CZ246096A3 - Building panel - Google Patents

Abstract

A building panel (1) comprising a plate (2) made of insulating foam material wherein, on at least one longitudinal side, a surface relief is provided which is composed of elongated recesses (3) which become in essence wider the deeper they are in the foam material, attachment elements (4, 5) being fitted in said recesses (3) on predetermined distances from one another, and a grid (6) being applied onto these attachment elements (4, 5), said attachment elements having a substantially gutter-shaped profile which extends into said recess (3), with borings being made in said attachment elements (4, 5) and extending further through said plate (2), and attachment members being inserted in these borings connecting the attachment element (4,5) to the plate (2). <IMAGE>

Description

FIELD * ρ _(ι invention relates to a building panel comprising desjcu>'I' 3 of insulating foam material having a surface relief ^ - carried out at least on one longitudinal side, consisting of an elongate recess which is in the depth of the foam material extends, wherein in these recesses, fasteners are arranged at a specified distance from each other, on which the grid is fastened.

BACKGROUND OF THE INVENTION

Such a panel is described in DOS 25 17 095. The panel is made of a foam material, for example of expanded polystyrene, on which a dovetail-shaped profile is formed as a surface relief. In some of the relief recesses, blocks are provided which are provided with a grid to provide a reinforced structure. This grille is made of corrosion resistant steel wire. Thereafter, the building panel is placed in a mold which is filled with concrete to make the wall part. After transport, the wall parts are mounted on site for building the building.

A drawback of the known building panel is that the grid is fixed to solid blocks that are clamped in the recesses. The massive character of the blocks breaks the relief in the slab and causes stresses in the slab when a part of the wall starts to deform slightly due to heat. These stresses can then lead to cracks in the slab or concrete, which adversely affects the strength of the structure.

The essence of vynžigzu

These drawbacks are eliminated in a building panel comprising a sheet of insulating foam material having a surface relief provided on at least one longitudinal side, consisting of elongate recesses that extend towards the depth of the foam material, and fastenings are provided in these recesses at a specified distance from each other. elements on which the grille is fastened, according to the invention, in which the fastening elements have a groove-shaped profile extending into said recesses, the fastening elements having holes adjacent to the holes formed in the plate and fastening members inserted therein for connecting the fastening element with plate.

Since the fastening element has a virtually groove-shaped profile, it is flush with the profile of the recess so that the relief formed in the plate is not broken. The groove profile also greatly eliminates the temperature fluctuation, so that less stress is generated in the building panel. Due to the further fact that the grid is fastened to the fastener and the fastener is fastened to the board by the other fasteners, the building panel thus formed forms a more homogeneous unit, resulting in a stronger structure without affecting the thermal insulation.

A first preferred embodiment of the building panel according to the invention is advantageous in that the building panel is provided with first hinge means which are fastened to the fastening element and which have a hook profile. In this way, the building panels can be simply suspended, thereby simplifying their installation and their parallel placement.

A second preferred embodiment of the building panel according to the invention has a fastener made of synthetic material and comprises a mandrel and a pin attachable to the mandrel. The use of synthetic material improves thermal insulation.

Preferably, the fastener has longitudinal flanges on which the raised rib is provided and the grid is welded to the raised rib. In this way, a perfect abutment surface of the fastener and grid is provided for welding it onto the fastener.

The invention further relates to an assembly comprising a building panel and a frame structure. Such an assembly comprises first and second beams individually designed to form vertical and transverse beams of the frame structure, said second beams being adapted to cooperate with said first hinge means.

BRIEF DESCRIPTION OF THE DRAWINGS

1 is an exploded view of a first embodiment of a building panel according to the invention; FIG. 2 is an exploded view of a second embodiment of a panel according to the invention; FIGS. 3 and 4 respectively represent a mounting mandrel and a pin; Fig. 6 is a cross-sectional view of one embodiment of a fastener; Fig. 7 shows some details of a building comprising building panels according to the invention; Fig. 8 shows an exemplary embodiment of a second fastening profile; according to the invention.

DETAILED DESCRIPTION OF THE INVENTION

In the drawings, the same reference numerals are used for the same or analogous elements.

Fig. 1 is a cross-sectional view of a disassembled structure of a first embodiment of a building panel according to the invention. The building panel 1 comprises a sheet 2 of foam material, for example styropor or polystyrene. The advantage of this foam material is that it has good thermal and acoustic insulating properties and, moreover, is inexpensive. At least one longitudinal side of the panel is provided with a surface relief consisting of recesses 2 which are arranged at regular intervals from one another. That the recesses are spaced at regular intervals from each other is advantageous both for production and for the adhesion of the concrete to the panel. However, it is clear that the recesses can also be made at an irregular distance from one another.

The recesses 2 are provided over the entire height of the plate and widen towards the depth of the foam material. Preferably, the recesses have a dovetail profile. For example, the recesses have a large base 5 cm wide, a small base 3.5 cm wide and a height of 1.5 cm. The distance between two side-by-side recesses is, for example, 4.5 cm.

However, other shaped profiles, such as T-shaped or stepped profiles, are also possible. Due to the use of a profile which increases in depth in the foam material, the concrete injected into the structure against the panel can penetrate into the recess. Since the base part of the recess is wider than its upper part on the surface of the panel, the concrete is secured in the panel, thereby ensuring perfect adhesion of the concrete to the panel.

For the assembly of the building panels according to the invention, the building panel 1 is provided with fastening elements 4, 2. In the case of a building panel 1, which, for example, has a length of 1080 mm, two fastening elements 4, 5, are fastened into the recesses. For this purpose, the fastening element 4, 4 has a geometric profile corresponding to one of the recesses 2. Thus, for the dovetail-shaped recess 2, the fastening element 4, 2 has a groove profile shown in FIGS. 1 and 6. The open side is designed so that the fastening element 4, 2 in the plate 2, its open side is arranged on the side of the outer surface of the plate 2. Thus, the concrete can also penetrate into the cavity formed by the fastening element 4, 2. The fastening elements i are for example made of steel, or a solid synthetic material. Since the profile of these fastening elements 4, 2 corresponds to the profile of one of the recesses 2, it fits well into the recesses 2, and no stresses can occur in the plate 2, for example due to thermal deformations.

A grid 2 is fastened to the fastening elements 4, 2 and is preferably welded thereon. The grid 2 forms a reinforcement for the shotcrete and is most preferably made of steel wire. The thickness of the steel wire depends, for example, on the load to which the panel is subjected when used as a building element. Since this grid 6 is attached to the fasteners 4, 6 and the fasteners 4, 6 are fastened to the plate 2, the fasteners 8, 6 together with the plate 2 form a relatively light weight unit that is easy to transport and install.

If the fasteners 4, 4 and the grid 4 are made of steel, the grid 4 is welded to the fastener 4, for example by electric welding. In order to achieve good contact between the surfaces during welding, it is suitable if a raised rib 15 is formed on each of the longitudinal flanges 16 of the fastening element 4. This raised rib 15 is formed by embossing in the manufacture of the fastening element 4. The raised rib 15 is practically centered 6. However, the raised rib 15 can also be placed, for example, on the side edge of the longitudinal skirt 16. The raised rib 15 ensures a good connection during electrical welding. The grid 6 is directly welded to the raised rib 15.

In the embodiment shown in FIG. 1, the building panel 1 is provided with recesses 4, fasteners 4, 4 and a grid 4 on one side only. Such a building panel is suitable for exterior walls on the ground floor or even higher floors, as well as for roof construction.

In the embodiment shown in FIG. 2, the building panel is provided with recesses 6 on both longitudinal sides, as well as further fasteners 2, 6 and a further grid 6, which are arranged on the opposite side of the grid 6. The other grating 2 and the other fastening elements 7, 7 are the same as the grating 6 and the fastening elements 4, 5 in the embodiment of FIG. 1. The building panel shown in FIG. 2 is intended, for example, for the construction of basement walls in which the concrete is sprayed on both sides of the building panel 1.

The connection between the fastening elements 4, i. and 7, 6, to which the grating 6 and the other grating 2 are attached, and between the plate 2, is secured by the fastening members shown in Figs. 3 and 4. The fastening member is formed by a mandrel 12 into which a pin is inserted. 14. The mandrel 12 has a disc-shaped head 13 and is provided with a toothed end 11 in which a notch 10 is made. The function of the mandrel 12 is similar to that of known plastic dowels. For insertion of the mandrel 12 it is necessary to drill the plate 2 and at the same time to drill a hole in the fastener 4. This drilling is best performed after placing the fastener 4 in the recess 2 so that the hole of the fastener 4 is drilled simultaneously with the hole in the plate 2. it slides into the drilled hole in the plate 2 so that its head 13 abuts the surface of the plate 2 while its toothed end 11 passes through the hole of the fastening element 4, as shown in Fig. 5. By inserting the pin 14 into the mandrel 12, the parts of the toothed end 11 are expanded and the mandrel 12 is thus connected to the fastening element 4 and thereby connected to the plate 2. In another embodiment, the toothed end 11 is fixed to the plate 2.

Suitably, the pin 14 and the mandrel 12 are made of synthetic material or other material having poor thermal conductivity to minimize heat transfer. Since the mandrel 12 and the pin 14 are made of synthetic material, the heat transfer from the fastener 4 through the mandrel 12 and the pin 14 is outwardly poor.

In order to achieve a good connection between two successive building panels 1 according to the invention, further profiles 14, 35 are formed on the side walls of the building panels 1. Such building panels with a stepped profile also have additional grooves 34 and 35.

Fig. 7 shows a building in which building panels 1 according to the invention are used. This building has a cellar and a ground floor. For the basement and the ground floor, building panels 1 are used which are provided with a grid 6 on one side only, in this exemplary embodiment on the inside wall side. For the ceilings, building panels 1 are also used which have a grid 6 on one side only. The vertical wall building panel 1 is mounted on vertical beams 12, for example made of steel or concrete. On these beams 17 a first fastening profile 18 is arranged, while a second fastening profile 19 (FIG. 8) is arranged on fastening elements 4, 5. The first and second fastening profiles 18 and 19 are fastened, for example, by screws (not shown). The building panel 1 thus provided with the second fastening profiles 19 is suspended by the second fastening profiles U. in the first fastening profiles 18. It is advantageous if the first fastening profiles 18 and the second fastening profiles 19 are connected to each other, for example by screws, in order to ensure a firm anchoring of the building panel even to the vertical beams 17.

The first fastening profile 18 has a C-shaped cross section and is fastened to the beam 17 with the open side. Due to its geometry, this first fastening profile 12 has a high strength. The second fastening profile 19 has a Z-shaped cross-section as shown in FIG. 20. The portion 20 of the second fastening profile 19 is mounted on the lower portion 21 of the groove-shaped profile of the fastening element 4 (FIG. 6). When hanging the building panel 1, part 22 is partially seated on the first fastening profile 12, while the other part 23 engages the open side of the first fastening profile 18.

As a result of the use of these fastening profiles 12, 12, the building panels 1 are easily hinged on the first i with their second Z-shaped fastening profiles 19.

C-shaped fastening profiles 18. Both types of fastening profiles 18, 19 are also used in the ceiling construction to connect the building panel 1 to the support beams. Since other building panels 1 are hinged, it is sufficient to ensure that during the construction of the beams 17 it is ensured that the beams 17 are exactly aligned in a straight line in order to obtain a flat wall. If the beams 17 are aligned exactly, the fastening profiles 18 fixed thereon are aligned in a straight line and thus the building panels 1 are fastened thereon. The straightness of the wall therefore depends on the correct alignment of the beams

After fixing the building panels 1, the concrete is additionally sprayed on their longitudinal side or longitudinal sides, on which the grating 4 or even another grating 2 is placed. Thus, at the cellar wall 24, the concrete is sprayed on both sides while on.

the ground floor 25 or the walls of the next floor, the concrete is sprayed only on their inner part. For the roof structure 26 it is also possible to use the building panels 1 according to the invention, the grid 5 being arranged on the inner part of the roof structure 26. If concrete is sprayed onto only one longitudinal side of the building panel 1, the other side is covered with a plaster 27 for example with gypsum plaster.

Fig. 9 shows an exemplary embodiment of a device for manufacturing a building panel 1 according to the invention. A plate 28 made of styropor, for example, is fed to a cutting section 29 in which recesses 5 are cut into the surface. In this cutting section 29, a surface relief, i.e. a recess 3, is cut with a cutting tool. to the fastening element 4, 5 or 2, 5 in the welding section 25. Thereafter, both the plate 28 and the grid 2, 1, which are provided with the fastening elements 4, 5, 2, 2, are fed to the mounting section 21, respectively. in which the two parts are joined. The mounting section 31 also preferably includes a boring device 33 for boring holes in the fastening element 4, 2, 2, 2 and plate 28. Further, the mounting section 31 comprises a loading device 32 for inserting pins 12 and pins 14 into these holes, thereby creating panel 1 according to the invention. The boring device 33 and the loading device 32 are preferably arranged on the same axis. Thus, it is not necessary to arrange the loading device 32 as a separate assembly section. In addition to drilling a hole in the plate 22, it is also possible to use pre-drilled fasteners 4, 2, 2, 2 to shoot or strike the mandrel 12 and the pin 14 into the plate 28.

Claims (7)

A building panel comprising a slab of insulating foam material having a surface relief provided at least on its longitudinal side, consisting of elongate recesses which extend towards the depth of the foam material, in which recesses are arranged at a specified distance from each other, on which a grille is fitted, characterized in that the fastening elements (4, 5, 7, 8) have a groove-shaped profile extending into the recess (3), wherein the fastening elements (4, 5, 7, 8) have holes adjacent to the holes formed in fastening members (12, 14) are inserted into these openings for connecting the fastening elements (4, 5, 7, 8) to the plate (2). A building panel according to claim 1, characterized in that it is provided with suspension means which are fastened to the fastening element (4, 5, 7, 8) and which have a hook-shaped profile. A building panel according to claim 1 or 2, characterized in that the fastening member (12, 14) is made of synthetic material and comprises a mandrel (12) and a pin (14) attachable to the mandrel (12). Building panel according to claim 1, 2 or 3, characterized in that the fastening element (4, 5, 7, 8) has longitudinal flanges (16) on which a raised rib (15) for welding the grid (6) is provided. 9). An assembly comprising a building panel according to claim 2 and a frame structure, characterized in that the frame structure comprises vertical beams (17) and first fastening profiles (18), each forming vertical and transverse beams of the frame structure, the second hinging means, formed by the second fastening profiles (19) are connected to the first fastening profiles (18). Assembly according to claim 5, characterized in that the vertical beams (17) and the first fastening profiles (18) have a C-shaped profile. A building comprising building panels (1) according to any one of claims 1 to 4.