DE3317731A1 - Floor slab - Google Patents

Abstract

A floor slab (10) comprises a bottom layer (18) in the form of an insulating layer, a middle layer (16) and a top layer (14) forming a covering capable of being walked on. The middle layer (16) comprises webs (24) for supporting the top layer, and channels (26) through which a heat-transmitting medium, for example warm air, can be conducted. With the slabs according to the invention, it is possible to install in a simple way a floor air-heating system in which the warm air is distributed and passed directly through the channels (26) of the floor slabs. <IMAGE>

Description

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DESCRIPTION

The invention relates to a plate, in particular a base plate made of three interconnected layers. 5

Such a plate is known, for example, from DE-OS 27 19 448 and has so far been primarily used as a cladding panel used for structures. Usually the lower layer of the plate forms a relatively stable one Backing layer, while the middle layer is a heat insulating layer and the third, the outer surface forming layer has a weatherproof, decorative structure.

The plates of the type mentioned are advantageously at right angles to two adjoining edges with grooves and on the other two edges with corresponding tongues for mutual Connection. The grooves and tongues are rationally grounded by staggering the three Layers of the plate formed. A different offset of the two outer layers makes it possible created to nail or screw on the plates in the area of the springs perpendicular to the plate surface

The invention has for its object to provide a plate of To create the type mentioned at the beginning, which can be used not only as a cladding or floor panel, but at the same time as a component for flat heat exchangers such as underfloor air heating or solar collectors can serve.

This object is achieved in that the middle layer comprises webs distributed at a distance from one another over the surface of the plate, the channels for passing through a heat transfer medium that the on

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The upper layer supported by the webs has a walk-on covering made of a material different from the material of the middle layer Forms material and that the lower layer is an insulating and / or damping layer. 5

If the panels according to the invention are laid in abutment over a larger area, fluid connections are created between the channels in the individual plates, and a heat transfer medium such as air can be used Flow through the entire area laid with tiles and emit heat to the environment or heat through the upper layer record from the environment. The material of the upper layer can be made from the point of view of the best possible heat conduction, the visual appearance and optionally the abrasion resistance can be selected, so that the top layer directly forms the visible and accessible area. This has the advantage that over the plates according to the invention no further covering layer such as screed or the like needs to be provided that impede the passage of heat would. The material of the second and third layer can, however, from the point of view of thermal Insulation against the subsurface, the static load-bearing capacity and the impact sound insulation can be selected.

When used as a floor panel for underfloor air heating, the panel according to the invention thus offers the advantage that the insulation layer for heat and sound insulation, the hot air ducts and the floor covering through the layers the plate are formed and can therefore be laid in a rational manner in a single operation.

If grooves and tongues are provided on the edges of the panels in the manner described above, the laying will be the plates are further simplified, and there is a reliable seal of the channels in the transition areas

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guaranteed between the individual plates.

In one embodiment of the invention, the plate from one edge to the opposite edge continuous webs, so that through the formed between them Channels a fluid flow is made possible in only one dimension. In another embodiment, the Bridges perforated at longitudinal intervals, so that fluid flows in two mutually perpendicular directions are possible are. A suitable combination of plates of these two embodiments enables targeted guidance and distribution of the fluid across the surface.

Optionally, transparent can be used for the upper and middle layer or heat-absorbing material can be used. In this case, the advantages of rational laying can be seen and take advantage of the ease with which the fluid is distributed to form inexpensive and relatively robust solar panels.

In the following, preferred exemplary embodiments of the invention are explained in more detail with reference to the drawings.

Fig. 1 is a longitudinal section through two panels according to the invention; 25th

Fig. 2 shows two plates according to the invention in

Cross-section;

3 and 4 illustrate modified embodiments of the panels according to the invention;

FIGS. 5 and 6 show the plates from FIG. 1 separated from one another in a plan view;

Fig. 7 illustrates the laying of the panels according to the invention to form a Underfloor air heating.

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FIG. 1 shows two plates 10 and 12 which are engaged by tongue and groove and each comprise an upper layer 14, a middle layer 16 and a lower layer 18.
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The top layer 14 is made of a material such as is usually used for floor panels, for example made of ceramic, wood, plastic or the like.

The middle layer 16 is made of plastic, for example extruded and comprises two parallel end walls 20,22 by spaced apart perpendicular Web 24 are connected to one another, as can be seen more clearly in cross section in FIG. Between the bridges 24 channels 26 are formed which extend from one edge of the plate to the opposite edge and on are open at the ends. In the case of the plate 12, the channels 26 are connected to one another by openings 28 in the webs 24. Although the middle layer 16 is essentially hollow, the upper layer 14 is defined by the webs 24 relatively stable supported, so that the panels according to the invention also a considerable static load withstand.

The lower layer 18 consists of an inexpensive heat and sound insulating material such as plasterboard, Chipboard, regenerated plastic and the like.

As can be seen in Figures 1 and 2, the upper Layer 14. and the lower layer 18 in two to each other perpendicular directions are offset by different distances in the same sense with respect to the middle layer 16. Through this is a groove 30 or 32 on two edges of the plate adjoining each other at right angles and on the other two edges a spring 34 or 36 is formed. At one in Figure 1

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by an arrow A marked point can the invention Boards with screws or nails running perpendicular to the board surface in this way on the base be attached so that the heads are covered by the upper layer of the subsequently laid plate.

In the joint area between two adjacent panels, the overlapping of the upper and lower layers results 14,18 with the middle layer forming the spring a good seal of the interconnected open ends of channels 26.

FIG. 3 shows a modified exemplary embodiment of a plate 38 according to the invention, in which the lower layer 18 in one piece with the middle layer 1 6 'made of plastic is extruded. The upper end wall 20 of the middle layer is omitted, so that here the upper edges of the Web 24 are directly connected to the upper layer 14. The top layer 14 in this case is an example shown transparently. The plate 38 can thus be used as a solar collector element.

FIG. 4 shows a further plate 40 according to the invention, which differ from plates 10 and 12 in FIGS. 1 and 2 differs in that the lower layer 18 serving as an insulating and dampening layer is reinforced.

In Figures 5 and 6 the plates 10 and 12 are in plan view shown. Apart from the offset of the individual layers, the plates generally have a rectangular, in the example shown a square plan.

The channels 26 between those shown in FIGS. 5 and 6 are dashed webs 24 shown are from a heat transferring

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Medium, for example air flowing through it, as illustrated by the arrows. While with the plate 10 only an air flow in the vertical in FIG. 5 is possible, is additional in the plate 12 due to the openings 28 an air flow perpendicular to the running direction of the webs 24 is possible.

Figure 7 is a plan view of a room with walls 42 and a window 44. On the floor are panels according to the invention 10 and 12 laid like a chessboard. As an example, can assume that the upper layer 14 of the plates 10 and 12 is made of ceramic material and that the joints between the upper layers of the individual plates in the usual Way are grouted. As the joints are closed down by the protruding edges of the middle layers 16 the grout cannot clog the channels 26.

The running direction of the webs 24 is shown in FIG. 7 in the case of the plates 10 in each case by three solid lines and in the case of the Plates 12 indicated by three dashed lines.

Warm air for heating occurs via a warm air inlet 46 of the room into the channels of a plate 12 and is distributed from there to the three adjacent plates and on over the entire floor, as indicated by the arrows in FIG. In the example shown, the warm air collected by a series of panels 12 on the window wall and in the area of the window via an air outlet 48, for example through holes in the upper layer 14 of the panels, formed, enter the room. By the invention Panels are thus formed underfloor heating and at the same time direct warm air heating, without the need for special lines to distribute or collect the hot air.

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With the help of the plates according to the invention can in the Unheated fields 50 can also be left out on the floor. In the area of fields 50, the Plates 10 laid in a manner not shown in such a way that their channels 26 through the continuous webs of adjacent Plates 10 are closed. In the area of the unheated fields 50, the cavities form in the middle layer 16 of the plates according to the invention an additional Thermal insulation.

By suitable arrangement of the plates according to the invention, the passage cross-sections of the channels can be designed in such a way that the warm air is from a central Air intake or from several inlets evenly distributed. If necessary, the openings of the channels or the breakthroughs can be at one or more edges the plates 12 closed during laying by flat strips or foils adapted to the tongue and groove profile will.

Plates with the structure according to the invention are not only as floor panels but also as cladding panels for pitched or flat roofs or interior and exterior walls usable by buildings. In this case, the air ducts can be used to generate heat or to air-condition the room be flowed through by cold air. In a sufficiently stable design made of suitable material, the inventive Plates can also be used outdoors, for example as heated garage entrances or floors.

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An essential feature of the invention is that that the plate consists of three layers with different functions and appropriately selected materials consists, the middle layer channels for a heat transferring Medium forms. The upper layer forms a walkable surface and can be a finished surface have, which directly forms the visible floor surface. Optionally, the top layer however, it can also be designed in such a way that it only suffices, for example instead of a screed layer forms a smooth surface for a carpet or carpeting. The one referred to as the insulating or damping layer The lower layer closes off the channeled middle layer at the bottom. With a suitable subsurface can, however, in favor of an inexpensive production of the panels on a particularly pronounced insulating or the damping effect of the third layer is dispensed with will.

Claims (7)

TER MEER-MÜLLER-STEINMEISTER PATENTANWÄLTE - EUROPEAN PATENT ATTORNEYS Dipl.-Chem. Dr. N. ter Meer Dipl.-Ing. H. Steinmeister Dipl-Ing. F. E. Müller Artur-Ladebeck-Strasse 51 Triftstrasse 4, D-8OOO MUNICH 22 D-48OO BIELEFELD 1 St / Wi / sc HORST HINTERNEDER Rolfzener Strasse 3182 Steinheim FLOOR PLATE PATENT CLAIMS 1.JPlatte, in particular a base plate made of three interconnected layers, characterized in that
the middle layer (16) comprises webs (24) distributed at a distance from one another over the surface of the plate (10, 12, 38, 40) which form channels (26) for the passage of a heat-transferring medium that the on the webs (24) supported upper
Layer (14) forms a walkable covering made of a material different from the material of the middle layer and
that the lower layer (18) is an insulating and / or damping layer. TER meer · Müller ■ steinm £ lS ^ er · ..-...- - „.- - .. · Hinterneder 3TT7T3T 2. Plate according to claim 1, characterized in that that the plate has a rectangular plan and in a manner known per se on two adjacent one another at right angles Edges with grooves (30,32) and on the other two edges with tongues (34,36) is provided. 3. Plate according to claim 2, characterized in that that the upper layer (14) and the lower layer (18) to form the grooves and tongues differently far are offset in the same sense from the middle layer (16). 4. Plate according to one of the preceding claims, characterized in that the webs (24) are parallel-IeI each other extend from one edge of the plate to the opposite edge. 5. Plate according to claim 4, characterized in that that the middle layer (16) is made of extruded plastic. 6. Plate according to claim 4 or 5, characterized in that the webs (24) with longitudinal spacings Breakthroughs (28) are provided. 7. Plate according to one of the preceding claims, characterized characterized in that the upper layer (14) made of transparent and the middle layer (16) made of radiation-absorbing Material.