JP2008539347A - Building interior wall structure and laying module with electrically controlled flat heating elements - Google Patents

Abstract

The present invention relates to a wall structure in a building room equipped with an electrically controllable flat heating element and a laying module used for the wall structure. According to the invention, the wall structure of at least one side wall and / or ceiling wall and / or floor wall in the building room is constituted by a support structure. On this support structure, at least one laying module that can be held by hand as a wall covering element is attached and coupled to at least a part of the area. This laying module comprises at least one electrically controllable flat heating element.
[Selection] Figure 3

Description

  The present invention relates to a wall structure for a building room provided with an electrically controllable heating element described in the upper conceptual part of claim 1 and a laying module used for this wall structure described in the upper conceptual part of claim 23 .

  The known heating device described in Patent Document 1 includes two spaced apart electrical conductors and a coating of a coating material disposed between them to emit electromagnetic radiation in the infrared region, particularly in the infrared region that is not visible light. . The coating materials used here include in particular certain amounts of graphite and insulating material, in particular insulating carbon black and other components. The electrical conductor to the heating element is coupled to a controller that supplies power to excite the coating, particularly for electromagnetic radiation.

  The radioactive coating is attached to a substrate part made of a non-conductive material, but the substrate part can be implemented in a flat or flat form with a wallpaper technique. A plurality of flat heating elements are attached to continuous flat side walls in the building room.

The electrical connection between the flat heating elements and the control device and the power supply is here made using a connection cable, which extends on the wall surface and is connected to each other via a distribution socket. Such cables must be individually planned for use and are expensive to manufacture. In order to produce an optimal impression, the flat heating element or the entire wall must be covered with an exterior coating. Such appearance coating is implemented by, for example, wallpaper, wood veneering, plate veneering and the like. Since the electrical connection held on the wall surface between the connecting cable to the control device or the distribution socket and the flat heating element is inevitably covered with such an appearance coating, this connection should be used in the event of poor contact. No longer accessible for repair. Furthermore, because the outside of the wall is smooth, the cable must be routed to the wall slit or to the tube leading to it, which is an expensive method.
EP 1135970 B1

  The object of the present invention, on the other hand, is to provide a wall structure in a building room made of a support structure with an electrically controllable flat heating element, in which case the cost of electrical connection improves accessibility. The wall structure can be manufactured by a dry construction method.

This problem is solved by the features of claim 1.
According to claim 1, the wall structure of at least one side wall and / or ceiling wall and / or floor wall in a building room comprises a support structure, and at least one that can be hand held in at least some areas on the support structure. Two laying modules are attached and combined as wall covering elements. The laying module comprises or is formed by at least one electrically controllable flat heating element.

  The support structure is a support frame comprising a vertical frame and / or a horizontal frame, and at least a side region of the laying module is placed on the vertical frame and / or the horizontal frame, and particularly the frame. When the wall structure is manufactured, it is possible to install a particularly simple and inexpensive laying module when it is brought into contact with the frame and detachable on the frame, preferably with screws.

  2. The laying module is composed of at least one electrically controllable flat heating element and at least one substrate part on which the flat heating element is mounted in order to stabilize the wall structure and make it easy to hold by hand. 3 proposes. The substrate portion is preferably formed of a flexible and thin support film, or a support plate which is a substantially inflexible and rigid building board, as will be described in more detail below.

  Depending on the structural needs and the given conditions and the materials used, the flat heating elements are made as follows. As claimed in claim 4, the at least one flat heating element is a thin-walled covering as an active radiant heating covering, or the flat heating element is formed by the active radiant heating covering itself. As described in claim 5, the radiant heating coating is preferably attached directly to the substrate portion or indirectly to the coating film bonded to the substrate portion.

  According to the sixth aspect, the substrate portion can also be constructed as a sandwich plate portion having at least two layers. Also, the position and arrangement of the radiant heating covering will vary depending on the given condition. According to the description of claim 7, preferably in the case of an active radiant heating coating or coating film applied to the support material, the coating film is arranged on the indoor side or the outdoor side according to the laying state of the laying module, And / or in the case of sandwich plate parts, a radiant heating coating is embedded between the two layers. Of course, in the case of a coating film, it is not necessary to place only at the center, that is, it is possible to arrange many on the edge side, and it is possible to combine with different layer strength or number of layers as required It is.

  According to claim 8, an electrical connection conductor is coupled to the at least one flat heating element, and this electrical connection conductor is likewise mounted as a component of the laying module, in particular to the substrate structure part. The laying module has at least one side edge in the corner area of the room as a transition from the side wall to the floor or ceiling wall or another side wall. The connecting conductors of the laying module lead to this side edge and from there, along the corner area of the room, connect to a control device that supplies and controls one or more flat heating elements. Here, the corner area of the room is an area connected to the corner itself so as to be somewhat adjacent.

  Therefore, here, as long as the aforementioned connection conductor is arranged in the wall surface region, this connection conductor is advantageously mounted on the substrate part or on the laying module during manufacture. Individual cable connection of the connecting conductors in the wall area is eliminated during the manufacture of the wall structure, and further conductor guidance takes place in the corner area of the room. The laying module can easily be covered with an exterior covering, eg wallpaper. Furthermore, as claimed in claim 9, the connecting conductor mounted on the laying module is implemented as a flat conductor strip, which preferably ends in the side edge area of the substrate part and thus in the corner area of the room. . From there, it can be easily connected to a connecting cable that couples with the control device by means of plug-in, pinch-in or solder-in, and this connection can be kept easily accessible for later inspection if necessary. .

  The connecting cable according to claim 10 disposed in the corner area of the room and therefore in it is covered with a corner cover in order to make the outer covering quickly and removable if necessary. Such corner covers are available in different appearance forms.

  In a preferred specific embodiment according to claim 11, flat conductor strips which are electrically coupled and opposite each other on the edge region of the radiant heating coating are stretched as connecting conductors, preferably copper strips, and the connecting conductors are laid. Coupled to the module or substrate part, each led to the side edge corresponding to the corner area of the adjacent room in the laid state.

Depending on the mechanical and electrical requirements, at least one covering the conductor strips on the back side facing the substrate part of the slab heating element, in particular the radiant heating coating and / or on the front side facing outwards, as claimed in claim 12 A protective film and / or an insulating film for electrical insulation are provided. This film or covering preferably has an outer surface roughness or a predetermined structural size or form in order to freely select a good adhesion possibility with another material such as an adhesive material.
In a first alternative embodiment according to claim 13, the substrate portion is composed of a flexible material, preferably a plastic film or paper material. In this embodiment, the laying module is supplied in a roll shape, but in some cases, a plurality of laying modules can be manufactured and supplied in one roll. The roll material supplied in this way is made to have an appropriate length at the laying site if necessary, and is attached to the wall support structure.

  In a further preferred embodiment according to claim 14, the substrate part is a particularly rigid and dimensionally stable building board, so that the laying module is formed as a board module. The wall support structure is covered with a plurality of building boards whose board edges are aligned with each other and facing the inside of the room. Furthermore, a building board with a flat heating element, a building board without a flat heating element, depending on the need for heating technology, and a room veneer designed to cover the support structure can be combined. Such a plate can basically also be provided with a flexible and / or elastic nature at least in certain adjacent locations.

  More specifically, according to the description of claim 15, the building board is formed into a rectangular board, and its length is set to a height that can be grasped by a person (about 2 meters). Easy to handle when laying on the side wall. The plurality of building boards are laid so that the long sides are adjacent to each other and the short sides are in contact with the corner area of the room. In this way, it can be laid on the side walls, the ceiling wall and the floor wall, in particular also on the floor bolts. In at least one field having at least one flat heating element in a substantially central longitudinal region of the building board, preferably in a plurality of fields arranged side by side with rectangular flat heating elements each spaced vertically Deploy. On both sides of each field, a flat conductor strip, in particular a copper strip, is brought into electrical contact with the side edges of the flat heating element and is led longitudinally to the short side of the plate, preferably to the short side of both plates over the entire length of the plate. If the conductor strip is led to both short sides, electrical connection is possible on both short sides, so it is possible to lay the building board so that one short side is in the corner area of the room. it can.

  Basically, building boards having substrate parts made of different known materials are used for supporting structure coverings connected with flat heating elements. According to the sixteenth aspect, as the building board in the above-mentioned use, a gypsum board board which is known by a laying technique adopted for quick and inexpensive internal removal and particularly known by a dry construction method is particularly suitable. As a highly stable and durable board, gypsum board board is freely used especially for dry removal of floor walls.

  In addition to the frame support structure described above, the wall or concrete wall according to claim 17 is suitable as a support structure for a building board, in particular a gypsum board board, and is connected with screws or rivets, in some cases In particular, a known suitable bonding technique such as mortar application is used.

  The thermal efficiency, and in some cases the sound insulation, are greatly improved when heat insulating materials and / or sound insulation materials and / or heat storage materials that store heat are attached to the support structure under the installation modules according to claim 18, in particular the installation modules with flat heating elements. The Such materials are mounted on the support structure as a layer or incorporated into the support structure.

  According to claim 19, a radiant heating element with infrared radiation that can be controlled at a voltage lower than 50 volts is preferably used as the covering. This voltage is therefore not dangerous to the human body, which makes the installation and operation of such a heating device safe and simple.

  The electrically controlled flat heating element and the electrical connection conductor are attached to the substrate portion with electrical insulation. For this purpose, the substrate part itself is made of an electrically insulating material, for example a gypsum board, and / or an electrically insulating film is placed between the substrate part and the flat heating elements and connecting conductors. This avoids electrical shorts that cause failure of the heating system and leakage that reduces efficiency. When laying, the laying module, especially the plate module, is usually fixed to the wall structure with conductive screws or nails. In that case, the above-mentioned problems with electrical shorts and leakages with respect to the wall support structure may occur, so that fixing methods that penetrate the plate heating elements and / or connecting conductors must be avoided. This problem is particularly dangerous when the laying module is attached to a metal wall structure element. In order not to cause such a problem, in particular, it has a substrate part as a plate module, and has a flat plate heating element and a conductor strip attached in a predetermined flat plate shape thereon, at least on the flat plate type is a sticking film and / or Or a planar laying module covered with paper strip is provided in claim 20. On top of that, a flat plate as a warning mold is formed, so that the assembling operator can see the flat plate below the plate heating element and conductive strip. Further, a warning instruction for prohibiting the use of nails and / or screws is attached to the flat area. If it becomes necessary to remove the flat heating element, it will be implemented with special measures related to the edge separation of the recess.

  According to the twenty-first aspect, the adhesive film and / or paper strip is attached to the entire visible surface, and a flat plate mold is applied thereon by printing together with a warning instruction. In addition, the laying and contact manuals are printed so that they appear clearly and do not disappear.

  To control the heating, the control device is coupled with a room air sensor and / or a wall temperature sensor incorporated in the wall structure. Normal heating adjustment is performed by comparing the detected indoor air temperature with a set value. Alternatively or simultaneously, the wall temperature can also be taken into account. In particular, the wall temperature can be monitored at a predetermined maximum value and the assigned heating element is adjusted in some cases before reaching the maximum value.

  The laying module is defined in claims 23 to 29, as already mentioned using the laying module in connection with the aforementioned wall structure.

Embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 shows a building board 1 as a gypsum board type laying module having a length of about 2 meters corresponding to a height that can be almost grasped by a person. Two in the center of the length region of the building board 1 are four rectangular heating elements 4a, 4b, 4c, 4d and 5a, 5b, 5c, 5d, which are rectangular and spaced from each other in the longitudinal direction. Fields 2 and 3 are arranged side by side.

  These flat heating elements 4 and 5 are composed of a thin-walled coating as an active radiant heating coating that radiates infrared rays. The flat conductor strips extend as long as the copper strips 6a, 6b and 7a, 7b assigned to them over the entire length of the plate to the short sides 8a, 8b on either side of the respective fields 2,3. On the entire surface of the plate, and thus on the flat heating elements 4 and 5 and the conductor strips 6 and 7, a protective insulating film 9 which is only partially shown in FIG.

As is apparent from the side view of FIG. 2, the building board 1 is thin, but the conductor strips 6 and 7 are projected on the short side of the board in order to simplify further connection with the cable.
The flat heating elements 4, 5 with the radiant heating coating, the conductor strips 6, 7, and the protective insulating film 9 are preferably in close contact and firmly applied to the gypsum board, and as a result preferably completed in advance. Laying module is completed.

  The side wall 10 in the building room shown in FIG. 3 is a combination of two laying modules 1a, 1b suitable for the structure shown in FIG. 1 and gypsum board plates 11a, 11b and 12a, 12b, 12c without flat heating elements.

  A structure of a wall support structure 13 having a frame composed of a floor skirting board 14 and a vertical frame 15 on the left side of the side wall 10 is shown, and a blocking block made of a heat insulating material is inserted and held between the frames.

  The front surface of the flat plate region is covered with the laying module 1 and the gypsum board plates 11 and 12. The plate is preferably screwed to the vertical frame. The field to the right of the side wall 10 is already assembled and covered with gypsum board. The rightmost first field is combined with a relatively long gypsum board plate 11b at the top and a relatively short gypsum board plate 12b at the bottom. In the field connected to the left, a laying module 1b with a flat plate heating element is laid in the lower area, and the upper area is supplemented with a relatively short gypsum board 12c. Connected to the left side is a field having the same gypsum board plates 11a and 12a as the first field. Furthermore, in the left field there is another laying module 1a which has already been assembled, and the area above it is again covered with a relatively short gypsum board.

  The conductor strips 6a, 6b, 7a, 7b, 6a ', 6b', 7a ', 7b' are guided to the short side below the laying modules 1a, 1b and further protrude slightly therefrom. The conductor strips 6a, 7a, 6a ′, 7a ′ and the conductor strips 6b, 7b, 6b ′, 7b ′ are connected to the cable 23 at the connecting point 17 shown in the corner area 18 (transition area from the side wall 10 to the floor wall 19). , 24, and the cables 23, 24 lead along the corner area 18 of the room to the distribution socket 20. From there, the conductor 21 (if necessary, the back side of the plate) is led to the control device 22.

  Accordingly, since the connection point 17 and the cables 23 and 24 are arranged in the corner area 20 of the room together with the distribution socket 20, it can be covered with a corner cover 25 (illustrated by a broken line) with a simple and good appearance and further accessible.

  FIG. 4 shows an enlarged view of a cross section taken along line BB in FIG. 3, and the gypsum board 11a and the laying module 1a are in contact with each other at their vertical edges, and the radiant heating covering 30 is placed in the area A of the laying module 1a. There is an intersection area between the copper strip and the copper strip. This region is further enlarged in FIG.

  As is apparent from FIG. 4, a filler 27 is injected into the joint 26 between the plates 11a and 1a and flows out outward. Even in the slightly raised portion of the region A, the filler 27 is adjusted to be a uniform outer surface. Specifically, the structure of the region A includes an inner protective layer 29a and an outer protective layer 29b which are films incorporated in, for example, a sandwich structure on the gypsum board region 28. The active radiant heating covering 30 is attached on the inner protective layer 29 a, and the copper strip 7 b is disposed on the side region thereof and covered with the outer protective layer 29 b together with the radiant heating covering 30.

  On top of the outer protective layer 29b is another covering layer 31 in which a similar protective insulating function and support function for the filler 27 is observed. The exterior 27 is smooth and flat using the filler 27, so that an appearance covering 32, such as wallpaper or tiles, can be easily mounted on it.

  Instead of the building board described above with reference to FIGS. 1 to 5, a laying module 1c of a basically suitable embodiment can be made with a substrate portion 33 made of a flexible material, as shown for example in FIGS. Can be provided in roll form.

  FIG. 8 is an exploded view showing a layer structure of another embodiment of the laying module 1d as a plate module. The substrate part is a plasterboard board 11 on which a heating system with a flat heating element 4 and flat conductor strips 6 and 7 corresponding to the previous embodiment is attached, preferably by affixing. Thus, the flat heating element 4 and the conductor strips 6 and 7 again represent a conductor-shaped flat plate. On top of this, a plastic film or paper strip is attached as a sticking film 34 over the entire visible surface of the board module, and a duplicate print is made in accordance with the flat plate type comprising the flat heating element 4 and the conductor strips 6 and 7 thereunder. To do. In addition, each slab area is printed with a warning “Caution! Do not use screws / nails at this location” to warn you that you will use nails or screws to assemble in the indicated slab mold during assembly. This display can be printed in another language or in many languages.

  FIG. 9 shows a board module 1d laid, which is fixed on a frame provided with a vertical frame consisting of a vertical frame 15 corresponding to FIG. 3, for example. Here, the screws are used for the two screw rows 35a and 35b on the edge side on the vertical frames 15a and 15b on the edge side and the screw rows 35c and 35d placed on the inner side, but they are not visible on the rear surface. Another vertical frame is attached. Since the screws of the screw rows 35a, 35b, 35c, and 35d are clearly attached outside the flat plate with the warning printed thereon, an electrical short circuit or leakage to the vertical frame 15 can be eliminated.

The front view of the installation module with a flat-plate heating element by a gypsum board board system is shown. FIG. 2 shows a side view of the laying module of FIG. 1. Figure 3 shows the arrangement of the side walls and electrical conductors in a building room with gypsum board plates partially assembled with and without heating elements. A cross section of two adjacent plates is shown. Fig. 5 shows an enlarged view of Fig. 4 in the side region of a radiant heating covering having connecting conductors as copper strips. Fig. 5 shows a front view of the laying module with a flat heating element of flexible material in an unfolded state. FIG. 7 shows a side view of the laying module according to FIG. 6 in a rolled state. The layer structure of the board module which has the visible membrane which printed the warning instruction | indication is shown with an exploded view. 9 shows a laid board module according to FIG.

Claims (29)

A wall structure in a building room with a plate heating element that can be electrically controlled,
The wall structure of the at least one side wall (10) and / or the ceiling wall and / or the floor wall in the building room comprises a support structure (13), at least one of which can be hand-held in at least some areas on the support structure. Install and connect the laying modules (1a, 1b) as wall covering elements,
A wall structure characterized in that the laying module (1a, 1b) comprises at least one electrically controllable flat heating element (4, 5).   The support structure is a support frame consisting of a vertical frame and / or a horizontal frame, in which at least one side region of the laying module is placed on the vertical frame and / or the horizontal frame, in particular abutting against the frame, 2. Wall structure according to claim 1, characterized in that it is detachably fixed, preferably with screws.   The laying module (1a, 1b) is composed of at least one electrically controllable flat plate heating element (4, 5) and a substrate part (28), in particular a substrate part formed in the form of a film or plate, and at least one 3. Wall structure according to claim 1 or 2, characterized in that the flat heating elements (4, 5) are mounted on the substrate part.   The at least one flat heating element (4, 5) is a thin-walled coating or is formed as an active radiant heating coating (30). Wall structure as described in.   A wall structure according to claim 3 or 4, characterized in that the radiant heating coating (30) is attached directly to the substrate part (28) or indirectly to a coating film bonded to the substrate part.   6. The wall structure according to claim 5, wherein the substrate part is constructed as a sandwich plate part having at least two layers.   In the case of an active radiant heating coating or a membrane coated with a radiant heating coating, this coating membrane is arranged indoors or outdoors and / or sandwiches depending on the laying state of the laying modules (1a, 1b) 7. A wall structure according to any one of claims 4 to 6, characterized in that in the case of a plate part, a radiant heating covering is embedded between at least two layers. The electrical connection conductors (6, 7) are coupled to at least one flat heating element (4, 5), and the electrical connection conductors are mounted in particular on the substrate structure part (28) as a component of the laying module (1a, 1b) ,
Laying modules (1a, 1b) having at least one side edge (8a) in the corner area (18) of the room as a transition from the side wall (10) to the floor wall (19) or ceiling wall or another side wall Then, the connecting conductors (6, 7) of the laying module are led to this side edge (8a) and further from there along the corner area (18) of the room to supply and control at least one flat heating element The wall structure according to claim 1, wherein the wall structure is connected to a control device. The connecting conductors (6, 7) attached to the laying module terminate as a particularly flat conductor strip in the edge area (8a) of the laying module, depending on the corner area (18) of the room,
9. Wall structure according to claim 8, characterized in that it is connected to a connection cable (23, 24) which is connected to the control device (22) by means of a plug connection (17) and / or a pinch connection and / or a solder connection.   10. Wall structure according to claim 8 or 9, characterized in that the connecting conductors (23, 24) extending along the corner area (18) of the room are covered with a corner cover (25).   Flat conductor strips (6, 7) that are electrically coupled and opposite each other on the edge area of the radiant heating jacket (30) extend the connecting conductor, preferably as a copper strip, and are coupled to the laying module to each corner area of the room. The wall structure according to any one of claims 4 to 10, wherein the wall structure is led to a side edge (8a) corresponding to (18).   On the back side facing the substrate part of the at least one flat heating element (4, 5) and / or on the front side facing outward, in particular a radiant heating covering (30) and optionally a flat conductor strip (6, 7). 12. Wall according to any one of claims 3 to 11, characterized in that it comprises at least one protective film and / or an insulating film (29a, 29b, 9) which are structured according to need. Construction.   13. Wall structure according to any one of claims 3 to 12, characterized in that the substrate part (33) is made of a flexible material, in particular a plastic film or paper material.   The board part (33) is preferably a rigid building board, so that the laying module is formed as a board module, with a plurality of building boards (1, 11, 12) with the board edges adjoining and aligned inside the room. 14. Wall structure according to any one of claims 3 to 13, characterized in that it covers the support structure (13) of the wall structure. The building board is formed into a rectangular board and laid so that the long sides are adjacent to each other and the short sides are in contact with the corner area (18) of the room,
Arranging at least one field (2, 3), preferably two fields arranged side by side, with at least one rectangular flat heating element (4, 5) in the central longitudinal region of the building board;
In a plurality of flat heating elements (4, 5), an intermediate space is taken in the vertical direction,
Flat conductor strips (6, 7) on both sides of each field (2, 3), in particular copper strips, are brought into electrical contact with the side edges of the flat heating elements (4, 5), in the longitudinal direction to the short side of the plate, in particular 15. The wall structure according to claim 14, wherein the wall structure is led to both short sides (8a, 8b) over the entire length of the plate.   16. Wall structure according to claim 14 or 15, characterized in that at least one building board (1) with flat heating elements (4, 5) is gypsum board or gypsum fiberboard or the like.   The support structure (13), in particular for building boards, in particular for plasterboard boards, is carried out in the manner of walls and / or frames and / or concrete walls, the building boards being applied in particular with mortar and / or with screws. The wall structure according to claim 1, wherein the wall structure is attached with rivets.   A barrier material (16) incorporated on and / or in the support structure as a layer under the laying module is attached for heat insulation and / or sound insulation and / or heat storage material. 18. The wall structure according to any one of items 17 to 17.   19. Wall according to any one of the preceding claims, characterized in that the at least one flat heating element (4, 5) is a radiant heating element that emits a controllable infrared component at a voltage lower than 50 volts. Construction. In particular, in a laying module having a board portion as a building board (11) and having a flat plate heating element (4) mounted in a predetermined flat plate shape thereon and a connecting conductor as a conductor strip (6, 7), at least flat plate heating. Directly or indirectly covering the flat form of the element (4) and the conductor strips (6, 7) with a membrane (34) and / or paper strip,
A flat plate on the membrane (34) and / or paper strip is formed with a warning indication that the use of nails and / or screws is prohibited in the flat plate area, and a manual for laying on the membrane (34) and / or paper strip. The wall structure according to claim 1, wherein the wall structure is printed.   The wall structure according to claim 20, characterized in that the adhesive film (34) and / or the paper strip is attached to the entire visible surface, and a flat plate type is applied thereon by printing together with warning instructions and / or laying guides.   The control device for heating control is coupled to an indoor air temperature sensor and / or a wall structure, in particular a wall-mounted temperature sensor incorporated in a laying module. Wall structure. In a laying module having a building board as a substrate part and a controllable flat plate heating element for use in the wall structure according to any one of claims 1 to 22,
The building board of the laying module (1) is formed into a rectangle,
Placing at least one rectangular flat heating element (4, 5) in at least one field on a building board or in a field (2, 3) arranged side by side;
In a plurality of flat heating elements (4, 5), an intermediate space is taken in the vertical direction,
Flat conductor strips (6, 7) on both sides of each field (2, 3), in particular copper strips, are brought into electrical contact with the side edges of the flat heating elements (4, 5), in the longitudinal direction to the short side of the plate, in particular It is characterized in that it is guided to both the short plate sides (8a, 8b) over the entire length of the plate.   The at least one flat heating element comprises an active radiant heating covering (30), the radiant heating covering being mounted directly on the outside of the building board and / or indirectly on a membrane coupled to the building board; 24. Laying module according to claim 23, characterized in that and / or the building board is formed as a sandwich board part and the radiant heating covering is embedded between the two layers, alone or with a supporting membrane.   25. The laying module according to claim 23 or 24, wherein the building board is rigid or flexible and rollable.   26. The laying module according to claim 23, wherein the building board is a gypsum board board or a gypsum fiber board.   The flat heating element (4, 5) is provided with a radiant heating covering (30), between this covering and the building board and / or outside the covering (30), in particular against the entire surface of the building board. 27. The installation module according to claim 23, wherein a protective film and / or an insulating film (29a, 29b, 9) is attached. In a laying module (1d) comprising a building board (11), a flat plate heating element (4) mounted on the building board in a predetermined flat plate shape and a conductor strip (6, 7), at least the flat plate heating element (4) Directly or indirectly covering the flat plate and the conductor strips (6, 7) with an adhesive film (34) and / or paper strip,
The plate type is formed as a warning type on the film (34) and / or paper strip, and the type of warning is to prohibit nail and / or screw and / or drilling in the flat type region. The laying module according to any one of 23 to 27.   29. The attachment according to claim 28, characterized in that the adhesive membrane (34) and / or paper strip is attached to the entire visible surface of the plate module (1d) and a flat plate is attached on it with warning instructions and / or laying instructions. Laying module.

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