DE4131797A1 - Surface elements for air conditioning rooms - comprise heating or cooling medium flowing through pipes encased in heat conducting material between plasterboard panels - Google Patents

Abstract

The surface elements are used for air conditioning rooms. They comprise heating or cooling medium flowing through pipes (5) encased in a heat conducting layer (4) between panels (2,3). The panels are of plasterboard, chipboard or fibrous plasterboard. The heat conducting layer is of joint filler, plaster or anhydrous plaster. The panels are of different materials, the upper one being of heat insulating material covered with a layer of insulation (14). USE/ADVANTAGE - Surface elements for air conditioning rooms have pipes made of aluminium, copper or plastics.

Description

The invention relates to a surface element for indoor air conditioning sation, with a cooling or heating medium flowing through it Channels.

Sheet metal sheet elements are known on which Rohrlei are laid by heating or cooling medium be streamed, with a metal holder as possible good heat transfer between the pipeline and the sheet metal element should be achieved. Such sheet metal elements are In particular intended for climatic ceilings, they are suitable less for attachment to room walls or floors.

It is also known to clamp pipe mats on a wall by clips or the like. To which the pipe mats are plastered will.

The invention has for its object a surface element of the type specified in such a way that it for the Room air conditioning used universally and in particular can largely be prefabricated at the factory.

This is achieved according to the invention in that the heating or cooling medium flowing through channels in a thermally conductive Layer are formed between plate elements.

The plate elements can for example be made of plasterboard  ten and the like. Common materials in the construction sector, so that there is a surface element that ver as well as a wall and ceiling element for the indoor climate tization can be used. Through the sandwich structure the result is a stable surface element, which makes the handle Exercise on the construction site compared to the known sheet metal elements is facilitated.

Further features of the invention are in the following Description and the further claims given.

An example embodiment of the invention is shown in explained below with reference to the drawing. It shows

Fig. 1 in a cross sectional view of two cross anein other surface elements of a ceiling structure,

Fig. 2 schematically shows other types of arrangement of surface elements on a ceiling,

Fig. 3 shows the arrangement of a planar element on a wall,

Fig. 4 shows the possible arrangement of the surface elements on the floor, and

Fig. 5 shows a modified embodiment of a surface element in cross section.

In Fig. 1, 1 and 1 'area elements are designated, the z. B. may have a rectangular shape. Each surface element be consists of two plates 2 and 3 , between which a layer 4 is arranged, in which a pipe 5 is embedded. The plates 2 and 3 can be made of a material commonly used in construction, for example gypsum plasterboard, gypsum fibreboard or chipboard. The plates 2 and 3 are preferably made of non-combustible material. It is also possible to manufacture the outer faceplate 2 facing the room from a different material than the inner coverplate 3 . The faceplate and cover plate can also have different thicknesses.

The layer 4 between the two plates 2 and 3 consists of heat-conducting material. This thermally conductive layer 4 may consist of a thermally conductive casting compound, for. B. from joint filling material, gypsum, anhydride and the like. This heat-conductive casting compound can simultaneously be used to glue the faceplate 2 to the cover plate 3 .

The pipeline 5 is embedded in turns in this heat-conducting layer 4 , the pipeline in the edge region of the surface element leading via a connecting section 6 approximately perpendicular to the plane of the surface element. In the illustrated embodiment, the pipeline is connected via a connecting section 7 to a return line 8 , which is laid in an approximately U-shaped rail 9 in cross section, which is an element of a ceiling structure and is attached to a raw ceiling, not shown. In the same way, the adjacent surface element is connected via the connecting section 7 to a flow line 10 laid in the rail 9 . The connections to the supply and return lines can be formed via coupling elements, screw connections and the like, or can also be welded.

Between the plates 2 and 3 of the surface element 1 spacer strips 11 are expediently placed along the edge, on which the two plates 2 and 3 are connected to each other and serve as a frame for the introduction of the casting compound 4 . In the area of these spacer strips 11 , the attachment of the ceiling elements to the mounting rail 9 z. B. be made by screwing, the BEFE stigungselemente are only indicated schematically at 12 . It can also between the pipe sections Aussteifungslei most z. B. of metal or plasterboard strips between the plates 2 , 3 to be connected.

The visible side of the face plate 2 can with a coating indicated at 13 , z. B. a non-woven wallpaper. A plaster can also be applied to the surface element. The surface of the faceplate can be smooth or perforated. In the case of a perforation, this is only formed in strips between the pipes, mineral wool or the like. Sound-absorbing material being embedded in the layer 4 in the region of the perforation in order to achieve sound insulation. Here, the layer 4 can only partially over the surface of the faceplate 2 erstrec ken, so that in particular the pipes 5 are embedded in the Vergußmas se of the layer 4 , while in between spaces me for sound-absorbing material can remain in the area of perforations.

The cover plate 3 can be formed in the same way as the view plate 2 . A more insulating material is expediently provided for the cover plate 3 . It can also consist of rigid foam.

In the ceiling construction shown, a thermal insulation between cover plate 3 and raw ceiling is provided at 14 . The insulation layer 14 can also be firmly connected to the cover plate 3 .

The joint between adjacent surface elements 1 , 1 'can be filled, e.g. B. if the visible side is painted with dispersion paint. As shown in FIG. 2 a, the surface elements can also be inserted with a joint strip 15 which is approximately T-shaped in cross section. These T-strips 15 can also be designed as support strips, the edges of the surface elements 1 resting on these support strips, which are fastened to the bare ceiling or to a support structure by means of suspension elements ( not shown).

Fig. 2b shows the formation of a shadow gap between adjacent surface elements 1 , 1 ', wherein the surface elements are fastened to the support rail 9 via Z-shaped holder 16 . The holder 16 can also be designed so that the associated surface element can be folded down for revision work.

If the surface elements for air conditioning are attached to a wall, they are, as shown in FIG. 3, hung at a distance from a wall 17 , whereby they are held by a support structure known per se.

It is also possible to lay the surface elements for room air conditioning on the floor. The surface elements can be laid directly on the raw floor 18 , as shown in FIG. 4a, or they can be laid in the form of a raised floor on stands 19 above the raw floor, as shown schematically in FIG. 4b.

The surface elements are prefabricated to a construction site delivered. If necessary, you can also go directly to the construction site Items are made as they are simple in structure to have. The surface elements can also be curved be.

To improve the heat conduction on the visible side, a heat radiation re reflecting layer can be inserted between layer 4 and cover plate 3 , for example made of aluminum foil or a plastic film.

The pipeline 5 can consist of aluminum, copper or plastic, wherein it is preferably cast into the heat-conducting material of the layer 4 . The pipes 5 are designed with a low flow resistance and can be coated to improve the heat transfer on the outside.

Fig. 5 shows an embodiment of a surface element in cross section, which is laid out for a stronger static load, wherein between the face plate 2 and cover plate 3 carrier 20 are used, to which the plates 2 , 3 are attached. This results in a structure with a larger thickness, so that it is expedient to lay the heat-insulating layer 14 of the structure according to FIG. 1 on the inside of the sandwich structure, as indicated in FIG. 5 at 21 . The potting compound 4 , in which the pipes 5 are embedded or poured, fills in this embodiment only a part of the cross section of the surface element. The carriers 20 are expediently made of a less conductive material.

Claims (10)

1. Surface element for room air conditioning, with channels through which a heating or cooling medium flows, characterized in that the channels ( 5 ) are formed in a heat-conducting layer ( 4 ) between plate elements ( 2 , 3 ). 2. Surface element according to claim 1, characterized in that the plates ( 2 , 3 ) consist of plasterboard, chipboard or gypsum fiber boards. 3. Surface element according to claims 1 and 2, characterized in that the heat-conducting layer ( 4 ) is formed from a heat-conducting potting compound, such as joint filler, plaster, anhydride or the like. 4. surface element according to the preceding claims, characterized in that the viewing and cover plate ( 2 , 3 ) consist of different material. 5. Surface element according to claim 4, characterized in that the cover plate ( 3 ) consists of a heat insulating mate rial. 6. Surface element according to the preceding claims, characterized in that the cover plate ( 3 ) is covered with a heat-insulating layer ( 14 ). 7. surface element according to the preceding claims, characterized in that spacer strips ( 11 ) are inserted between the plates. 8. Surface element according to the preceding claims, characterized in that the channels in the heat-conducting layer ( 4 ) in the form of pipes ( 5 ) laid in turns are made of aluminum, copper, plastic or the like. 9. surface element according to the preceding claims, characterized in that the face plate ( 2 ) perforated in the region between the channels or pipes ( 5 ) and in the region of the perforation with a sound-absorbing material between the plat ten ( 2 , 3 ) is provided. 10. Surface element according to claim 1, characterized in that between the plate elements ( 2 , 3 ) supports ( 20 ) are arranged, which stiffen the surface element, between the heat-conducting layer ( 4 ), in which on the back of the face plate ( 2 ) Pipes ( 5 ) are cast, and cover plate ( 3 ) a heat-insulating layer ( 21 ) is arranged.