Dimplex Heat Pump LA 11PS User Manual

LA 11PS  
Montage- und  
Gebrauchsanweisung  
Installation and  
Operating Instructions  
Instructions d’installation  
et d’utilisation  
Luft/Wasser-  
Wärmepumpe für  
Air-to-Water Heat  
Pump for Outdoor air-eau pour  
Pompe à chaleur  
Außenaufstellung Installation  
installation  
extérieure  
o
Bestell-Nr. / Order no. / N de commande : 452159.66.17  
FD 8703  
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1
1.2 Legal Regulations and  
Directives  
The construction and design of the heat pump complies with all  
relevant EU directives, DIN/VDE regulations (see CE declaration  
of conformity).  
1 Please Read  
Immediately  
1.1 Important Information  
The relevant VDE, EN and IEC standards must be adhered to  
when connecting the heat pump to the power supply or carrying  
out maintenance work. Any further connection requirements stip-  
ulated by local utility companies must also be observed.  
ATTENTION!  
When connecting the heating system, all applicable regulations  
must also be adhered to.  
ATTENTION!  
ATTENTION!  
Any work on the heat pump may only be performed by authorised and  
qualified after-sales service technicians.  
ATTENTION!  
Persons, especially children, who are not capable of operating  
the device safely due to their physical, sensory or mental abilities  
or their inexperience or lack of knowledge, must not operate this  
device without supervision or instruction by the person in charge.  
ATTENTION!  
When transporting the heat pump, ensure that it is not tilted more than  
45° (in any direction).  
Children must be supervised to ensure that they do not play with  
the device.  
ATTENTION!  
1.3 Energy-Efficient Use of the  
Heat Pump  
ATTENTION!  
ATTENTION!  
With the purchase of this heat pump you are helping to protect  
the environment. A prerequisite for energy-efficient operation is  
the correct design of the heat source system and heating system  
(radiators and circulation pump).  
ATTENTION!  
It is particularly important for the efficiency of a heat pump to  
keep the temperature difference between heating water and heat  
source as small as possible. For this reason, it is advisable to de-  
sign the heat source and heating system very carefully. A tem-  
perature difference of approx. one Kelvin increases the  
power consumption by around 2.5%. When designing the  
heating system, it should be borne in mind that special consum-  
ers such as e.g. domestic hot water preparation should also be  
taken into consideration and dimensioned for low temperatures.  
Underfloor heating systems (panel heating) are optimally  
suited for heat pump use on account of the low flow temperatures  
(30 °C to 40 °C).  
ATTENTION!  
We recommend the installation of a suitable corrosion protection system  
to prevent the formation of deposits (e.g. rust) in the condenser of the  
heat pump.  
ATTENTION!  
ATTENTION!  
It is important to ensure that the heat exchangers are not con-  
taminated during operation because this increases the tempera-  
ture difference, in turn reducing the COP.  
Correct adjustment of the heat pump controller is also important  
for energy-efficient use of the heat pump. Further information can  
be found in the heat pump controller’s operating instructions.  
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3.1  
2 Purpose of the Heat  
Pump  
3 Scope of Delivery  
3.1 Basic Device  
The heat pump is of compact design and is supplied complete  
with the components listed below.  
2.1 Application  
The air-to-water heat pump is designed for use in existing or  
newly built heating systems.  
R290 (propane) is used as refrigerant.  
It is designed exclusively for heating domestic hot water and  
heating water!  
The heat pump is suitable for mono energy and bivalent opera-  
tion down to an external temperature of -20 °C.  
Proper defrosting of the evaporator is guaranteed by maintaining  
a heating water return flow temperature of more than 13 °C dur-  
ing continuous operation.  
The heat pump is not designed for the increased heat consump-  
tion required when a building is being dried out. The additional  
heat consumption should be met using special devices provided  
by the customer. If a building is to be dried out in autumn or win-  
ter, we recommend installing an additional heating element  
(available as an accessory).  
ATTENTION!  
The device is not suitable for operation with a frequency converter.  
2.2 Operating Principle  
Surrounding air is drawn in by the ventilator and fed via the evap-  
orator (heat exchanger). The evaporator cools the air, i.e. it ex-  
tracts heat from it. This extracted heat is then transferred to the  
working medium (refrigerant) in the evaporator.  
The heat is “pumped” to a higher temperature level by increasing  
its pressure with the aid of the electrically driven compressors. It  
is then transferred to the heating water using the liquifier (heat  
exchanger).  
1)  
2)  
3)  
4)  
5)  
6)  
Evaporator  
Ventilator  
Electrical energy is used to raise the temperature of the heat in  
the environment to a higher level. Because the energy extracted  
from the air is transferred to the heating water, this type of device  
is called an air-to-water heat pump.  
Switch box  
Compressor  
Liquifier  
The air-to-water heat pump consists of the main components  
evaporator, ventilator and expansion valve, as well as the low-  
noise compressors, liquifier and electrical control system.  
Expansion valve  
At low ambient temperatures, humidity accumulates on the evap-  
orator in the form of frost reducing the transfer of heat. The evap-  
orator is defrosted automatically by the heat pump as required.  
Steam may be emitted from the air outlet depending on the at-  
mospheric conditions.  
E-3  
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3.2  
3.2 Switch Box  
The switch box is located in the heat pump. All electrical compo-  
nents are accessible after the front cover and the switch box  
cover have been removed.  
4 Transport  
ATTENTION!  
Never install the device in rooms in which there are any permanent  
ignition sources.  
The switch box contains the supply connection terminals, the  
plug connector for the control line, as well as the power contac-  
tors and the soft starter unit.  
ATTENTION!  
When transporting the heat pump, ensure that it is not tilted more than  
45° (in any direction).  
3.3 Heat Pump Controller  
Use the heat pump controller included in the scope of supply to  
operate the air-to-water heat pump.  
Use a wooden pallet for transporting the heat pump to the final in-  
stallation location. The basic device can be transported with a lift  
truck, hand truck or by means of 3/4" pipes fed through the holes  
in the base plate or frame.  
The heat pump controller is a convenient electronic regulation  
and control device. It controls and monitors the entire heating  
system on the basis of the external temperature, including do-  
mestic hot water preparation and safety systems.  
The customer must install the return temperature sensor and the  
external temperature sensor, which are supplied with the heat  
pump controller / with these instructions together with the neces-  
sary fixing accessories.  
The enclosed operating instructions describe the function and  
use of the heat pump controller.  
ATTENTION!  
The heat pump and transport pallet are only joined by the packing film.  
Before using the transport holes in the frame, it is necessary to  
remove the lower side panel assemblies. This is done by loosen-  
ing each of the two screws at the base and then withdrawing the  
panels by unhooking them from above. Rehang the panels by  
gently pushing them in an upwards direction.  
Be careful not to damage any components when inserting the  
pipes through the frame.  
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Opening the cover  
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Closing the cover  
E-4  
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6.2  
5 Set-up  
6 Installation  
5.1 General Information  
6.1 General Information  
The heat pump is suited for outdoor installation. The device  
should always be installed on a permanently smooth, even and  
horizontal surface and must be aligned vertically. The entire  
frame should lie directly on the ground to ensure a good sound-  
proof seal and to prevent the water-bearing components from be-  
coming too cold. If this is not the case, additional insulation  
measures may be necessary. It must be possible to carry out  
maintenance work without hindrance. This can be ensured by  
maintaining a clearance of 1.2 m to any fixed walls.  
The following connections need to be established on the heat  
pump:  
Flow and return flow of the heating system  
Condensate outflow  
Control line to the heat pump controller  
Power supply  
6.2 Heating System Connection  
The heating system connections on the heat pump have a 1 1/4"  
external thread.  
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Route the connection hoses out of the device in a downwards di-  
rection. Use a spanner to firmly grip the transitions when con-  
necting the heat pump. After the heat pump has been installed,  
the ductwork must be sealed so that the connection is gastight.  
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Before connecting the heating water system to the heat pump,  
the heating system must be flushed to remove any impurities,  
residue from sealants, etc., and to prevent any accumulation of  
deposits in the liquifier. A contaminated liquifier may cause the  
heat pump to completely break down. For systems in which the  
heating water flow can be shut off via the radiator or thermostat  
valves, an overflow valve must be installed in a heating bypass  
downstream from the heat pump by the customer. This ensures  
a minimum heating water flow rate through the heat pump and  
helps to avoid faults.  
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ATTENTION!  
Do not restrict or block the area around the air intake or outlet.  
Once the heating system has been installed, it must be filled, de-  
aerated and pressure-tested (in the heat pump the air-relief cock  
is located at or in the water pipes at the condenser).  
5.2 Condensed Water Pipe  
Condensed water that forms during operation must be drained  
off frost-free. The heat pump must be mounted on a level plane  
to guarantee proper drainage. The condensed water pipe must  
have a minimum diameter of 50 mm and should be fed frost-free  
into a sewer. Condensate should not be discharged directly into  
clearing tanks and cesspits because the aggressive vapours  
could destroy the evaporator.  
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Minimum heating water flow rate  
The minimum heating water flow rate through the heat pump  
must be assured in all operating states of the heating system.  
This can be accomplished, for example, by installing either a  
manifold without differential pressure or an overflow valve. The  
procedure for adjusting an overflow valve is described in the  
Chapter Start-up.  
Antifreeze  
Manual drainage should be provided for heat pumps which are  
exposed to frost. The antifreeze function of the heat pump con-  
troller is active whenever the controller and the heat circulating  
pump are ready for operation. If the heat pump is taken out of  
service or in the event of a power failure, the system has to be  
drained, and if required, blown out, at three locations (see illus-  
tration). The heating circuit should be operated with a suitable  
antifreeze if heat pump systems are implemented in buildings  
where a power failure can not be detected (holiday home).  
E-5  
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6.3  
7 Start-up  
7.1 General Information  
To ensure that start-up is performed correctly, it should only be  
carried out by an after-sales service technician authorised by the  
manufacturer. This may be a condition for extending the guaran-  
tee (see Warranty Service).  
7.2 Preparation  
The following items need to be checked prior to start-up:  
The heat pump must be fully connected, as described in  
Chapter 6.  
All valves that could impair the proper flow of the heating  
water in the heating circuit must be open.  
6.3 Electrical Connection  
The air intake and air outlet paths must be clear.  
The ventilator must turn in the direction indicated by the ar-  
A standard four-core cable is used for connecting the heat pump  
to the power supply.  
row.  
The settings of the heat pump controller must be adapted to  
the heating system in accordance with the controller’s oper-  
ating instructions.  
The power supply and the control line are normally installed in  
the ground (in ductwork with a suitable size and resistance) and  
routed from the heat pump to the building. This ductwork must  
extend into the heat pump by approx. 22 mm and be installed  
with a continuous downward slope in order to comply with Sec-  
tion 42 of the VDE 0100 regulations. Instead of 90° bends, two  
45° bends must be used as pipe bends. The control line and the  
cable for the power supply are drawn into this ductwork.  
Ensure the condensate outflow functions.  
7.3 Procedure  
The heat pump is started up via the heat pump controller. Adjust-  
ments should be made in compliance with the instructions.  
The cable (power supply) must be provided by the customer. The  
conductor cross section is selected in accordance with the power  
consumption of the heat pump (see Appendix Device Informa-  
tion) and the applicable VDE (EN) and VNB regulations.  
If an overflow valve is fitted to maintain the minimum heating  
water flow rate, the valve must be adapted to the requirements of  
the heating system. Incorrect adjustment can lead to faulty oper-  
ation and increased energy consumption. We recommend carry-  
ing out the following procedure to correctly adjust the overflow  
valve:  
The power supply line on the heat pump must be fed through the  
provided cable feedthrough into the switch box. The line must be  
firmly screwed to its feedthrough (vapour sealed pipe union).  
Close all of the heating circuits that may also be closed during  
operation (depending on the type of heat pump usage) so that  
the most unfavourable operating state - with respect to the water  
flow rate - is achieved. This normally means the heating circuits  
of the rooms on the south and west sides of the building. At least  
one heating circuit must remain open (e.g. bathroom).  
An all-pole disconnecting device with a contact gap of at least 3  
mm (e.g. utility blocking contactor or power contactor) as well as  
a 3-pole circuit breaker with common tripping for all external con-  
ductors must be installed in the power supply (tripping current in  
compliance with the Device Information). Ensure that the incom-  
ing supply has a clockwise rotating field when connecting mul-  
tiphase devices.  
The overflow valve should be opened far enough to produce the  
maximum temperature spread between the heating flow and re-  
turn flow listed in the following table for the current heat source  
temperature. The temperature spread should be measured as  
close as possible to the heat pump. The heating element of mono  
energy systems should be disconnected.  
Phase sequence: L1, L2, L3.  
ATTENTION!  
Ensure that there is a clockwise rotating field: Operating the compressor  
in the wrong rotational direction could cause damage to the compressor.  
The control voltage is supplied via the heat pump controller.  
Heat source  
temperature  
Max. temperature spread  
between heating flow and return  
flow  
The heat pump controller has a 230 V AC-50 Hz power supply.  
Connect the controller in compliance with its own operating in-  
structions (16 A fuse).  
From  
To  
-15 °C  
-10 °C  
-5 °C  
0 °C  
-20 °C  
-14 °C  
-9 °C  
-4 °C  
1 °C  
4 K  
5 K  
The control line (not included in scope of supply) is connected to  
the heat pump controller using the two rectangular plug connec-  
tors. Use the plug connector located on the base of the heat  
pump adjacent to the cable gland in the base plate. More de-  
tailed information can be found in the operating instructions of  
the heat pump controller.  
6 K  
7 K  
5 °C  
8 K  
6 °C  
10 °C  
15 °C  
20 °C  
25 °C  
30 °C  
35 °C  
9 K  
11 °C  
16 °C  
21 °C  
26 °C  
31 °C  
10 K  
11 K  
12 K  
13 K  
14 K  
For detailed information, see Circuit Diagrams in the Appendix.  
E-6  
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8.2  
Any faults occurring during operation are also displayed on the  
heat pump controller and can be corrected as described in the  
operating instructions of the heat pump controller.  
8 Maintenance / Cleaning  
8.1 Maintenance  
To protect the paintwork, avoid leaning anything against the de-  
vice or putting objects on the device. External heat pump parts  
can be wiped with a damp cloth and domestic cleaner.  
For external temperatures below 10 °C and heating water tem-  
peratures below 16 °C, the buffer tank should be heated up with  
the second heat generator to at least 25 °C.  
Observe the following procedure to implement a smooth start-up:  
1) Close all of the heating circuits.  
ATTENTION!  
2) Fully open the overflow valve.  
Never use cleaning agents containing sand, soda, acid or chloride as  
these can damage the surfaces.  
3) Use the controller to select the automatic operating mode.  
4) Wait until the buffer tank has reached a temperature of at  
least 25 °C.  
To prevent faults due to sediment in the heat exchanger of the  
heat pump, ensure that the heat exchanger in the heating system  
can not be contaminated. In the event that operating malfunc-  
tions due to contamination still occur, the system should be  
cleaned as described below. The device may only be cleaned ac-  
cording to the following instructions from the manufacturer.  
5) Now slowly reopen the heating circuit valves in succession  
so that the heating water throughput is constantly raised by  
slightly opening the respective heating circuit. The heating  
water temperature in the buffer tank must not be allowed to  
drop below 20 °C during this process. This ensures that the  
heat pump can be defrosted at any time.  
6) Set the minimum volume flow quantity on the overflow valve  
and heat circulating pump when all heating circuits are fully  
open and a heating water temperature in the buffer tank of  
approx. 20 °C is maintained.  
8.2 Cleaning the Heating System  
The ingress of oxygen into the heating water circuit may result in  
the formation of oxidation products (rust), particularly if steel  
components are used. These products enter the heating system  
via the valves, the circulating pumps and/or plastic pipes. It is  
therefore essential - in particular with respect to the piping of un-  
derfloor heating systems - that only diffusion-proof materials are  
used.  
7) New buildings have an increased heat consumption on ac-  
count of the energy required to dry them out. This increased  
heat consumption means that marginally dimensioned heat-  
ing systems can not always achieve the desired room tem-  
perature. In such cases, we recommend keeping a second  
heat generator on standby during the first heating period.  
The limit temperature on the heat pump controller should  
also be turned up to 15 °C.  
ATTENTION!  
We recommend the installation of a suitable corrosion protection system  
to prevent the formation of deposits (e.g. rust) in the condenser of the  
heat pump.  
Residue from lubricants and sealants may also contaminate the  
heating water.  
In the case of severe contamination leading to a reduction in the  
performance of the liquifier in the heat pump, the system must be  
cleaned by a heating technician.  
According to today’s state of knowledge, we recommend using a  
5 % phosphoric acid solution for cleaning purposes. However, if  
cleaning needs to be performed more frequently, a 5 % formic  
acid solution should be used.  
In either case, the cleaning fluid should be at room temperature.  
We recommend flushing the heat exchanger in the direction op-  
posite to the normal flow direction.  
To prevent acidic cleaning agents from entering the heating sys-  
tem circuit, we recommend connecting the flushing device di-  
rectly to the flow and return flow of the liquifier of the heat pump.  
It is important that the system be thoroughly flushed using appro-  
priate neutralising agents to prevent any damage from being  
caused by cleaning agent residue remaining in the system.  
Acids must be used with great care and all relevant regulations of  
the employers’ liability insurance associations must be adhered  
to.  
If in doubt, contact the manufacturer of the chemicals!  
E-7  
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8.3  
8.3 Cleaning the Air System  
Evaporator, ventilator and condensate outflow should be cleaned  
of contamination (leaves, twigs, etc.) before each new heating  
period.  
9 Faults / Trouble-  
Shooting  
This heat pump is a quality product and is designed for trouble-  
free and maintenance-free operation. In the event that a fault  
should occur, it will be indicated on the heat pump manager dis-  
play. Simply consult the Faults and Trouble-shooting page in the  
operating instructions of the heat pump manager. If you cannot  
correct the fault yourself, please contact your after-sales service  
technician.  
Do this by opening the front of the heat pump. The bottom should  
be opened first followed by the top.  
ATTENTION!  
Before opening the device, ensure that all circuits are isolated from the  
power supply.  
Remove and rehang the side panel assemblies as described in  
Chapter 4.  
ATTENTION!  
Any work on the heat pump may only be performed by authorised and  
qualified after-sales service technicians.  
To prevent the evaporator and the condensate tray from being  
damaged, do not use hard or sharp objects for cleaning.  
Anyone carrying out work on the refrigerating circuit must be cer-  
tified to safely handle inflammable refrigerants or be supervised  
by a person having such certification.  
ATTENTION!  
The refrigerating circuit may not be damaged in any way.  
Inflammable refrigerant could leak out if the refrigerating circuit is  
damaged. Ignition sources and open flames must be avoided  
when carrying out any work on the device.  
10 Decommissioning/  
Disposal  
Under extreme weather conditions (e.g. snow drifts), ice may  
form on the air intake and exhaust air outlet grids. If this happens,  
the ice must be removed in the vicinity of the air intake and ex-  
haust air outlet grids to ensure that the minimum air flow rate is  
maintained.  
Before removing the heat pump, disconnect it from the power  
source and close all valves. Observe all environmentally-relevant  
requirements regarding the recovery, recycling and disposal of  
materials and components in accordance with all applicable  
standards. Particular attention should be paid to the proper dis-  
posal of refrigerants and refrigeration oils.  
E-8  
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11  
11 Device Information  
LA 11PS  
1
2
Type and order code  
Design  
2.1 Degree of protection according to EN 60 529 for compact devices  
and heating components  
IP 24  
2.2 Installation Location  
Outdoors  
3
Performance data  
3.1 Operating temperature limits:  
Heating water flow/return flow  
Air  
°C / °C  
°C  
Up to 65 / above 18  
-25 to +35  
3.2 Temperature spread of heating water at A7 / W35  
9.2  
5.0  
1
1
7.3 / 2.5  
7.0 / 2.5  
6.4 / 2.2  
8.7 / 3.0  
11.2 / 3.5  
10.5 / 3.0  
11.8 / 3.9  
3.3 Heat output / COP  
at A-7 / W35  
at A-7 / W45  
kW / ---  
kW / ---  
kW / ---  
kW / ---  
kW / ---  
1
9.2 / 3.1  
at A2 / W35  
at A7 / W35  
at A7 / W45  
1
11.5 / 3.8  
1
1
13.1 / 4.1  
1.1 / 2600  
at A10 / W35  
kW / ---  
dB(A)  
3.4 Sound power level  
64  
34  
3.5 Sound pressure level at a distance of 10 m (air outlet side) dB(A)  
3.6 Heating water flow with an internal pressure differential of m³/h / Pa  
2.1 / 9500  
3.7 Air flow rate  
m³/h  
4000  
3.8 Refrigerant; total filling weight  
type / kg  
R290 / 1.5  
4
Dimensions, connections and weight  
4.1 Device dimensions  
H x W x L cm  
157 x 155 x 85  
G 1'' external  
258  
4.2 Device connections to heating system  
4.3 Weight of the transportable unit(s) incl. packing  
Inch  
kg  
5
Electrical connection  
5.1 Nominal voltage; fuse protection  
V / A  
400 / 16  
1
2.98  
5.38  
2.9  
5.2 Nominal power consumption  
A2 W35  
kW  
A
5.3 Starting current with soft starter  
30  
2
5.4 Nominal current A2 W35 / cos ϕ  
A / ---  
5.23  
6
7
Complies with the European safety regulations  
Additional model features  
7.1 Defrosting  
Type of defrosting  
Automatic  
Hot gas  
Yes (heated)  
Yes  
Defrosting tray included  
3
7.2 Heating water in device protected against icing  
7.3 Performance levels  
2
7.4 Controller internal/external  
External  
1. This data indicates the size and capacity of the system. For an analysis of the economic and energy efficiency of the system, other parameters, such as, in particular, the defrosting  
capacity, the bivalence point and regulation, should also be taken into consideration. The specified values, e.g. A2 / W55, have the following meaning: 2 °C external air temperature  
and 55 °C heating water flow temperature.  
2. See CE declaration of conformity  
3. The heat circulating pump and the heat pump controller must always be ready for operation.  
E-9  
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Anhang / Appendix / Annexes  
A-I  
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1
1 Maßbild / Dimension Drawing / Schéma coté  
A-II  
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2
2 Diagramme / Diagrams / Diagrammes  
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A-III  
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3
3 Stromlaufpläne / Circuit Diagrams / Schémas  
électriques  
3.1 Steuerung / Control / Commande  
A-IV  
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3.2  
3.2 Last / Load / Charge  
A-V  
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3.3  
3.3 Anschlussplan / Circuit Diagram / Schéma électrique  
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A-VI  
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3.4  
3.4 Legende / Legend / Légende  
E1  
E4  
Ölsumpfheizung Verdichter 1  
Düsenringheizung Ventilator  
Oil sump heater for compressor 1  
Nozzle ring heater, ventilator  
Chauffage à carter d’huile compresseur 1  
Chauffage à couronne perforée ventilateur  
F4  
F5  
Pressostat Hochdruck Verdichter 1  
Pressostat Niederdruck  
High-pressure switch, compressor 1  
Low-pressure switch  
Pressostat haute pression, circuit froid 1  
Pressostat basse pression  
F23  
Wicklungsschutz Ventilator  
Winding protection, ventilator  
Blindage de l'enroulement ventilateur  
K1  
K2  
K7  
Schütz Verdichter 1  
Schütz Ventilator  
Halbleiterrelais-Abtauung  
Contactor for compressor 1  
Contactor, ventilator  
Semiconductor relay, defrosting  
Contacteur compresseur 1  
Contacteur ventilateur  
Dégivrage ralais statique  
M1  
M2  
Verdichter 1  
Ventilator  
Compressor 1  
Ventilator  
Compresseur 1  
Ventilateur  
N1  
N7  
Wärmepumpenregler  
Sanftanlaufsteuerung Verdichter 1  
Heat pump controller  
Soft start control for compressor 1  
Régulateur de pompe à chaleur  
Commande de démarrage progressif  
compresseur 1  
R7  
R9  
Kodierwiderstand (2k7/0,25W)  
Frostschutzfühler  
Coding resistor (2k7 / 0.25 W)  
Flow sensor  
Résistance de codage (2k7/0,25W)  
Sonde antigel  
R12  
Abtauendefühler  
Defrost end sensor  
Sonde fin de dégivrage  
X1  
X2  
X4  
Klemmenleiste: Lasteinspeisung  
Klemmenleiste: interne Verdrahtung  
Steckverbinder Steuerleitung / Wärmepumpe  
Terminal strip: Incoming supply to the load  
Terminal strip: Internal wiring  
Plug connector, control line/heat pump  
Plug connector, control line /  
Bornier : alimentation de charge  
Bornier : câblage interne  
Connecteur ligne de commande/pompe à chaleur  
Connecteur de la ligne de commande /  
régulateur de pompe à chaleur  
X8/X11 Steckverbinder Steuerleitung /  
Wärmepumpenregler  
Heat pump controller  
Y7  
Y8  
Magnetventil Hauptleitung (no)  
Magnetventil Bypass (nc)  
Solenoid valve, main line (no)  
Solenoid valve, bypass (nc)  
Electrovanne ligne principale (no)  
Electrovanne dérivation (nc)  
A-VII  
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4
4 Hydraulische Prinzipschemen / Hydraulic Plumbing  
Diagram / Schémas hydrauliques  
4.1 Monoenergetische Anlage / Mono Energy System / Installation  
monoénergétique  
A-VIII  
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4.2  
4.2 Monoenergetische Anlage und Warmwasserbereitung / Mono Energy  
System and Domestic Hot Water Preparation / Installation  
monoénergétique et production d’eau chaude  
A-IX  
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4.3  
4.3 Bivalente Anlage / Bivalent System / Installation bivalente  
A-X  
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4.4  
4.4 Legende / Legend / Légende  
Absperrventil  
Shutoff valve  
Robinet d’arrêt  
Überstromventil  
Overflow valve  
Vanne de trop-plein  
Groupe de valves de sécurité  
Circulateur  
Sicherheitsventilkombination  
Umwälzpumpe  
Safety valve combination  
Circulating pump  
Ausdehnungsgefäß  
Expansion vessel  
Vase d´expansion  
Raumtemperaturgesteuertes Ventil  
Absperrventil mit Rückschlagventil  
Absperrventil mit Entwässerung  
Wärmeverbraucher  
Room temperature-controlled valve  
Shutoff valve with check valve  
Shutoff valve with drainage  
Heat consumer  
Vanne commandée par température  
Robinet d’arrêt avec clapet anti-retour  
Robinet d’arrêt avec écoulement  
Consommateur de chaleur  
Mélangeur 4 voies  
Vierwegemischer  
Four-way mixer  
0
Temperaturfühler  
Temperature sensor  
Flexible connection hose  
Sonde de température  
Flexibler Anschlussschlauch  
Tuyau de raccord flexible  
Wärmepumpe  
Heat pump  
pompe à chaleur  
Pufferspeicher  
Buffer tank  
Réservoir tampon  
Wärmepumpenregler  
Elektroverteilung  
Warmwasserspeicher  
Heizkessel  
Heat pump controller  
Electrical distribution system  
Hot water cylinder  
Boiler  
Régulateur de pompe à chaleur  
Distributeur courant électrique  
Ballon d’eau chaude  
Chaudière  
E8  
Zusatzheizung  
Supplementary heating  
Heat circulating pump  
Hot water circulating pump  
Heat pump controller  
External wall sensor  
Return flow sensor  
Hot water sensor  
Chauffage d’appoint  
Circulateur de chauffage  
Circulateur d’eau chaude  
Régulateur de pompe à chaleur  
Sonde de paroi extérieure  
Sonde de retour  
M13  
M18  
N1  
Heizungsumwälzpumpe  
Warmwasserumwälzpumpe  
Wärmepumpenregler  
Außenwandfühler  
Rücklauffühler  
R1  
R2  
R3  
Warmwasserfühler  
Elektroverteilung  
Kaltwasser  
Sonde d’eau chaude  
Distributeur courant électrique  
eau froide  
EV  
Electrical distribution system  
Cold water  
KW  
MA  
MZ  
WW  
Mischer AUF  
Mixer OPEN  
Mélangeur OUVERT  
Mélangeur FERME  
Mischer ZU  
Mixer CLOSED  
Warmwasser  
Domestic hot water  
Eau chaude  
A-XI  
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5
5 Konformitätserklärung / Declaration of Conformity /  
Déclaration de conformité  
A-XII  
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Glen Dimplex Deutschland GmbH  
Geschäftsbereich Dimplex  
Am Goldenen Feld 18  
Irrtümer und Änderungen vorbehalten.  
Subject to alterations and errors.  
Sous réserve d’erreurs et modifications.  
+49 (0) 9221 709 565  
D-95326 Kulmbach  
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