CZ26395U1 - Lining of wall or ceiling - Google Patents

Abstract

The wall or ceiling cladding (I) has a mounting plate profile (1) fixed at the wall or ceiling of a building. The mounting plate profile has a receiving medium for the tube index of a cooling or heating system, where a receiving opening is turned to a space. The receiving medium is designed as channel (2) which is so limited in its width.

Description

Wall or ceiling lining

Technical solutions

The invention relates to a wall or ceiling lining with a cooling and / or heating system, wherein the wall or ceiling lining is attachable by at least one retaining profile to the wall or ceiling of a building.

State of the art

Such wall or ceiling linings are known. Suspended ceilings are often installed in buildings, especially office and industrial buildings. These ceilings are increasingly formed as heating and / or cooling ceilings. But also acoustically efficient, especially acoustically absorbing ceilings are installed with the same or similar systems. Of course, such ceilings can also be thermally activated and are used in combination as soundproofed ceilings with thermal activation. In addition, simple ceiling systems are also known for forming ceilings or as an installation plane for retaining installations. These installation ceilings consist in several cases of individual panels, which are usually inserted into the frame structure without a firm connection. The design of known systems is basically the same in the basic principle. The fine grate is fastened either directly or in the grid. direct hinges on the ceiling, roof or wall, or, in the case of suspended ceilings, on a rough grate. This coarse grate is fixed on its side, for example, to a concrete ceiling or wall by means of adjustable wires or sheets. After installation of the grating respectively. the internal structures are inserted into the grate according to the task setting of the board or the plate resp. panel tiles.

If board claddings are formed as gypsum plasterboard systems, these have to be graveled and sanded. Overall, the work for ceiling tiles is very costly. Also, the integration of tubular bodies for cooling and heating pipe systems is extremely complicated, which means that they have to be adapted for this. additional brackets or the tubular body is stored, respectively. mechanically clamped, on the holder for the system of plates, respectively. panel tiles. In the event of a leak in the piping system, this may result in the entire ceiling cladding, including the internal structure, being dismantled to allow access to the tubular body in order to be able to access the pipework. damaged areas have been replaced and / or repaired. These costs are enormously high and there are now no systems which allow access to the tubular body directly without dismantling the internal structure. Overall, the work for ceiling tiles is also very costly, especially if the surfaces have the same characteristics, such as cooling or thermal radiation, sound absorption, etc.

The essence of the technical solution

The object of the invention is therefore to provide a wall or ceiling lining with a cooling and / or heating system which is simply mountable on a wall or ceiling of a building which allows easy assembly of the pipe body and which in particular permits easy access to the pipe body for maintenance purposes.

The object of the invention is solved by wall or ceiling lining with a cooling and / or heating system, the wall or ceiling lining being attachable by at least one retaining profile to a wall or ceiling of a building, characterized in that the retaining profile has a side facing the cooled , respectively. heated room, a clamping means for a duct of a cooling and / or heating system whose clamping bore faces the room. In contrast to all other known solutions, it is now possible to integrate the pipe body into the retaining profile in such a way that it is easy to mount from the side or from the side. from below, because the clamping means is open on the side facing the room.

It has hitherto been known in the prior art to insert a pipe conduit into, for example, thermally conductive sheets, which have a fastening possibility on their side facing away from the room. It is now possible to insert the pipe body both in pre-assembly and after retrofitting, after placing the retaining profiles into the pipe, so that even later for easy maintenance access to the pipe body of the heating element or of the heating element is possible. cooling system. Furthermore, assembly costs are greatly reduced, since it is now possible to integrate the pipe body into the retaining profile for later cover plates or cover strips. This generally reduces both assembly and material costs of the internal structure. The wall or ceiling lining according to the technical solution opens up a number of possibilities for simple mounting for the cover plates, respectively. cover strips that reduce the overall cost of such wall or ceiling lining. Also, the costs for the internal structure, if necessary, are reduced. The later-described embodiment reduces assembly costs to a large extent by incorporating the retaining profile directly into the ceiling structure or the ceiling structure. is directly edited on it.

Corresponding to an advantageous improvement of the invention, the wall or ceiling lining is characterized in that the clamping means is designed as a clamping channel which is measured in its width so that the pipe body is held in the channel due to the clamping force of the material of the holding profile. If, for example, the retaining profile is made of metal, then it is possible to shape the clamping channel by angular deflection, respectively. by bending or deep drawing such that the clamping channel has a certain clamping force. In this case, the clamping channel can be formed in a groove and can extend along the longitudinal span of the holding profile. By designing the clamping means as a clamping channel open from the side of the room, it is possible to design the latter in a slightly resilient manner and to make its dimensions such that it is resp. at least at one particular location of the clamping channel slightly narrower than the outer diameter of the pipe body. As a result, the tubes can be permanently fixed by clamping the holding profile. In addition, easy insertion from below is possible, for example, with a wooden wedge or a wooden spatula or the like, so that here too the work of the prior art is facilitated to a great extent.

A preferred embodiment of the wall or ceiling cladding as described above is characterized in that the clamping channel is U-shaped and extends in the wall or ceiling direction from at least one room-facing contact surface for the covering surface boards, respectively. wall or ceiling trim strips. As a result, the cover plates lying in one plane can be laid on the bearing surfaces of the retaining profile without disturbing the pipe body or having to use a spacer or a spacer. ensure that the pipe body does not compress or not squeezed. The pipe body is located in a clamping channel which extends from the bearing surface seen towards the wall or the wall. to the ceiling, and is formed so deep that it is able to grip the pipe of the pipe body. Advantageously, it is provided somewhat deeper so that the tube can rest indirectly on the cover plate or cover strip.

The technical solution also proposes that two bearing surfaces are provided and the clamping means formed as a channel is arranged between the two bearing surfaces, in particular centrically. It is furthermore proposed that the clamping means has at least its side facing the curvature which corresponds to the curvature of the pipe at its outer diameter and / or its outer diameter. coincides with this. This means that the rounding can be respectively. slightly larger than the rounding of the pipe. This centric design has the advantage that a very wide bearing surface is obtained for the cover plate or the cover plate. covering strip of wall or ceiling lining. In addition, the heat transfer from the pipe to the holding profile is advantageously influenced and the downward radiation is also affected.

The technical solution also proposes that fastening elements and / or fastening means are provided on the retaining profile and / or the cover plate for releasably fastening the cover plate or the cover plate. cover strip on the retaining profile. The fastening means for fastening the cover plate, respectively. The cover strips can be designed very differently. The technical solution here is not limited to any solution, but rather comprises a plurality of fastening solutions for fastening the cover plates, respectively. covering strips for wall or ceiling lining. Thus, according to an embodiment of the invention, the fasteners have adhesive, adhesive and / or magnetic properties.

According to the invention it is also provided that the fastening elements are designed as a Velcro fastener, preferably as a fastening strap, as a clip connection, screw connection or the like. In this case, the fastening elements can be provided both on the holding element and also on the cover plate or the cover plate. on the cover strip.

-2GB 26395 U1

Fasteners such as screws or bolts are usually screwed through the cover plate and / or bolts. cover strip. For this purpose, the technical solution proposes a corresponding improvement in that the channel is measured in depth so that the fastening means guided through the cover plate, such as screws or pins, cannot reach the pipe body or the pipe. they cannot damage it. Appropriate screws or screws are used. pins, which in their dimensions are sufficient for the cover plate, respectively. they securely fastened the cover strip to the retaining element. In the case of a faulty bore, however, it is provided that the duct body is arranged distant from the bearing plane of the bearing surfaces for the cover plates or the cover plates. cover strips so that damage can be avoided. Especially when using so-called self-tapping screws, respectively. Self-drilling screws, which are provided with a drill tip on their tip, are reliably prevented from damaging the heating element or the heating element. cooling pipe. According to the prior art, it has not been ruled out that the pipe body, whether it is now made of copper pipes or plastic, will be damaged due to an incorrect bore.

According to a technical solution, it is further provided that on at least one bearing surface a magnet is provided, preferably as a magnetic strip, so that the cover plates of a magnetically acting material, such as steel sheet or steel foil, respectively. magnetically acting foil, fastened by magnetic force. Of course, it can also be provided according to the invention that the magnetic strips are fastened to the cover plate or to the cover plate. on the cover strip, respectively, with the retaining elements, so that the cover plate can also be reliably fastened to the internal structure or the magnetic structure by a magnetic force. on the retaining profile. Preferably, magnetic strips are provided on both bearing surfaces.

Accordingly, the technical solution also proposes that the holding profile is made of a magnetically acting material and that the cover plate has a correspondingly adapted magnetic strip. For other embodiments that do not employ magnetically acting fasteners, the retaining profile may be formed of another material, so the technical solution is not limited to metal.

In contrast to the solutions known in the prior art, it uses a technical solution for the magnetic fastening of the cover plates, respectively. cover strips, magnetic strips located directly on the contact surfaces for cover plates, respectively. covering strips. Therefore, no additional fastening means are required. a fastening recess on the retaining profile, which also acts as a thermally conductive sheet. It is known in the art to provide corresponding recesses in which magnets must then be fastened. The magnets are relatively strong in their design. The technical solution uses as a magnetic holder here a magnetic strip which is between 0.5 and 3 mm thick, preferably 1 mm thick. The overall use of the bearing surface also makes the connection towards the cover plate or the cover plate. of the cover strip, which is very full, which has a very favorable effect on the thermal transition. Further, the weight and cost of manufacturing the holding profile and magnetic connection are considerably reduced compared to the prior art solutions.

The technical solution suggests that it is like a cover plate, respectively. cover strip, treated with metal foil, sheet, preferably coated with paint or foil, gypsum plasterboard, respectively. a fermacel plate, a plastic or so-called PCM plate (a plate of phase change material) or the like. As can be seen, the technical solution here is not limited to a particular material, but various materials can be used with such a wall or ceiling lining according to the technical solution. The use of a PCM board is particularly advantageous since it is a new type of material which forms a kind of thermal storage mass.

Furthermore, according to the invention, it is provided that the cover plate, respectively. a cover strip formed of an electrically conductive material. The technical solution also suggests that a transparent material is used, as well as a soundproofed element with perforation.

The technical solution further provides that the cover plate is formed as a cover element with a finished surface, for example with a foil coating or PCM coating, or in a quite practical variant, that the cover plate or the cover plate is of a finite surface. cover strip, adapted as a lighting element. Various technical possibilities are also provided. Thus, as already mentioned, the cover plate can be formed at least partially transparently so that the illuminating body can be hidden there. However, it is also possible to use a film which, by irradiation, appropriately reflects light and thus acts as illumination. It is also possible

The use of so-called foils having fluorescent, resp. luminescent properties which produce certain light effects by irradiation.

The technical solution also suggests that there is at least one cover film for the ceiling lining, respectively. walls, electrically conductive. Of course, it is also possible to use plate systems, respectively. foil systems which are provided with a suitable coating. Thus, all surface decors with wall or ceiling sheathing can be realized according to the technical solution. Versatile application, resp. the application of the solution according to the invention is considerably higher than that known in the prior art.

In the embodiment as a sound-proof ceiling it is possible to use so-called sound-proof elements, preferably with perforation. In this case, the plates respectively. In addition to the sound-absorbing property, an improvement in the cooling and / or cooling properties is achieved. heat output. This solution is particularly suitable for climatic systems, since this can greatly increase the cooling performance, especially for suspended cooling ceilings. Magnetic films are obviously better thermally conductive than plasterboard or fermacel boards, which is why this option is always available when a high cooling or high cooling temperature is required. heat output.

Another aspect of the solution according to the invention is that the holding profile, as already described, is formed in or on a ceiling or wall element, which is formed, for example, as a corrugated or trapezoidal sheet metal construction or as a sheet metal construction in a sandwich building construction. . The technical solution is based on the fact that nowadays halls or industrial buildings are often manufactured as corrugated sheet / trapezoidal sheet metal structures, preferably sandwich building structures. In particular, the roof structures are provided with so-called corrugated sheet or trapezoidal sheet structures which are insulated against heat loss. For example, it is provided that an insulating material is provided between the two trapezoidal sheets, for example foamed there, thereby creating a stable connection of the lower and upper trapezoidal sheets. The technical solution now suggests that the retaining profile for the duct of the cooling or heating system is possibly provided. provided on this ceiling or wall element.

The technical solution proposes two essentially different variants, namely that the holding profile is fixed in or onto a trapezoidal sheet metal construction, i.e. that it is subsequently modified on the trapezoidal sheet metal, respectively. on a corrugated sheet or sandwich element.

A particularly practical variant suggests that the retaining profile be molded into a corrugated sheet or trapezoidal sheet construction. to sandwich building construction. For this, only the corresponding tool is required which, in the production process of the corrugated sheet metal or trapezoidal sheet metal, shapes the clamping means for the tubular body simultaneously with the angular deflections of the sheet metal construction. This makes it possible to take advantage of the advantages, as already described for lining walls or ceilings, for such constructions and, in particular, to integrate the heating and / or heating elements therein at a very low cost. cooling system to the ceiling or wall of the building.

In this case, it is particularly advantageous if the clamping means for the tubular body is in the grooves of the trapezoidal resp. corrugated sheet, respectively. sandwich building construction. The technical solution is not limited to conventional heating, resp. cooling systems, but it is also possible to design the tubular body as a fuel-burning object. Of course, the tubular body tubes may also be used as empty tubes for cables, hoses, electric heating conductors or the like. Here too, the technical solution is very flexible and is not limited to a single solution.

The technical solution further proposes that the holding profile is provided in a trapezoidal sheet metal construction. corrugated sheet statically effectively.

Another aspect of the technical solution is given by the fact that the surface of the trapezoidal sheet metal construction resp. corrugated metal sheets sheathed, respectively. coated with statically effective material.

The previously described variant of the ceiling, respectively. wall element with cooling element integrated in the element. heating system for wall and / or ceiling heating, in particular on the thermal principle

The advantage of industrial radiation, which is often constructed as a corrugated or trapezoidal sheet metal construction or as a sandwich sheet metal construction, now has a heating or heating element, has the advantage over conventional solutions of the prior art. cooling system, which works on the principle of thermal radiation, which thus reduces the dust load and without problems replaces known heating, resp. cooling of workshop halls. The benefits are obvious. While in winter the heating can be realized on the principle of thermal radiation by the solution according to the technical solution, cooling can take place in the hot summer months. Both solutions have a much more effective effect than conventional convection solutions known in the art. The solution according to the invention also offers considerable advantages over other known heating systems, such as gas heating or electric heating. First of all, the temperatures of the heating system can be reduced so that, for the first time, it is also possible to equip high halls with low-temperature heating systems such as heat pumps and solar heaters. Of course, a combination is also possible by placing, for example, solar collectors on the roof surface, which at the same time at least partially supply the necessary thermal energy for the heating system.

Installation of thermally conductive sheets, resp. retaining profiles in corrugated sheet construction, resp. made of trapezoidal sheet metal, especially in the grooves, offers the advantage that they can be moved very easily due to investment costs and prefabrication. It is possible to place the pipe body directly in the prefabrication. However, the technical solution also provides the possibility of positioning the pipe body only after installation, for example after mounting the wall or ceiling elements. Here too, the technical solution is not limited to a single solution, but rather includes all the variants already described.

The variant of the technical solution further suggests that at least the room facing side of the trapezoidal sheet metal construction resp. The corrugated sheet metal or sandwich construction is provided with a heat-radiating, resp. cold-radiating coating. This further increases the efficiency of the heating system. cooling. Trapezoidal construction, resp. The corrugated sheet metal, in this case, as already mentioned, is provided as a sandwich element with preferably integrated insulating material, which is formed as a layer of insulating material.

Furthermore, the technical solution suggests that the insulating material has statically effective properties. According to the invention, the surface is also provided after the lamination, at least on the room facing side, which preferably consists of a thermally conductive material.

In summary, it can be estimated that, in addition to reducing installation costs, the solution according to the invention can also achieve apparent cost savings, since for the first time the temperatures of the hall heating system can be obviously reduced by the system according to the invention. Furthermore, according to the invention, it is now possible to produce a corrugated sheet construction or a corrugated sheet structure. made of trapezoidal sheet metal with a special groove, that is to say the clamping means for the pipe body. heating conductor. In this embodiment, the entire ceiling or wall element of the building can be made of corrugated or corrugated structures. trapezoidal sheet metal, to be used as heat distributor. As a result, extremely high heating and cooling capacities can be achieved.

Another variant is that the grooves, the medium conducting or the foaming means or channels directly into the styropor or pur body. The surface may be coated or coated with suitable materials such as aluminum, copper, sheet steel, etc. for manufacturing and heat transfer purposes.

A further advantage of the technical solution is that existing halls can also be retrofitted with a wall or ceiling lining system according to the technical solution. For this purpose, it is only necessary to adapt the holding profile to the existing ceiling and wall constructions of the corrugated sheet metal elements of the building. made of trapezoidal sheet. In this case, it is also possible to let the pipe body exist as an open system or to provide wall or ceiling lining with cover plates or cover strips. Here too, the technical solution is not limited in any way.

Further, it should be noted that all the described variants and embodiments of the invention can be easily combined with one another. Thus, the versatility of the possibilities of solution of the wall or ceiling lining system according to the technical solution is extremely great. When an element is used as

-5GB 26395 U1 roof surface, it is meaningful according to the technical solution that the room facing side is formed, for example, by trapezoidal resp. wavy. When the clamping means, namely the groove for holding the tube leading the medium, is located in a high groove, convection can be effectively prevented. This increases the surface temperature. The energy emission is appropriately influenced. As a further advantage of trapezoidal / corrugated sheet metal with a tube embedded therein, it is purple that the surface resembles a reflector, radiating heat radiation more accurately to the floor. To enhance this effect, the surface of the profile can obtain a reflective coating. In addition, the overall roof sublayer acts as a large heat emitter. At the same time, the trapezoidal / wavy shape represents a static reinforcement, as is known from such elements. The technical solution can also be realized on a two-layer foamed metal sheet as it is also used for insulated walls or roofs. According to the invention, these can also be equipped with a medium conducting a tubular body which guarantees a heating or a heating element. Cooling performance. In addition to the previously described favorable effects for pipe installation, resp. the piping system itself, with the technical solution, does not lose the height of the building. Also, there is no restriction on the hall fittings present in the hall, respectively. crane tracks or the like.

Clarification of drawings

The technical solution is further described on the basis of exemplary embodiments with the help of figures in which it shows:

Fig. 1 is a three-dimensional view of one part of a wall or ceiling lining according to the invention; Fig. 2 is a sectional view of a part of one embodiment of a wall or ceiling lining according to the invention; 4 to 7 are made of corrugated sheet metal, respectively. trapezoidal sheet with integrated wall or ceiling lining according to the technical solution.

Examples of technical solution

Giant. 1 shows an axonometric representation of a part of the wall or ceiling lining I according to the invention. In this case, the representation here is limited to a part of the wall or ceiling lining which is essential from a technical point of view, namely the representation of the retaining profile 1 and the cover plate 5. The retaining profile 1 has two laterally seen sides which have angular deflections 10 on their upper side. also the profiles which have to be fixed have a retaining profile 1 on connecting plates of an internal structure (not shown). The angular deflection 10 also fulfills this function. On the side facing the room, respectively. There are abutment surfaces on the cover plate 5 facing the side. 3. These serve to fully abut the cover plate 5.

In the variants shown in FIG. 1, a magnetic strip 4 is fastened to the bearing surfaces 3, which serves to magnetically secure the cover plate 5 and the cover plate 5, respectively. cover strip. Of course, this can be easily attached to the internal structure by simply applying it there, and due to the magnetic force, the cover plate 5, which is made of a magnetically acting material, is attracted and permanently fixed there. In the case of maintenance, however, the cover plate 5 can then be easily removed again, therefore the variant of the technical solution shown in FIG. 1 is extremely advantageous. The effects according to the technical solution, according to which, in the case of maintenance, easy access to a not shown pipe ladder heat exchanger body 6, are achieved in this variant extremely easily.

Between the two bearing surfaces 3 there is a clamping means for the pipe body 6 (FIGS. 2 and 3), which is designed as a channel. The channel is formed in the form of a groove resp. U-shaped and has a rounded side on the room facing away from the room. This corresponds to the outer curvature of the pipe of the tubular body 6. By both lines of the vertical arms of the channel 2, it is indicated that a certain taper is provided therein to produce a certain clamping force which serves to fix the pipe. The double arrow in Fig. 1 indicates that the cover plate 5 can move both up and down, and this is adapted for both assembly and maintenance. Compared to the prior art, the known solution is oblo

26395 A wall or ceiling with a magnetic system is characterized by the solution of FIG. 1 according to the invention in that the magnetic strips 4 are very flat, namely about 0.5 mm to a maximum of 3 mm, thus greatly reducing the space requirement. Furthermore, the heat transfer to the cover plate 5 is not prevented and the fastening of the magnetic tape 4 can be made extremely simply, i.e., with self-adhesive surfaces which, after removal of the protective film, can be attached to the holding profile 1. laterally next to the bearing surfaces 3 in additionally shaped recesses. However, this has substantially increased the cost of manufacturing the retaining profile 1. The present technical solution provides a more advantageous solution.

Giant. 2 shows a variant of the technical solution in which the plasterboard or fermacel board is fixed as a cover plate 5 on the retaining profile 1. Screws 7 are used for fixing. Usually, self-tapping screws or drill-head screws are used in the production of ceiling or wall lining. As shown in FIG. 2, a substantial advantage of the technical solution is that the channel 2 is designed such that the pipe body 6 is spaced far enough from the cover plate 5 so that the pipe body 6 cannot be damaged by the screws 7 in the event of a faulty bore. Of course, the screw 7 is actually to be provided on the right bearing surface 3. However, the image has been chosen to clarify that the advantage of the technical solution is the design of the channel 2, which prevents the screw 7 from being able to be used. 6. All other reference numerals have already been introduced, therefore re-introduction is omitted.

Giant. 3 shows a sectional view of a further variant of the invention, with the main focus here being on the internal construction. The internal structure consists of several elements. Thus, for example, a cross-member 9 is provided on which the coupling adapter 8 abuts. A retaining profile 1 is fastened to the coupling adapter 8. For this purpose, a retaining projection 81 is provided on the connecting adapter 8, into which the retaining profile 1 is clamped. Further shown is a spacer 11 and a longitudinal beam 12, which merely represent an example for an internal structure. The inner structure can be made of sheet metal or metal sheet. steel profiles. Of course, it is also possible to partially modify the internal structure from a wooden batten to which the holding profile 1 is then preferably fastened by means of a connecting adapter 8.

Giant. Figures 4 to 6 show a corrugated sheet construction, a sandwich construction, and a construction according to the invention. construction of embossed sheet with integrated wall lining, resp. ceiling according to the technical solution. The essential core of this embodiment is that the retaining profile 1 is integrated either on or in a corrugated sheet or steel structure. trapezoidal sheet metal or sandwich construction, respectively. it is fixed there. Particularly preferred is the embodiment as shown in FIG. 5, where the retaining profiles 1 are, for example, formed into the lower web of the trapezoidal sheet metal structure. The design of the trapezoidal sheet metal structures 13, 15 differs only in that only a single-layer structure has been selected in Fig. 6, whereas a two-layer structure 13 is provided in Figs. 4, 5 and 7. embedded in trapezoidal sheet metal construction 13, respectively. they are fixed there. In FIG. 5, the channel 2 is molded into the lower layer of the trapezoidal sheet metal structure 13 by means of a special tool. The channel 2 also engages the pipe body 6. In the embodiment according to FIG. 5, the distance can be dispensed with as described above. In FIG. 6 it is shown that the simple corrugated or trapezoidal sheet metal construction 15 has additionally been provided with retaining profiles 1. Also here, the channels 2 show their open side downwards so that access to the pipe body 6 for maintenance purposes is ensured.

The embodiment of FIG. 7, on the other hand, shows a sandwich plate which is filled with insulating material 14. Retaining profiles 1 having channels 2 are provided below the sandwich plate. The channels 2 engage the pipe body 6. The cover plate 5 is not shown, as already shown. in other figures, according to the invention, it can still be modified.

Here, the application and the later claims are attempts to formulate without prejudice for extensive protection.

If, in closer examination, in particular the relevant state of the art, should be given here that one or another feature for the purpose of the technical solution is advantageous, but not important enough, it is of course already sought to formulate such a feature, especially in the main claim.

It should further be noted that the embodiments and variants of the invention described in the various embodiments and shown in the figures are arbitrarily combinable. The individual characters or several characters are interchangeable with one another. These character combinations are also disclosed.

The references in the dependent claims refer to further embodiments of the subject matter of the main claim by the features of the subclaim. However, these need not be construed as abandoning the attainment of separate subject-matter protection for the features of the sub-claims.

Features which have so far been described only in the description may be claimed during the procedure as significant in terms of technical solution, for example to limit the prior art.

Features which have only been disclosed in the description, or also individual features of the claims, which include several features, can be taken over at any time to limit the prior art in the first claim, even when such features have been mentioned in connection with other features or . they achieve extremely favorable results in relation to other features.

Claims (16)

PROTECTION REQUIREMENTS Wall or ceiling lining with a cooling and / or heating system, the wall or ceiling lining (I) being at least one retaining profile (1) attachable to a wall or ceiling of a building, characterized in that the retaining profile (1) has a a clamping means for a duct (6) of the cooling and / or heating system, the clamping opening of which is facing this space, on the side facing the cooled or heated space of the building. Wall or ceiling lining according to claim 1, characterized in that the clamping means is designed as a clamping channel (2) which is measured in width so that the pipe body (6) is held on the basis of the clamping force of the material of the holding profile (2). 1) Wall or ceiling lining according to one or both of the preceding claims, characterized in that the clamping channel (2) is U-shaped and extends in the direction of the wall or ceiling from at least one of the retaining profile (1). ) an adapted, space-facing bearing surface (3) for cover plates (5) or cover strips of lining (I) of the wall or ceiling. Wall or ceiling lining according to one or more of the preceding claims, characterized in that two bearing surfaces (3) are provided and the clamping means formed as the clamping channel (2) is arranged centrally between the two bearing surfaces (3), and / or the clamping channel (2) has at least on its side facing away from the space a rounding which corresponds to or coincides with the rounding of the pipe. Wall or ceiling covering according to one or more of the preceding claims, characterized in that fastening elements and / or fastening means are provided on the retaining profile (1) and / or the cover plate (5) for releasably fastening the cover plate (1). 5) or a cover strip on the retaining profile (1). Wall or ceiling covering according to one or more of the preceding claims, characterized in that the fastening means have adhesive, adhesive and / or magnetic properties and / or a fastening element, preferably a fastening tape, a clip connection, a screw connection, is provided as fastening element. the connection and / or the clamping channel (2) is measured in such a way that the fastening means guided through the cover plates (5), such as screws (7) with a self-tapping thread, cannot reach or fall apart. damage the pipe body (6). - 8 GB 26395 U1 Wall or ceiling covering according to one or more of the preceding claims, characterized in that a magnet, in particular as a magnetic strip (4), is provided on at least one bearing surface (3) for fastening the cover plate (5) of magnetically acting material , in particular made of steel sheet or steel foil by magnetic force, and / or a retaining profile (1) of magnetically acting material is formed and the cover plate (5) has a correspondingly adapted magnetic strip. Wall or ceiling covering according to one or more of the preceding claims, characterized in that a metal foil, a sheet, preferably coated with paint or foil, a gypsum board or a fermacel board, a plastic sheet is provided as the cover plate (5) or cover strip. The PCM board and / or retaining profile (1) is arranged on an internal structure that forms a connection to the ceiling or wall. Wall or ceiling covering according to one or more of the preceding claims, characterized in that the cover plate (5) or cover strip is made of an electrically conductive material and / or is made of a transparent material, as a sound-proof element with perforation and / or or as a cover element with a finished surface, eg with a film coating or PCM coating, and / or the cover plate (5) is provided as a lighting element. Wall or ceiling covering according to one or more of the preceding claims, characterized in that the retaining profile (1) is provided in or on the ceiling or wall element, in particular as a corrugated or trapezoidal sheet metal construction (13, 15). Wall or ceiling covering according to claim 10, characterized in that the retaining profile (1) is formed into a corrugated or trapezoidal sheet metal construction (13, 15) and / or the retaining profile (1) is fixed in or onto the structure (13). , 15) corrugated or trapezoidal sheet. Wall or ceiling covering according to one or both of the preceding claims 10 and 11, characterized in that the clamping means for the pipe body (6) is located in the grooves of the trapezoidal or corrugated sheet metal construction (13, 15) and / or is a pipe body (6) adapted to clamp the heating or cooling system and / or the pipe body (6) is designed as a fuel-burning object. Wall or ceiling lining according to one or more of the preceding claims 10 to 12, characterized in that the pipe body (6) is designed as an empty tube for cables, hoses or electric heating conductors. Wall or ceiling lining according to one or more of the preceding claims 10 to 13, characterized in that the retaining profile (1) is provided in a trapezoidal or corrugated sheet metal construction (13, 15) for improving statics and / or is a surface Trapezoidal or corrugated sheet metal structures (13, 15) are sheathed or coated with material to improve statics. Wall or ceiling lining according to one or more of the preceding claims 10 to 14, characterized in that the trapezoidal or corrugated sheet metal construction (13, 15) is designed in the manner of elements and / or the entire surface of the space-facing element, it is designed as a radiator of heat or cold. Wall or ceiling covering according to one or more of the preceding claims 10 to 15, characterized in that at least the space facing side of the trapezoidal or corrugated sheet metal construction (13, 15) is provided with a heat or cold radiating coating, and / or (13, 15) made of trapezoidal or corrugated sheet formed as a sandwich element with an integrated layer of insulating material (14) and / or the insulating material (14) has structural improvement properties and / or a surface layer consisting of a thermally conductive material is provided.