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Summary of Contents for Dimplex SI 5MSR
- Page 1 MOUNTING and OPERATING MANUAL Brine-to-Water Heat Pump for Indoor Installation SI 9MSR SI 5MSR SI 11MSR SI 7MSR Order No.: 452232.67.04 FD 8404...
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Page 2: Table Of Contents
CONTENTS READ IMMEDIATELY Important Information Legal Provisions and Directives Energy-Efficient Use of the Heat Pump PURPOSE OF THE HEAT PUMP Application Principle of Operation BASELINE UNIT ACCESSORIES Brine Manifold TRANSPORT INSTALLATION General Information Sound Emissions MOUNTING General Connection on Heating Side Connection on Heat Source Side Electrical Connection COMMISSIONING... -
Page 3: Read Immediately
READ IMMEDIATELY READ IMMEDIATELY CAUTION! All power circuits must be dis- connected from the power source prior to 1.1 Important Information opening the cabinet. CAUTION! The heat pump is not attached to the wooden pallet. 1.2 Legal Provisions and Directives This heat pump conforms to all relevant DIN/VDE CAUTION! regulations and EU directives. -
Page 4: Purpose Of The Heat Pump
PURPOSE OF HEAT PUMP BASELINE UNIT PURPOSE OF THE HEAT BASELINE UNIT PUMP The baseline unit consists of a heat pump, ready for connection, for indoor installation complete with 2.1 Application sheet metal cabinet, control panel and integrated controller. The refrigeration cycle contains the The brine-to-water heat pump is designed for use refrigerant R407C. -
Page 5: Accessories
ACCESSORIES TRANSPORT ACCESSORIES TRANSPORT 4.1 Brine Manifold A lift truck is suited for transporting the unit on a level The brine manifold ties the individual collector loops surface. If the heat pump needs to be transported of the heat source system into a single main line on an uneven surface or carried up or down stairs, which is connected to the heat pump. -
Page 6: Installation
INSTALLATION MOUNTING INSTALLATION MOUNTING 6.1 General Information 7.1 General As a rule, the unit must be installed indoors on a The following connections need to be established level, smooth and horizontal surface. The entire base on the heat pump: frame should thereby make close contact with the - supply/return flow of the brine system surface in order to ensure adequate sound - supply/return flow of the heating system... -
Page 7: Connection On Heat Source Side
MOUNTING COMMISSIONING 7.3 Connection on Heat Source Side power consumption of the heat pump, the technical connection requirements of the relevant electrical The following procedure must be observed when utility company as well as all applicable regulations. Details on the power consumption of the heat pump making the connection: are contained on the product information sheet and Connect the brine line to the flow and return pipe... -
Page 8: Care/Cleaning
COMMISSIONING CARE/CLEANING consumption. To correctly set the overflow valve, the Based on information known to date we recommend following procedure is recommended: cleaning with a 5% phosphoric acid solution or, in the case that cleaning needs to be performed more frequently, with a 5% formic acid. -
Page 9: Malfunctions/ Troubleshooting
MALFUNCTIONS/TROUBLE- SHOOTING DECOMMISSIONING MALFUNCTIONS/ DECOMMISSIONING TROUBLESHOOTING 11.1 Shutdown in Summer Shutting down the heating system in summer is This heat pump is a quality product and is designed effected by switching the heat pump controller to the for trouble-free operation. In the event that a "Summer"... -
Page 10: Appendix
APPENDIX APPENDIX 12.1 Dimensioned Drawing 12.2 Equipment Data 12.3 Schematics 12.3.1 Heating mode .. 5MSR 12.3.2 Cooling mode .. 5MSR 12.3.3 Heating mode .. 7MSR 12.3.4 Cooling mode .. 7MSR 12.3.5 Heating mode .. 9MSR 12.3.6 Cooling mode .. 9MSR 12.3.7 Heating mode .. -
Page 11: Dimensioned Drawing
APPENDIX: 12.1 DIMENSIONED 12. 1 Maßbilder DRAWING Dimensioned Drawing... -
Page 12: Equipment Data
APPENDIX: 12.2 EQUIPMENT INFORMATION Equipment Information EQUIPMENT DATA for brine-to-water heat pumps for heating purposes TYPE AND COMMERCIAL DESCRIPTIONS ..5MSR ..7MSR ..9MSR ..11MSR MODEL Type reversible reversible reversible reversible Enclosure type acc. to EN 60 529 IP 20 IP 20 IP 20 IP 20 Installation site... -
Page 13: Heating Mode
APPENDIX: 12.3 DIAGRAMS 12.3.1 Heating Mode .. 5MSR Wasseraustrittstemperatur in [°C] Water outlet temperature in [°C] Heizleistung in [kW] Heating capacity in [kW] Bedingungen: Conditions: Heizwasserdurchsatz 0,45 m³/h Heating water flow rate 0.45 m Soledurchsatz 1,2 m³/h Brine flow rate 1.2 m Soleeintrittstemperatur in [°C] Brine inlet temperature in [°C] Leistungsaufnahme (incl. -
Page 14: Cooling Mode
APPENDIX: 12.3 DIAGRAMS 12.3.2 Cooling Mode .. 5MSR Wasseraustrittstemperatur in [°C] Water outlet temperature in [°C] Kühlleistung in [kW] Cooling capacity in [kW] Bedingungen: Conditions: Wasserdurchsatz 0,45 m³/h Water flow rate 0.45 m Soledurchsatz 1,2 m³/h Brine flow rate 1.2 m Soleeintrittstemperatur in [°C] Brine inlet temperature in [°C] Pressure loss in [Pa]... -
Page 15: Heating Mode
APPENDIX: 12.3 DIAGRAMS 12.3.3 Heating Mode .. 7MSR Wasseraustrittstemperatur in [°C] Water outlet temperature in [°C] Heizleistung in [kW] Heating capacity in [kW] Bedingungen: Conditions: Heizwasserdurchsatz 0,6 m³/h Heating water flow rate 0.6 m Soledurchsatz 1,7 m³/h Brine flow rate 1.7 m Soleeintrittstemperatur in [°C] Brine inlet temperature in [°C] Leistungsaufnahme (incl. -
Page 16: Cooling Mode
APPENDIX: 12.3 DIAGRAMS 12.3.4 Cooling Mode .. 7MSR Water outlet temperature in [°C] Wasseraustrittstemperatur in [°C] Kühlleistung in [kW] Cooling capacity in [kW] Bedingungen: Conditions: Wasserdurchsatz 0,6 m³/h Water flow rate 0.6 m Soledurchsatz 1,7 m³/h Brine flow rate 1.7 m Brine inlet temperature in [°C] Soleeintrittstemperatur in [°C] Pressure loss in [Pa]... -
Page 17: Heating Mode
APPENDIX: 12.3 DIAGRAMS 12.3.5 Heating Mode .. 9MSR Wasseraustrittstemperatur in [°C] Water outlet temperature in [°C] Heizleistung in [kW] Heating capacity in [kW] Bedingungen: Conditions: Heizwasserdurchsatz 0,75 m³/h Heating water flow rate 0.75 m Soledurchsatz 2,3 m³/h Brine flow rate 2.3 m Soleeintrittstemperatur in [°C] Brine inlet temperature in [°C] Leistungsaufnahme (incl. -
Page 18: Cooling Mode
APPENDIX: 12.3 DIAGRAMS 12.3.6 Cooling Mode .. 9MSR Wasseraustrittstemperatur in [°C] Water outlet temperature in [°C] Kühlleistung in [kW] Cooling capacity in [kW] Bedingungen: Conditions: Wasserdurchsatz 0,75 m³/h Water flow rate 0.75 m Soledurchsatz 2,3 m³/h Brine flow rate 2.3 m Soleeintrittstemperatur in [°C] Brine inlet temperature in [°C] Pressure loss in [Pa]... -
Page 19: Heating Mode
APPENDIX: 12.3 DIAGRAMS 12.3.7 Heating Mode .. 11MSR Wasseraustrittstemperatur in [°C] Water outlet temperature in [°C] Heizleistung in [kW] Heating capacity in [kW] Conditions: Bedingungen: Heizwasserdurchsatz 1,0 m³/h Heating water flow rate 1.0 m Soledurchsatz 3,0 m³/h Brine flow rate 3.0 m Soleeintrittstemperatur in [°C] Brine inlet temperature in [°C] Pressure loss in [Pa]... -
Page 20: Cooling Mode
APPENDIX: 12.3 DIAGRAMS 12.3.8 Cooling Mode .. 11MSR Wasseraustrittstemperatur in [°C] Water outlet temperature in [°C] Kühlleistung in [kW] Cooling capacity in [kW] Conditions: Bedingungen: Water flow rate 1.0 m Wasserdurchsatz 1,0 m³/h Soledurchsatz 3,0 m³/h Brine flow rate 3.0 m Soleeintrittstemperatur in [°C] Brine inlet temperature in [°C] Pressure loss in [Pa]... -
Page 21: Wiring Diagram
APPENDIX: 12.4 WIRING DIAGRAM 12.4.1Control, Standard Controller... -
Page 22: Control, Cooling Controller
APPENDIX: 12.4 WIRING DIAGRAM 12.4.2 Control, Cooling Controller... -
Page 23: Load
APPENDIX: 12.4 WIRING DIAGRAM 12.4.3 Load... -
Page 24: Terminal Diagr., Standard Controller
APPENDIX: 12.4 WIRING DIAGRAM 12.4.4 Terminal Diagram, Standard Controller... -
Page 25: Terminal Diagr., Cooling Controller
APPENDIX: 12.4 WIRING DIAGRAM 12.4.5 Terminal Diagram, Cooling Controller... -
Page 26: Legend
APPENDIX: 12.4 WIRING DIAGRAM 12.4.6 Legend Wire jumper, must be removed upon installation of a utility company disable contactor Wire jumper, must be removed if 2nd disable input is used Wire jumper, must be removed if a motor protection contact for primary pump is used Wire jumper, must be removed if a motor protection contact for the compressor is used Open wire jumpers or contacts mean: lock-out or malfunction... -
Page 27: Hydraulic Block Diagram
APPENDIX: 12.5 HYDRAULIC BLOCK DIAGRAM Hydraulic Block Diagram... -
Page 28: Ec Declaration Of Conformity
EC Low Voltage Directive for indoor installation with R407C (73/23/EEC) EC EMC Directive (89/336/EEC) Pressure Equipment Directive (97/23/EEC) Type(s): Harmonized EN Standards: SI 5MSR SI 7MSR SI 9MSR SI 11MSR Requirements of category II Order No.: National Standard/Directives: 342 360 342 370... -
Page 29: Warranty Certificate
Notes... - Page 30 Notes...
- Page 31 Notes...
- Page 32 KKW Kulmbacher Klimageräte-Werk GmbH Subject to technical modifications Division Dimplex Fax (0 92 21) 709-589 Am Goldenen Feld 18 www.dimplex.de D-95326 Kulmbach...
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