DE19720863C2 - Heating and / or cooling element for walls, ceilings and / or floors of buildings - Google Patents

Description

The invention relates to a heating and / or cooling element for walls, ceilings and / or floors of buildings the heat from a room facing away from the room to be tempered poorly conductive first plate and one of these the second, facing the room, is a good conductor of heat Plate with parallel longitudinal grooves in one of the plates and out a mat of parallel capillary tubes that run in the longitudinal grooves and with collector pipes running transversely to them communicate and carry a heating or cooling medium.

In a known element of this type (DE 40 36 520 A1, Fig. 5), the first plate is a hollow structure, consisting of two corrugated cardboards arranged at a distance from one another and attached to the edge-side slats. The longitudinal grooves are in the second plate. Both plates have load-bearing functions.

The invention has for its object this element of Art to improve that it is easier with the same stability is and / or takes up less space.

This object is achieved in that the the first panel is made entirely of heat-insulating material existing plate construction practically without carrying properties ten is and that the longitudinal grooves are in this.

Are the longitudinal grooves, as in the known case, in the second plate, then the wearing properties of the Longitudinal grooves weakened. This disadvantage is due to the inven eliminated by the longitudinal according to this invention grooves are no longer in the second plate. she can thus be thinner than in the known case. The first plate is according to the invention now a plate construction, which the Can accommodate longitudinal grooves, namely a plate continuously made of material (although these of course also consist of several other parts may exist). This stuff about according to the invention also takes the insulation and insulation on the other hand, on the supporting function of this plate is largely dispensed with (the insulation properties by the provision of the longitudinal grooves in this plate practical not weakened). In the end, the Ele ment lighter and / or less space with the same stability claiming as the known.

Another advantage is that the element according to the invention can be easily attached to a building surface, in particular a ceiling. It is common practice to first apply a latticework of profiled rails to the surface, to which plates are then attached. This fastening system can be beibe keep for the elements of the invention: These are also fastened to the rails, z. B. screwed tight. This would not be possible in the construction according to FIG. 5 of DE 40 36 520 A1; instead, a relatively complex suspension is provided for the ceiling elements.

(Under "slab" or "slab construction" is not one "Fill layer" - see DE 41 06 200 A1 - to understand that when Assembly of the element applied in the viscous state and then hardens.)

The two plates are preferably adjacent to one another. Of course there can also be between the two plates another (thin) plate or layer, e.g. B. made of metal, are located, which conducts or distributes the heat well.

The thickness of the first plate is at least equal to the through knife of the manifolds. The widths of the two plates are equal.

A further development of the invention is that in the first plate on the side where the longitudinal grooves are find at least one transverse groove that is wider than that Longitudinal grooves and about the same depth as the longitudinal grooves is. These transverse grooves have the advantage that Changes in the length of the capillary tubes due to temperature changes changes in the transverse grooves.

The invention is explained with reference to FIGS. 1 and 2:

Fig. 1 shows a heating and cooling element in which the Sam melrohre the plastic tube mat are arranged opposite.

Fig. 2 shows a heating and cooling element in which the plastic tube mat is U-shaped.

On a base plate 1 ("second" plate) is provided with a parallel parallel grooves 2 cover plate 3 ("first" plate). Capillary tubes 4 of a plastic tube mat are inserted in the parallel longitudinal grooves 2 of the cover plate 3 . The cover plate 3 has transverse grooves 6 . The height of these transverse grooves 6 takes up at least the value of the parallel longitudinal grooves 2 and serves to compensate for the length of the capillary tubes 4 of the plastic tube mat. In the manufacture of plastic tube mats, the individual capillary tubes 4 are often subject to different tensile loads, which leads to different longitudinal expansions. The result is different lengths of capillary tubes 4 within a plastic tube mat. The transverse grooves allow in their area a lateral expansion of the longer plastic pipes 4 and thus a forced insertion of the plastic pipe mat into the parallel longitudinal grooves 2 of the cover plate 3 .

The base plate 1 , which can be designed as a plasterboard, metal, glass, plastic or wood plate, is not weakened in its strength by grooves. It can thus be easily dimensioned according to its size and area of application. The result is low material consumption, good energy conductivity and low costs. So that the plastic pipe mat against mechanical loads such. B. is protected during transportation ge, the cover plate 3 has a thickness D, the value of the diameter dimensions of the collecting tube 5 of the plastic tube mat. At the same time, it is achieved in that the cover plate 3 consists of insulating material that the energy flow mainly goes into the base plate 1 .

The inventive solution enables mounting on many basic structures. Various practical solutions for forming the cover plate 3 are shown in the figures. On the right side of FIG. 1, a recess 8 for the header tube 5 of the plastic tube mat is shown. On the left side a solution is shown in which a web 7 is angeord net on the base plate 1 in addition to the cover plate 3 . The web 7 and the cover plate 3 have the same height or thickness D. Through the base plate 1 , the cover plate 3 and the web 7 , through bores 9 are made . These through bores 9 are arranged between the parallel longitudinal grooves 2 . When screwing through the through holes 9 to metal or wooden profiles, damage to the capillary tubes 4 is avoided. The fact that the cover plate 3 and the web 7 can have the same thickness D, flat wall and ceiling surfaces can be installed without problems.

The cover plate 3 has a transverse groove 6 (see FIG. 2), which is designed so that a U-shaped plastic tube mat can be taken on. This solution enables the use of inexpensive U-shaped plastic pipe mats. So-called loop mats can also be used.

The solutions shown in both figures allow the Use of the heating and cooling elements on metal or wood professionals len on ceilings and walls by screws. Find this solution their application in drywall. The shown according to the invention But heating and cooling elements can also be used in corresponding Ceiling structures are inserted. Is advantageous in in any case that the energy insulation already in the heating and Cooling element takes place. The result is low assembly costs.  

Reference numerals

1

Base plate ("second" plate)

2nd

Longitudinal grooves

3rd

Cover plate ("first" plate)

4th

Capillary tube

5

Manifold

6

Cross groove

7

web

8th

Recess

9

drilling
D thickness

Claims (7)

1. heating and / or cooling element for walls, ceilings and / or floors of buildings, consisting of a facing away from the room to be tempered, the heat poorly conductive first plate and one of these adjacent, the room facing the heat well conductive second Plate made of the same material throughout with parallel longitudinal grooves in one of the plates and a mat made of parallel capillary tubes which lie in the longitudinal grooves and are connected to collecting tubes running transversely to them and carry a heating or cooling medium, characterized in that the first Plate ( 3 ) is a consist of thermally insulating materi al existing plate construction with practically no carrying properties and that the longitudinal grooves ( 2 ) are in this. 2. Element according to claim 1, characterized in that there are in the first plate (3) on the side where the Längsnu th (2), at least is a transverse groove (6), which is wider than the longitudinal grooves (2) and of approximately the same depth as the longitudinal grooves ( 2 ). 3. Element according to one of claims 1 or 2, characterized in that the first plate ( 3 ) has at least in one of its end regions a recess ( 8 ) for a collecting tube ( 8 ). 4. Element according to one of claims 1 or 2, characterized in that the first plate ( 3 ) is shorter at least in one of its end regions than the second plate ( 1 ), so that the collecting tube ( 5 ) is exposed, and that on On the side of the collecting tube ( 5 ) facing away from the first plate ( 3 ), a web ( 7 ) made of the same material as that of the first plate ( 3 ) is arranged, the height of which corresponds to the thickness of the first plate ( 3 ). 5. Element according to one of claims 1 to 4, characterized in that between the longitudinal grooves ( 2 ) through the element through holes ( 9 ) for fastening screws. 6. Element according to one of claims 1 to 5, characterized in that the distances between certain longitudinal grooves ( 7 ) are somewhat larger than the distances of the other longitudinal grooves ( 2 ) and that the bores ( 9 ) in the regions of the larger distances are located. 7. Element according to claim 6, characterized in that itself the larger distances and the smaller distances periodically alternate.