (FUCHS Reniso Triton SE 55) are marked with an X in the type
designation (e.g. HAX12P/110-4).
3.1 Refrigerants
• HFKW/HFC: R404A/R507
• (H)FCKW/(H)CFC: R22
3.2 Oil charge
3.3 Limits of application
INFO! Forrefilling,werecommendtheaboveoiltypes.
Alternatives: seelubricantstable,Chapter7.5.

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Evaporation temperature (°C)
Condensing temperature (°C)
Suctiongassuperheat(K)
Suction gas temperature (°C)
Design for other
areasonrequest
Maximum admissible operating pressure (g)
High pressure side (HD): 28 bar
Unlimited application range
Reduced suction gas temperature
R404A/R507
R22
Fig. 4
Fig. 5
3|Areas of application

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?
4|Compressor assembly
4.1 Setting up
Setuponanevensurfaceorframewithsufcientload-
bearing capacity.
Single compressor preferably on vibration damper.
Duplex and parallel circuits always rigid.
Use transport eyelet.
Do not lift manually!
Use lifting gear!
Provideadequateclearanceformaintenancework.
Ensureadequatecompressorventilation.
Donotuseinacorrosive,dusty,dampatmosphereora
combustible environment.
Fig. 6
Fig. 7
Fig. 8
Fig. 9
4.2 Pipe connections
The pipe connections have graduated inside diameters so that pipes with
standart millimetre and inch dimansions can be used.
The connection diameters of the shut-off valves are rated for maximum
compressor output. Theactualrequiredpipecrosssectionmustbe
matched to the output. The same applies for non-return valves.
Fig. 10: graduated
internal diameter
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B
A
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3
2
1
A
B
Tol.-Ang. DIN ISO 2768-mK
Ra Rz
Maß
Passung
Freigabe
Alternativbezug:
Baumustergeprüft
Teil inaktiv
Lieferantenzeichnung
-
-
K.-Auftrag:
PL:
Zeichnung ungültig
Entwicklungsstand
Teil keine Serie
120
400
±0.5
über 0.5
bis 6
Benzstraße 7 - 72636 Frickenhausen - Germany - www.bock.de
-
-
Unbemaßte Radien:
-
Diese Zeichnung ist unser Eigentum!
Sie darf ohne unsere Genehmigung weder nach-
gebildet, vervielfältigt, oder Dritten Personen zu-
gänglich gemacht werden. Der Nachbau nach
dieser Zeichnung, oder an Hand der nach dieser
Zeichnung hergestellten Gegenstände durch den
Abnehmer oder Dritte ist nicht gestattet.
Wir behalten uns alle Rechte, gemäß DIN ISO 16016
an dieser Zeichnung vor.
Bearb.
Datum
Änderungs-Nr.
Werkstoff:
Ausgangsteil, bzw. Rohteil:
--
Gepr.
Name
Datum
19.04.
Werkstückkanten
DIN ISO 13715
Ersatz für:
Ersetzt durch:
Erstellt
2010
Geprüft
-
Kurz
Zone
1/x
Oberflächenbehandlung / Härte:
-
Blatt:
Änderungsbeschreibung
400
Benennung:
±0.8
1000
30
6
-
±0.3
120
30
±0.2
Zeichn.-Nr. Teile-Nr.
Oberflächenangaben ISO 1302
x.xxxx-xxxxx.x
Zust.
Gußtoleranzen:
Gewicht: (kg)
±0.1
Maßstab:
1:1
Wasserwaage
für Indesign
Der Lieferant muß sicherstellen, dass die Ware in
einwandfreiem Zustand angeliefert wird (Korrosions-
schutz, Verpackung für sicheren Transport).
Rz 25
Rz 160
s
25
z
y
x
w
u
t
0,05
Rz 1,6
0,3
0,7
1,6
2
Rz 16
6,3
Rz 63
Rz 6,3
Rz 12,5
F:\user\kurz\3D Sachen\3D Teile\Zeichnungen\Wasserwaage
INFO! Newcompressorsarefactory-lledwithinertgas(3barnitrogen).
Leave this service charge in the compressor for as long as possible
and prevent the ingress of air.
Check the compressor for transport damage before starting any
work.
ATTENTION! Do not solder as long as the compressor is under pressure.
Superheating can damage the valve. Remove the pipe supports
therefore from the valve for soldering and accordingly cool
the valve body during and after soldering.
Only solder using inert gas to inhibit oxidation products (scale).

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4.4 Laying suction and pressure lines
INFO! Proper layout of the suction and pressure lines directly after the
compressor is integral to the smooth running and vibration behaviour
of the system.
ATTENTION! Improperly installed pipescan cause cracksand tears whichcan
resultinalossofrefrigerant,
A rule of thumb:
Alwayslaytherstpipesectionstartingfromtheshut-offvalvedownwards and
parallel to the drive shaft.
4|Compressor assembly
4.3 Pipes
Pipesandsystemcomponentsmustbecleananddryinsideandfreeofscale,swarfandlayersof
rust and phosphate. Only use air-tight parts.
Lay pipes correctly. Suitable vibration compensators must be provided to prevent pipes being
cracked and broken by severe vibrations.
Ensure a proper oil return.
Keeppressurelossestoanabsoluteminimum.
Fig. 11
As short as
possible
Rigid
fixed point

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4|Compressor assembly
Pipe connection
Pipe connection
4.6 Operatingmodeofthelockableserviceconnections
Fig. 14
Opening the shut-off valve:
Spindle: turn to the left (counter-clockwise) as far as it will go.
—> Shut-off valve completely opened / service connection closed.
Fig. 15
Opening the service connection
Spindle: Turn ½ - 1 turn to the right clockwise.
—> Service connection opened / shut-off valve opened.
Service connec-
tion closed
Connection
blocked
Spindle
Service connec-
tion opened
Spindle Connection
open
Compressor
Compressor
Beforeopeningorclosingtheshut-offvalve,releasethevalvespindlesealbyapprox.¼ofaturn
counter-clockwise.
Afteractivatingtheshut-offvalve,re-tightentheadjustablevalvespindlesealclockwise.
Fig. 12 Fig. 13
4.5 Operating the shut-off valves
Valve spindle seal
Release
Tighten

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5|Electrical connection
5 Electrical connection
DANGER! Highvoltage!Riskofelectricshock!Onlycarryoutworkwhenthe
electrical system is disconnected from the power supply!
INFO!
Connect the compressor motor in accordance with the circuit diagram
(see inside of terminal box).
Use suitable cable entry point of the correct protection type
(see name plate) for routing cables into the terminal box.
Insert the strain reliefs and prevent chafe marks on the cables.
Comparethevoltageandfrequencyvalueswiththedataforthemains
power supply.
Only connect the motor if these values are the same.
5.1 Information for contactor and motor contactor selection
Allprotectionequipment,switchingandmonitoringdevicesmustcomplywiththelocalsafetyregula-
tionsandestablishedspecications(e.g.VDE)andregulationsaswellasthemanufacturer’sspecica-
tions. Motorprotectionswitchisrequired!Motorcontactors,feedlines,fusesandmotorprotection
switches must be rated according to the maximum operating current (see name plate). Set the short
circuit trigger current at max. 7 times the permissible operating current according to the compressor
name plate.
5.2 Connection of the driving motor
The compressor is designed with a motor for star-delta circuits.
Designation on the name plate Sticker on the terminal box
∆/ Y
Star-delta start-up is only possible on 230 V voltage supply . Example:
230 V ∆
Direct start Star-delta start
400 V Y
Direct start only
Elektrischer Anschluss
Electrical connection
Raccordement électrique ∆/ Y
96027-11.06-DGbF
∆
Niedere Spannung
Low voltage
Bas voltage
Y
Hohe Spannung
High voltage
Haut voltage
L3
L1 L2
L3
L1 L2
Elektrischer Anschluss
Electrical connection
Raccordement électrique ∆/ Y
96027-11.06-DGbF
∆
Niedere Spannung
Low voltage
Bas voltage
Y
Hohe Spannung
High voltage
Haut voltage
L3
L1 L2
L3
L1 L2
L1 L2 L3
L1 L2 L3
INFO! The connection examples shown refer to the standard
version.Inthecaseofspecialvoltages,theinstructionsafxedtothe
terminal box apply.

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5.3 Circuit diagramm for direct start 230 V ∆/ 400 V Y
Fig. 16 Compressor terminal box
R1 Cold conductor PTC sensor motor winding
R2 Thermal protection thermostat (PTC sensor)
F1 Load circuit safety switches
F2 Control power circuit fuse
F3 Safety chain (high/low pressure monitoring)
B1 Release switch (thermostat/pressostat)
Q1 Main switch
S1 Control voltage switch

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M1 Compressor motor
M1.1 Fan motor
K1 Compressorcontactor
MP10 Electronic trigger unit MP 10
E Oil sump heater
X3 Terminal strip in terminal box
XSS Terminal strip in the external switch cabinet
A1 Alarm Motor protection
A2 OverheatingR1,R2
A3 Alarm high pressure
XSS Terminal strip in the external
switch cabinet

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5|Electrical connection
PTC1 PTC2
Terminal box
Fig. 17
ATTENTION!
Terminals 1 - 6 on the trigger
unit MP 10 and terminals PTC
1 and PTC 2 on the compres-
sor terminal board must not
come into contact with mains
voltage. This would destroy the
trigger unit and PTC sensors.
The supply voltage at L1-N
(+/- for DC 24 V version) must
be identical to the voltage at
terminals11,12,14and43.
5.4 Electronic trigger unit MP 10
The compressor motor is tted with cold conductor temperature sensors (PTC) connected to the
electronic trigger unit MP 10 in the terminal box. Readiness to operate is signalled by the H3 LED
(green)afterthepowersupplyisapplied.Inthecaseofexcesstemperatureinthemotorwinding,the
unit switches off the compressor and the H1 LED lights red.
The hot gas side of the compressor can also be protected against overtemperature using a thermal
protection thermostat (accessory). The H2 LED (red) is provided for the protection function.
The unit trips when an overload or inadmissible operating conditions occur. Find and remedy
the cause.
5.5 Connection of the trigger unit MP10
INFO! Connect the trigger unit MP10 in accordance with the circuit dia-
gram. Protect the trigger unit with a delayed-action fuse (F) of max.
4A.Inordertoguaranteetheprotectionfunction,installthetrigger
unitastherstelementinthecontrolpowercircuit.
Temperature monitoring connections:
Motor winding: Terminals 1 - 2
Thermal protection thermostat: Terminals 3 - 4
Restart prevention: Terminals 5 - 6
INFO!
Theunithasarestartpreventiondevice.Afteryouhaverectiedthe
fault,interruptthemainsvoltage.Thisunlockstherestartprevention
device and the LEDs H1 and H2 go out.

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5|Electrical connection
The compressor and the trigger unit MP10 are operational when the H3 LED (green) lights.
5.6 Function test of the trigger unit MP 10
Pos Procedure LED H1 LED H2 LED H3
red red green
1•Interrupt power supply (L1 or S1) OFF OFF OFF
•Release the motor temperature sensor connection (1 or 2)
•Release the hot gas temperature sensor (if installed) (3 or 4)
2•Restore the power supply (L1 or S1) ON
•Function check of motor temperature sensor: operational ON
•Function check of hot gas temperature sensor: operational ON
3•Interrupt power supply again (L1 or S1) OFF OFF OFF
•Reconnect terminals 1 or 2 and/or 3 or 4
4•Restore the power supply (L1 or S1): OFF OFF ON
•MP 10 is operational again
Beforestart-up,troubleshootingormakingchangestothecontrolpowercircuit,checkthefunctionality
of the trigger unit:
5.7 Fan motor
The fan motor for cooling the compressor is already wired in the terminal box. The power supply as
well as triggering of the compressor contactor should be made in accordance with the basic circuit
diagram (in the terminal box). The fan motor is protected by an internal temperature monitor.
Electricaldata:230V-1-50/60Hz,40W-0,3A

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6|Commissioning
6.2 Pressure strength test
WARNING! The compressor must never be pressurised using oxygen or other
technical gases!
The maximum permissible overpressure of the compressor must not
be exceeded at any time during the testing process (see name plate
data)!
6.1 Preparations for start-up
The compressor has been factory-tested for pressure resistance. The following must be observed if
the entire plant is subjected to an additional pressure strength test:
Test the refrigeration circuit according to EN 378-2 or a corresponding safety standard.
The pressure strength test is best carried out using dry nitrogen (N2).
Do not mix any refrigerant with the testing medium (N2) as this could cause the ignition limit to
shift into the critical range.
6.3 Leaktest
Carry out the leak test of the refrigerating system in accordance with EN 378-2 or a corresponding
safety standard without including the compressor.
Donotmixanyrefrigerantwiththetestingmedium,asthiscouldcausetheignitionlimittoshiftinto
the critical range.
6.4 Evacuation
First evacuate the system and then include the compressor in the evacuation process.
Relieve the compressor pressure.
Open the suction and pressure line shut-off valves.
Evacuate the suction and discharge pressure sides using the vacuum pump.
Attheendoftheevacuationprocess,thevacuumshouldbe<1.5mbarwhenthepumpisswitchedoff.
Repeatthisprocessasoftenasisrequired.
ATTENTION! Do not start the compressor if it is under vacuum. Do not apply
any voltage - even for test purposes (must only be operated with
refrigerant).
Under vacuum, the spark-over and creepage current distances of the
terminal board connection bolts shorten; this can result in winding and
terminal board damage.
INFO! In order to protect the compressor against inadmissible operating
conditions,high-pressureandlow-pressurepressostatscontrolsare
mandatory on the installation side.
The compressor has undergone trials in the factory and all functions have been tested. There are
therefore no special running-in instructions.
Checkthecompressorfortransportdamage!

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6|Commissioning
CAUTION! Wear personal protective clothing such as goggles and protective
gloves!
Make sure that the suction and pressure line shut-off valves are open.
Withthecompressorswitchedoff,addtheliquidrefrigerantdirectlytothecondenserorreceiver,
breaking the vacuum.
Iftherefrigerantneedstoppingupafterstartingthecompressor,itcanbetoppedupinvapour
formonthesuctionside,or,takingsuitableprecautions,alsoinliquidformattheinlettothe
evaporator.
INFO! Avoidoverllingthesystemwithrefrigerant!
In order to prevent shifts in concentration, zeotropic refrigerant
blends (e.g. R407C) must always only be added to the refrigerating
systeminliquidform.
Do not pour liquid refrigerant through the suction line shut-off
valve on the compressor.
It is not permissible to mix additives with the oil and refrigerant.
6.5 Refrigerant charge
6.6 Start-up
WARNING! Ensure that both shut-off valves are open before starting the
compressor!
Checkthatthesafetyandprotectiondevices(pressureswitch,motorprotection,electricalcon-
tactprotectionmeasures,etc.)arefunctioningproperly.
Switch on the compressor and let it run for at least 10 minutes.
Check the oil level : The oil must be visible in the sight glass.
ATTENTION!Iflargerquantitiesofoilhavetobetoppedup,thereisariskofoil
impacteffects.Ifthisisthecase,checktheoilreturn!
6.7 Avoid slugging
ATTENTION! Slugging can result in damage to the compressor and cause
refrigeranttoleak.
To prevent slugging:
The complete refrigeration plant must be properly designed.
All components must be compatibly rated with each other with regard to output (particularly the
evaporator and expansion valves).
Suction gas superheating at the compressor input should be min. 7 - 10K(checkthesettingof
the expansion valve).
Thesystemmustreachastateofequilibrium.
Particularlyincriticalsystems(e.g.severalevaporatorpoints),measuressuchastheuseofliquid
traps,solenoidvalveintheliquidline,etc.arerecommended.
There should be no movement of coolant whatsoever while the compressor is at a
standstill.

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7.1 Preparation
7.2 Worktobecarriedout
7|Maintenance
Inordertoguaranteeoptimumoperationalreliabilityandservicelifeofthecompressor,we recommend
carrying out servicing and inspection work at regular intervals:
Oil change:
- not mandatory for factory-produced series systems.
- foreldinstallationsorwhenoperatingneartheapplicationlimit:forthersttimeafter100
to 200 operating hours, then approx. every 3 years or 10,000 - 12,000 operating hours.
Dispose of used oil according to the regulations; observe national regulations.
Annual checks: Oil level, leak tightness, running noises, pressures, temperatures, function of
auxiliarydevicessuchasoilsumpheater,pressureswitch.
WARNING! Beforestartinganyworkonthecompressor:
Switch off the compressor and secure it to prevent a restart.
Relieve compressor of system pressure.
Preventairfrominltratingthesystem!
After maintenance has been performed:
Connect safety switch.
Evacuate compressor.
Releaseswitch-onlock.
6.8 Connection of oil level regulator
The connection "O" is provided for installing an oil level regulator. A corresponding adapter must be
obtained from the trade.
6|Commissioning
OnlyusegenuineBockspareparts!
7.3 Spare parts recommendation
HA12P / ... 60-4 75-4 90-4 110-4
Designation Ref. No. Ref. No. Ref. No. Ref. No.
Set of gaskets 80339
Valve plate kit 80352 80353
Oil pump kit 08324
Oil sump heater kit
110-240 V 08028
This manual suits for next models
16
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