DE29816297U1 - The solar heat house with solar heat box - Google Patents

Description

Reutlingen 26.02.99

Description

The solar heat house with solar heat box shows a combination of how solar heat can be transported into the basement and living rooms with as little effort as possible.

With a solar module, energy from the sun is obtained at the same time as heat energy.

The basement rooms become warm, dry and therefore fully usable as a hobby or fitness room.

The dry cellar automatically becomes a heat storage facility for the winter.

The formation of mold in the house is thus reduced to zero.

The ventilation of the house is therefore very well guaranteed.

The invention could also be retrofitted to any detached house on the south side (solar heat box).

Reutlingen 26.02.99

Description

The solar heat house works according to the principle that the sun's rays hit a heat-insulating glass pane in a shaft in the basement on the south side of the house and are converted into heat energy under the glass pane.

The heat that is now generated is extracted from under the pane of glass using a pipe that leads into the basement. The warm air is extracted using a fan that is attached to the wall at the end of the pipe in the room to be heated or is built directly into the pipe. The fan is powered by a solar module that is switched on or off by a temperature sensor when a certain temperature is reached under the glass. This method does not require any additional energy for the room heating system. The energy is generated by the solar module at the same time as the heat radiation.

The glass pane of the solar heat box on the outside wall is installed at the lowest angle of the sun in winter so that sufficient heat is still generated in the coldest season. A flap reflector additionally reflects the sun's rays at an angle of onto the glass pane.

The flap reflector serves as a cover for the glass pane during the hot summer months.

A house for this system should be built with a lot of concrete, as concrete has a good storage capacity. A house with a concrete basement is a great advantage, as otherwise the basement is always the coolest room in the house it would now be the warmest in the house and at the same time a storage room. A thermally insulated lightweight house that stands on a concrete basement could be just as warm during the winter as a solid house.

Reutlingen 26.02.99

Description

The solar heat box is always installed on the south side of the house. The design includes a heat-insulating glass pane, a box structure, a plastic pipe with a diameter of at least 100 mm, which corresponds to the size of the fan. To the left and right of the fan at the bottom of the box, a pipe with a third of the diameter of the fan is laid through the wall into the box. The sun shines through the heat-insulating glass, creating a temperature of 60°-80°C underneath. When a certain temperature is reached, a temperature sensor switches on the solar voltage for the fan. The heat flow cycle now begins, the 60°-80 ^° C warm air is sucked out by the fan under the glass pane and blown into the room. The warm air that flows into the room now causes an air flow in the form of the cooler air on the floor of the room flowing back into the solar heat box through the two smaller pipes and being heated in the box. This closes the heating cycle. The solar heat box is to be attached to the house wall, but could also be used on the roof for living space that is located under the roof.

Reutlingen 26.02.99

Label numbers of house drawings

1 .Heat protection - glass pane

2 .Fan

3 .small pipe

4 .large pipe

5 .Solar module

6 .Solar battery

7 .Flap reflector

8 .Cellar

9 .Heat storage

10.Shaft or porch 11.Solar heat box in the roof 12.Basement window 13.Temperature sensor - (T)

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Reutlingen 26.02.99

Label numbers of the solar heat box lu.2

1 .Heat-insulating glass pane

2 .Box

3 .large plastic pipe

4 .Fan

5 .small plastic pipe

6 .House wall

7 .Solar module

8 .Temperature sensor (T)

Claims (1)

Reutlingen 26.02.99 Protection claims The solar heat house works according to the principle that the sun's rays hit a heat-insulating glass pane (1) in a shaft (10) or projection on the basement (8) on the south side of the house and are converted into heat energy under the glass pane. The heat now developed is sucked out from under the glass pane (1) using a large pipe (4). The warm air is extracted using a fan (2) that is located at the end of the large pipe (4) in the room or directly in the pipe. The fan is powered by a solar module (5), which is switched on or off by a temperature sensor (13) at a certain temperature under the glass (1). The DC voltage for the fan (2) can be between 12 V or 42 V. The excess energy that the fan (2) does not need is stored in solar batteries (6). The warm air that now flows through the fan (2) into the cellar (8) causes an air flow change. The cooler air from the basement floor now flows through the smaller pipes (3) into the basement shaft (10) and is then heated by the sun. Due to this procedure, no additional energy is required for the solar heating system. The solar heat box contains a heat protection glass pane (1), a box structure (2), a large plastic pipe (3), the fan (4) and two smaller pipes (5) on the left and right. With direct power supply to the fan, the solar module (7) can be mounted on the box below. With the solar heat box there can be two different possibilities of air flow movement. Either use a large fan (4) to suck out the warm air or use two small fans (4) to blow in the cooler air.