WO2006119956A1

WO2006119956A1 - Device for recirculatory air heating and cooling of buildings

Info

Publication number: WO2006119956A1
Application number: PCT/EP2006/004304
Authority: WO
Inventors: Peter Hötger
Original assignee: Hoetger Peter
Priority date: 2005-05-10
Filing date: 2006-05-09
Publication date: 2006-11-16
Also published as: DE202005007623U1

Abstract

The inventive device for recirculatory air heating for temperature control of construction elements has several advantages. Firstly so-called thermal bridges at construction element junctions are prevented. The construction element cross-section is also temperature-controlled, furthermore, the energy control of the building fabric, in particular, for old buildings, or monument protection is achieved without over-complication. On temperature control of rooms, an active thermal bridge heating of individual construction element junctions between the outside and inside occurs. Furthermore, the arrangement of the recirculatory air heating permits a convection storage and radiating possibility over the whole wall surface. Two insulating air gap planes are provided which prevent high transmitted heat losses through external construction components. For static building shells an additional insulation or thermal break is no longer absolutely necessary.

Description

description

Device as circulating air heating and cooling for buildings Conventional building walls are heated in the form that the air temperature of interiors is produced by convection, radiation or storage. In the simplest case, radiators or radiators emit heat to the inner outer wall, being mounted below windows or in skirting boards by means of radiators or ducts.

Such heated indoor spaces have the problem that the surface temperature of the room-side outer wall at the surface is lower than the air temperature of the same room. This means high energy requirements, because the cold outer walls must always be recharged with heat or supplied. Air pockets are introduced through holes or holes or air planes in the material for the walls, in the stones or in the wall. Such air pockets have the disadvantage of almost stationary air in the component cross-section.

The invention specified in the protection claim 1 is based on the problem to present a wall heater for building walls, which has, inter alia, thermodynamic properties and large energy savings. Furthermore, the thermodynamic convection heating for building walls has the great advantage that in the winter a Durchkühlung the outer walls in the interior omitted and thus mold is prevented and summer overheating of interiors by temperature peaks omitted because the temperature control of the outer walls is done by the arrangement of the device of convection heating , With the invention it is achieved that the heat transfer coefficient of building walls is dynamically controlled, which in turn makes nonsensical insulation thicknesses of exterior components unnecessary. This saves considerable construction costs. When installing the thermodynamic convection heating, each wall is a wall heating or wall cooling, depending on the temperature control of the circulating air in the component cross-section. Another significant advantage of the invention is the fact that outdoor components in the future only have to take on the task of statics. The building physics is carried out by the device of the convection heating, which is assigned to the static building envelope.

The convection heating device may be located on either side of the static building envelope, both on the inside of the static walls and on the outside of the static wall. Furthermore, interior walls, as room dividers, can advantageously also be equipped with the wall circulating air heater. The device as a convection heating for building walls is arranged in parallel or according to specification to the wall surface of the inner outer wall on the room side, or the wall surface of the outer wall. It can be arranged on one side or on several sides. This applies to all external components, interior walls, floors, ceilings and roof areas.

An advantageous embodiment of the invention shows the possibility of driving and activating the device as a circulating air heater with any type of energy. Thus, an energy mix, which is generated from different energy sources, the arranged device of the wall-circulating air heating are supplied and that with any type of energy donors or radiators or films. The device of the invention is based on a body with separate and bilateral, opposite air planes or air spaces. The device has as a body, for example, the shape of a double half shell, but may also have any other geometry. To produce a closed air circulation level, the webs of a half shell are arranged to the static building wall and fastened there. The webs of the back half shell are connected to a room-side clothing. The bodies are adjusted in height and width of the existing wall, so that another closed wall surface, outside or inside of the static building wall or to any inner wall arises.

The invention based on circulating air on a building wall and the onset of thermodynamics is achieved in the form that at least two parallel air planes are present which are provided with an air overflow with each other. The air overflow can be freely selected in dimension and position within the parallel and separate air planes. In the room-side air plane, which was created by the room-side clothing of the half shell, heat is generated by any heating medium in the lower area. The heat rises within the device upwards and is there, near the ceiling, directed by the arranged air overflow into the seated to the outer shell half shell. Since the surface temperature of the outer wall is lower, the introduced air is cooled and falls down. Due to the local air overflow, it returns to the heating medium and rises again. There is a permanent thermal circulation, the thermodynamics. -A-

By reversing the cooling of building walls by opposite positioning of the cooling medium. The air flow direction is then reversed from top to bottom.

An embodiment of the invention will be explained with reference to Figures 1 to 3. Show it:

Fig. 1 arranged heating device on a building wall.

Fig. 2 heating device, closed, with arranged separate air planes.

3 is a partial perspective view of the middle part.

In the figures, that middle part 8 is shown with the web parts 1. The front panel or garment 4a, closes the central part (Fig. 3) from the front. In another embodiment of the invention, another front panel or garment 4b closes off the middle part to the rear. The result is separate, arranged in a device air planes 3a and 3b, which may be partially or completely closed at the front. Through the air overflow openings 5 or recesses or a gap 9, the air exchanges between the two or more, otherwise closed, air planes. In the middle part 8, any heating medium 7 or any cooling medium 6 may be arranged. Another embodiment of the invention is that the middle part 8 is connected to the web parts 1 and a front panel. The closing of the rear air plane is done by arranging on any wall 10 or to any element.

Claims

-6-protection claims

1. Device as convection heating and cooling for buildings

characterized in that a front plate (4a) with the central part (8) and any number of web parts (1) is firmly connected together.

2. Device as convection heating and cooling for buildings according to claim 1, characterized in that the central part (8) with holes (5), recesses or slots (9) is provided whose geometry, position and dimensions are freely selectable configured.

3. Device as convection heating and cooling for buildings according to one of the preceding claims, characterized in that at the central part (8) body can be arranged with any heating medium, radiator, cooling medium on the front (6) (7) or on the back , which are freely selectable in shape and positioning

4. Device as convection heating and cooling for buildings according to one of the preceding claims, characterized in that the device with any wall or any static planking (2) (10) is firmly connected. As many devices can be arranged in horizontal, vertical or all other directions -7- until a full-surface occupancy of wall, wall or planking is done.

5. Device as convection heating and cooling for building according to one of the preceding claims, characterized in that the middle part (8) and the web parts (1) with another rear face plate or clothing (4 b) are provided and the device on one side or both sides, to any walls, walls, planking or other parts of buildings, inside or outside is attached.

6. Device as convection heating and cooling for buildings according to one of the preceding claims, characterized in that preferably a double air plane, at a distance from each other, arises (3a) (3b) which is brought about by the middle part (8). Holes (5), recesses or slots (9) allow for mutual exchange of air, and exchanges and additions of flavors or other air mixtures, or other molecular mixtures. It can also be arranged at a distance following several separate air planes, which are supplied with each other with slide or flap, which are open or close and thus at least two air planes can provide each other, with air or other substances. -8th-

7. Device as convection heating and cooling for buildings according to one of the preceding claims, characterized in that the device according to the invention (Fig. 2) itself has the necessary statics for each type of houses and buildings. The device can furthermore be produced from any material which has at least dimensionally stable properties, wherein the device is arranged over the whole area on or in each type of component and in this case has at least two separate air planes relative to one another. (3a) (3b), wherein the dimensions, positioning and the air flow directions can be freely selected.