Dimplex Heat Pump LA 10MR User Manual

CE  
INSTALLATION and OPERATING  
INSTRUCTIONS  
Air-to-Water Heat Pump  
for Outdoor installation  
LA 6MR LA 12TR  
LA 8MR LA 16TR  
LA 10MR  
Order No.: 452159.67.07  
FD 8602  
Download from Www.Somanuals.com. All Manuals Search And Download.  
READ IMMEDIATELY  
1.2 Legal Provisions and Guidelines  
READ IMMEDIATELY  
This heat pump was designed and built in  
compliance with all relevant EU directives, DIN and  
VDE regulations (see CE Declaration of Conformity).  
1
1.1 Important Information  
The electrical connection of the heat pump must be  
performed according to and conforming with all re-  
levant VDE, EN and IEC standards. Beyond that, all  
technical connection requirements of the local  
electrical utility company have to be adhered to.  
CAUTION!  
Do not open the unit unless all  
electrical circuits have been disconnected from the  
power supply.  
On connecting the heating system, all relevant  
CAUTION!  
regulations have to be heeded.  
During transport, the heat pump must  
not be tilted more than 45° (in either direction).  
1.3 Energy-Efficient Use of the Heat  
Pump  
CAUTION!  
Heat pump and transport pallet are  
only connected by the packaging film.  
By purchasing this heat pump you contribute to the  
protection of the environment. A prerequisite for  
energy-efficient operation is the proper design of the  
heat source system and the heat utilization system.  
CAUTION!  
The air intake and discharge  
openings must neither be constricted nor  
One of the most important factors of heat pump  
efficiency is keeping the temperature difference  
between the heating water and the heat source as  
small as possible. It is therefore strongly  
recommended that the design of both the heat  
source system and the heat distribution system be  
carried out with great care. A 1 Kelvin (1°C) higher  
temperature difference corresponds to an  
increase in power consumption of approx. 2.5%.  
When designing the heating system care must be  
taken that special applications such as domestic  
water heating are taken into consideration and  
dimensioned for low temperature operation. Heat  
pumps are optimally suited for underfloor heating  
(surface/radiant heating) applications due to the  
low supply temperatures (30 °C to 40 °C).  
obstructed.  
CAUTION!  
Clockwise phase sequence (in the  
case of multiphase units) must be observed: Damage  
to the compressor may be incurred if it is operated  
in the wrong sense of rotation.  
CAUTION!  
Do not use any cleaning agents  
containing sand, soda, acid or chloride as these may  
damage the surface.  
CAUTION!  
During operation it is essential that the heat  
exchangers are not contaminated as this would  
increase the temperature difference resulting in a  
lower coefficient of performance.  
To prevent consequential damage it  
is imperative that the water circuits be neutralized  
after cleaning using appropriate agents.  
CAUTION!  
The unit is not suitable for operation  
with a frequency converter.  
CAUTION!  
Work on the refrigeration circuit may  
be performed by qualified persons only.  
3
Download from Www.Somanuals.com. All Manuals Search And Download.  
PURPOSE OF HEAT PUMP  
SCOPE OF DELIVERY  
PURPOSE OF HEAT  
SCOPE OF DELIVERY  
2 PUMP  
3
3.1 Baseline Unit  
The heat pump is deliverd as a compact unit  
2.1 Field of Application  
containing the components listed below.  
The air-to-water heat pump is intended for use in  
The refrigerant used is R407C.  
existing or newly built heating systems.  
The heat pump is designed for the cooling or heating  
of water for heating purposes and the supply of  
domestic hot water!  
1
2
3
The heat pump is suitable for mono-energetic and  
bivalent operation.  
During heating mode, a heating water return  
temperature of more than 18 °C must be maintained  
in order to assure proper defrosting of the  
evaporator.  
The heat pump is generally not designed for  
satisfying any increased heat demand during the  
drying phase of new buildings. The additional heat  
demand must therefore be met by special appliances  
to be supplied on site. For the structural drying of  
new buildings during autumn and winter, its is  
recommended that an additional electric heating  
element (available as an accessory) be installed.  
4
CAUTION!  
The unit is not suited for operation  
with a frequency converter.  
2.2 Principle of Operation  
Ambient air is drawn in by the fan and passed over a  
finned heat exchanger, which extracts heat from the  
air in the heating mode or gives off heat to the air in  
the cooling mode. This energy difference is  
transferred to the working fluid (refrigerant) in the  
heat exchanger.  
9
8
7
6
5
With the aid of an electrically driven compressor, the  
absorbed heat is "pumped" to a higher temperature  
level through pressure increase and - depending  
on the particular application (cooling or heating) - is  
given off to the heating water or the waste air via the  
heat exchanger.  
1) Evaporator  
2) Control box  
3) Fan  
5) Expansion vessel  
6) Receiver/  
7) Circulat. pump  
8) Electric heater  
9) Compressor  
filter drier  
4) Pressostats  
During heating mode, electrical energy is used to  
raise the heat of the environment to a higher  
temperature level. Due to the fact that the energy  
extracted from the air is transferred to the heating  
water, this type of appliance is referred to as air-to-  
water heat pump.  
3.2 Control Box  
The control box is integrated in the heat pump. It is  
accessible after removal of the cover panel (the  
fastening screw holes of the cover panels are  
capped).  
The air-to-water heat pump consists of the following  
main components: evaporator, fan and expansion  
valve as well as the low-noise compressor, a  
condenser and the electric control unit.  
The control box houses the mains terminals, the  
power contactors, the soft start unit as well as the  
terminals for the remote control.  
In the case of low ambient temperatures in the  
heating mode, moisture contained in the air may  
accumulate on the evaporator in the form of frost  
thus impairing the heat transfer. The evaporator is  
automatically defrosted by the heat pump, if required.  
Vapour pluming may occur at the air outlet depending  
on the weather conditions.  
The control of the heat pump is effected via the  
remote control included in the scope of delivery (see  
also section 8.).  
4
Download from Www.Somanuals.com. All Manuals Search And Download.  
TRANSPORT  
INSTALLATION  
TRANSPORT  
INSTALLATION  
4
5
5.1 General  
The unit should always be installed on  
a
CAUTION!  
During transport, the heat pump  
permanently level, smooth and horizontal floor. The  
base frame (with its contact surfaces) should make  
close contact with the floor in order to prevent any  
structure-borne noise from being transmitted. If this  
is not possible, additional sound-absorbing  
measures might become necessary. It must be  
possible to carry out servicing activities without any  
problems. This is assured if a clearance of 1.2m is  
maintained all around the unit.  
must not be tilted more than 45°(in either direction).  
The unit should be transported to the final  
installation site on a wooden pallet. The heat pump  
can be transported either by means of a lift truck or  
using 3/4" pipes to be passed through the openings  
provided in the base plate or in the frame.  
1,2 m  
1,2 m  
1,2 m  
1,2 m  
CAUTION!  
The heat pump and transport pallet  
are only connected by the packaging film.  
CAUTION!  
The air intake and discharge  
When using 3/4" carrying pipes, be sure to secure  
them against shifting so as to avoid injuries (to your  
hands) during transport!  
openings must not be restricted nor obstructed.  
When slipping the carrying pipes through the frame,  
care must be taken that no components (in particular  
the plastic condensate pan or the drain pipe socket)  
are damaged.  
5.2 Condensate Line  
The condensation water that may collect during  
operation must be drained in a place protected from  
frost. The heat pump must be positioned horizontally  
so that proper discharge can be ensured. The  
condensation water pipe must have a minimum  
diameter of 50 mm and should be discharged to the  
sewer drain in a frost-proof location.  
The condensate pipe has to be placed centered  
unterneath the drain pipe fitting of the condensate pan  
(see also dimensioned drawing in the Appendix). Al-  
ternative condensate discharge options have to be  
agreed with the manufacturer.  
Do not discharge the condensate directly into  
septic pits or cesspools as the evaporator is likely  
to be destroyed by the aggressive vapours  
generated there.  
5
Download from Www.Somanuals.com. All Manuals Search And Download.  
MOUNTING  
6.3 Electrical Connection  
MOUNTING  
The power connection of the heat pump is effected  
via a standard 3-core (for 1-phase units) or a 5-core  
(for 3-phase units) cable.  
6
6.1 General  
The following connections need to be established  
In the case of the 1-phase units, an additional 3-core  
on the heat pump:  
cable must be installed for the electric back-up heater.  
- supply/return lines of the heating system  
- condensate drain  
The cable(s) has (have) to be supplied by the client;  
the cross-sectional area is to be selected in  
accordance with the power consumption of the heat  
pump (see Equipment Data in the appendix) as well  
as all relevant VDE (EN) and VNB regulations.  
- control lead to the remote control  
- power supply  
The power supply of the heat pump must be equipped  
with an all-pole disconnecting device with a contact  
gap of at least 3 mm (e.g. utility company shut-off  
contactor, power contactor) as well as a 3-pole circuit  
breaker, with simultaneous tripping of all external  
conductors (tripping current as stated in the Equip-  
ment Data).  
6.2 Heating-Side Connection  
The connections on the heating side of the heat  
pump are provided with 1"external thread (flat  
sealing). When making the connections to the heat  
pump, use a wrench to counterhold at the transitions.  
Before completing the heat pump connections on  
the heating water side, the heating installation must  
be flushed in order to remove any impurities that  
may be present, as well as any residues of sealing  
material, and the like. Any accumulation of deposits  
in the condenser may result in a total failure of the  
heat pump. On systems equipped with heating water  
flow shut-off devices such as radiator or thermostat  
valves, an overflow valve, to be provided by the  
customer, needs to be installed at the outlet of the  
heat pump in a heating system bypass. This assures  
a minimum heating water flow through the heat  
pump and thus prevents any malfunctions from  
occurring.  
- optionally, an additional three-core cable is  
required for the domestic hot water supply.  
When connecting multiphase units the clockwise  
phase sequence of the motor electrical supply must  
be assured.  
Phase sequence: L1, L2, L3.  
CAUTION!  
Clockwise phase sequence (in the  
case of multiphase units) must be ensured: Operating  
the compressor in the wrong sense of rotation, may  
result in damage to the compressor. An incorrect  
phase sequence causes the fan to operate in the  
wrong sense of rotation leading to a significant  
reduction in performance.  
Once the installation on the heating side has been  
completed, the heating system must be filled, de-  
aerated and pressure-tested..  
The control voltage for the remote control is provided  
Heating water minimum flow rate  
by the power supply of the unit.  
The heating water minimum 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 a differential pressure-free manifold or an  
overflow valve. The procedure for setting an overflow  
valve is described in the Chapter Commissioning.  
The connecting lead (control lead) from the remote  
control to the heat pump (not included in the scope of  
delivery) must be suitable for 230 V mains power  
supply. The lead must have (at least) 6 cores and the  
cross-section of the single cores must be at least 0.5  
2
mm .  
The power supply of the heat pump must be as  
specified in the Technical Data of the applicance, i.e.  
230 V AC 50 Hz or 3-L/N/PE 400 V.  
Frost Protection  
On heat pumps installed in a location prone to frost,  
a manual drain valve (see "Hydraulic Block Diagrams"  
in the Appendix) should be provided. Properly installed  
appliances feature an internal frost protection feature.  
If the heat pump is taken out of service or in the event  
of a power failure, the system must be drained. In  
heat pump installations where a power failure cannot  
be readily detected (e.g. holiday houses), the heating  
circuit must contain a suitable antifreeze product.  
The connection inside the heat pump is to be effected  
using the terminal strips in the control box. For  
detailed information refer to the Wiring Diagrams in  
the Appendix.  
6
Download from Www.Somanuals.com. All Manuals Search And Download.  
COMMISSIONING  
Heat source temperature  
max. difference between  
heating water supply and  
return temperature  
COMMISSIONING  
from  
to  
7
-20 °C  
-14 °C  
-9 °C  
-4 °C  
1 °C  
-15 °C  
-10 °C  
-5 °C  
0 °C  
4 K  
5 K  
7.1 General  
6 K  
To ensure proper commissioning it should be  
carried out by an after-sales service authorized by  
the manufacturer. Only then can an extended  
warranty period of 3 years in total be granted (cf.  
Warranty service).  
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  
7.2 Preparatory Steps  
Prior to commissioning, the following items need to  
be checked:  
The following procedure must be observed so that  
the commissioning activities can be carried out  
without any problems:  
- All connections of the heat pump must have been  
made as described in Chapter 6.  
- In the heating circuit all valves that could impair  
the proper heating water flow must be open.  
a) Close all heating circuits.  
b) Open the overflow valve all the way.  
- The air intake/discharge path must be  
unobstructed.  
c) Wait until the buffer tank has reached a  
temperature of approx. 25 °C.  
- The sense of rotation of the fan must correspond  
to the direction of the arrow.  
d) Subsequently, slowly reopen the valves of the  
heating circuits, one after the other, in such a  
way that the heating water flow rate is  
continually increased by slightly opening the  
related heating circuit. When so doing, the  
heating water temperature in the buffer tank  
must not fall below 20 °C so that the heat pump  
can be defrosted at any time.  
- An operating mode must have been set on the  
remote control.  
- Proper condensate drainage must be ensured.  
7.3 Procedure  
The start-up of the heat pump is effected via the  
e) Once all heating circuit are fully open and a  
heating water temperature of approx. 20 °C is  
maintained in the buffer tank, the minimum flow  
rate must be set on the overflow valve and the  
heating circulating pump.  
remote control.  
Where an overflow valve is fitted to assure the minimum  
heating water flow rate, the valve must be set in  
accordance with the specific requirements of the heating  
installation. An incorrect setting may result in various  
error symptoms and an increased electric power  
consumption. To correctly set the overflow valve, the  
following procedure is recommended for the "heating  
mode":  
Close all of the heating circuits that may also be closed  
during operation (depending on the type of heat pump  
usage) so that the least favourable operating state -  
with respect to the water flow rate - is achieved.  
Typically these are the heating circuits of the rooms  
on the building's south and west sides. At least one  
heating circuit must remain open (e.g. bathroom).  
The overflow valve is to be opened to such an extent  
that based on the current heat source temperature  
the maximum temperature spread between heating  
supply and return flow temperature is obtained, as  
indicated in the table that follows. The temperature  
spread should be measured as closely to the heat  
pump as possible. In mono-energetic systems, the  
electric heating element is to be deactivated.  
7
Download from Www.Somanuals.com. All Manuals Search And Download.  
FUNCTIONAL DESCRIPTION  
8.2 Control Board  
FUNCTIONAL  
8DESCRIPTION  
8.1 Heat Pump Remote Control Unit  
The heat pump can be switched on and off by means  
of the remote control positioned inside the building.  
Switching off in this case means switching to a  
"standby" function, i.e. as long as the heat pump is  
supplied with mains power, the frost protection  
function of the heat pump remains active. If the water  
temperature is too low, first the heating circulating  
pump, and if this is not enough, also the compressor  
must be put in operation. The remote control allows  
you to set the heating or cooling operating mode  
(the switchover delay from the heating to the cooling  
mode, or vice-versa, is 10 min.) as well as the  
temperature level of the heating water.  
6 5 4 3 2 1  
12  
11  
7
8
9
10  
1
2
3
1) on = compressor is operating  
2) on = fan is operating  
3) off = reversing valve set to "Heating"  
on = reversing valve set to "Cooling" or  
"Defrost"  
4) on = heating circulating pump is operating  
5) off = output backup heater off  
6) on = call for frost protection, HP is heating  
off = call for frost protection off  
7) on = low pressure pressostat okay  
8) off = defrost process in progress or  
"Heating mode"  
4
on = defrost process is terminated or  
"Cooling mode"  
1) Switch On/Standby  
9) not used  
2) LED (green) is illuminated regardless of the  
switch position (indicates operational readi-  
ness of heat pump)  
10) not used  
11) flashing during operation  
12) flashing in the event of a malfunction  
3) Switch "Heating" (left side depressed)  
Switch "Cooling" (right side depressed)  
4) Dial for selecting heating water setpoint  
temperature  
8.3 Heating Function  
Set switch (1) to position On (I) to put heat pump  
into operation. The heating mode can be preselected  
by placing switch (3) to the Heating ( ) position.  
The desired return temperature can be set using  
selector dial (4), the relevant call for heat is  
controlled by the potentiometer and lies within a  
range of min. 10 °C and max. 55 °C. If the preset  
temperature is reached, the heat pump switches off.  
Once the return temperature drops below the preset  
temperature by 4 Kelvin, the heat pump switches  
back on. In the event that the preset return  
temperature cannot be reached, the output for the  
back-up heater cuts in after approx. 1 hour. The heat  
pump cannot be restarted until a minimum time delay  
of 5 minutes has elapsed. At a supply temperature  
of approx. 60 °C or if the air temperature is too low,  
the heat pump switches off.  
8
Download from Www.Somanuals.com. All Manuals Search And Download.  
FUNCTIONAL DESCRIPTION  
CLEANING / CARE  
8.4 Cooling Function  
CLEANING / CARE  
Place switch (1) in position On (I) to put heat pump  
into operation. The cooling mode can be  
preselected by placing switch (2) to the Cooling  
9
9.1 Care  
To protect the paint finish, avoid placing objects  
against or on the unit. The external parts of the heat  
pump can be wiped with a damp cloth and  
commercially available cleaning agents.  
(
) position. The desired return temperature can  
be set using selector dial (4), the relevant call for  
heat is controlled by the potentiometer and lies  
within a range of min. 12 °C and max. 25 °C. When  
the preset temperature is reached, the heat pump  
switches off. Once the return temperature exceeds  
the preset value by 4 Kelvin, the heat pump  
switches back on. The heat pump cannot be  
restarted until a minimum time delay of 5 minutes  
has elapsed. At a supply temperature of below  
7 °C, the heat pump switches off.  
CAUTION!  
Do not use any cleaning agents  
containing sand, soda, acid or chloride as these may  
damage the surface.  
To prevent malfunctions due to dirt deposits in the  
plate heat exchanger of the heat pump, care must  
be taken that the heat exchanger cannot become  
contaminated in the heating installation. In the event  
that operating malfunctions due to contamination  
occur nevertheless, the system should be cleaned  
as described below. (Caution: The fins of the finned  
heat exchanger have sharp edges -> risk of cutting  
injuries!)  
To prevent condensate from forming on the  
system in the case of surface cooling systems, it  
is recommended that dew point monitors be  
installed at critical places of the cold distribution  
system and connected in lieu of jumper A1. In the  
event that condensation should form, the cooling  
operation of the system will be interrupted.  
9.2 Cleaning of Heating Side  
8.5 Domestic Hot Water Function  
water.  
The ingress of oxygen into the heating water may  
result in the formation of oxidation products. An ad-  
ditional contamination of the heating water caused  
by residues of lubricating and sealing agents occurs  
in many cases.  
This heat pump can also be used for heating domestic  
The call for domestic water heating (and the domestic  
water temperature) is controlled by terminal "X2-7"  
by means of a thermostat to be provided by the client.  
This thermostat connects phase (L) to terminal "X2-  
7" and controls a reversing valve which is part of the  
hot water switch group "N13".  
Both of the above causes may lead to a reduction in  
the performance of the plate heat exchanger of the  
heat pumps. In such cases, the installer must clean  
the heat exchanger concerned. Based on information  
known to date we recommend cleaning with a 5%  
phosphoric acid solution or, in the case that cleaning  
needs to be performed more frequently, with a 5%  
formic acid solution. In both cases the cleaning fluid  
should be at room temperature. Thorough flushing  
is necessary to ensure that all cleaning agent  
residues are removed from the system. It is  
recommended that the heat exchanger be cleaned  
in the direction opposite to the normal flow direction.  
Owing to their acid content, flushing agents must be  
used with caution. To prevent acidic flushing agents  
from entering the heating installation when cleaning  
the condenser, we recommend that the flushing  
device be mounted directly to the supply and return  
line of the heat pump. The regulations of the trade  
associations must be adhered to. If in doubt, contact  
the manufacturers of the chemicals!  
A suitable thermostat is available as an accessory.  
The call for domestic water heating may also occur if  
no call for space heating exists. On a call for heat,  
the control unit switches off the heating circulating  
pump and the setpoint is set to maximum.  
The water temperature is now controlled by the  
external thermostat. After the domestic hot water  
preparation has been terminated, the system  
returns to the same function that was active before  
the call.  
CAUTION!  
To prevent consequential damage it  
is imperative that the water circuit be neutralized  
after cleaning using appropriate agents.  
9
Download from Www.Somanuals.com. All Manuals Search And Download.  
CLEANING / CARE  
MALFUNCTIONS / TROUBLESHOOTING  
DECOMMISSIONING  
Caution - Heating Contractors  
The preset temperature level cannot be reached!  
Please check whether  
Depending on the water quality and quantity, in  
particular in the case of mixed installations and  
plastic pipes, mineral deposits (rust sludge, lime)  
may form impairing the proper functioning of the  
heating installation. A cause of this is the water  
hardness as well as oxygen dissolved in the filling  
water as well as additional oxygen from the air which  
may penetrate via valves, fittings and plastic pipes  
(oxygen diffusion). As a preventive measure it is  
recommended that a physical water conditioner such  
as ELYSATOR be used.  
- the permissible operating conditions of the heat  
pump are complied with (air temperatures too high  
or too low).  
- the air inlet or outlet areas are neither covered,  
obstructed nor severely contaminated.  
- valves or stop-cocks in the water lines (heating  
lines) are closed.  
- the water temperature in the buffer tank is  
sufficiently high.  
If you cannot eliminate the malfunction yourself,  
please contact your customer service in charge (see  
Warranty Certificate).  
9.3 Cleaning of Air Side  
Finned heat exchangers, fan and condensate drain  
should be cleaned of debris (leaves, branches, etc.)  
prior to the start of the heating season. Contamination  
of this nature can be removed manually using  
compressed air or by washing off with clear water.  
CAUTION! Work on the heat pump may be done  
only by an authorized and qualified customer service.  
The appliance cover and the air intake grille may have  
to be removed for this purpose.  
CAUTION!  
Prior to opening the unit it must be  
from the power supply.  
DECOMMISSIONING  
ensured that all electrical circuits are disconnected  
11  
11.1 End-of-Life Decommissioning /  
Disposal  
When cleaning do not use any sharp or hard objects  
so as to prevent any damage to the evaporator and  
the condensate pan.  
Before removing the heat pump, disconnect the  
appliance from the power supply and close all valves.  
Environment-relevant requirements regarding the  
recovery, recycling and disposal of service fuels and  
components in accordance with all relevant  
standards must be adhered to. In this context,  
particular attention must be paid to the proper  
disposal of refrigerants and refrigeration oils.  
Extreme weather conditions (e.g. heavy snow) may  
in some cases result in ice build-up on the inlet and  
outlet grilles. To assure a minimum air flow rate, clear  
the inlet and discharge areas of snow and ice, if  
needed.  
MALFUNCTIONS /  
10 TROUBLESHOOTING  
This heat pump is a quality product and is designed  
for troublefree and maintenance-free operation. In  
the event that a malfunction occurs nevertheless,  
you will be able to correct the problem easily yourself  
in the majority of cases.  
Heat pump does not run!  
Please check that:  
- there is no problem with the power supply (blown  
fuse, power failure).  
- the power switch on the remote control is switched  
on and the correct operating mode is selected, as  
well as that the correct setpoint temperature is set.  
10  
Download from Www.Somanuals.com. All Manuals Search And Download.  
APPENDIX  
APPENDIX  
12  
12.1  
12.2  
12.3  
DIMENSIONED DRAWING  
12  
13  
EQUIPMENT DATA  
SCHEMATICS  
12.3.1  
12.3.2  
12.3.3  
12.3.4  
12.3.5  
12.3.6  
12.3.7  
12.3.8  
12.3.9  
12.3.10  
Heating mode LA 6MR  
Cooling mode LA 6MR  
Heating mode LA 8MR  
Cooling mode LA 8MR  
Heating mode LA 10MR  
Cooling mode LA 10MR  
Heating mode LA 12TR  
Cooling mode LA 12TR  
Heating mode LA 16TR  
Cooling mode LA 16TR  
14  
15  
16  
17  
18  
19  
20  
21  
22  
23  
12.4  
WIRING DIAGRAMS  
12.4.1  
12.4.2  
12.4.3  
12.4.4  
12.4.5  
12.4.6  
12.4.7  
12.4.8  
Control LA 6MR-LA 10MR  
Load LA 6MR-LA 10MR  
24  
25  
26  
27  
28  
29  
30  
31  
Terminal Diagram LA 6MR-LA 10MR  
Legend LA 6MR-LA 10MR  
Control LA 12TR-LA 16TR  
Load LA 12TR-LA 16TR  
Terminal Diagram LA 12TR-LA 16TR  
Legend LA 12TR-LA 16TR  
12.5  
HYDRAULIC  
BLOCK DIAGRAMS  
12.5.1  
12.5.2  
Mono-energetic system  
32  
33  
Mono-energetic system and  
domestic hot water function  
12.6  
EC DECLARATION OF  
CONFORMITY  
34  
11  
Download from Www.Somanuals.com. All Manuals Search And Download.  
APPENDIX: 12.1 DIMENSIONED DRAWING  
Dimensioned Drawing  
( B a s e f r a m e )  
12  
Download from Www.Somanuals.com. All Manuals Search And Download.  
APPENDIX: 12.2 EQUIPMENT DATA  
Equipment Data  
EQUIPMENT DATA for air-to-water heat pumps for heating  
1
TYPE AND COMMERCIAL DESCRIPTION  
LA06MRN  
LA08MRN  
LA10MRN  
LA12TRN  
LA16TRN  
2
MODEL  
reversible  
IP 24  
reversible  
IP 24  
reversible  
IP 24  
reversible  
IP 24  
reversible  
IP 24  
2.1  
2.2  
2.3  
3
Type  
Enclosure type acc. to EN 60 529 for compact unit and/or heating element  
Installation site  
outdoors  
outdoors  
outdoors  
outdoors  
outdoors  
PERFORMANCE DATA  
3.1  
Operating temperature limits:  
Heating water supply / return  
°C / °C  
°C  
max.60/min.18 max.60/min.18 max.60/min.18 max.60/min.18 max.60/min.18  
Cooling, flow  
+7 to +20  
-20 to +35  
+15 to +45  
6.1 / 3.3  
6.1 / 2.7  
7.9 / 3.2  
6.4 / 2.7  
70  
+7 to +20  
-20 to +35  
+15 to +45  
7.4 / 3.3  
7.3 / 2.7  
9.4 / 3.3  
7.7 / 2.9  
71  
+7 to +20  
-20 to +35  
+15 to +45  
8.5 / 3.4  
8.4 / 2.8  
11.1 / 3.3  
9.0 / 2.9  
71  
+7 to +20  
-20 to +35  
+15 to +45  
11.9 / 3.3  
11.6 / 2.7  
15.8 / 3.3  
13.6 / 3.0  
72  
+7 to +20  
-20 to +35  
+15 to +40  
15.3 / 3.3  
14.9 / 2.8  
18.5 / 3.3  
16.1 / 3.0  
72  
Air (heating)  
°C  
Air (cooling)  
°C  
3.2  
3.3  
Heating capacity / coeff. of perform. at A7 / W35 1)  
at A7 / W45 1)  
kW / ---  
kW / ---  
kW / ---  
kW / ---  
dB(A)  
dB(A)  
m³/h  
Cooling capacity / coeff. of perform. at A35 / W18  
at A35 / W7  
3.4  
3.5  
3.6  
3.7  
3.8  
3.9  
4
Sound power level  
Sound pressure level at 10 m distance (discharge side)  
Heating water flow rate  
45  
46  
46  
47  
47  
1.1  
1.3  
1.5  
1.7  
1.9  
Free pressure, heating circulating pump (max. stage)  
Refrigerant; total charge weight  
Rating electric heating element (back-up heater) max.  
DIMENSIONS; CONNECTIONS AND WEIGHT  
Equipment dimensions  
Pa  
34800  
35600  
33800  
32700  
58900  
type / kg  
kW  
R407C / 1.5  
6
R407C / 2.3  
6
R407C / 2.3  
6
R407C / 3.4  
6
R407C / 3.7  
6
4.1  
4.2  
4.3  
5
H x W x L cm  
86 x 127 x 67  
G 1'' external  
159  
86 x 127 x 67  
G 1'' external  
165  
86 x 127 x 67  
G 1'' external  
170  
86 x 127 x 67  
G 1'' external  
185  
86 x 127 x 67  
G 1'' external  
196  
Equipment connections for heating  
Weight of transport unit(s) incl. packaging  
ELECTRICAL CONNECTION  
Nominal voltage; fusing  
inch  
kg  
5.1  
5.2  
5.3  
5.4  
5.5  
6
V / A  
A
230 / 20  
230 / 20  
230 / 25  
400 / 20  
400 / 25  
30 4)  
1.9  
26  
30 4)  
2.3  
32  
30 4)  
2.5  
38  
Fuse protection, electric heating element (only 230V units)  
Nominal power consumption 1) A2 W35  
Starting current with soft starter  
Nominal current A2 W35 / cos ϕ  
COMPLIES WITH EUROPEAN SAFETY REGULATIONS  
OTHER DESIGN CHARACTERISTICS  
Defrosting  
-
-
kW  
A
3.6  
26  
6.5  
3)  
4.6  
27  
8.3  
3)  
A / ---  
10.3  
3)  
12.5  
3)  
13.6  
3)  
7
7.1  
automatic  
cycle reversal  
yes (heated)  
yes 2)  
automatic  
cycle reversal  
yes (heated)  
yes 2)  
automatic  
cycle reversal  
yes (heated)  
yes 2)  
automatic  
cycle reversal  
yes (heated)  
yes 2)  
automatic  
cycle reversal  
yes (heated)  
yes 2)  
Defrost type  
Defrost pan available  
7.2  
Heating water inside unit protected against freezing  
Performance settings  
7.3  
1)  
1
1
1
1
1
These data characterize the size and performance of the system. For economic and energetic  
considerations, additional factors such as defrosting behaviour, bivalence point and control need to be taken  
into account. Abbreviations have the following meaning: e.g. A7  
heating water supply temperature 35 °C.  
/
W35: outside temperature  
7
°C and  
2)  
3)  
4)  
The heating circulating pump and the controller of the heat pump must be on standby at all times.  
See EC Declaration of Conformity  
For the electr. connection of the electric heating element, a separate load line with its own fuse protection is required.  
Subject to change without notice Issued: 02.03.2006  
13  
Download from Www.Somanuals.com. All Manuals Search And Download.  
APPENDIX: 12.3 SCHEMATICS  
12.3.1 Heating mode LA 6MR  
Water outlet temperature in [°C]  
Heating capacity in [kW]  
11  
10  
35  
50  
Conditions:  
9
3
Heating water flow rate 1.1 m /h  
8
7
6
5
4
40  
3
2
1
0
-20  
-10  
0
10  
20  
30  
40  
Air inlet temperature in [°C]  
Power consumption (incl. power input to pump)  
Pressure loss in [Pa]  
20000  
18000  
16000  
14000  
12000  
10000  
8000  
6000  
4000  
2000  
0
3
2
1
0
50  
35  
40  
Condenser  
-20  
-10  
0
10  
20  
30  
40  
Air inlet temperature in [°C]  
Coefficient of performance (incl. power input to pump)  
35  
6
5
4
3
2
1
0
50  
40  
-20  
-10  
0
10  
20  
30  
40  
0
0,5  
1
1,5  
3
Air inlet temperature in [°C]  
Heating water flow rate in [m /h]  
14  
Download from Www.Somanuals.com. All Manuals Search And Download.  
APPENDIX: 12.3 SCHEMATICS  
12.3.2 Cooling mode LA 6MR  
W
a
te  
r
o
ut  
le
t
t
e
m
p
er  
a
ture
i
n
[
°C
]
Cooling capacity in [kW]  
14  
12  
Conditions:  
3
Water flow rate 1.1 m /h  
10  
8
18  
8
6
4
2
0
10  
15  
20  
25  
30  
35  
40  
45  
50  
Air inlet temperature in [°C]  
Power consumption (incl. power input to pump)  
Pressure loss in [Pa]  
20000  
18000  
16000  
14000  
12000  
10000  
8000  
6000  
4000  
2000  
0
4
3
2
1
0
18  
8
C
o
n
d
e
n
s
e
r
10  
15  
20  
25  
30  
35  
40  
45  
50  
Air inlet temperature in [°C]  
Coeffici  
e
n
t
o
f
p
er  
f
o
rm
a
n
ce
(
in  
c
l.  
p
o
w
e
r
i
n
p
u
t
to
p
um
p
)
7
6
5
4
3
2
1
0
18  
8
10  
15  
20  
25  
30  
35  
40  
45  
50  
0
0,5  
1
1,5  
3
A
i
r
i
n
l
e
t
t
e
m
p
e
r
a
ture
in [  
°
C
]
Heating water flow rate in [m /h]  
15  
Download from Www.Somanuals.com. All Manuals Search And Download.  
APPENDIX: 12.3 SCHEMATICS  
12.3.3 Heating mode LA 8MR  
Water outlet temperature in [°C]  
Heating capacity in [kW]  
13  
12  
35  
50  
11  
10  
9
Conditions:  
3
Heating water flow rate 1.3 m /h  
8
7
6
5
40  
4
3
2
1
0
-20  
-10  
0
10  
20  
30  
40  
Air inlet temperature in [°C]  
Power consumption (incl. power input to pump)  
Pressure loss in [Pa]  
18000  
16000  
14000  
12000  
4
3
2
1
0
50  
35  
40  
Condenser  
-20  
-10  
0
10  
20  
30  
40 10000  
Air inlet temperature in [°C]  
8000  
6000  
4000  
2000  
0
Coefficient of performance (incl. power input to pump)  
35  
6
5
4
3
2
1
0
50  
40  
-20  
-10  
0
10  
20  
30  
40  
0
0,5  
1
1,5  
2
3
Air inlet temperature in [°C]  
Heating water flow rate in [m /h]  
16  
Download from Www.Somanuals.com. All Manuals Search And Download.  
APPENDIX: 12.3 SCHEMATICS  
12.3.4 Cooling mode LA 8MR  
Wateroutlettemperaturein[°C]
Cooling capacity in [kW]  
18  
16  
Conditions:  
3
Water flow rate 1.3 m /h  
14  
12  
10  
8
18  
8
6
4
2
0
10  
15  
20  
25  
30  
35  
40  
45  
50  
Air inlet temperature in [°C]  
Power consumption (incl. power input to pump)  
Pressurelossin[Pa]
18000  
16000  
14000  
12000  
4
3
2
1
0
18  
8
Condenser  
10  
15  
20  
25  
30  
35  
40  
45  
50 10000  
Air inlet temperature in [°C]  
8000  
6000  
4000  
2000  
0
Coefficient of performance (incl. power input to pump)  
7
6
5
4
3
2
1
0
18  
8
10  
15  
20  
25  
30  
35  
40  
45  
50  
0
0,5  
1
1,5  
2
Airinlettemperaturein [°C]
3
Heating water flow rate in [m /h]  
17  
Download from Www.Somanuals.com. All Manuals Search And Download.  
APPENDIX: 12.3 SCHEMATICS  
12.3.5 Heating mode LA 10MR  
Water outlet temperature in [°C]  
Heating capacity in [kW]  
16  
14  
35  
50  
Conditions:  
3
Heating water flow rate 1.5 m /h  
12  
10  
8
6
40  
4
2
0
-20  
-10  
0
10  
20  
30  
40  
Air inlet temperature in [°C]  
Power consumption (incl. power input to pump)  
Pressure loss in [Pa]  
18000  
16000  
14000  
12000  
4
3
2
1
0
50  
35  
40  
Condenser  
-20  
-10  
0
10  
20  
30  
40 10000  
Air inlet temperature in [°C]  
8000  
6000  
4000  
2000  
0
Coefficient of performance (incl. power input to pump)  
7
6
5
4
3
2
1
0
35  
50  
40  
-20  
-10  
0
10  
20  
30  
40  
0
0,5  
1
1,5  
2
2,5  
3
Air inlet temperature in [°C]  
Heating water flow rate in [m /h]  
18  
Download from Www.Somanuals.com. All Manuals Search And Download.  
APPENDIX: 12.3 SCHEMATICS  
12.3.6 Cooling mode LA 10MR  
Water outlet temperature in [°C]  
Cooling capacity in [kW]  
22  
20  
Conditions:  
18  
3
Water flow rate 1.5 m /h  
16  
14  
12  
10  
8
18  
8
6
4
2
0
10  
15  
20  
25  
30  
35  
40  
45  
50  
Air inlet temperature in [°C]  
Pressure loss in [Pa]  
P
o
w
e
r
c
o
n
s
u
m
p
t
io  
n
(i  
nc  
l.
p
o
w
e
r
in  
p
ut  
t
o
pu
m
p
)
18000  
16000  
14000  
12000  
5
4
3
2
1
0
18  
8
C
o
n
de  
n
s
e
r
10  
15  
20  
25  
30  
35  
40  
45  
50 10000  
A
i
r
i
n
l
e
t
t
em  
p
e
r
a
t
ur  
e
in  
[
°
C
8000  
6000  
4000  
2000  
0
Coefficient of performance (incl. power input to pump)  
7
6
5
4
3
2
1
0
18  
8
10  
15  
20  
25  
30  
35  
40  
45  
50  
0
0,5  
1
1,5  
2
2,5  
3
A
i
r
i
n
l
e
t
te  
m
p
e
r
at  
u
r
e
in  
[
°C  
]
Heating water flow rate in [m /h]  
19  
Download from Www.Somanuals.com. All Manuals Search And Download.  
APPENDIX: 12.3 SCHEMATICS  
12.3.7 Heating mode LA 12TR  
Water outlet temperature in [°C]  
H
ea
t
i
n
g
c
a
p
acityin  
[k  
W]  
22  
20  
18  
16  
14  
12  
10  
8
35  
50  
Conditions:  
3
Heating water flow rate 1.7 m /h  
6
40  
4
2
0
-20  
-10  
0
10  
20  
30  
40  
Air inlet temperature in [°C]  
Pressure loss in [Pa]  
Power consumption (incl. power input to pump)  
18000  
16000  
14000  
12000  
5
4
3
2
1
0
50  
35  
40  
Condenser  
-20  
-10  
0
10  
20  
30  
40 10000  
Air inlet temperature in [°C]  
8000  
6000  
4000  
2000  
0
Coefficient of performance (incl. power input to pump)  
6
5
4
3
2
1
0
35  
50  
40  
-20  
-10  
0
10  
20  
30  
40  
0
0,5  
1
1,5  
2
2,5  
3
Air inlet temperature in [°C]  
3
Heating water flow rate in [m /h]  
20  
Download from Www.Somanuals.com. All Manuals Search And Download.  
APPENDIX: 12.3 SCHEMATICS  
12.3.8 Cooling mode LA 12TR  
Water outlet temperature in [°C]  
C
l
i
n
g
c
a
p
a
ci  
t
y i  
n
[
kW  
]
30  
25  
20  
15  
10  
5
Conditions:  
3
Water flow rate 1.7 m /h  
18  
8
0
10  
15  
20  
25  
30  
35  
40  
45  
50  
Air inlet temperature in [°C]  
Pressure loss in [Pa]  
Power consumption (incl. power input to pump)  
18000  
16000  
14000  
12000  
7
6
5
4
3
2
1
0
18  
8
Condenser  
10  
15  
20  
25  
30  
35  
40  
45  
50 10000  
Air inlet temperature in [°C]  
8000  
6000  
4000  
2000  
0
Coefficient of performance (incl. power input to pump)  
7
6
5
4
3
2
1
0
18  
8
10  
15  
20  
25  
30  
35  
40  
45  
50  
0
0,5  
1
1,5  
2
2,5  
3
Air inlet temperature in [°C]  
3
Heating water flow rate in [m /h]  
21  
Download from Www.Somanuals.com. All Manuals Search And Download.  
APPENDIX: 12.3 SCHEMATICS  
12.3.9 Heating mode LA 16TR  
Water outlet temperature in [°C]  
H
a
t
i
ng
c
a
p
acityin  
[k  
W]  
28  
26  
24  
22  
20  
18  
16  
14  
12  
10  
8
35  
50  
Conditions:  
H
e
a
tin  
g
w
a
t
e
r
fl  
o
w
rate  
1
.
9
3  
m
/
h
40  
6
4
2
0
-20  
-10  
0
10  
20  
30  
40  
Air inlet temperature in [°C]  
Power consumption (incl. power input to pump)  
Pressurelossin[Pa]  
14000  
12000  
10000  
8000  
6000  
4000  
2000  
0
7
6
5
4
3
2
1
0
50  
35  
40  
Condenser  
-20  
-10  
0
10  
20  
30  
40  
Air inlet temperature in [°C]  
Coefficient of performance (incl. power input to pump)  
6
5
4
3
2
1
0
35  
50  
40  
-20  
-10  
0
10  
20  
30  
40  
0
0,5  
1
1,5  
2
2,5  
3
3
Air inlet temperature in [°C]  
Heating water flow rate in [m /h]  
22  
Download from Www.Somanuals.com. All Manuals Search And Download.  
APPENDIX: 12.3 SCHEMATICS  
12.3.10 Cooling mode LA 16TR  
Water outlet temperature in [°C]  
Cooling capacity in [kW]  
35  
30  
Conditions:  
3
Water flow rate 1.9 m /h  
25  
20  
15  
10  
5
18  
8
0
10  
15  
20  
25  
30  
35  
40  
45  
50  
Air inlet temperature in [°C]  
Pressure loss in [Pa]  
Power consumption (incl. power input to pump)  
14000  
12000  
10000  
8000  
6000  
4000  
2000  
0
8
7
6
5
4
3
2
1
0
18  
8
Condenser  
10  
15  
20  
25  
30  
35  
40  
45  
50  
Air inlet temperature in [°C]  
Coefficient of performance (incl. power input to pump)  
8
7
6
5
4
3
2
1
0
18  
8
10  
15  
20  
25  
30  
35  
40  
45  
50  
0
0,5  
1
1,5  
2
2,5  
3
3
A
ir
i
n
le  
t
te  
m
p
e
ra  
t
u
r
e
in  
[
°
C]  
Heating water flow rate in [m /h]  
23  
Download from Www.Somanuals.com. All Manuals Search And Download.  
APPENDIX: 12.4 WIRING DIAGRAMS  
12.4.1 Control LA 6MR-LA 10MR  
A t t e n t i o n ! L o w v o l t a g e  
O N / O F F  
24  
Download from Www.Somanuals.com. All Manuals Search And Download.  
APPENDIX: 12.4 WIRING DIAGRAMS  
12.4.2 Load LA 6MR-LA 10MR  
B a c k - u p h e a t e r  
M a i n s s u p p l y  
25  
Download from Www.Somanuals.com. All Manuals Search And Download.  
APPENDIX: 12.4 WIRING DIAGRAMS  
12.4.3 Terminal Diagram LA 6MR-LA 10MR  
Switch box LA 6-10  
Jumper 4kW  
Jumper 6kW  
ye/gn  
ye/gn  
26  
Download from Www.Somanuals.com. All Manuals Search And Download.  
APPENDIX: 12.4 WIRING DIAGRAMS  
12.4.4 Legend LA 06MR-LA10MR  
A1  
Wire jumper: The jumper must be removed for external control (via potential-free contact)  
or when a dew point monitor (via potential-free contact) is used.  
B3*  
B5  
Thermostat, hot water  
Control thermostat, back-up heater  
C1  
Operating capacitor, compressor  
C3  
Operating capacitor, fan  
E3  
E10  
Pressostat, defrost end  
Nozzle ring heater  
Back-up heater  
E4  
F1  
Control fuse  
F4  
Pressostat, high pressure  
Pressostat, low pressure  
Safety temperature limiter, back-up heater  
F5  
F17  
H1**  
LED, ready for operation  
K2  
K24  
Contactor, fan  
Relay, call for hot water  
K20  
Contactor, back-up heater  
M1  
M13  
Compressor  
Heating circulating pump  
M2  
Fan  
N5*  
N10  
N12  
N13*  
Dew point monitor  
N7  
Soft starter  
Remote control  
Control board  
Switch group, hot water  
R1  
External sensor  
R2  
Return sensor  
R7  
Coding resistor  
R10*  
R12  
R14**  
R15  
Moisture sensor  
Frost protection sensor, cooling mode (water)  
Setpoint potentiometer  
Flow sensor  
S1**  
Control switch HP ON/OFF  
S2**  
Change-over switch HEATING/COOLING  
X1  
X2  
X3  
X4  
X5  
Terminal strip, mains L/N/PE - 230 V AC / 50 Hz  
Terminal strip, external components  
Terminal strip, back-up heater  
Terminal strip, internal wiring  
Terminal strip, compressor  
Y1  
4-way reversing valve heating/cooling  
Y5*  
3-way reversing valve for domestic hot water preparation  
*
Parts to be provided by the client  
**  
Parts are integrated into the remote control  
27  
Download from Www.Somanuals.com. All Manuals Search And Download.  
APPENDIX: 12.4 WIRING DIAGRAMS  
12.4.5 Control LA 12TR-LA 16TR  
A t t e n t i o n ! L o w v o l t a g e  
28  
Download from Www.Somanuals.com. All Manuals Search And Download.  
APPENDIX: 12.4 WIRING DIAGRAMS  
12.4.6 Load LA 12TR-LA 16TR  
29  
Download from Www.Somanuals.com. All Manuals Search And Download.  
APPENDIX: 12.4 WIRING DIAGRAMS  
12.4.7 Terminal Diagram LA 12TR-LA 16TR  
Switch box LA 12-16  
ye/gn  
30  
Download from Www.Somanuals.com. All Manuals Search And Download.  
APPENDIX: 12.4 WIRING DIAGRAMS  
12.4.8 Legend LA 12TR-LA 16TR  
A1  
Wire jumper: For external control (via potential-free contact)  
the jumper must be removed.  
or use of a dew point monitor (via potential-free contact)  
B3*  
B5  
Hot water thermostat  
Control thermostat, back-up heater  
E3  
E10  
Pressostat defrost end  
Nozzle ring heater  
Back-up heater  
E4  
F1  
Control-circuit fuse  
F4  
Pressostat, high pressure  
Pressostat, low pressure  
Safety temperatur limiter, back-up heater  
Bimetal contact, fan  
F5  
F17  
F23  
H1**  
LED, ready for operation  
K1  
Contactor, compressor  
Contactor, back-up heater  
Relay, call for domestic hot water  
K2  
Contactor, fan  
K20  
K24  
M1  
M13  
Compressor  
Heating circulating pump  
M2  
Fan  
N5*  
N10  
N12  
N13*  
Dew point monitor  
N7  
Soft starter  
Remote control  
Control board  
Schaltgruppe, hot water  
R1  
External sensor  
R2  
Return sensor  
R7  
Coding resistor  
R10*  
R12  
R14**  
R15  
Moisture sensor  
Frost protection sensor, cooling mode (water)  
Setpoint potentiometer  
Flow sensor  
S1**  
Control switch HP ON/OFF  
S2**  
Change-over switch HEATING/COOLING  
X1  
X2  
X5  
Terminal strip, mains L/N/PE - 230 V AC / 50 Hz  
Terminal strip, external components  
Terminal strip, internal wiring  
Y1  
4-way reversing valve heating/cooling  
Y5*  
3-way reversing valve for domestic hot water preparation  
*
Parts to be provided by the client  
** Parts are integrated into the remote control  
31  
Download from Www.Somanuals.com. All Manuals Search And Download.  
APPENDIX: 12.5 HYDRAULIC BLOCK DIAGRAMS  
12.5.1 Mono-energetic system  
32  
Download from Www.Somanuals.com. All Manuals Search And Download.  
APPENDIX: 12.5 HYDRAULIC BLOCK DIAGRAMS  
12.5.2 Mono-energetic systems and domestic hot water function  
33  
Download from Www.Somanuals.com. All Manuals Search And Download.  
APPENDIX: 12.6 EC DECLARATION OF CONFORMITY  
EC Declaration of Conformity  
Declaration of Conformity  
The undersigned  
Glen Dimplex Deutschland GmbH  
Division Dimplex  
Am Goldenen Feld 18  
D-95326 Kulmbach  
hereby confirm that the design and construction of the product(s) listed below, in the version(s) placed  
on the market by us, conform to the relevant requirements of the applicable EC directives.  
This declaration becomes invalidated if any modifications are made to the product(s) without our  
prior authorization.  
Designation of the product(s):  
EC Directives:  
Air-to-water heat pumps  
for outdoor installation  
containing R407C  
EC Directive for Low Voltage  
(73/23/EEC)  
EC Directive for Electromagnetic Compatibility (EMC)  
(89/336/EEC)  
Pressure Equipment Directive  
(97/23/EEC)  
Type(s):  
LA 6MR  
Harmonized EN Standards:  
LA 8MR  
LA 10MR  
LA 12TR  
LA 16TR  
Requirements of category II  
Order No.:  
National Standard/Directives:  
350 790  
350 800  
350 810  
350 820  
350 830  
Kulmbach, 01.06.2005  
General Manager  
Technical Director  
34  
Download from Www.Somanuals.com. All Manuals Search And Download.  
Notes  
35  
Download from Www.Somanuals.com. All Manuals Search And Download.  
Glen Dimplex Deutschland GmbH  
Division Dimplex  
Subject to technical modifications  
Telefax (0 92 21) 709-589  
Am Goldenen Feld 18  
D-95326 Kulmbach  
Download from Www.Somanuals.com. All Manuals Search And Download.  

Cooper Lighting Indoor Furnishings VT2 User Manual
Creative Speaker System Platinum eX User Manual
Crosley Flat Panel Television C32HDGB User Manual
Curtis TV DVD Combo TVD1400A User Manual
Digimate Flat Panel Television DGL2700 User Manual
Dimplex Indoor Fireplace 7206260100REV00 User Manual
Euro Pro Iron EP470 User Manual
Garland Cooktop GIWOK 50 SH WO 5000 User Manual
Garland Range PS 36 User Manual
Global Machinery Company Trimmer BHT500 User Manual