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STIEBEL ELTRON WPL 10 ACS Operation And Maintenance Manual
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STIEBEL ELTRON WPL 10 ACS Operation And Maintenance Manual

STIEBEL ELTRON WPL 10 ACS Operation And Maintenance Manual

Air water heat pump
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Summary of Contents for STIEBEL ELTRON WPL 10 ACS

  • Page 1 HTV`.HC C .CZ`<<`.HC .V ’ q`V +` TeBT á qT<...

  • Page 2: Table Of Contents

    HC`C`Z ’ HTV`.HC OPERATION __________________________________________________________3 Specification ________________________________________________ 18 14.1 Dimensions _______________________________________________________ 18 General information _________________________________________3 14.2 Data table ________________________________________________________ 19 Further applicable documents ________________________________ 3 14.3 Wiring diagram _________________________________________________ 20 Safety information _______________________________________________ 3 14.4 Output diagrams, heating _____________________________________ 22 Other symbols in this documentation _______________________ 3 14.5 Output diagrams, cooling _____________________________________ 23...

  • Page 3: Operation

    HTV`.HC &CV< .C%HVB`.HC HTV`.HC Other symbols in this documentation Note Notes are bordered by horizontal lines above and below the text. General information is identified by the symbol General information shown on the left. f Read these texts carefully. The chapter entitled "Operation" is intended for appliance users and contractors.

  • Page 4: Safety

    HTV`.HC Z%`t CE designation Safety The CE designation shows that the appliance meets all essential Intended use requirements according to the: The appliance is designed to: - Electromagnetic Compatibility Directive - Heat rooms - Low Voltage Directive - Cool rooms Appliance description - Heat DHW Operational characteristics...

  • Page 5: Operation

    HTV`.HC HTV`.HC Troubleshooting Damage to the appliance and the environment In the defrost cycle, the fan is switched OFF and the heat %| ù ¼ f V¼ ¼® pump circuit is reversed. The heat required for defrosting is drawn from the buffer cylinder. For operation without There is no hot water or The fuse/MCB has blown/ Check the fuse/MCB in...

  • Page 6: Installation

    .CZ`<<`.HC Z%`t .CZ`<<`.HC Immersion sensor TF 6 165342 HSBB 7/10 AC 227996 HM 7/10 AC 227997 Preparations Safety Acoustic emissions General safety instructions - Only qualified contractors should carry out installation, com- On the air intake and air discharge sides, the appliance is louder missioning, maintenance and repair of the appliance.

  • Page 7: Preparation Of The Installation Location

    .CZ`<<`.HC TVTV`.HCZ Preparation of the installation location Positioning f Ensure that the appliance is accessible from all sides. Protect the flow and return pipes against frost with sufficient ther- - The substrate must be horizontal, level, solid and permanent. mal insulation. Also protect the cables against humidity and UV radiation by means of a conduit.
  • Page 8 .CZ`<<`.HC TVTV`.HCZ Example: Mounting on curbstones Example: Mounting on foundations Damage to the appliance and the environment Provide a recess (space) in the substrate to enable water and electrical pipes/cables to be connected from below. 1 Condensate hose A Heating circuit flow 2 Mounting rail B Heating circuit return 3 Drainage pipe...

  • Page 9: Heat Pump Manager Wpm Ii

    .CZ`<<`.HC TVTV`.HCZ Heat pump manager WPM II A WPM II heat pump manager is required to operate the appliance. This controls the entire heating system. Buffer cylinder A buffer cylinder is recommended to ensure trouble-free appliance operation. The buffer cylinder (SBP) not only provides hydrau- lic separation of the volume flow in the heat pump and heating circuit, but also serves as an energy source for defrosting the evaporator.

  • Page 10: Installation

    .CZ`<<`.HC .CZ`<<`.HC 10. Installation f Remove the transport locks (threaded rods) from the compressor. 10.1 Positioning f When installing the appliance, observe the air intake direction. f Ensure the entire heat pump frame is in contact with the sub- strate. Uneven substrates can increase noise emissions. f Position the standard unit on the prepared substrate.

  • Page 11: Heating Water Connection

    flow rate specified in the following table as well as the defrost energy. Alternatively, you can use our easytron area heating con- trol system. Heat pump Minimum flow rate WPL 10 ACS 0.7 m³/h f Make the correct adjustments to the overflow valve. 1 Heating circuit flow Pump head...

  • Page 12: Condensate Drain

    .CZ`<<`.HC .CZ`<<`.HC 10.7 Condensate drain A connector for the condensate drain is fitted at the factory to the defrost pan. f Connect the hose to the condensate drain connector. 1 Condensate drain connector f Insulate the condensate drain hose to ensure frost protection. f Thread the electrical connecting cables from below through the cable conduits upwards to the connecting chamber.
  • Page 13 .CZ`<<`.HC .CZ`<<`.HC Connection overview of the output stages of the DHC Making the electrical connections (heat source 2) The terminals are located in the connecting chamber of the ap- pliance. ¼› ¼® ù |® `¼ ê |ù | êÖ ¼ f Observe chapter "Preparing the electrical installation".

  • Page 14: Commissioning

    .CZ`<<`.HC HBB.ZZ.HC.C& 11.1.5 Slide switch on the IWS II 11. Commissioning Carry out the following steps to make the IWS II accessible. A WPM II heat pump manager is required to operate the appliance. f Undo the four screws on the upper casing cover of the All necessary adjustments prior to and during operation are made on this appliance.
  • Page 15 .CZ`<<`.HC HBB.ZZ.HC.C& DIP switch (type WP) f Lift the grey highlighted panel. Different types of heat pump are selected with the DIP switch (WP type). Subject to the heat pump type, the appliance was fac- tory-set for a single compressor with internal heat source 2 (DHC). f Check whether the DIP switch (heat pump type) is set correctly.

  • Page 16: Commissioning

    .CZ`<<`.HC HBB.ZZ.HC.C& If the parameter "Heating curve" has been raised, adjust the zone or thermostatic valve in the lead room to the required temperature at high outside temperatures. Damage to the appliance and the environment Never reduce the temperature in the entire building by closing all zone or thermostatic valves, but by using the setback programs.

  • Page 17: Maintenance

    .CZ`<<`.HC B.C`CC 12. Maintenance The following table shows the meaning of the LEDs of the IWS II. Check the condensate drain (visual inspection). Remove contami- < ê ®ê›| ê B¼| ê Ö nants and blockages immediately. Red LED flashes Single fault. Appliance stops and restarts after 10 minutes, and the LED extinguishes.

  • Page 18: Specification

    .CZ`<<`.HC ZT.%.`.HC 14. Specification 14.1 Dimensions qT< Ñ B01 Cable entry 1 Heating circuit flow Male thread G 1 1/4 Heating circuit return Male thread G 1 1/4 Condensate drain Diameter Air intake Air discharge Ä ’ qT< qqq Z`. <é<`VHC HB...

  • Page 19: Data Table

    .CZ`<<`.HC ZT.%.`.HC 14.2 Data table Output details to DIN EN 14511 Output details apply to new appliances with clean heat exchangers. qT< 227995 Height Width 1270 Depth Weight Refrigerant R407 C Refrigerant capacity Starting current Flow/return connection G 1 1/4 A Output at A-7/W35 Power consumption at A-7/W35 Coefficient of Performance at A-7/W35...

  • Page 20: Wiring Diagram

    .CZ`<<`.HC ZT.%.`.HC 14.3 Wiring diagram L L´ A2 (IWS II EVE) T > C S R Bristol P3=3200W P2=3000W P1=2600W Internal heat pump control unit Junctions PCB, earth temperature sensor Heat pump flow temperature sensor - KTY Heat pump return temperature sensor - KTY Hot gas temperature sensor - KTY Intake air temperature sensor - PT1000 Compressor intake temperature sensor - PT1000...
  • Page 21 .CZ`<<`.HC ZT.%.`.HC “+” A2 (IWS II EVE) BU YE RD M _ _ Start relay High pressure sensor Low pressure sensor Terminal LV terminal Terminal Control terminals X23 Power supply earth block X29 12-pin IWS plug - control unit X30 3-pin IWS plug - BUS X33 5-pin IWS plug - expansion valve X34 7-pin IWS plug - sensors X35 6-pin IWS plug - temperature sensors...

  • Page 22: Output Diagrams, Heating

    .CZ`<<`.HC ZT.%.`.HC 14.4 Output diagrams, heating Legend for output diagrams Heating capacity [kW], power consumption [kW] and Coefficient of Performance ε [-] Inlet temperature of the heat source medium [°C] Flow temperature 35 °C Flow temperature 45 °C Flow temperature 55 °C 14.4.1 Heating output 14.4.2 Power consumption - heating 14.4.3 COP, heating...

  • Page 23: Output Diagrams, Cooling

    .CZ`<<`.HC ZT.%.`.HC 14.5 Output diagrams, cooling Legend for output diagrams Cooling capacity [kW], power consumption, cooling [kW] and Coefficient of Performance, cooling ε [-] Inlet temperature of the heat source medium [°C] Flow temperature +7 °C Flow temperature +18 °C 14.5.1 Cooling capacity 14.5.2 Power consumption - cooling 14.5.3 COP, cooling...

  • Page 24: Commissioning Report

    .CZ`<<`.HC HBB.ZZ.HC.C& VTHV` 15. Commissioning report Ô ’ qT< qqq Z`. <é<`VHC HB...
  • Page 25 .CZ`<<`.HC HBB.ZZ.HC.C& VTHV` qqq Z`. <é<`VHC HB qT< Z ’ Ñ...
  • Page 26 .CZ`<<`.HC HBB.ZZ.HC.C& VTHV` ’ qT< qqq Z`. <é<`VHC HB...

  • Page 27: Customer Service And Warranty

    qVVC`t ’ Cp.VHCBC` C Vt<.C& qqq Z`. <é<`VHC HB qT< Z ’...

  • Page 28: Environment And Recycling

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