951-181-010-EN
Version 07
2020/06/15
ENOperating Instructions following ATEX directive 2014/34/EU
Lubrication pump P215EEX
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EN
Jürgen Kreutzkämper Manager R&D Germany
Stefan Schürmann Manager PD Germany South
EU Declaration of conformity following ATEX directive 2014/34/EU, annex XThe manufacturer, SKF Lubrication Systems Germany GmbH, Walldorf Facilities, Heinrich-Hertz-Str. 2-8, DE - 69190 Walldorf hereby declares under sole responsibility that the electrical equipmentDesignation: Electrically driven pump to supply lubricant within a centralized lubrication systemTypes: P205xxxEEXPart numbers: 660-xxxxx-x | 6600-xxxxxxxxYear of construction: See type identification plate
complies with the following basic safety and health requirements of ATEX directive 2014/34/EU and the safety and health requirements of machinery directive 2006/42/EC at the time when first being launched in the market.
1.1.2 · 1.1.3 · 1.3.2 · 1.3.4 · 1.5.6· 1.5.8 · 1.5.9 · 1.6.1 · 1.7.1 · 1.7.3 · 1.7.4
The special technical documents were prepared following: ○ ATEX directive 2014/34/EU annex VIII (2) and stored at the named institute (CE 0123). ○ Machinery directive 2006/42/EC, annex VII, part B was prepared.
We undertake to send this in electronic form to the respective authorities upon justifiable request. The person empowered to assemble the technical docu-mentation on behalf of the manufacturer is the head of standardization, See manufacturer's address.
Furthermore, the following directives and harmonized standards were applied in the respective applicable areas:
Directives2011/65/EU RoHS II
2014/30/EU Electromagnetic compatibility
Standards
EN ISO 12100:2010 EN 1127-1:2011 EN 61000-6-3:2007 EN 50581:2012EN 809:1998+A1:2009/AC2010 EN ISO 80079-36:2016 EN 60947-5-2:2007EN 60204-1:2006/AC:2010 EN ISO 80079-37:2016 EN 60947-5-7:2003
The machinery must not be put into service until the final machinery into which it is to be incorporated has been declared in conformity with the previsions of ATEX directive 2014/34/EU of machinery directive 2006/42/EC and any other applicable directives.
Walldorf, 2019/08/01
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ENLegal notice
Training coursesIn order to provide a maximum of safety and economic viability, SKF carries out detailed training courses. It is recommended that the training courses are attended. For more in-formation please contact the respective SKF Service address.
Copyright© Copyright SKFAll rights reserved.
WarrantyThe instructions do not contain any informa-tion on the warranty. This can be found in our general terms and conditions.
DisclaimerThe manufacturer shall not be held respon-sible for damages caused by:
○ non appropriate use faulty assembly, operation, setting, main-tenance, repair, negligence or accidents
○ Use of inappropriate lubricants
○ Improper or late response to malfunctions
○ Unauthorized modifications of the product
○ the use of non-original SKF spare parts
Liability for loss or damage resulting from the use of our products is limited to the maximum purchase price. Liability for consequential damages of whatever kind is excluded.
Legal noticeManufacturerSKF Lubrication Systems Germany GmbH
Manufacturer's facilitiesHead Office Walldorf Facilities Heinrich-Hertz-Str. 2-8 69190 Walldorf Germany Phone +49 (0) 6227 33-0 Fax: +49 (0) 6227 33-259
Berlin Facilities Motzener Straße 35/37 12277 Berlin Germany Phone +49 (0)30 72002-0 Fax +49 (0)30 72002-111 www.skf.com/lubrication
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EN Table of contents
Table of contentsEU Declaration of conformity following ATEX directive 2014/34/EU, annex X ..................................................................................................................2Legal notice .............................................................................................................3Explanation of symbols, signs and abbreviations ...............................................7
1. Safety instructions ........................................................................ 9
1.1 General safety instructions ....................................................................91.2 General behaviour when handling the product ...................................91.3 Intended use ..........................................................................................101.4 Foreseeable misuse ..............................................................................101.5 Painting of plastic parts ........................................................................101.6 Modifications of the product ................................................................111.7 Prohibition of certain activities ............................................................111.8 Inspections prior to delivery ................................................................111.9 Other applicable documents ................................................................111.10 Markings on the product ......................................................................111.11 Notes related to the type identification plate .....................................121.12 Notes related to the CE marking .........................................................121.13 Persons authorized to operate the pump ..........................................131.13.1 Operator .................................................................................................131.13.2 Specialist in mechanics ........................................................................131.13.3 Specialist in electrics ............................................................................131.13.4 Specialist for maintenance and repairs in potentially explosive atmospheres .........................................................................131.14 Briefing of external technicians...........................................................131.15 Provision of personal protective equipment ......................................131.16 Operation ...............................................................................................141.17 Emergency stopping .............................................................................141.18 Transport, installation, maintenance, malfunctions, repair, shutdown, disposal ...............................................................................14
1.19 Initial commissioning, daily start-up ..................................................151.20 Cleaning .................................................................................................161.21 Safety-related protective and emergency devices must ..................161.22 Special safety instructions regarding explosion protection .............171.23 Expiry of the ATEX approval .................................................................191.24 Operation in explosion-protected areas.............................................191.25 Explosion protection marking ..............................................................191.26 Residual risks ........................................................................................201.27 Residual risks ATEX ...............................................................................21
2. Lubricants ................................................................................... 23
2.1 General information .............................................................................232.2 Selection of lubricants ..........................................................................232.3 Material compatibility ...........................................................................232.4 Temperature characteristics ................................................................232.5 Ageing of lubricants ..............................................................................24
3. Overview, functional description ................................................ 25
4. Technical data ............................................................................. 28
4.1 Mechanical data ....................................................................................284.2 Electrics: .................................................................................................294.2.1 Influencing variables on the actual output volume ...........................304.2.2 Output diagrams of typical NLGI 2 lubricants ....................................304.3 Tightening torques ...............................................................................314.4 Overview of pump versions .................................................................324.5 Technical data of motor variants .........................................................344.6 Reservoir versions ................................................................................424.7 Capacitive sensors ................................................................................43
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5. Delivery, returns, and storage .................................................... 46
5.1 Delivery ..................................................................................................465.2 Returns ..................................................................................................465.3 Storage ...................................................................................................465.3.1 Corrosion protection .............................................................................465.3.2 Special storage conditions of the motor .............................................465.4 Special storage conditions for parts primed with lubricant .............475.4.1 Storage period of up to 6 months .......................................................475.4.2 Storage period from 6 to 18 months ..................................................475.4.3 Storage period exceeding 18 months ................................................47
6. Installation .................................................................................. 48
6.1 General information .............................................................................486.2 Place of installation ...............................................................................486.3 Mechanical connection .........................................................................496.3.1 Minimum assembly dimensions .........................................................496.3.2 Installation bores ..................................................................................506.3.3 Pump to base plate ...............................................................................516.4 Electrical connection ratings of the motor .........................................526.5 Protective conductor connection of SEW motors .............................536.6 Electrical connection of the low-level indication ...............................536.7 Lubrication line connection .................................................................546.8 Adjusting the output volume on the pump element .........................55
6.9 Filling with lubricant .............................................................................566.9.1 Filling via the reservoir lid ....................................................................566.9.2 Filling via filling port ..............................................................................566.9.3 Inadvertent filling with incorrect lubricant .........................................57
7. Initial start-up ............................................................................ 58
7.1 Inspections prior to initial start-up .....................................................587.2 Inspections during initial start-up ......................................................59
8. Operation .................................................................................... 60
8.1 Activation of the pump .........................................................................608.2 Refill lubricant .......................................................................................60
9. Cleaning ...................................................................................... 61
9.1 Cleaning agents .....................................................................................619.2 Exterior cleaning ...................................................................................619.3 Interior cleaning ....................................................................................619.4 Cleaning of capacitive sensors .............................................................61
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10. Maintenance ............................................................................... 62
10.1 Pump maintenance ..............................................................................6310.2 Maintenance of gear unit ...................................................................6410.3 Cleaning of capacitive sensors .............................................................6410.4 Motor maintenance ..............................................................................6510.4.1 Measurement of the insulation resistance ........................................6510.4.2 SEW motor maintenance .....................................................................6510.4.3 ABB motor maintenance .....................................................................6610.4.4 SIEMENS motor maintenance ............................................................6710.4.5 Maintenance of the BoWex coupling ..................................................68
11. Troubleshooting .......................................................................... 70
12. Repairs ........................................................................................ 83
12.1 Replacement of SEW motor ................................................................8412.2 Replacement of capacitive sensor.......................................................8612.3 Replacement of pump element ...........................................................90
13. Shutdown and disposal ............................................................... 92
13.1 Temporary shutdown ...........................................................................9213.2 Final shutdown and disassembly ........................................................9213.3 Disposal ..................................................................................................92
14. Spare parts ................................................................................. 93
14.1 Pump element .......................................................................................9314.2 Closure screw M22 x 1 .........................................................................9314.3 Capacitive sensor M12 x 1 ...................................................................9414.4 Capacitive sensor M18 x 1 ...................................................................9414.5 Capacitive sensor M30 x 1.5 ...............................................................9414.6 SEW motors ..........................................................................................9514.7 Gasket Abil .............................................................................................95
Annexes purchase parts ........................................................................... 96
Declaration of conformity of gear make Rehfuss ..................................... 96
Declaration of conformity of motor make SEW ........................................ 97
Declaration of conformity of motor make ABB open ................................ 99
Declaration of conformity of motor make SIEMENS .............................. 100
Declaration of conformity of capacitive sensor make Turck.................... 101
Declaration of conformity of capacitive sensor M12 make Turck ........... 102
Declaration of conformity of capacitive sensor make ifm ....................... 103
Declaration of conformity of terminal box make Bartec ........................ 104
Declaration of conformity of BoWex curved-tooth gear coupling ......... 105
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ENExplanation of symbols, signs and abbreviations
Explanation of symbols, signs and abbreviations
General warning Dangerous electrical voltage Risk of falling Hot surfaces
Unintentional intake Crushing hazard Pressure injection Suspended load
Electrostatically sensitive components
Risk of explosionExplosion-protected component
Wear personal protective equipment (goggles)
Wear personal protective equipment (face shield)
Wear personal protective equipment (gloves)
Wear personal protective equipment (protective clothes)
Wear personal protective equipment (safety shoes)
Disconnect product from mains
General obligation
Keep unauthorized persons away
Protective earthSafety extra-low voltage (SELV)
Safe galvanic isolation (SELV)
CE marking Disposal, recyclingDisposal of waste electrical and electronic equipment
Warning level Consequence Probability Symbol Meaning
DANGERDeath, serious injury
imminent Chronological guidelines
WARNINGDeath, serious injury
possible Lists
CAUTIONMinor injury
possible Refers to other facts, causes, or consequences
NOTICE Property damage possible
The following abbreviations may be used within these instructions. Symbols within safety notes mark the kind and source of the hazard.
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EN Explanation of symbols, signs and abbreviations
Abbreviations and conversion factors
re. regarding °C degrees Celsius °F degrees Fahrenheitapprox. approximately K Kelvin Oz. Ouncei.e. that is N Newton fl. oz. fluid ounceetc. et cetera h hour in. inchposs. possibly s second psi pounds per square inchif appl. if applicable d day sq.in. square incha.a.r. as a rule Nm Newtonmeter cu. in. cubic inchincl. including ml millilitre mph miles per hourmin. minimum ml/d millilitre per day rpm revolutions per minutemax. maximum cc cubic centimetre gal. gallonmin. minute mm millimetre lb. poundetc. et cetera l litre hp horse powere.g. for example dB (A) sound pressure level kp kilopondkW kilowatt > greater than fpsec feet per secondU Voltage < less than conversion factorsR resistance ± plus/minus Length 1 mm = 0.03937 in.I current Ø diametre Area 1 cm² = 0.155 sq.inV volt kg kilogram Volume 1 ml = 0.0352 fl.oz.W watt rh relative humidity 1 l = 2.11416 pints (US)AC alternating current ≈ about Mass 1 kg = 2.205 lbsDC direct current = equal to 1 g = 0.03527 oz.A ampere % per cent Density 1 kg/cc = 8.3454 lb./gal(US)Ah ampere hour ‰ per mille 1 kg/cc = 0.03613 lb./cu.in.Hz frequency [Hertz] ≥ greater than Force 1 N = 0.10197 kpnc normally closed ≤ less than Pressure 1 bar = 14.5 psino normally open contact mm2 square millimetre Temperature °C = (°F-32) x 5/9OR logical OR rpm revolutions per minute Output 1 kW = 1.34109 hp& logical AND Acceleration 1 m/s² = 3.28084 ft./s²N/A Not applicable Speed 1 m/s = 3.28084 fpsec.
1 m/s = 2.23694 mph
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EN1. Safety instructions
1. Safety instructions
1.1 General safety instructions
○ The owner must ensure that safety infor-mation has been read by any persons en-trusted with works on the product or by those persons who supervise or instruct the before-mentioned group of persons. In addition, the owner must also ensure that the relevant personnel are fully fa-miliar with and have understood the con-tents of the Instructions. It is prohibited to commission or operate the product prior to reading the Instructions.
○ These Instructions must be kept for fur-ther use.
○ The described products were manufac-tured according to the state of the art. Risks may, however, arise from a usage not according to the intended purpose and may result in harm to persons or damage to material assets.
○ Any malfunctions which may affect safety must be remedied immediately. In addi-tion to these Instructions, general statu-tory regulations for accident prevention and environmental protection must be observed.
1.2 General behaviour when handling the product
○ The product may be used only in aware-ness of the potential dangers, in proper technical condition, and according to the information in these instructions.
○ Familiarize yourself with the functions and operation of the product. The speci-fied assembly and operating steps and their sequences must be observed.
○ Any unclear points regarding proper condition or correct assembly/ operation must be clarified. Operation is prohibited until issues have been clarified.
○ Unauthorized persons must be kept away.
○ Precautionary operational measures and instructions for the respective work must be observed.
○ Responsibilities for different activities must be clearly defined and observed. Uncertainty seriously endangers safety.
○ Remedy occurring faults in the frame of responsibilities. Immediately inform your superior in the case of faults beyond your competence.
○ Wear personal protective equipment.
○ Never use parts of the centralized lu-brication system or of the machine as standing or climbing aids.
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EN 1. Safety instructions
1.3 Intended use
Supply of lubricants within a centralized lubrication system following the specifica-tions, technical data and limits stated in these Instructions:Usage is allowed exclusively for professional users in the frame of commercial and eco-nomic activities.
1.4 Foreseeable misuse
Any usage differing from the one stated in these Instructions is strictly prohibited. It is expressly forbidden to be used: ○ outside the indicated temperature range
○ with non-specified means of operation
○ with contaminated lubricants or lubri-cants with air inclusions
○ with lubricants the temperature of which exceeds the maximum admissible ambi-ent temperature
○ without adequate pressure control valve
○ in areas with aggressive or corrosive ma-terials (e.g. high ozone pollution). These may affect seals and painting.
○ in areas with harmful radiation (e. g. ion-ising radiation)
○ to supply, transport, or store hazardous substances and mixtures in accordance with annex I part 2-5 of the CLP regula-tion (EG 1272/2008) and marked with GHS01 - GHS06 and GHS08 hazard pictograms.
○ to feed, forward, or store gases, liquefied gases, dissolved gases, vapours, or fluids whose vapour pressure exceeds normal atmospheric pressure (1013 mbar) by more than 0.5 bar at the maximum per-missible operating temperature.
○ to feed, forward, or store lubricants con-taining volatile solvents
○ in explosive gas and vapour atmos-pheres, the ignition temperature of which is smaller than 125 % of the maximum surface temperature
○ in explosive dust atmospheres, the mini-mum ignition and glow temperature of which is smaller than 150 % of the maxi-mum surface temperature
○ In a different, more critical potentially explosive atmosphere than stated on the type identification plate of the pump used.
○ with damaged or lacking ATEX painting or ATEX painting done wrongly later on. The painting must comply with the standards valid for ATEX.
1.5 Painting of plastic parts
Painting of any plastic parts or seals of the described products is expressly prohibited. Remove or tape plastic parts completely before painting the superior machine
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1.6 Modifications of the product
Unauthorized conversions or modifica-tions may result in unforeseeable impacts on safety. Therefore, any unauthorized conversions or modifications are expressly prohibited.
1.7 Prohibition of certain activities
Due to potential sources of faults that may not be visible or due to legal regulations the following activities may be carried out by manufacturer specialists or authorized persons only: ○ Repairs or changes to the drive
○ Replacement of or changes on the pis-tons of the pump elements
1.8 Inspections prior to delivery
The following inspections were carried out prior to delivery: ○ Safety and functional tests
○ Electrical inspections following DIN EN 60204-1:2007 / VDE 0113-1:2007.
○ In case of explosion-protected products: Inspections following the requirements of the ATEX Directive.
1.9 Other applicable documents
In addition to these instructions, the fol-lowing documents must be observed by the respective target group: ○ Operational instructions and approval
rules
○ Safety data sheet of the lubricant used
Where appropriate: ○ Project planning documents
○ Any documents of other components required to set up the centralized lubrica-tion system
○ Operator's explosion protection document
○ Rehfuss gear: Instructions for the SM type series
○ SEW motor: Explosion-protected three-phase motors EDR71 documentation no.: 19402007
○ ABB motor: Low-voltage motors for explosive atmospheres documentation no.: 3GZF500730-47
○ SIEMENS motor: Loher CHEMSTAR Type 1PS2 Edition 08/2016
1.10 Markings on the product
Warning of dangerous electrical voltage
Warning of hand injuries when reaching into the reservoir
Rotational direction of the pump
Equipotential bonding connections
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EN 1. Safety instructions
1.11 Notes related to the type identifica-tion plate
The type identification plate states im-portant characteristics such as type des-ignation, order number, and regulatory characteristics.To ensure that the loss of data due to an illegible type identification plate is avoided, the characteristics should be entered in the Instructions.
Model: _______________________________
P. No.: ________________________________
Series: _______________________________
Year of construction (KW/YY) ________________________
Voltage:_______________________________
Control voltage:________________________
Power:________________________________
_______°C ≤ Ta ≤ _______°C
SKF Lubrication Systems Germany GmbH
Model:P. No.:S. No.:
xxx -xxx-xxx-xxx-xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
Made in Germany
U & P: see motor type identification plate
KW/JJFactory address
-xx °C ≤ Ta ≤ +xx °C
IIxG Ex h IIx Tx GbIIxD Ex h IIIx Txxx°C Db
1.12 Notes related to the CE marking
CE marking is effected following the re-quirements of the applied directives: ○ 2014/34/EU
Directive relating to equipment and protective systems for use in explosive atmospheres (ATEX)
○ 2014/30/EU Electromagnetic compatibility
○ 2011/65/EU (RoHS II) Directive on the restriction of the use of certain hazardous substances in electrical and electronic equipment
○ Reference on Low Voltage Directive 2014/35/EU
The protective regulations of Low Voltage Directive 2014/35/EU are fulfilled according to annex II (1.2.7) of ATEX Directive 2014/34/EU.
Reference on Pressure Equipment Directive 2014/68/EU Because of its performance data the prod-uct does not achieve the limit values de-fined in Article 4 (1) (a) (ii) and is therefore excluded from the scope of application of Pressure Equipment Directive 2014/68/EU following Article 1 (2) (f).
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1.13 Persons authorized to operate the pump
1.13.1 Operator
A person who is qualified by training, know-ledge and experience to carry out the func-tions and activities related to normal opera-tion. This includes avoiding possible hazards that may arise during operation.
1.13.2 Specialist in mechanics
Person with appropriate professional edu-cation, knowledge and experience to detect and avoid the hazards that may arise during transport, installation, start-up, operation, maintenance, repair and disassembly.
1.13.3 Specialist in electrics
Person with appropriate professional edu-cation, knowledge and experience to detect and avoid the hazards that may arise from electricity.
1.13.4 Specialist for maintenance and repairs in potentially explosive atmospheres
A person who is qualified by training, know-ledge and experience to identify and assess possible risks and hazards during work on the machine or partial components in potentially explosive areas and to initiate suitable measures to prevent such risks. The specialist has knowledge of the differ-ent ignition protection types, installation procedures and zone divisions. He is famil-iar with the rules and regulations relevant for his activities and explosion protection, in particular with ATEX directives 2014/34/EU and 1999/92/EC.
1.14 Briefing of external technicians
Prior to commencing the activities, external technicians must be informed by the opera-tor of the company safety provisions, the applicable accident prevention regulations to be maintained, and the functions of the superordinate machine and its protective devices.
1.15 Provision of personal protective equipment
The operator must provide suitable person-al protective equipment for the respective location of operation and the purpose of operation. For work in potentially explosive atmospheres this also includes ESD cloth-ing and ESD tools.
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EN 1. Safety instructions
○ Dry or cover wet, slippery surfaces accordingly.
○ Cover hot or cold surfaces accordingly.
○ Work on electrical components must be carried out by electrical specialists only. Observe any waiting periods for dis-charging, if necessary. Carry out works on electrical components only while the system is depressurized and use voltage isolated tools suitable for electrical works only.
○ Carry out electrical connections only ac-cording to the information in the valid wiring diagram and taking the relevant regulations and the local connection con-ditions into account.
○ Carry out transport using suitable trans-port and hoisting equipment on suitable ways only.
○ Maintenance and repair work can be subject to restrictions in low or high tem-peratures (e.g. changed flow properties of the lubricant). Therefore, where possible, try to carry out maintenance and repair work at room temperature.
○ Prior to performing work, the product and the machine, into which the product will be integrated, must be depressur-ized and secured against unauthorized activation.
○ Ensure through suitable measures that movable or detached parts are immobi-lized during the work and that no limbs can be caught in between by inadvertent movements.
○ Assemble the product only outside of the operating range of moving parts, at an adequate distance from sources of heat or cold. Other units of the machine or ve-hicle must not be damaged or impaired in their function by the installation.
1.16 Operation
The following must be observed during commissioning and operation: ○ Any information within this manual and
the information within the referenced documents
○ All laws and regulations to be complied with by the user
1.17 Emergency stopping
In case of an emergency stop the pump sta-
tion by: ○ Switching off the superior machine or
system in which the pump station has been integrated.
○ Actuating the emergency stop switch of the superior machine.
1.18 Transport, installation, maintenance, malfunctions, repair, shutdown, disposal
○ All relevant persons must be informed of the activity prior to starting any work. Observe the precautionary operational measures and work instructions.
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EN1. Safety instructions
- the operating / ambient conditions at the place of usage
○ No parts of the centralized lubrication system may be subjected to torsion, shear, or bending.
○ Check all parts prior to their usage for contamination and clean, if necessary.
○ Lubricant lines should be primed with lubricant prior to installation. This makes the subsequent ventilation of the system easier.
○ Observe the specified tightening torques. When tightening, use a calibrated torque wrench.
○ When working with heavy parts use suit-able lifting tools.
○ Avoid mixing up or wrong assembly of dismantled parts. Mark these parts accordingly.
○ Do not touch cables or electrical compo-nents with wet or damp hands.
○ Fuses must not be bypassed Replace de-fective fuses always by fuses of the same type.
○ Ensure proper grounding of the product.
○ Ensure proper connection of the protec-tive conductor.
○ Undertake drilling only at non-critical, non-load bearing parts of the operator’s machine/ infrastructure. Use any avail-able boreholes. Do not damage lines and cables when drilling. Changes to SKF products are prohibited. This includes all drilling, welding, flame-cutting, and grinding work.
○ Observe possible abrasion points. Protect the parts accordingly.
○ All components used must be designed for: - maximum operating pressure - max / min ambient temperature - the lubricant to be supplied - the ATEX zone required
1.19 Initial commissioning, daily start-up
Ensure that: ○ All safety devices are completely available
and functional
○ All connections are correctly connected
○ All parts are correctly installed
○ All warning labels on the product are present completely, highly visible and undamaged
○ Illegible or missing warning labels are to be replaced without delay
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1.20 Cleaning
○ Risk of fire and explosion when using inflammable cleaning agents Only use non-flammable cleaning agents suitable for the purpose.
○ Do not use aggressive cleaning agents.
○ Thoroughly remove residues of cleaning agents from the product.
○ Do not use steam jet and high pressure cleaners. Electrical components may be damaged. Observe the IP type of protec-tion of the pump.
○ Cleaning work may not be carried out on energized components.
○ Mark damp areas accordingly.
1.21 Safety-related protective and emer-gency devices must
○ Safety-related protective and emergency devices must not be removed, modified or affected otherwise in their function and are to be checked at regular intervals for com-pleteness and function.
○ If protective and safety equipment has to be dismantled, it must be reassembled immediately after finishing the work, and then checked for correct function.
Depending on the equipment variant of the pump the following safety-related protective and emergency devices are available:
○ Sensors for filling-level monitoring
○ Mechanical indication of the filling level
○ Overload / thermal circuit breaker of the electric motor
○ Pressure relief valves
○ Equipotential bonding
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1.22 Special safety instructions regarding explosion protection
○ Always behave so that explosion hazards are avoided.
○ A written work approval from the opera-tor is required prior to working in poten-tially explosive areas. Keep unauthorized persons away
○ There must be no indications that parts of the explosion protection are missing or are not working. Should such indications become apparent, switch off the machine and inform a superior without delay.
○ Measures for explosion protection must never be deactivated, modified or bypassed.
○ Transport damages can result in the loss of the explosion protection. If transport damages can be seen, do not assemble the product nor put it into operation.
○ It is forbidden to bring in ignition sources such as sparks, open flames and hot sur-faces in potentially explosive areas.
○ Check the machine at regular intervals in line with the operating conditions for damage which may represent an ignition risk as well as with regard to correct func-tioning. An inspection must be carried out every 12 months at the latest.
○ The ignition temperature of the ambient explosive gas and vapour atmospheres must be greater than 125 % of the maxi-mum surface temperature.
○ The minimum ignition and glow tem-perature of the ambient explosive dust atmospheres must be greater than 150 % of the maximum surface temperature
○ The limits of use related to explosion pro-tection are clearly defined by the device categories, gas and dust groups as well as temperature classes stated in the ex-plosion protection marking. In any case, also if dust group IIIC is specified, light-metal dusts as explosive ambient media are prohibited
○ The filling-level monitoring must be en-sured by the operator at a high degree of safety.
○ The product may be filled via the res-ervoir lid only, if there is no potentially explosive atmosphere. Filling via the fill-ing port is also possible with a potentially explosive atmosphere. Connect the filler pump to the equipotential bonding of the pump.
○ The product may be cleaned only, if there is no potentially explosive atmosphere.
○ The ignition temperature of the lubricant must lie at least 50 K over the maximum surface temperature of the components.
○ In case of products without electrical fill-ing level control make sure to check the lubricant filling level at regular intervals.
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EN 1. Safety instructions
○ Only use tools and clothing which are permitted for use in potentially explosive areas (ESD).
○ Transport, installation, repairs and work on electrical components may only be carried out, if it has been ensured that the atmosphere is not potentially explosive.
○ Repairs or modifications to machines which are protected against explosions may be carried out only by the manufac-turer or by a workshop recognized by a named institution and confirmed in writ-ing. If the work is not carried out by the manufacturer, the repairs must be ap-proved by a named expert and confirmed in writing. The repairs are to be marked by a repair sign on the machine, stating the following: - Date - Executing company - Type of repair - If applicable, expert's code
○ All parts of the earthing concept must be correctly available and connected with the superordinate machine.
○ If transport lugs are dismantled after set-up, the threaded bores must be per-manently sealed in accordance with the protection class.
○ Handle the materials so that no sparks generated by tilting, falling, sliding, rub-bing, impacting, etc. If needed, cover materials with suitable means.
○ Never disconnect plug-in connections when energized. Secure plug-in connec-tions against inadvertent manual discon-nection with the safety clips.
○ The operator must check critically wheth-er operation without a low-level signal might lead to a new risk potential (e.g. through heat-up of bearing points on the machine in the area of ignition tempera-ture in the case of lacking lubrication). If this cannot be ascertained, provide a low-level signal or suitable organisational measures for monitoring of the bearing point temperature.
○ Avoid dust accumulation and remove dust immediately. Dust accumulations have a thermally insulating effect and, if whirled up, generate the formation of a potentially explosive atmosphere.
○ The product must be integrated in the operator's lightning protection concept.
○ All parts are to be checked regularly for corrosion. Replace the affected parts.
○ Terminal boxes must be firmly closed and the cable breakthroughs correctly sealed.
○ Additional electrical monitoring devices must be firmly connected and correctly adjusted.
1
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EN1. Safety instructions
1.23 Expiry of the ATEX approval
The ATEX certificate for this product expires through: ○ Inappropriate usage
○ Unauthorized modifications
○ Use of non-original SKF spare parts
○ non-observance of these instructions and other applicable documents.
○ Use of non-specified lubricants
○ Non-observance of the specified mainte-nance and repair intervals
○ Operation with damaged or lacking ATEX painting or ATEX painting done wrongly later on and not complying with the standards applicable for ATEX
1.24 Operation in explosion-protected areas
Operation is permitted only, if in compliance with: ○ All information given in these instructions
or stated in the referenced documents.
○ All laws and regulations to be complied with by the user.
○ Information on explosion protection according to directive 1999/92/EC (ATEX 137).
○ ATEX approval.
1.25 Explosion protection marking
The explosion protection marking is found in chapter "Technical data" and on the type identification plate of the pump.
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EN 1. Safety instructions
1.26 Residual risks
Residual risk Possible in life cycle Prevention/ remedy
Personal injury/ material damage due to falling of raised parts
A B C G H KKeep unauthorized persons away. No people may remain under suspended loads. Lift parts with adequate lifting devices.
Personal injury/ material damage due to tilting or falling of the product because of non-observance of the stated tightening torques
B C G
Observe the specified tightening torques. Fix the product only to components with sufficient load capacity. Fasten the components. If no tightening torques are stated, apply tightening tor-ques according to the screw size characteristics for 8.8 screws. +
Personal injury/ material damage due to electric shock in case of damage to the connection cable
B C D E F G HCheck the connection cable with regard to damages before the first usage and then at regular intervals. Do not mount cable to moving parts or friction points. If this cannot be avoided, use spring coils respectively protective conduits.
Personal injury/ damage to material due to spilled or leaked lubricant
B C D F G H K
Be careful when filling the reservoir and when connecting or disconnecting lubri-cant feed lines. Always use suitable hydraulic screw connections and lubrication lines for the stated pressures. Do not mount lubrication lines to moving parts or friction points. If this cannot be avoided, use spring coils respectively protective conduits.
Life phases: A = transport, B = installation, C = initial start-up, D = operation, E = cleaning, F = maintenance, G = fault, repair, H = shutdown, K = disposal
1
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EN1. Safety instructions
1.27 Residual risks ATEX
Residual riskPossible in life
cyclePrevention/ remedy
Usage in a potentially explosive atmos-phere without testing the equipoten-tial bonding with regard to electrical continuity
C D GCheck the equipotential bonding with regard to electrical continuity before the initial start-up, after each repair and additionally at regular intervals to be determined by the operator.
Operation with damaged, lacking ATEX painting or ATEX painting done wrongly later on and not complying with the standards applicable for ATEX
C D E F GBefore the first start-up and later at regular intervals check the painting and let it be renewed by authorized personnel, where appropriate.
Heat-up of non-lubricated lubrication points in the area of ignition temperature through undetected faults within the centralized lubrication system.
C D G
The operator must check critically whether an operation without corresponding detection op-tions might lead to a new risk potential (e.g. through heat-up of non-lubricated bearing points on the machine up to the ignition temperature range). If this cannot be excluded with certainty, provide adequate countermeasures.
Heat-up of components in the area of ignition temperature or formation of a potentially explosive atmosphere through whirling up of dust.
C D E F GAvoid dust accumulation and remove dust immediately. Select a location of installation with as little dust as possible.
Life cycle: A = transport, B = installation, C = initial start-up, D = operation, E = cleaning, F = maintenance, G = fault, repair, H = shutdown, K = disposal
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EN 1. Safety instructions
Residual risk Possible in life cycle Prevention/ remedy
Generation of electrostatic charges and sparks through dropping parts.
C D E F GSecure parts against falling. Where appropriate, cover parts in order to avoid the for-mation of sparks.
Bringing catalytic, unstable or pyrophoric sub-stances into a potentially explosive area.
C D E F GEnsure that none of these substances gets into the potentially explosive area. Have all substances approved by the operator first.
Use of isolating amplifiers to operate the ca-pacitive sensor in potentially explosive areas.
C D G Mount isolating amplifiers outside potentially explosive areas only.
Deviating installation position. Loss of correct filling-level signal function.
C D GObserve the specified installation position (± 5°). If needed, correct installation position.
Using a lubricant not suitable for low tempera-tures. In case of low temperatures too high lubricant viscosity may result in a functional failure of the pump.
C D F G Only use lubricants suitable for the respective actual operating temperature.
Filling of the reservoir via the reservoir lid in case of a potentially explosive atmosphere
B C D F Fill the reservoir via the reservoir lid only, if there is no explosive atmosphere
Life cycle: A = transport, B = installation, C = initial start-up, D = operation, E = cleaning, F = maintenance, G = fault, repair,
H = shutdown, K = disposal
2
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EN2.Lubricants
2. Lubricants
2.1 General information
Lubricants are used specifically for certain application purposes. In order to fulfil their tasks, lubricants must fulfil various require-ments to varying extents. The most important requirements for lubri-cants are: ○ Reduction of abrasion and wear
○ Corrosion protection
○ Noise minimisation
○ protection against contamination or penetration of foreign objects
○ Cooling (primarily with oils)
○ longevity (physical/ chemical stability)
○ economic and ecological aspects
2.2 Selection of lubricants
SKF considers lubricants to be an element of system design. A suitable lubricant is se-lected already when designing the machine and forms the basis for the planning of a centralized lubrication system.The selection is made by the manufacturer or operator of the machine, preferably to-gether with the lubricant supplier based on the requirement profile defined.Should you have little or no experience with the selection of lubricants for centralized lubrication systems, please contact SKF.If required we will be glad to support cus-tomers to select suitable components for feeding the selected lubricant and to plan and design their centralized lubrication system.You will avoid possible downtimes through damage to your machine or system or damage to the centralized lubrication system.
2.3 Material compatibility
Lubricants must generally be compatible with the following materials: ○ steel, grey iron, brass, copper, aluminium
○ NBR, FPM, ABS, PA, PU
2.4 Temperature characteristics
The lubricant used must be suitable for the specific operating temperature of the product. The viscosity required for proper operation of the product must be adhered to and must not be exceeded in case of low temperatures nor fall below specification in case of high temperatures. Specified vis-cosities, see chapter Technical data.
The ignition temperature of the lubricant must lie at least 50 K over the maximum surface temperature of the components.
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EN 2. Lubricants
Only lubricants specified for the product (see chapter Technical data) may be used. Unsuitable lubricants may lead to a failure of the product.
Do not mix lubricants. This may have unforeseeable effects on the usability and therefore on the function of the centralized lubrication system.
When handling lubricants the relevant safety data sheets and hazard designations, if any, on the packaging have to be observed.
2.5 Ageing of lubricants
After a prolonged downtime of the machine, the lubricant must be inspected prior to re-commissioning as to whether it is still suitable for use due to chemical or physical ageing. We recommend that you undertake this inspection already after a machine downtime of 1 week. If doubts arise as to a further suitability of the lubricant, please replace it prior to re-commissioning and, if necessary, undertake initial lubrication by hand.It is possible for lubricants to be tested in the company's laboratory for their suitability for being pumped in centralized lubrication systems (e.g. "bleeding").Please contact SKF. if you have further questions regarding lubricants. You may request an overview of the lubri-cants tested by SKF.
Due to the multitude of possible additives, individual lubricants, which according to the manu-facturer's data sheets fulfil the necessary specification, may not, in fact, be suitable for use in centralized lubrication systems (e. g. incompatibility between synthetic lubricants and materi-als). In order to avoid this, always use lubricants tested by SKF.
3
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EN3. Overview, functional description
3. Overview, functional description
1 Reservoir lid with earthingThe terminal box for connection of the low-level indication and any further filling-level sensors is located on the reservoir lid. The reservoir lid is connected to the reservoir and the pump earthing system via an earth strap.
2 Reservoir with earthingThe lubricant is stored in the reservoir.Depending on the pump version there are dif-ferent types of reservoirs.
3 Pump elementsThe pump can be operated with up to 15 pump elements, Type and number of the pump elements installed to the newly supplied pumps, see type identification code. Unused outlets are closed with closure screws (3a).
Overview Fig. 1
1
2
3
3a
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EN 3. Overview, functional description
4 Pump housingThe pump housing serves to fasten the pump to the base. Either pump elements or closure screws are screwed into the pump housing.
5 GearThe gear reduces the motor speed to the nec-essary speed of the pump.
6 MotorThe motor drives the pump. Depending on the pump version there are available different types of motors
Overview Fig. 2
4
5 6
3
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EN3. Overview, functional description
Overview Fig. 3Operating principle:The gear (5) reduces the speed of the motor (6) to the required speed of the pump's ec-centric shaft. The eccentric shaft drives the pump elements (3) and the stirring paddle in the reservoir.
The stirring paddle hom*ogenizes and ven-tilates the lubricant and pushes it in the direction of the suction boreholes of the pump elements (3).
The pump elements (3) supply the lubricant via the pistons' movements. Here it is dis-tinguished between the suction phase (suc-tion of lubricant out of the reservoir) and the pressure phase (supply of lubricant into the lubrication line).
Where applicable, one or two sensors de-tect the filling level of the lubricant in the reservoir. When reaching the minimum or maximum admissible quantity a low-level respectively high-level signal is given.
5 6
3
EN 4. Technical data
- 28 -951-181-010-ENVersion 07
4. Technical data
4.1 Mechanical data
Admissible operating pressure max. 350 bar1)
Pump elements max. 15
Approved lubricant consistenciesReservoir variants for grease Lubricating greases up to NLGI 2
Reservoir variants for oil Lubrication oils of at least 40 mm2/s at operating temperature
Installation position Vertical, i.e. reservoir at top. Deviation 5 ° max.
Direction of rotation Clockwise. Observe the arrow on the reservoir.
sound pressure level < 70 dB (A)
Filling Reservoir lid / if available, filling port
Installation height max. 1.000 m above sea level
Weight of the empty pump between 28 kg and 45 kg2)
Maximum dust thickness < 5 mm3)
Ratio i = 97:1
Permitted speedsWhen supplying the pump without motor and gear, the following speeds must be maintained absolutely by selecting a suitable motor and gear.
Painting
All (painted) components of the pump are painted following the requirements of DIN EN 60079-0:2014 (electrostatic charge). Should a new painting be required, for example, after repair or corrosion, etc., make sure to comply with the requirements of DIN EN 60079-0:2014. Carefully mask all seals before painting. Ensure that the painting is compatible with the sealing materials employed.
1) All systems parts must be designed for the maximum operating pressure. Each pump element must be secured against higher pressures using a suitable pressure control valve.2) Weight depending on the equipment variant (number of pump elements, motor and gear variants, reservoir size). Further to this weight there must be added the weight of the lubricant in the reservoir and, if applicable, the weight of the base plate and of the coupling.3) When planning the temperature range, additionally consider the thermally insulating dust.
4
EN4. Technical data
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4.2 Electrics:
Connection must be done in such way that a permanent, safe electrical connection can be maintained (use safe protective conductor connection
and dedicated cable ends; avoid protruding wire ends). Make sure that there are no foreign particles, dirt or humidity in the terminal box. Close
the terminal box dust- and watertight.
Electrical connection
In addition to the general valid installation prescriptions for electrical systems, the electrical connection is carried out in accordance with the respective applicable ATEX regulations, for example:
DIN EN 60079-14:2014, VDE 0165-1:2014DIN EN 60079-17:2014ElexV
Tolerance of input voltage ±5 % The waveform and mains symmetry must be maintained so that the motor heat-up remains within the permitted limits.Tolerance of supply voltage ±2 %
Electrical connection ratings of the motor
See type identification plate or rating plate of the motor or corresponding part number in chapter Technical data of the motors
IP types of protectionGear Sensors Motor
65 67 see Technical data of the motors
Low level indication / high level indication
The low level indication / high level indication is realized with one respectively two capacitive proximity switches depending on the equipment version.
Minimum distance to live parts
following DIN EN 60079-7:2014 / VDE 0170-6:2014
Nominal voltage Distance of motor Ex-category 2
≤ 500 V AC 5.0 mm
> 500 V AC ≤ 690 V AC 5.5 mm
EN 4. Technical data
- 30 -951-181-010-ENVersion 07
Nominal output volumes
Pump element K6 K7
Nominal output per pump element and stroke 0.16 cc 0.23 cc
The stated nominal outputs per stroke refer to NLGI II lubricating greases at an operating temperature of + 20 °C and a backpressure of 100 bar on the pump element. Deviating operating conditions or deviating pump configuration result in a changed motor speed and thus in a change of the actual output per time unit. If as a consequence of the changed motor speed the output per time unit needs to be adapted, this will be done by adapting the lubrication and pause time settings of the pump.
4.2.1 Influencing variables on the actual output volume
Operating temperature > + 20 °C á < + 20 °C â Consistency class of lubricant > NLGI 2 â < NLGI 2 á
Number of pump elements > 1 piece â Back pressure < 100 bar á > 100 bar â
4.2.2 Output diagrams of typical NLGI 2 lubricants
Low temperature lubrication grease High temperature lubrication grease
Ou
tpu
t in
per
cen
t
6020 30 40 50-30 -10 0 10-20
100
90
80
70
60
50
40
110
°C
Example: high temperature greaseNominal speed of the pump motor per minute x nominal output of the K7 pump element per stroke x efficiency in percent at an assumed operating temperature of -10 °C = 20 rpm x 0.22 cc x 80 % = 3.50 cc/min.
6020 30 40 50-30 -10 0 10-20
100
90
80
70
60
50
40
110
°C
4
EN4. Technical data
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4.3 Tightening torques
The stated tightening torques must be adhered to.
Pump element with housing 25 Nm - 2.5 Nm
Pressure control valve 6 Nm ± 0.6 Nm
Closure screw with housing 14 Nm ± 0,1 Nm
Filling connection / return line 10 Nm ± 0,1 Nm
Lubrication fitting / adaptor for lubrication fitting 10 Nm ± 0,1 Nm
Reservoir with pump housing 25 Nm ± 0.25 Nm
Terminal box with reservoir lid 4 Nm ± 0.4 Nm
Earthing connection lid / reservoir 8 Nm ± 0.8 Nm
If no tightening torques are stated for screw connections, the tightening torques are to be applied according to the properties of 8.8 screws.
EN 4. Technical data
- 32 -951-181-010-ENVersion 07
4.4 Overview of pump versions
Part number Designation on the type identification plate Motor reservoir SensorAmbient tempera-
ture range Explosion protection markingmin. max.
660-46690-4 P215-MG97- 10XL - 2K7-400 KAP. EEX 1 3 A - 20 °C + 40 °C II 2G Ex h IIC T4 Gb II 2D Ex h IIIC T120°C Db
660-46690-6 P215-MG97- 10XL - 4K7-400 KAP. EEX 1 2 A - 20 °C + 40 °C II 2G Ex h IIC T4 Gb II 2D Ex h IIIC T120°C Db
660-41264-1 P215-F097- 10XYN -2K7 EEX 1 - 20 °C + 40 °C II 2G Ex h IIC T4 Gb II 2D Ex h IIIC T120°C Db
660-41269-1 P215-F097- 30XL - 1K6 KAP. EEX 4 B - 20 °C + 40 °C II 2G Ex h IIB T4 Gb II 2D Ex h IIIC T120°C Db
660-41270-1 P215-MG97- 30XL - 3K7-000 KAP. EEX 5 A - 20 °C + 40 °C II 2G Ex h IIC T4 Gb II 2D Ex h IIIC T120°C Db
660-41269-2 P215-F097- 30XYN -5K7 EEX 7 - 20 °C + 40 °C II 2G Ex h IIC T4 Gb II 2D Ex h IIIC T120°C Db
660-46647-6 P215-F097- 30XYN - 5K7-400 GRD.PL EEX 10 7 - 20 °C + 40 °C II 2G Ex h IIC T4 Gb II 2D Ex h IIIC T125°c Db
660-41270-2 P215-MG97- 30XYN -....-000 EEX 7 - 20 °C + 55 °C II 2G Ex h IIC T4 Gb II 2D Ex h IIIC T120°C Db
660-46776-3 P215-MG97- 30XL - 8K7-500 KAP. EEX 5 5 A - 20 °C + 40 °C II 2G Ex h IIC T4 Gb II 2D Ex h IIIC T120°C Db
660-46776-4 P215-MG97- 30YLP - 4K6-500 KAP. EEX 5 6 A - 20 °C + 40 °C II 2G Ex h IIC T4 Gb II 2D Ex h IIIC T120°C Db
660-41270-3 P215-MG97- 10XL - 4K6-415 KAP. EEX 4 3 A - 20 °C + 55 °C II 2G Ex h IIC T3 Gb II 2D Ex h IIIC T120°C Db
660-41270-4 P215-MG97- 30XYN - 2K7-480 EEX 6 7 - 20 °C + 40 °C II 2G Ex h IIC T4 Gb II 2D Ex h IIIC T120°C Db
660-46776-8 P215-MG97- 30YLP -14K6-400 KAP. EEX 1 6 A - 20 °C + 40 °C II 2G Ex h IIC T4 Gb II 2D Ex h IIIC T120°C Db
660-41270-6 P215-MG97- 30XL - 1K7-690 KAP. EEX 3 5 A - 20 °C + 55 °C II 2G Ex h IIC T3 Gb II 2D Ex h IIIC T120°C Db
660-41378-1 P215-MG97 -30XL - 4K7-400 KAP.EEX 9 5 A - 20 °C + 55 °C II 2G Ex h IIC T3 Gb II 2D Ex h IIIC T120°C Db
660-41378-2 P215-MG97 -30XB - 3K7-400 KAP.EEX 9 9 A - 20 °C + 55 °C II 2G Ex h IIC T3 Gb II 2D Ex h IIIC T120°C Db
660-41378-3 P215-MG97 -30XL -4K7-400 KAP.EEX 1 5 A - 20 °C + 40 °C II 2G Ex h IIC T4 Gb II 2D Ex h IIIC T120°C Db
660-41378-4 P215-MG97 -10XL -1K7-400 KAP.EEX 1 2 A - 20 °C + 40 °C II 2G Ex h IIC T4 Gb II 2D Ex h IIIC T120°C Db
The indicated temperature range of the pump presupposes the suitability of the lubricant used for the respective actually existing ambient tem-perature. Using a lubricant not suitable for the actual ambient temperature may, in case of low temperatures, result in a blockade of the pump due to a too high lubricant viscosity. The ignition temperature of the lubricant must lie at least 50 K over the maximum surface temperature of the components.
4
EN4. Technical data
- 33 - 951-181-010-ENVersion 07
Part number Designation on the type identification plate Motor reservoirSensorAmbient tempera-
ture range Explosion protection markingmin. max.
660-46776-6 P215-MG97-10XL -2K6-480 KAP.EEX VN1410 2 3 A - 20 °C + 55 °C II 2G Ex h IIC T3 Gb II 2D Ex h IIIC T120°C Db
660-46776-9 P215 -MG97-10XL -1K7-400 KAP.EEX VN1410 8 3 A - 20 °C + 40 °C II 2G Ex h IIC T4 Gb II 2D Ex h IIIC T120°C Db
660-41270-5 P215-MG97- 10XL - 4K6-690 KAP. EEX VN1410 7 3 A - 20 °C + 55 °C II 2G Ex h IIC T3 Gb II 2D Ex h IIIC T120°C Db
660-41270-7 P215-MG97 -30XL - 6K7-400 KAP.EEX 9 5 A - 20 °C + 55 °C II 2G Ex h IIC T3 Gb II 2D Ex h IIIC T120°C Db
660-41270-8 P215-MG97-10XL - 1K6-400 KAP. EEX 9 2 A - 20 °C + 55 °C II 2G Ex h IIC T3 Gb II 2D Ex h IIIC T120°C Db
660-41270-9 P215-MG97- 10XYN - 1K7-400 EEX 11 1 - 20 °C + 55 °C II 2G Ex h IIC T3 Gb II 2D Ex h IIIC T120°C Db
660-46907-3 P215-MG97- 10XL - 2K6-690 KAP.EEX X 12 2 A - 20 °C + 45 °C II 2G Ex h IIC T3 Gb
660-46776-7 P215-MG97-30XL - 1K7-000 KAP.EEX 8 C - 20 °C + 55 °C II 3G Ex h IIC T4 Gc II 3D Ex h IIIC T120°C Dc
660-46907-1 P215-MG97-10XL - 2K6- 690 KAP EEX GEDA X 13 2 A - 20 °C + 50 °C II 2G Ex h IIC T3 Gb II 2D Ex h IIIC T120°C Db
660-46907-7 P215-MG97- 30XB - 1K6-500 KAP. EEX BASF 5 9 A - 20 °C + 40 °C II 2G Ex h IIC T4 Gb II 2D Ex h IIIC T120°C Db
660-46907-8 P215-MG97- 30XB - 1K6-500 KAP. EEX BASF 5 9 A - 20 °C + 40 °C II 2G Ex h IIC T4 Gb II 2D Ex h IIIC T120°C Db
660-47157-1 P215-MG97-10XB-4K7-400 KAP.EEX 8 10 A - 20 °C + 40 °C II 2G Ex h IIC T4 Gb II 2D Ex h IIIC T120°C Db
660-47157-2 P215-MG97-10XL-2K6-415 KAP.EEX VN1410 7035 14 3 A - 20 °C + 55 °C II 2G Ex h IIC T3 Gb II 2D Ex h IIIC T120°C Db
6600-00000005 P215-MG97-10XL-2K6-500 KAP. EEX 5 3 A - 20 °C + 55 °C II 2G Ex h IIC T3 Gb II 2D Ex h IIIC T120°C Db
6600-90000003 P215-MG97-10XL-2K6-400 KAP. EEX N1410 7035 15 2 A - 20 °C + 55 °C II 3G Ex h IIB T3 Gc II 3D Ex h IIIC T120°C Dc
The indicated temperature range of the pump presupposes the suitability of the lubricant used for the respective actually existing ambient tem-perature. Using a lubricant not suitable for the actual ambient temperature may, in case of low temperatures, result in a blockade of the pump due to a too high lubricant viscosity. The ignition temperature of the lubricant must lie at least 50 K over the maximum surface temperature of the components.
EN 4. Technical data
- 34 -951-181-010-ENVersion 07
4.5 Technical data of motor variants
Assignment to a certain pump type, see table 4.4 Overview of pump variants
Part number Type of motor Manufacturer1
245-13997-4 EDRS71S4 SEW
Rated voltage V 230 400 V AC Operating mode S1
Circuit Design B14
Rated frequency f 50 50 Hz Size 71
Rated power P 0.25 0.25 KW Degree of protection IP 65
Rated speed n 1405 1405 rpm Insulation class F / B
Nominal current lN 1.5 0.86 A Flange 105
Starting current 5.55 3.18 A Shaft Ø 14 x 30 mm
Efficiency h 66.4 %
Performance factor cos j 0.67
Part number Type of motor Manufacturer2
245-00100-7 EDRS71S4 SEW
Rated voltage V 277 480 V AC Operating mode S1
Circuit Design B14
Rated frequency f 60 60 Hz Size 71
Rated power P 0.25 0.25 KW Degree of protection IP 65
Rated speed n 1705 1705 rpm Insulation class F / B
Nominal current lN 0.72 0.72 A Flange 105
Starting current 2.88 2.88 A Shaft Ø 14 x 30 mmEfficiency h 72.2 %Performance factor cos j 0.67
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EN4. Technical data
- 35 - 951-181-010-ENVersion 07
Part number Type of motor Manufacturer3
245-00105-1 EDRS71S4/FT/2GD/AL SEW
Rated voltage V 380-420 655-725 V AC Operating mode S1
Circuit Design B14
Rated frequency f 50 50 Hz Size 71
Rated power P 0.25 0.25 KW Degree of protection IP 65
Rated speed n 1405 1405 rpm Insulation class F / B
Nominal current lN 0.86 0.5 A Flange 105
Starting current 3.7 x rated current A Shaft Ø 14 x 30 mm
Efficiency h 66 %
Performance factor cos j 0.67
Part number Type of motor Manufacturer4
245-00104-3 EDRS71S4 SEW
Rated voltage V 240 415 V AC Operating mode S1
Circuit Design B14
Rated frequency f 60 60 Hz Size 71
Rated power P 0.25 0.25 KW Degree of protection IP 65
Rated speed n 1405 1405 rpm Insulation class F / B
Nominal current lN 1.43 0.83 A Flange 105
Starting current 05:29 03:07 A Shaft Ø 14 x 30 mm
Efficiency h 66.4 %
Performance factor cos j 0.67
EN 4. Technical data
- 36 -951-181-010-ENVersion 07
Part number Type of motor Manufacturer5
245-13919-9 EDRS71S4 SEW
Rated voltage V 290 500 V AC Operating mode S1
Circuit Design B14
Rated frequency f 50 50 Hz Size 71
Rated power P 0.25 0.25 KW Degree of protection IP 65
Rated speed n 1405 1405 rpm Insulation class F / B
Nominal current lN 1.19 0.69 A Flange 105
Starting current 4.40 2.55 A Shaft Ø 14 x 30 mm
Efficiency h 66.4 %
Performance factor cos j 0.67
Part number Type of motor Manufacturer6
245-00104-4 EDRS71S4 SEW
Rated voltage V 277 480 V AC Operating mode S1
Circuit Design B14
Rated frequency f 60 60 Hz Size 71
Rated power P 0.25 0.25 KW Degree of protection IP 65
Rated speed n 1705 1705 rpm Insulation class F / B
Nominal current lN 1.24 0.72 A Flange 105
Starting current 4.96 2.88 A Shaft Ø 14 x 30 mm
Efficiency h 72.2 %
Performance factor cos j 0.67
4
EN4. Technical data
- 37 - 951-181-010-ENVersion 07
Part number Type of motor Manufacturer7
245-00104-6 EDRS71S4 SEW
Rated voltage V 400 690 V AC Operating mode S1
Circuit Design B14
Rated frequency f 50 50 Hz Size 71
Rated power P 0.25 0.25 KW Degree of protection IP 65
Rated speed n 1405 1405 rpm Insulation class F / B
Nominal current lN 0.86 0.5 A Flange 105
Starting current 3.18 1.85 A Shaft Ø 14 x 30 mm
Efficiency h 66.4 %
Performance factor cos j 0.67
Part number Type of motor Manufacturer8
245-13960-9 EDRS71S4 SEW
Rated voltage V 230 400 V AC Operating mode S1
Circuit Design B14
Rated frequency f 50 50 Hz Size 71
Rated power P 0.25 0.25 KW Degree of protection IP 65
Rated speed n 1405 1405 rpm Insulation class F / B
Nominal current lN 1.5 0.86 A Flange 105
Starting current 5.55 3.18 A Shaft Ø 14 x 30 mm
Efficiency h 66.4 %
Performance factor cos j 0.67
EN 4. Technical data
- 38 -951-181-010-ENVersion 07
Part number Type of motor Manufacturer9
245-00104-8 EDRS71S4 SEW
Rated voltage V 230 400 V AC Operating mode S1
Circuit Design B14
Rated frequency f 50 50 Hz Size 71
Rated power P 0.25 0.25 KW Degree of protection IP 65
Rated speed n 1405 1405 rpm Insulation class F / B
Nominal current lN 1.5 0.86 A Flange 105
Starting current 5.55 3.18 A Shaft Ø 14 x 30 mm
Efficiency h 66.4 %
Performance factor cos j 0.67
Part number Type of motor Manufacturer10
245-13997-7 M3KP80MA4 ABB
Rated voltage V 230 400 V AC Operating mode S1
Circuit Design B3
Rated frequency f 50 50 Hz Size 80
Rated power P 0.55 0.55 KW Degree of protection IP 65
Rated speed n 1500 1418 rpm Insulation class F / B
Nominal current lN 1.41 1.41 A Flange 105
Starting current 6.62 6.62 A Shaft Ø 14 x 30 mm
Efficiency h 75.2 %
Performance factor cos j 0.71
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EN4. Technical data
- 39 - 951-181-010-ENVersion 07
Part number Type of motor Manufacturer11
245-00105-6 EDRS71S4 SEW
Rated voltage V 230 400 V AC Operating mode S1
Circuit Design B14
Rated frequency f 50 50 Hz Size 71
Rated power P 0.25 0.25 KW Degree of protection IP 66
Rated speed n 1405 1405 rpm Insulation class F / B
Nominal current lN 1.50 0.86 A Flange 105
Starting current 5.55 3.2 A Shaft Ø 14 x 30 mm
Efficiency h 66.4 %
Performance factor cos j 0.67
Part number Type of motor Manufacturer12
245-00105-8 ENGV-071BS-04E SIEMENS
Rated voltage V 400 690 V AC Operating mode S1
Circuit Design B14
Rated frequency f 50 50 Hz Size 71
Rated power P 0.37 0.37 KW Degree of protection IP 56
Rated speed n 1395 1395 rpm Insulation class F / B
Nominal current lN 1.50 0.86 A Flange 105
Starting current 4.7 x rated current A Shaft Ø 14 x 30 mm
Efficiency h 75 %
Performance factor cos j 0.75
EN 4. Technical data
- 40 -951-181-010-ENVersion 07
Part number Type of motor Manufacturer13
245-00105-3 EDRS71S4/FT/2GD/AL SEW
Rated voltage V 400 690 V AC Operating mode S1
Circuit Design B14
Rated frequency f 50 50 Hz Size 71
Rated power P 0.25 0.25 KW Degree of protection IP 65
Rated speed n 1405 1405 rpm Insulation class F / B
Nominal current lN 0.86 0.5 A Flange 105
Starting current 3.7 x rated current A Shaft Ø 14 x 30 mm
Efficiency h 66 %
Performance factor cos j 0.67
Part number Type of motor Manufacturer14
245-00109-7 EDRS71S4 SEW
Rated voltage V 240 415 V AC Operating mode S1
Circuit Design B14
Rated frequency f 60 60 Hz Size 71
Rated power P 0.25 0.25 KW Degree of protection IP 65
Rated speed n 1405 1405 rpm Insulation class F / B
Nominal current lN 1.43 0.83 A Flange 105
Starting current 05:29 03:07 A Shaft Ø 14 x 30 mm
Efficiency h 66.4 %
Performance factor cos j 0.67
4
EN4. Technical data
- 41 - 951-181-010-ENVersion 07
Part number Type of motor Manufacturer15
2450-00000003 EDRN71MS4/FT/3GD/KCC/AL SEW
Rated voltage V 230 400 V AC Operating mode S1
Circuit Design B14
Rated frequency f 50 50 Hz Size 71
Rated power P 0.25 0.25 KW Degree of protection IP 65
Rated speed n 1400 1400 rpm Insulation class F / B
Nominal current lN 1.41 0.81 A Flange 105
Starting current 5,92 3,4 A Shaft Ø 14 x 30 mm
Efficiency 50/75/100 % h 70,1 / 73,5 / 73,5 % Efficiency class IE3
Performance factor cos j 0.67
EN 4. Technical data
- 42 -951-181-010-ENVersion 07
4.6 Reservoir versions
Assignment to a certain pump type, see table 4.4 Overview of pump variants
10 XYN 10 XL 30 XL 30 YLP 30 XYN
No. Part number No. Part number No. Part number No Part number No. Part number1 660-77404-1 2 660-46720-1 4 660-46720-4 6 660-46308-1 7 660-77423-1
3 660-46720-2 5 660-46611-98 660-46808-4
30 XB 10 XB
No. Part number No. Part number9 660-78133-1 10 660-46720-3
4
EN4. Technical data
- 43 - 951-181-010-ENVersion 07
4.7 Capacitive sensors
Assignment to a certain pump type, see table 4.4 Overview of pump variants
Part numbers 664-34621-2 (aligned for grease) / 664-34621-5 (aligned for oil)A
Rated operating distance Sn
flush installation 5 mmExplosion protection marking
II 2G Ex ia IIC T6 Gb
non-flush installation 7.5 mm II 1D Ex ia IIIC IP 67 T 115 °C Da
Secured switching distance (0.72 x Sn) mm Design Threaded tube M 18 x 1
Hysteresis 1…..20 % Dimensions 74 mm
Temperature drift ≤ ± 20 % Housing material Plastic PA12-GF30
Repeatability ≤ 2 % Material of active surface Plastic PA12-GF30
Ambient temperature -25 °C - +70 °C Admissible pressure onto front cap ≤ 6 barVoltage nominal 8.2 VDC Max. tightening torque of housing nut 2 Nm
Current consumption, not activated ≤ 1.2 mA Connection Cable
Current consumption, activated ≥ 2.1 mA Cable quality Ø 5.2 LiYY, PVC, 2 m
Switching frequency 0.1 kHz Cable cross section 2 x 0.34 mm2
Output function 2-wire NAMUR Vibration resistance 55 Hz (1mm)
Internal capacity (Ci) 150 nF Shock resistance 30 g (11ms)
Inductivity (Li) 150 µH Degree of protection IP 67
Approvals KEMA 02 ATEX 1090X MTTF 448 years following SN 29500 40 °C
Fine adjustment Potentiometer Switching status display LED, yellow
6070
M1
8 x
1
Pot.LED
74 Connection diagram
EN 4. Technical data
- 44 -951-181-010-ENVersion 07
Part number 664-34621-4 (aligned for grease)B
Installation flush installationExplosion protection marking
II 2G Ex ia IIC T6 Ga
Rated switching distance 15 mm (adjustable) II 1D Ex ia IIIC T 90 °C Da
Secured switching distance (Sr) 15 mm ± 10 % Design Plastic thread M30 x 1,5
Hysteresis 1…..15 % Dimensions 99 mm
Temperature drift ≤ ± 15 % Housing material PBT
Repeatability ≤ 2 % Connection Cable
Ambient temperature -20 °C - +60 °C Cable quality PVC, 2 m
Voltage 8.2 V DC (1 kΩ) Cable cross section 2 x 0.5 mm2
Current consumption, not activated ≤ 1 mA Degree of protection IP 65
Current consumption, activated ≥ 2.2 mA MTTF 841 years
Switching frequency 0.04 kHz Switching status display LED, yellow
Output function 2-wire NAMUR Fine adjustment Potentiometer
Internal capacity (Ci) 375 nF Inductivity (Li) 1 µH
Approvals DMT 01 ATEX E 020 / TIIS TC15627 / IECEx BVS 06.0003
5981
M3
0 x
1,5
18
Pot.LED
Connection diagram
Connection only to certified intrinsically safe circuits with maximum values U = 15 V / I = 50 mA / P 0 120 mW
4
EN4. Technical data
- 45 - 951-181-010-ENVersion 07
Part numbers 664-34621-6 (aligned for grease)C
Rated operating distance Sn
flush installation 3 mmExplosion protection marking
II 3G Ex nA IIC T5 Gc
non-flush installation 4.5 mm II 3D Ex t IIIC T 91 °C Dc
Secured switching distance ≤ (0,72 x Sn) mm Design Threaded tube M 12 x 1
Hysteresis 2…..20 % Dimensions 63 mm
Temperature drift typ. ± 20 % Housing material Plastic PA
Repeatability ≤ 2 % Material of active surface Plastic PA
Ambient temperature -25 °C - +70 °C Admissible pressure onto front cap ≤ 8 barVoltage 10...30 V DC Max. tightening torque of housing nut 1 Nm
No-load current ≤ 15 mA Connection Cable
Residual current ≤ 0.1 mA Cable quality Ø 5,2 LifYY-11Y, PUR, 2 m
Switching frequency 0.1 kHz Cable cross section 3 x 0,34 mm2
Output function 3-wire, NC contact, PNP Vibration resistance 55 Hz (1mm)
Short-circuit protection Yes, clocking Shock resistance 30 g (11ms)
Wire breaks protection/ reverse polar-ity protection
Yes / Complete Degree of protection IP 67
Approvals TURCK Ex-03025HX MTTF 1080 years following SN 29500 40 °C
Fine adjustment Potentiometer Switching status display LED, yellow
Residual ripple ≤ 10 % Uss DC rated operating current ≤ 200 mAIsolation test voltage ≤ 0,5 kV Voltage drop at Ie ≤ 1,8 V
4059,5
M1
2 x
1 Pot.
LED
63 Connection diagram
pnp
BN
BU
BK
+
EN 5. Delivery, returns, and storage
- 46 -951-181-010-ENVersion 07
5. Delivery, returns, and storage
5.1 Delivery
After receipt of the shipment, check the shipment for damage and completeness according to the shipping documents. Im-mediately report any transport damages to the forwarding agent. Keep the packaging material until any dis-crepancies are resolved. During in-house transport ensure safe handling.
5.2 Returns
Clean all parts and pack them properly (i.e. following the regulations of the recipient country) before returning them. Protect the product against mechanical influences such as impacts. There are no restrictions for land, sea or air transport. Mark returns on the packaging as follows.
5.3 Storage
Before application inspect the products with regard to possible damages occurred during their storage. This particularly applies for parts made out of plastic and rubber (embrittlement) as well as for components primed with lubricant (ageing).
SKF products are subject to the following storage conditions: ○ the admissible storage temperature
range corresponds to that of the operat-ing temperature (see Technical data)
○ dry, dust- and vibration-free in closed premises
○ no corrosive, aggressive materials at the place of storage (e. g. UV rays, ozone)
○ protected against pests and animals
○ in the original product packaging
○ shielded from nearby sources of heat and coldness
○ in case of high temperature fluctuations or high humidity take adequate measures (e. g. heater) to prevent the formation of condensation water.
5.3.1 Corrosion protection
The corrosion protection (e. g. on the inside of the reservoir) should be verified and re-newed every 6 - 12 months corresponding to the conditions at the place of storage. We recommend: ○ Henkel Teroson FLuid DS 150 ML VE 12
○ OKS 450 chain and adhesive lubricating oil
5.3.2 Special storage conditions of the motor
○ Do not store the motor on the fan cover.
○ After a longer period of storage, make sure to check the insulation resistance of the motor.
○ In case of a storage > 1 year make sure to consider the bearing grease's service life that will be reduced by 10% per year.
5
EN5. Delivery, returns, and storage
- 47 - 951-181-010-ENVersion 07
5.4 Special storage conditions for parts primed with lubricant
The conditions mentioned in the following will have to be adhered to when storing products primed with lubricant,
5.4.1 Storage period of up to 6 months
The primed products can be used without having to take further measures.
5.4.2 Storage period from 6 to 18 months
Pump• Connect the pump electrically.
• Switch the pump on and let it run until about 4 cc of lubricant will leak from each pump element.
• Switch the pump off and disconnect it from the electrical grid.
• Remove and dispose of leaked lubricant.
Metering device• Remove all connection lines and closure
screws, if any.
• Connect the pump primed with new lubrication grease suitable for the appli-cation purpose to the divider bar in such way that the opposite port of the divider bar remains open.
• Let the pump run until new lubricant leaks from the divider bar.
• Remove leaked lubricant.
• Reinstall closure screws and connection lines.
Lines• Dismantle preassembled lines.
• Ensure that both line ends remain open.
• Prime lines with new lubricant.
5.4.3 Storage period exceeding 18 months
To avoid dysfunctions consult the manufac-turer before commissioning. The general procedure to remove the old grease filling corresponds to that of a storage period from 6 to 18 months.
EN 6. Installation
- 48 -951-181-010-ENVersion 07
6. Installation
6.1 General information
Only qualified technical personnel may install the products described in these Instructions.During assembly pay attention to the following: ○ Other units must not be damaged by the
assembly.
○ The product must not be installed within the range of moving parts.
○ The product must be installed at an ad-equate distance from sources of heat and coldness.
○ Observe the product's IP type of protection.
○ Adhere to safety distances and legal pre-scriptions on assembly and prevention of accidents.
6.2 Place of installation
Protect the product against humidity, dust and vibrations and install it in an easily ac-cessible position to facilitate other installa-tion and maintenance works.
○ Possibly existing visual monitoring de-vices, e.g. pressure gauges, MIN/MAX markings or piston detectors, must be clearly visible.
○ Observe prescriptions in the Technical data (chapter 4) regarding the installation position.
WARNING
Risk of explosionWhen carrying out installation works on explosion-protected machines, observe the legal and operational prescriptions.If the works are not carried out by the manufacturer, authorized and qualified personnel only is allowed to carry out such works. Works then have to be reviewed by a qualified and officially recognised person.Any installation work may be car-ried out only provided there is no explosive atmosphere at the place of installation.
6
EN6. Installation
- 49 - 951-181-010-ENVersion 07
6.3 Mechanical connection
6.3.1 Minimum assembly dimensions
Ensure sufficient space for maintenance or repair work or for assembly of further components of the centralized lubrication system by leaving a free space of at least 100 mm into each direction in addition to the stated dimensions.
The distance between the mo-tors’ air intakes and any obstacle must total to at least 40 mm. En-sure that the air can flow into the motor without hindrance. Out-flowing air must not be sucked in again directly.
Minimum assembly dimensions Fig. 4
A B
C*
SEW motor ABB motor SIEMENS motor Without motor
reservoirA
Width (mm)
B Depth (mm)
C# Height (mm)
A Width (mm)
B Depth (mm)
C# Height (mm)
A Width (mm)
B Depth (mm)
C# Height (mm)
A Width (mm)
B Depth (mm)
C# Height (mm)
10 XYN 360 260 545
10 XL 480 260 580 550 260 580
10 XB
30 XYN 485 330 780 800* 600* 900* 330 325 780
30 XL 485 330 815 380 325 815
30 YLP 485 330 815
30 XB 485 330 815# additional free space requirement to remove the reservoir lid upwards = 190 mm * with base plate
EN 6. Installation
- 50 -951-181-010-ENVersion 07
Installation bores Fig. 56.3.2 Installation bores
NOTICE
Damage to the pumpFastening may not be done on two parts moving against one another (machine bed and machine assembly).
The product is fastened to the 4 mounting bores (7). Drill the mounting bores on non load-bearing parts only.Fastening is done by means of:4 x screw M10 (screw strength class 8.8)4 x hex nut M104 x washer 10C
Tightening torque = 30 Nm ± 3 Nm
11.5
22
100 7
7
6
EN6. Installation
- 51 - 951-181-010-ENVersion 07
Installation bores Fig. 66.3.3 Pump to base plate
NOTICE
Damage to the pumpFastening may not be done on two parts moving against one another (machine bed and machine assembly).
The product is fastened to the 4 mounting bores (7). Drill the mounting bores on non load-bearing parts only.Fastening is done by means of:4 x screw M16 (screw strength class 8.8)4 x hex nut M164 x washer 16C
Tightening torque =100 Nm ± 10 Nm
18
50
760
7
7
EN 6. Installation
- 52 -951-181-010-ENVersion 07
Electrical connection, Fig. 76.4 Electrical connection ratings of the motor
WARNING
Electric shockMake sure to disconnect the product from the power supply before carrying out any works on electrical components.
WARNING
Risk of explosionConnect the product to the equi-potential bonding of the superior machine. Check the electrical continuity before the initial start-up.
Electrical connection of the motor follows the indications on the connection diagram in the terminal box (8) of the motor.
8
6
EN6. Installation
- 53 - 951-181-010-ENVersion 07
Correct connection of the protective conductor in the terminal box Fig. 8 6.5 Protective conductor connection of SEW motors
To connect the protective conductor in the terminal box (8) of the motor use a cable lug. The cable lug and the motor housing must be separated by means of a washer (9).
Connect the cables in such way that no mechanical forces are transferred to the product.
6.6 Electrical connection of the low-level indication
Electrical connection of the low-level indication follows the respective technical data of the sensor in these instructions. In addition, indications regarding the switch amplifier and, if applicable, those of other devices to be connected by the operator have to be observed.
9
8
EN 6. Installation
- 54 -951-181-010-ENVersion 07
6.7 Lubrication line connection
CAUTION
Risk of fallingExercise care when dealing with lubricants. Immediately absorb and remove and leaked lubricant.
Connect lubrication lines in such way that no forces are transferred to the product (tension-free connection).
All components of the centralized lubrica-tion system must be laid out for: ○ the maximum arising pressure
○ the admissible temperature range
○ the output volume and the lubricant to be supplied
Protect the centralized lubrica-tion system against too high pressure by means of a suit-able pressure relief valve.
Observe the following installation instruc-tions for safe and smooth operation. ○ Use clean components and primed lubri-
cation lines only.
○ The main lubrication line should be laid preferably rising with a possibility to vent it at its highest point. Lubrication lines shall generally be laid in such way that there can never be created air pockets at any point.
○ Mount the lubricant metering devices at the end of the main lubrication line in such way that the outlets of the lubricant metering devices show upwards.
○ If lubricant metering devices have to be mounted below the main lubrication line, then this should not be done at the end of the main lubrication line.
○ The lubricant flow should not be impeded by the installation of sharp elbows, angle valves, gaskets protruding to the inside, or cross-section changes (big to small). Provide unavoidable changes of the cross sections in the lubrication lines with as smooth transitions as possible.
○ Use grounded steel tube lines only.
6
EN6. Installation
- 55 - 951-181-010-ENVersion 07
Adjusting the output volume on the pump element Fig. 96.8 Adjusting the output volume on the pump element
The output of the pump ele-ments can be modified also during pump operation.
To set the output volume proceed as follows:
• Loosen the counter nut (10).
• Adjust the output volume by screwing the spindle (11) according to the follow-ing table.
• After adjusting the output volume, retighten the counternut (10).
Tightening torque = 15 Nm ± 1 Nm
P = lower output volume
Q = higher output volume
Measure R states the approximate flow rate,
R = 22 mm Full supply
R = 20.5 mm 75 % supply
R = 19.0 mm 50 % supply
R = 17.5 mm 25 % supply
10
11 R
EN 6. Installation
- 56 -951-181-010-ENVersion 07
6.9 Filling with lubricant
WARNING
Risk of explosionThe ignition temperature of the lubricant must lie at least 50 K over the maximum surface temperature of the components. Connect the filler pump to the equipotential bonding of the pump in case of filling through a filling port. Filling is allowed only, if there is no explosive atmosphere.
6.9.1 Filling via the reservoir lid
WARNING
Hand injuries caused by the stirring paddleFill lubricant via the lid only when the pump is not moving. Never reach into the reservoir while the pump is running.
• Switch the pump off.
• Open the reservoir lid (1).
• Ensure that no dirt enters the reservoir or the inner side of the reservoir lid. In case of reservoirs equipped with a sen-sor, the sensor must not be damaged or contaminated.
• Fill in lubricant up to a maximum of 1 cm below the reservoir rim.
• Reposition and close the reservoir lid (1). Make sure not to crush the ground-ing cable.
6.9.2 Filling via filling port
Automatic fillingThe filler pump is controlled by the pump's high-/ low-level indication.
Manual filling:Connect filling pump to filling adapter.
• Open the reservoir lid.
• Switch the filling pump on.
• Fill in lubricant up to a maximum of 1 cm below the reservoir rim.
• Switch off and remove the filling pump.
• Switch the pump on.
6
EN6. Installation
- 57 - 951-181-010-ENVersion 07
6.9.3 Inadvertent filling with incorrect lubricant
Should incorrect lubricant have been filled, please proceed as follows:
• Switch off the pump and secure it against being switched on.
• Remove the lubricant from the reservoir.
• Loosen lubricant lines from the pump elements.
• Switch on the pump and let it run until the wrong lubricant has been fully supplied.
• Switch off the pump and secure it against being switched on.
• Fill reservoir with lubricant of correct specification.
• Switch on the pump and let it run until correct lubricant leaks from the pump elements.
• Switch off the pump and secure it against being switched on.
• Reconnect the lubricant lines
• Switch the pump on again.
• Inform your superior to ensure that the error won't occur again.
EN 7. Initial start-up
- 58 -951-181-010-ENVersion 07
7. Initial start-up
In order to warrant safety and function, a person assigned by the operator must carry out the following inspections. Remedy detected de-fects before the initial start-up. Deficiencies may be remedied by an authorized and qualified specialist only.
Checklist - Inspections prior to the initial start-up
7.1 Inspections prior to initial start-up YES NO
ElectricsElectrical connection of the motor carried out correctly following the connection diagram in the terminal box.
Cable ducts of terminal box carried out and sealed professionally.
The voltage and frequency of the power network correspond to the information on the type identification plate / rating plate of the motor.
Equipotential bonding fully present, properly connected and electrically conductive
Possibly existing monitoring devices and additional equipment (e.g. motor circuit breaker) are correctly connected and adjusted.
Mechanics:Mechanical connection of the pump and the base carried out correctly
Minimum distance of parts to the air inlet of the motor has been observed. No loose parts remaining in the suction area of the motor
Supply lines and lubrication points primed in order to avoid damages to the superior machine.
All components, such as lubrication lines and metering devices, have been correctly installed
Product protected with adequate pressure relief valve
No visible damages, contamination and corrosion. Painting of pump is not damaged
No dust accumulations > 5 mm existing
Any dismantled protection and monitoring equipment has been reassembled and checked for correct function
The lubricant used corresponds to the planned lubricant.
The lubricant used is free from contaminations and air inclusions
7
EN7. Initial start-up
- 59 - 951-181-010-ENVersion 07
Check list - Inspections during the initial start-up
7.2 Inspections during initial start-up YES NO
No unusual noises, vibrations, accumulation of moisture, or odours present
No smoke or smouldering spots
No unwanted escape of lubricant from connections (leakages).
Lubricant is supplied free from bubbles
Bearings and friction points are provided with the planned amount of lubricant
EN 8. Operation
- 60 -951-181-010-ENVersion 07
8. Operation
SKF products operate automatically to the greatest possible extent. Basically, activities during standard opera-tion are limited to the control of the filling level and the timely refilling of lubricant as well as the outside cleaning of the product in case of contamination.
8.1 Activation of the pump
The pump is activated: ○ by switching on the machine contact
○ by a control provided by the customer
8.2 Refill lubricant
Description, see chapter Filling with lubricant
9
EN9. Cleaning
- 61 - 951-181-010-ENVersion 07
9. Cleaning
WARNING
Risk of electric shock, fire and explosionRisk of fire and explosion when using inflammable cleaning agents. Carry out cleaning works only on depressurized products that have been disconnected from the power supply. Do not touch cables or electrical components with wet or damp hands. Use steam-jet cleaners or high-pressure cleaners only in accordance with the IP protection class of the product. Otherwise electrical components may be damaged. Performance of cleaning, required personal protective equipment, cleaning agents and devices following the valid operational regu-lations of the operator.
9.1 Cleaning agents
Cleaning agents compatible with the mate-rial may be used only (materials, see chap-ter 2.3).
Thoroughly remove residues of cleaning agents from the product and rinse off with clear water.
9.2 Exterior cleaning
Make sure to keep the reser-voir closed during the cleaning procedure.
• Mark and secure wet areas.
• Keep unauthorized persons away.
• Thorough cleaning of all outer surfaces with a damp cloth.
9.3 Interior cleaning
Normally, interior cleaning is not required. Should incorrect or contaminated lubricant have been filled, inside cleaning of the prod-uct will be required. To do so, contact the SKF Customer Service.
9.4 Cleaning of capacitive sensors
If the active sensor face is contaminated with lubricant, clean it with a cloth.
EN 10. Maintenance
- 62 -951-181-010-ENVersion 07
10. Maintenance
WARNING
Risk of explosionInspections and maintenance of electrical equipment in explosive atmospheres may be carried out following the criteria of IEC/EN 60079-17 only. If the works are not carried out by the manufacturer, authorized and qualified personnel only is allowed to carry out such works. Works then have to be re-viewed by a qualified and officially recognised person.Before starting any work on the motor or on the driven components make sure to switch off and block the motor.Carry out work on electrical parts only, if the atmosphere is not po-tentially explosive.
Regular and appropriate maintenance is a prerequisite to detect and clear faults in time. As it is not possible for us to exactly define the operating conditions, we cannot indicate any definite deadlines. The specific timelines have to be determined, verified at regular intervals and adapted, if necessary, by the operator based on the local operating conditions. If needed, copy the table "Main-tenance check list" for regular maintenance activities.
10
EN10. Maintenance
- 63 - 951-181-010-ENVersion 07
10.1 Pump maintenance
Checklist pump maintenance
Activity to be done YES NO
Electrical connection carried out correctly
Mechanical connection carried out correctly
The performance data of the previously indicated connections correspond to the specifications stated in the Technical data
All components, such as lubrication lines and metering devices, have been correctly installed
Product protected with adequate pressure relief valve
No visible damage, contamination and corrosion
Any dismantled protection and monitoring equipment has been reassembled and checked for correct function
All warning labels on the product are available and in proper condition
No unusual noises, vibrations, accumulation of moisture, or odours present
No unwanted escape of lubricant from connections
Lubricant is supplied free from bubbles
Bearings and friction points are provided with the planned amount of lubricant
Painting complete, no parts of painting missing.
Protective conductor system fully present, properly connected and electrically conductive.
No dust accumulations present.
EN 10. Maintenance
- 64 -951-181-010-ENVersion 07
10.2 Maintenance of gear unit
10.3 Cleaning of capacitive sensors
The capacitive sensors are maintenance-free.
Check list maintenance of Rehfuss gear
Activity to be done Interval / deadline
Visual check for leakages Every 3,000 hours, but at least once a year
Visual check for damage of the surface protection/ corrosion protection
Depending on the type of application and ambient conditions
For further relevant information on maintenance, see original Instructions by the gear manufacturer.
10
EN10. Maintenance
- 65 - 951-181-010-ENVersion 07
10.4 Motor maintenance
10.4.1 Measurement of the insulation resistance
WARNING
Electric shockDo not touch the terminals when measuring the insulation resist-ance. Wear insulating gloves. Ob-serve the manual of the insulation measurement device.
NOTICE
Risk of damage to the motorThe voltage applied for the insulation test must not exceed 500 V.
Before the first start-up and after longer downtimes measure the insulation resist-ance following the standards (e. g. VDE 0100 / DIN EN 61557-1:2007) valid in the country of use. If the insulation resistance falls below the required minimum value, determine and eliminate the cause (e.g. appropriate drying of the coil, etc.).
Checklist maintenance of SEW motor
Activity to be done Interval / deadline
Inspection of the cooling air ways of the motor with regard to contamination
Every 4 weeks Depending on the local contamination load sig-nificantly shorter intervals may be required
Check condensation water and, if any, drain off If necessary, dry winding
Interval depends on climatic conditions at the place of use, should be carried out at the latest, however, in the frame of the main inspection
Re-lubricate motor bearingCan be omitted as the motor bearings are lifetime-lubricated
Main inspection
Every 1000 operating hours or once a year: ○ Check rolling bearing and replace, if
necessary ○ Change radial sealing ring ○ Clean cooling airways
For further relevant information on maintenance, see original Instructions by the gear manufacturer.
10.4.2 SEW motor maintenance
EN 10. Maintenance
- 66 -951-181-010-ENVersion 07
Checklist maintenance of ABB motor
Activity to be done Interval / deadline
Inspection of the cooling air ways of the mo-tor with regard to contamination
Every 4 weeks. Depending on the local contamination load significantly shorter intervals may be required
Check condensation water and, if any, drain off If necessary, dry winding
Interval depends on climatic conditions at the place of use, should be carried out at the latest, however, in the frame of the main inspection
Re-lubricate motor bearing
Operating hours at 25 °C Operating hours at 40 °C
2-pol 100,000 65,000
4-8 pol 100,000 96,000
Recommended lubricating grease
Mobil Unirex N2 or N3 Lubcon Turmogrease L802 EP Plus
Shell Gadus S5 V 100 2 Total Multiplex S2 A
Klüber Klüberplex BEM 41-132 Rhenus Renus LKZ 2
Main inspection
Every 1000 operating hours or once a year: ○ Check rolling bearing and replace, if necessary ○ Change radial sealing ring ○ Clean cooling airways
Lubrication
If the machine has been provided with an information sign for lubrication, the values stated there must be adhered to. During initial start or after a bearing lubrication a temporary rise in temperature may occur for about 10 to 20 hours.After relubrication make sure to clean the motor and the bearing plates
For further relevant information on maintenance, see original Instructions by the gear manufacturer.
10.4.3 ABB motor maintenance
10
EN10. Maintenance
- 67 - 951-181-010-ENVersion 07
10.4.4 SIEMENS motor maintenance
Check list - maintenance of Siemens motor
Activity to be done Interval / deadline
Inspection of the cooling air ways of the motor
To be determined by the owner depending on the level of contamination at the place of use
Check condensation water and, if any, drain off If necessary, dry winding
Interval depends on climatic conditions at the place of use, should be carried out at the latest, however, in the frame of the main inspection
A Initial inspection 500 operating hours, at the latest after one year C = during operation A B C D
B Main inspection 16,000 operating hours, at the latest after two years D = during downtime
The electrical characteristics are adhered to X X X
The admissible temperatures at the bearings are not exceeded X X X
No damages, e.g. cracks, visible on the base plate X X X X
All fastening screws have been firmly tightened, potential- and grounding connections have been mounted correctly and are electrically conductive
X X
Check isolation resistance of the winding, if necessary, drain condensation water and check winding X X
Lines and isolation parts are in proper conditions and do not show any discolourations X X
The painting is undamaged X X
Relubrication intervals of the roller bearings The relubrication intervals and the type of grease are stated on the lubrication plate of the motor. Independent of the operating hours the roller bearings have to be relubricated at least once a year. The space for waste grease has been designed for a calculated service life of the roller bearings of 40,000 oper-ating hours.
Initial filling Alternative
Gadus S2 V100 3 SKF LGMT 3; Aral Aralube HL3; BP Energrease LS3; Mobilux EP3; OMV Signum L3; Optimo Olista Longtime 3
Gadus S5 V100 2 Exxon Mobil Mobilith SHC 100
Gadus S3 T100 2 SKF LGHP2; BP Energrease SY2202; Castrol Firetemp XT2; Chevron Grease SRI2; Klüber Petamo GHY133N
Unirex N3 Exxon Mobil Mobilgrease XHP 103; Shell Gadus S5 V100 2
For further relevant information on maintenance and the inspections required, see original Instructions by the manufacturer.
EN 10. Maintenance
- 68 -951-181-010-ENVersion 07
10.4.5 Maintenance of the BoWex coupling
WARNING
Risk of explosionWhen exceeding the wear limits proper operation in terms of explosion protection cannot be ensured any more. Therefore the system must be shut down immediately.
The first inspection of the torsional back-lash must take place at the latest after 2,000 operating hours or after 3 months.If only little or no wear is detected and provided the operating conditions remain the same, the next inspection must take place after 4,000 operating hours or 12 months. In case of deviating operating conditions the next inspection will have to take place after 2,000 operating hours or after 3 months at the latest.
During inspection make sure not to move the sleeve out of the wear position.
Check drive end• Turn the hub against the driving
direction.
• Mark the sleeve and hub.
• Turn the hub in the driving direction and measure the torsional backlash Δsmax.
Check driven end• Turn the hub in the driving direction.
• Mark the sleeve and hub.
• Turn the hub against the driving direc-tion and measure the torsional back-lash Δsmax .
Wear test BoWex coupling Fig. 10
Δsmax = 1.5 mm
10
EN10. Maintenance
- 69 - 951-181-010-ENVersion 07
If an increased wear is detected, change the sleeve and verify the correct instal-lation following the indications of the following table. Protect all set screws, hub and screw connections against unintend-ed loosening, e.g. with Loctite (medium strength).
Wear test BoWex coupling Fig. 11
Maximum axial displacementMaximum radial
displacementMaximum angular
displacement
ΔKa ± 1mmSpeed n = 1500 rpm
ΔKr = ± 0.35 mm
Speed n = 3000 rpm
ΔKr = ± 0.23 mm
Speed n = 1500 rpm
ΔKw = ± 0.9 mm
Speed n = 3000 rpm
ΔKw = ± 0.6 mm
EN 11. Troubleshooting
- 70 -951-181-010-ENVersion 07
11. Troubleshooting
Fault table of pump
Fault Possible cause Remedy
No supply Reservoir empty Check visually, refill if necessary.
Bad suction behaviourLittle pressurization
Air bubbles in the lubricant Vent
Suction bore of pump element is clogged. Disassemble and clean the pump elements.
Inappropriate lubricant Check and, if necessary, use a different type of lubricant.
Defective or dirty check valve Replace check valve.
Worn pump element Replace the pump element
Too high viscosity of the lubricantLubricant is not suitable for the present temperature range. Use suitable lubricant only.
Lubricant leaking from the pressure relief valve
Defective pressure relief valve/ fault at the lubrication point / blockade in the downstream lubrication system
Determine cause.Replace pressure control valve
11
EN11. Troubleshooting
- 71 - 951-181-010-ENVersion 07
Fault table of the Rehfuss gear
Fault Possible cause Remedy
Constant unusual running noise
Bearing damage (grinding noise)Check oil and oil level, if required, change bearingConsult the manufacturer
Irregular toothing (knocking noise) Consult the manufacturer
Inconstant unusual running noise Foreign particle in the gear oilCheck oil and oil level (see original instructions of the gear manufacturer)Consult the manufacturer
Oil / grease leaking from shaft seal# Defective seal Consult the manufacturer
Oil leaking from vent valveToo much oil in the gear; vent valve dirty; frequent cold starts (foaming oil)
Consult the manufacturer
Output shaft does not rotate although motor is on
Defective shaft-hub joint Sent gear to manufacturer for repair
For further relevant information on maintenance, see original Instructions by the gear manufacturer. Document number, see chapter: Other applicable documents# Oil/ grease leaking from the radial sealing ring (small quantities) during the run-in phase (24 hours runtime) is deemed normal (DIN 3761).
EN 11. Troubleshooting
- 72 -951-181-010-ENVersion 07
Fault table of SEW motor
Fault Possible cause Remedy
Motor does not start
Feed line interrupted Check and correct connections, if necessary.
Blown fuse Replace fuse
Motor circuit breaker has respondedCheck correct adjustment of motor circuit breaker. If necessary, remedy the fault
Motor circuit breaker does not switch; fault in the control program.
Check control program of motor circuit breaker and, if necessary, remedy the fault
Motor is hard to start
Motor has been designed for delta connection, but has been wired to star connection
Correct the wiring
Voltage or frequency largely differ from the target value at least when starting the motor
Provide better grid conditions; check cross section of the feed line
Motor does not start in the star connec-tion, but in the delta connection only
In case of star connection torque is not sufficient
Provided the delta starting current is not too high, immediately switch the motor on. Otherwise use larger motor or special version (after consultation)
Contact fault on star respectively delta connection Remedy the fault
Wrong direction of motor rotation Motor connected wrongly Reverse two phases
Motor hums and has a high power consumption
Defective winding Consult the manufacturer. Motor must be sent to the workshop for repairRotor touches
Fuse is tripped or motor circuit breaker trips immediately
Short circuit in the line Remedy the short circuit
Short circuit in the motorConsult the manufacturer. Motor must be sent to the workshop for repair
Lines connected wrongly Correct the wiring
Short circuit on the motorConsult the manufacturer. Motor must be sent to the workshop for repair
12
- 73 - 951-181-010-ENVersion 07
EN12. Repairs
Fault table of SEW motor
Fault Possible cause Remedy
Speed decreasing significantly in case of load
OverloadMeasure performance, if necessary, use larger motor or reduce load
Voltage drops out Increase cross section of feed line
Motor heats up too much (measure the temperature)
OverloadMeasure performance, if necessary, use larger motor or reduce load
Insufficient coolingCorrect cooling air supply or open cooling air ways, if necessary, retrofit external fan
Ambient temperature is too high Observe admissible temperature range
Motor is wired to delta connection instead of planned star connection
Correct the wiring
Feed line has a loose contact (one phase is missing) Remedy the loose contact
Blown fuse Search the cause and remedy (see above); replace fuse
Main s voltage deviates by more than 5 % from the rated motor voltage. Higher voltage is very unfavourable in case of high-pole motors, as in case of a normal volt-age their no-load current is already close to the rated current.
Adapt the motor to the mains voltage
Nominal operating mode (S1 to S10) exceeded, e.g. because of too high switching frequency
Adapt the nominal operating mode of the motor to the required operating conditions; if necessary, consult an expert to determine the appropriate type of drive
- 74 -951-181-010-ENVersion 07
EN 12. Repairs
Fault table of SEW motor
Fault Possible cause Remedy
Extreme noise emission
Ball bearing strained, contaminated or damagedRealign the motor, inspect the ball bearing and replace it, if necessary (see original instructions of the motor manufacturer)
Vibration of the rotating parts Determine cause, e.g. imbalance, and eliminate it.
Foreign particle in the cooling airways Clean cooling airways
12
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EN12. Repairs
Fault table of ABB motor
Fault Possible cause Remedy
Motor does not start
Blown fuse Insert new appropriate fuses with the required rating.
Overload triggering Check and reset overload in the starter
Faulty power supplyVerify whether the power supply corresponds to the motor rating plate and whether it is suitable for the respective load factor
Faulty grid connections Check connections following the wiring diagram supplied with the motor
Circuit interruptions in the winding or con-trol switch
Recognisable by a humming when switching the switch on. Check wiring with regard to loose connections. Check whether all contacts can be closed
Mechanical faultCheck whether the motor and the drive rotate freely. Check bearings and lubrication
Short cirucit of stator, bad connection to stator winding
Recognisable by blown fuses. Motor must be wound newly. Remove bearing plates; localize fault.
Defective rotor Check for broken rotor bars or end rings
Motor overloaded Reduce load
Motor does not accelerate
Phase failure Check lines for open phases
Wrong applicationConsult the supplier of the device for correct type and size and use appropriate device
Overload Reduce load
UndervoltageVerify whether the voltage stated on the rating plate is adhered to. Check connection
Open circuit Check blown fuses, overload relay, stator and pushbuttons.
- 76 -951-181-010-ENVersion 07
EN 12. Repairs
Fault table of ABB motor
Fault Possible cause Remedy
Motor runs for a short period of time only
Power failureCheck for loose connections to the grid, to the fuses and to the control unit
Motor does not accelerate
Wrong applicationConsult the supplier of the device for correct type and size.
Undervoltage at the motor terminals due to a voltage drop
Use higher voltage or higher stage of transformer. Check connections. Check lines with regard to appropriate cross section.
Starting load too high Check motor layout with regard to motor idling.
Broken rotor bars or loose rotor
Check whether there are cracks near the rings. A new rotor may be required, as in this case a lasting repair is not possible.
Open primary circuitLocalize and remedy fault by means of testing instrument.
Motor accelerates too slowly and/or draws too much current
Too high load Reduce load
Too low voltage during startCheck for too high resistance. Use adequate line cross section.
Defective cage rotor Install new rotor
Too low mains voltage Clarify voltage supply
Wrong direction of motor rotation Incorrect phase sequenceChange connections on motor respectively on switch panel
11
EN11. Troubleshooting
- 77 - 951-181-010-ENVersion 07
Fault table of ABB motor
Fault Possible cause Remedy
Motor overheats when being operated under load
Overload Reduce load
Venting bores may be clogged by dirt and prevent proper cooling of the motor
Clean and verify that a continuous air flow from the vent bores cools the motor down.
Possibly a motor phase failedCheck whether all connection lines are properly connected
Earth fault Motor must be wound newly.
Unbalanced terminal voltageCheck connection lines, terminals and transformers with regard to faults.
NoisesFan rubs on fan flap Correct the fan mounting
Loose seat on base plate Tighten foot screws
Operating noise level is too highAir gap is not even
Check and if necessary correct bearing or bearing plate fixation.
Imbalance in the rotor Rebalance the rotor
EN 11. Troubleshooting
- 78 -951-181-010-ENVersion 07
Fault table of ABB motor
Fault Possible cause Remedy
Motor vibrations
Motor badly aligned Realign the motor
Poor stability of substructure Reinforce substructure
Imbalance in coupling Balance the coupling
Imbalance in driven unit Rebalance driven unit
Defective bearings Replace bearings
Bearings badly aligned Repair the motor
Displaced balance weights Rebalance the rotor
Balancing of rotor and coupling not aligned (half-key or full-key balancing)
Rebalance the coupling or rotor
Multi-phase motor runs with single phase Check for open circuit
Axial backlash too big Readjust bearing or insert compensating spring washer.
11
EN11. Troubleshooting
- 79 - 951-181-010-ENVersion 07
Fault table of ABB motor
Fault Possible cause Remedy
Too high bearing temperature
Shaft is bent or damaged Readjust or replace shaft
Too strong belt pull Reduce belt tension
Belt pulleys too far away from shaft shoulder Place belt pulleys closer to the motor bearing
Too small diameter of belt pulleys Use larger belt pulleys
Poor alignment Correct by realigning the drive unit
Insufficient lubrication greaseEnsure adequate quality of lubrication grease inside the bearing
Poor quality or contamination of lubrication greaseRemove old lubrication grease Thoroughly wash bear-ings in kerosene and lubricate them with new grease
Excessive lubrication greaseReduce lubrication grease quantity. The bearing should be filled no more than half.
Bearing overloaded Check alignment, radial and axial thrust.
Defective ball or rough ball tracksReplace bearing. Thoroughly clean bearing housing be-fore installing the new bearing.
EN 11. Troubleshooting
- 80 -951-181-010-ENVersion 07
Fault table of SIEMENS motor
Electrical faults
â Motor does not start
â Motor is hard to start
â Buzzing noise when the motor starts
â Buzzing noise during operation
â Strong heat generation when idling
â Strong heat generation under load
â Strong heat generation under load
Possible fault Remedy
X X X X Overload Reduce load
X X X X X Interruption of a phase Check phases and feed lines
X Mains voltage too low, too high frequency Check power supply
X Mains voltage too high/ too low frequency Check power supply
X X X X X Stator winding switched wrongly Check switch in terminal box
X X X X Shorted winding or shorted phase in the stator winding Replace motor by a new one
X Wrong direction of motor rotation Check phases
11
EN11. Troubleshooting
- 81 - 951-181-010-ENVersion 07
Fault table of SIEMENS motor
Mechanical faults
â Bearing is too warm
â Bearing whistles
â Knocking bearing
Possible fault Remedy
X Contaminated bearing Clean bearing or replace against new one
X X Too small bearing clearance Please contact our Service Center
X Too big bearing clearance Please contact our Service Center
X Bearing filled with too much grease Remove leaked grease
X Bearing filled with wrong grease Use correct grease
X X X Bearing damaged Replace bearing by new one
EN 11. Troubleshooting
- 82 -951-181-010-ENVersion 07
Fault table of BoWex coupling
Fault Possible cause Remedy
Changed running noises/ vibra-tion occurrence
Misalignment, micro friction on the toothing of the plastic sleeve
Correct misalignment (e.g. Breakage of the motor fixation, heat extension of sys-tem components). Then carry out wear test.
Bolts to secure hub axially are looseCheck alignment of coupling. Tighten bolts to secure hub axially and ensure lock-ing against loosening. Then carry out wear test.
Breakage of the plastic sleeve/ the toothing
OverloadEliminate the cause of the overload. Dismantle coupling, remove residues of the plastic sleeve, if necessary. Mount new plastic sleeve
Operating parameters do not corre-spond to coupling performance
Check operating parameters and adapt, if necessary. Dismantle coupling, re-move residues of the plastic sleeve, if necessary. Mount new plastic sleeve.
Excessive wear on toothing of sleeve
Drive oscillationsDetermine cause of oscillations, check alignment, dismantle coupling, remove residues of plastic sleeve, if necessary. Mount new plastic sleeve.
Inadmissibly high contact tempera-tures on the plastic sleeve
Check alignment, dismantle coupling, remove residues of plastic sleeve, if neces-sary. Mount new plastic sleeve.
Contact with material resulting in a change of the physical properties of the plastic, e.g. Aggressive fluids, oils ozone, etc.
Ensure that there is no contact with material that may cause a change of the physical properties of the plastic. Check alignment, dismantle coupling, remove residues of plastic sleeve, if necessary. Mount new plastic sleeve.
12
- 83 - 951-181-010-ENVersion 07
EN12. Repairs
12. Repairs
WARNING
Risk of injuryBefore carrying out any repair work, take at least the following safety measures: ○ Keep unauthorized persons away
○ Mark and secure work area
○ De-pressurize the product
○ Disconnect the product from the power supply and secure it against being switched on
○ Verify that no power is being applied
○ Earth and short-circuit the product
○ Where needed, cover neighbour-ing units that are live
The work described shall be carried out by a specialist for maintenance and repairs in po-tentially explosive atmospheres. The work described should possibly be done at room tem-perature in a workshop. At low temperatures the work may be subject to restrictions.
- 84 -951-181-010-ENVersion 07
EN 12. Repairs
Mark the mounting position Fig. 12
?
Loosen motor from gear Fig. 13
12 13
14
136
12.1 Replacement of SEW motor
To replace the capacitive sensor proceed as follows:
• Check the entire system for accordance with the documentation and the intended purpose.
• Implement the safety measures as speci-fied in the warning notice at the begin-ning of this chapter.
• Open the terminal box by unscrewing the screws and remove connection cable.
• Mark the mounting position of the gear flange (12) to the motor adaptor (13) (e. g. with a felt marker).
• Loosen the 3 hexagon head screws (14) from the gear flange and remove the mo-tor (6) together with the motor adaptor (13) from the gear shaft.
• Remove the motor adaptor (13) by loos-ening the 4 hexagon socket head screws (15).
• Remove the gasket (16) between the mo-tor (6) and the motor adaptor (13).
16
Loosen motor adaptor from motor Fig. 14
14
1315
15
166
12
- 85 - 951-181-010-ENVersion 07
EN12. Repairs
• Position new gasket (16) (see spare parts) onto motor adaptor (13) (observe bores).
• Attach the motor adaptor (13) by means of the 4 hexagonal socket head screws (15) to the motor.
• Lightly grease the gear and motor shaft. Align the hub of the gear shaft and the key of the motor shaft to each other.
• Push the motor shaft about 1 cm into the gear shaft.
• Turn the motor that much that the mark-ing of the motor adaptor (13) again coin-cides with the marking on the gear flange (12) (see Fig. 13).
• Now push the motor shaft fully into the gear shaft and use the 3 hexagon head screws (14) to screw it to the rear side of the gear flange.
• Reconnect the connection cable and close the lid on the terminal box by menas of the screws.
Mount reservoir again Fig. 16
12 13
16
Connect the motor adap-tor to the motor Fig. 15
14
1315
15
166
- 86 -951-181-010-ENVersion 07
EN 12. Repairs
12.2 Replacement of capacitive sensor
To replace the capacitive sensor proceed as follows:
• Check the new sensor for accordance with the documentation and the intended purpose.
• Implement the safety measures as speci-fied in the warning notice at the begin-ning of this chapter.
• Open the reservoir lid (1) on the two locks (17) and remove it.
Make sure not to damage the earthing cable when removing it or later when mounting the reservoir lid.
• Open the terminal box (8) by unscrewing the 4 screws (18) and disconnect the two cores of the cable.
• Loosen the cable duct (19) on the termi-nal box (8).
Replacement of capacitive sensor Fig 17
Exi
17
17
1
819
18
19
21
22
23
20
12
- 87 - 951-181-010-ENVersion 07
EN12. Repairs
• Loosen the sensor (20) by loosening the fitting (21) on the reservoir lid.
• Loosen the sensor (20) by means of its counter fitting (22) from the sensor pipe (23), unscrew it completely out of the sensor pipe and remove it downwards.
• Guide the cable of the new sensor up-wards through the sensor pipe (23).
When mounting the sensor in the sensor pipe, it must be sealed with Loctite 5331.
• Screw sensor into sensor pipe until the correct adjusting measure R is reached.
SensorAdjusting meas-ure R
*M12 x 1 | M18 x 1 35 mm ± 5 mmM30 x 1.5 37 mm ± 5 mm
• Tighten the sensor (20) by tightening its counter fitting (22) on the sensor pipe.
*Sensor M12 x 1 = 01 Nm ± 0.1 Nm
Sensor M18 x 1 = 02 Nm ± 0.1 Nm
Sensor M18 x 1 = 010 Nm ± 1.0 Nm
* Sensor M12 x 1 only in case of reservoir type 30 XL
Replacement of capacitive sensor Fig 18
Exi
17
17
1
819
18
19
21
22
23
20
R
- 88 -951-181-010-ENVersion 07
EN 12. Repairs
• Guide the cable through the cable duct (20) on the terminal box (18).
• Mount the cable in the terminal box (see connection diagram in the Technical data)
• Tighten the cable duct (20) on the termi-nal box (18) correctly again.
Tightening torque = 1.5 Nm ± 0.1 Nm
• Firmly screw lid to terminal box (18) by means of the 4 screws (19).
• Tighten the sensor fitting on the reservoir lid (21).
Sensor M12 x 1.0 = 20 Nm ± 1 Nm
Sensor M18 x 1.0 = 20 Nm ± 1 Nm
Sensor M30 x 1.5 = 35 Nm ± 1 Nm
• Place reservoir lid (1) on reservoir again and lock it.
Replacement of capacitive sensor Fig 19
Exi
17
17
1
1820
19
20
21
22
23
24
R
12
- 89 - 951-181-010-ENVersion 07
EN12. Repairs
Adjusting the sensors for reservoir variant 30 YLP Fig. 20
S
Reservoir variant 30 YLP
These pumps have 2 capacitive sensors.
In addition to the previously described ac-tions, the correct distance measure S of the two sensors must be adjusted.
Distance measure S = 143 mm
Adjusting measure R 35 mm ± 5 mm
• Adjust the two sensors within the toler-ance of adjusting measure R in such way that the distance measure S is adhered to.
R
R
- 90 -951-181-010-ENVersion 07
EN 12. Repairs
12.3 Replacement of pump element
In case of pumps with grease filling, the grease may remain in the reservoir. In case of pumps with oil filling, the oil must be collected with an adequate col-lecting bin when unscrewing the pump element.
NOTICE
Risk of damage to the pump. Make sure that each pump element is seated cor-rectly in the notch of the catch ring (see Fig. 21).
In case of pumps with stirring paddle, turn the stirring paddle to the opposite side of the pump element. This facilitates mount-ing the piston into the notch of the catch ring.
Mounting of the pump element Fig. 21
wrong
correct
12
- 91 - 951-181-010-ENVersion 07
EN12. Repairs
• Fully unscrew the pump element (3) at the hexagon out of the pump.
• Press pump element (3) down as shown so that the piston disengages from the notch of the catch ring.
• Remove the pump element (3).
• Pull piston of the new pump element about 30 mm out of the pump element (3).
• Insert the pump element (3) obliquely until the piston is located above the catch ring.
• Now hold the pump element horizontally so that the piston of the pump element engages in the notch of the catch ring.
• Screw in the pump element (3).
Tightening torque = 25 Nm -2.5 Nm
Then check the pump element (3) for proper function. To do so, switch the pump on and check, whether the pump element supplies lubricant. If needed, refill lubricant.
Unscrew the pump element Fig. 22 Pump element pressed down Fig. 23
3 3
EN 13. Shutdown and disposal
- 92 -951-181-010-ENVersion 07
13. Shutdown and disposal
13.1 Temporary shutdown
Temporarily shut the system down by: ○ Switching off the superior machine
○ Disconnecting the product from the power supply
13.2 Final shutdown and disassembly
The final shutdown and disassembly of the product must be professionally planned and carried out by the operator in compliance with all regulations to be observed.
13.3 Disposal
Countries within the European Union Disposal should be avoided or minimized wherever possible. Disposal of products contaminated with lubricant must be effect-ed via a licensed waste disposal contractor in accordance with environmental require-ments and waste disposal regulations as well as local authority requirements.
The specific classification of the waste is in the waste producer's responsibility, as the European Waste Catalogue provides differ-ent waste disposal codes for the same type of waste but of differ-ent origin.
Electrical components
have to be disposed of or recycled follow-
ing WEEE directive 2012/19/EU.
Plastic or metal parts
can be disposed of with the commercial
waste.
Countries outside the European UnionThe disposal has to be done according to the valid national regulations and laws of the country where the product is used.
EN14. Spare parts
14
- 93 - 951-181-010-ENVersion 07
14. Spare parts
The spare parts assemblies may be used exclusively for replacement of identical defective parts. Modifications with spare parts on existing products are not allowed.
Pump element Fig. 2414.1 Pump element
Designation Qty. Part number
Pump element K6 1 600-25046-3
Pump element K7 1 600-25047-3
Assignment of the spare parts to the respective pump type: See table 4.4 Overview of pump variants
Closure screw M22 x 1 Fig. 2514.2 Closure screw M22 x 1
Designation Qty. Part number
Closure screw M22 x 1 to close unneeded ports for pump elements
1 303-19285-1
EN 14. Spare parts
- 94 -951-181-010-ENVersion 07
Capacitive sensor M12 x 1 Fig. 2614.3 Capacitive sensor M12 x 1
Designation Qty. Part number
Capacitive sensor M12x 1, with LED and potentiometer incl. 2 m connection cable aligned for grease
1 664-34621-6
Capacitive sensor M18x1 Fig. 2714.4 Capacitive sensor M18 x 1
Designation Qty. Part number
Capacitive sensor M18x 1, with LED and potentiometer incl. 2 m connection cable aligned for grease
1 664-34621-2
Capacitive sensor M18x 1, with LED and potentiometer incl. 2 m connection cable aligned for oil
1 664-34621-5
Capacitive sensor M30x1.5 Fig. 2814.5 Capacitive sensor M30 x 1.5
Designation Qty. Part number
Capacitive sensor M30x 1.5, with LED and potentiometer incl. 2 m connection cable aligned for grease
1 664-34621-4
EN14. Spare parts
14
- 95 - 951-181-010-ENVersion 07
SEW motors Fig. 2914.6 SEW motors
Designation Motor number Qty. Part number
EDRS71S4 1 1 245-13997-4
EDRS71S4 2 1 245-00100-7
EDRS71S4 3 1 245-00105-1
EDRS71S4 4 1 245-00104-3
EDRS71S4 5 1 245-13919-9
EDRS71S4 6 1 245-00104-4
EDRS71S4 7 1 245-00104-6
EDRS71S4 8 1 245-13960-9
EDRS71S4 9 1 245-00104-8
EDRS71S4 11 1 245-00105-6
EDRS71S4 13 1 245-00105-3
EDRS71S4 14 1 245-00109-7
ABB and Siemens motors on request
SEW
Gasket Abil Fig. 3014.7 Gasket Abil
Designation Qty. Part number
Gasket Abil 60 x 90 x 0.5 Required in case of motor replacement.Make sure to always order the gasket together with the motor directly.
1 306-19415-1
EN Annex
- 96 -951-181-010-ENVersion 07
Annexes purchase parts
Declaration of conformity of gear make Rehfuss
15
ENAnnex
- 97 - 951-181-010-ENVersion 07
Declaration of conformity of motor make SEW
EN Annex
- 98 -951-181-010-ENVersion 07
15
ENAnnex
- 99 - 951-181-010-ENVersion 07
Declaration of conformity of motor make ABB open
EN Annex
- 100 -951-181-010-ENVersion 07
Declaration of conformity of motor make SIEMENS
15
ENAnnex
- 101 - 951-181-010-ENVersion 07
Declaration of conformity of capacitive sensor make Turck
EN Annex
- 102 -951-181-010-ENVersion 07
Declaration of conformity of capacitive sensor M12 make Turck
15
ENAnnex
- 103 - 951-181-010-ENVersion 07
Artikel - Nr.: 80232797
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sen
tlich
en
An
ford
eru
ng
en
der
eu
rop
äis
che
n R
ichtli
nie
(n):
gü
ltig
bis
19.0
4.2
016:
20
04
/108/E
G
94/9
EG
gü
ltig
ab
20.0
4.2
016:
201
4/3
0/E
U
201
4/3
4/E
U
Fo
lgen
de
N
orm
(en
) w
urd
e(n
) ang
ew
and
t:
KI..N
We
co
nfir
m t
he c
on
form
ity t
o th
e
ess
en
tial
req
uir
em
en
ts o
f th
e
Euro
pean d
ire
ctiv
e(s
):
vali
d u
nti
l 19/0
4/2
016:
20
04
/108/E
C
94/9
EC
valid
fro
m 2
0/0
4/2
016:
2014
/30/E
U
201
4/3
4/E
U
Th
e
follo
win
g
stan
dard
(s)
was
(were
) applie
d:
Nou
s co
nfir
mo
ns
la c
on
form
ite a
ux
exi
ge
nce
s e
sse
ntie
lles
de l
a (d
es)
d
ire
ctiv
e(s
) e
uro
pe
enn
e(s
):
va
lab
le(s
) ju
sq
u’a
u 1
9.0
4.2
016:
20
04
/108/C
E
94/9
/CE
va
lab
le(s
) ä p
art
ir d
u 2
0.0
4.2
016:
20
14
/30
UE
20
14
/34
/UE
La
(Le
s)
norm
e(s
) su
iva
nte
(s)
a (o
nt)
ete
ap
pliq
uee
(s):
EN
60
94
7-5
-2 :
2007 +
A1 :
2012
IEC
600
79-0
:20
11
EN
60
94
7-5
-6:2
00
IEC
60
07
9-1
1:2
01
1
EN
60
07
9-2
6:2
00
7
Ken
nze
ichn
ung
EU
-Ba
um
ust
erp
rüfb
esc
he
ini-
gung
en:
Mark
ing IM
G E
x i
a I
IB T
6 G
a
II1
D E
x i
a I
NC
T9
0°C
Da
EU
typ
e t
est
cert
ifica
te:
Ma
rqu
ag
e
Ce
rtifi
cat
d'e
xam
en
UE
de t
ype:
DM
T 0
1 A
TE
X E
020
DE
KR
A E
XA
M G
mb
H /
Din
ne
nd
ah
lstr
. 9 /
44
80
9 B
oc
hu
m /
Germ
an
y (
No
tlfi
ed
bo
dy N
o.
0158
)
Ph
ys
ika
lis
ch
Te
ch
nis
ch
e B
un
de
sa
ns
talt
/ B
un
de
sa
lle
e 1
00 /
38
11
6 B
rau
ns
ch
we
ig /
Ge
rma
ny
(N
oti
fie
d b
od
y N
o.
01
02
)
Pro
du
ktio
n z
ert
ifizi
ert
durc
h:
Pro
du
ctio
n c
ert
ifie
d b
y:
Pro
duct
ion c
ert
ifie
e p
ar:
DE
KR
A E
XA
M G
mb
H /
Din
ne
nd
ah
lstr
. 9 /
4480
9 B
oc
hu
m /
Ge
rma
ny
(N
oti
fie
d b
od
y n
um
ber:
0158)
Te
ttn
ang
, 19.1
0.2
015
(Ort
und
Datu
m d
er
Au
sste
llu
ng
)
O.
(Un
ters
ch
rift
) i.V
Ro
lf F
enst
erle
(Pla
ce a
nd
date
of
issu
e)
(Lie
u e
t d
ate
de l
’eta
blissem
en
t)
(Sig
natu
re)
Fle
ad o
f D
eve
lop
me
nt
(Sig
natu
re)
Do
kum
en
t-N
r.:8
00
14
42
Declaration of conformity of capacitive sensor make ifm
EN Annex
- 104 -951-181-010-ENVersion 07
Declaration of conformity of terminal box make Bartec
15
ENAnnex
- 105 - 951-181-010-ENVersion 07
Declaration of conformity of BoWex curved-tooth gear coupling
951-181-010-EN Version 07
2020/06/15
SKF Lubrication Systems Germany GmbH Walldorf Facilities Heinrich-Hertz-Str. 2-8 DE - 69190 Walldorf Phone: +49 (0) 6227 33-0 Fax: +49 (0) 6227 33-259 e-mail: [emailprotected] www.skf.com/lubrication