Dry wall heating system WTB
Why should you opt for a MULTITHERM wall heating system:
- Important is a heating system that reacts quickly and easily to changes in temperature in the room. The heating pipes are in a 25mm thick gypsum wallboard, which heats up the surrounding area quickly. The transferred heat is therefore transferred quickly to the room (radiant heat).
- In these times of expensive fossil fuels become more and more low-temperature systems (eg heat pumps, etc.). These systems operate by very low flow temperatures efficient and cost effective.
- Through the use of heat pumps the system for heating in winter and summer (reversible) is used for cooling.
- Due to the increased usage of dry interior partitions can be used simultaneously as a wall heater. The remaining blank items are then supplemented with 2x12, 5 mm plasterboard
System description:
The dry wall heating system WTB consists basically:
- System board
WTB-1, WTB-2 and WTB-3 - Milled heating pipe
PE-RT 10x1, 2mm - Connectors
STE 20/10/20 - Blind caps
When needed
1. Dry-wall heating system disk
2. Heating pipe
3. Connectors STE 20/10/20
2. Heating pipe
3. Connectors STE 20/10/20
4. Blind cap
Laying:
The corresponding wall heating panels "WTB-1, WTB-2 and WTB-3" are at the specified points of the standing wall elements mounted and filled the gaps.
Then the PE-RT pipes 10x1, 2mm brought to the connector (STE20/10/20) and the manifold PE-RT in combination. These PE-RT-20x2mm Power supplies and return line is correspondingly connected to the wiring closet with adapters.
Technical data (Sketches):
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dimensions |
2000 x 625 x 25mm |
2000 x 310 x 25mm |
1000 x 625 x 25mm |
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heating surface |
1,25m˛ |
0,62m˛ |
0,62m˛ |
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heating pipes |
PE-RT 10 x 1,2 |
PE-RT 10 x 1,2 |
PE-RT 10 x 1,2 |
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Series circuit - SET 1 2 x WTB-1 Pipe-laying of entire plate various materials such as connection. 20/10/20 STE, STE 10, etc, |
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| Schematicrepresentationviaserial connection |  |
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“Tichelmann-switching"- SET 2 4 x WTB 1 Pipe-laying of entire plate Various materials such as connection. 20/10/20 STE, STE 10, etc. |
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| Schematic illustrationof Tichelmann |  |
Heating out put diagram
max. supply temp. +40°C
T = T. Water - SPACE T
T. Water = (VL + RL) / 2
ROOM T = room temperature
Cooling performance chart
max. supply temp. +16°C
ROOM T = T - T mean. water
T. water = (VL + RL) / 2
ROOM T = room temperature
VL => supply temperature
RL => return temperature