RU2118432C1 - Construction panel - Google Patents

Abstract

FIELD: construction engineering. SUBSTANCE: construction panel incorporates plate made of insulating foamed material. Made at least in one of its longitudinal sides is relief which is formed by elongated recesses which are widened as they are embedded in foamed material. Also provided are fastening members which enter recesses and which are located at definite spacing from each other. Placed upon fastening members is grate. Fastening members are profiled in the form of groove which is inserted into recesses. Fastening members have holes which pass through plate. Fastening members are introduced into these holes for connection with plate. Construction panel solves problem of cracks sometimes occurring in plate or concrete and this is achieved by reduction of stresses appearing in plate or concrete due to massive structure of blocks. EFFECT: higher efficiency. 7 cl, 7 dwg

Description

 The present invention relates to the creation of a building panel which includes a plate made of a foamed insulating material, in which, at least on one of its longitudinal sides, a relief surface is provided, which is formed by elongated recesses, which become wider when they are deepened into the foam material moreover, the fastening elements are included in the same recesses at a certain distance from each other, and a lattice (grid) is imposed on these fastening elements.

 Such a building panel is disclosed in DOS 25 17 095. The panel is made of foam material, such as, for example, polystyrene, wherein the embossed surface has a dovetail profile. In some recesses of the relief, blocks are fixed on which a lattice is superimposed to obtain a hardened structure. This grill is made of corrosion resistant steel wire. The building panel is placed in a mold, which is then filled with concrete to make a wall section. After transportation, sections of the wall are installed at the construction site for the construction of the building.

 The disadvantages of the known building panels include the fact that the grid is laid on large blocks that are fixed in the recesses. The massive nature of the blocks violates the relief applied to the plate, and is the cause of stresses in the plate when the wall section is bent to some extent as a result of thermal influences.

 These stresses can then lead to cracks in the slab or in concrete, which adversely affects the strength of the building.

 The present invention is the creation of a building panel, which eliminated the above disadvantages.

 To this end, the building panel in accordance with the present invention is characterized in that said fastening elements have mainly a profile in the form of a gutter that extends into said recess, with holes that are made in said fastening elements and then pass through said plate, and into these holes fixing means are introduced to connect the fixing elements to the plate.

 As a result of the fact that the fastening element has mainly a groove profile, it fits (corresponds) to the profile of the recess, so that the relief applied to the plate is not disturbed. In addition, the groove profile also relieves thermal fluctuations much better, so that significantly lower stresses occur in the building panel. As a result of the fact that the lattice is fixed on the fastening element, and this element is fastened to the plate by means of fastening bodies, the construction panel obtained in this way is more homogeneous, which allows to obtain more durable structures without compromising the quality of thermal insulation.

 According to a first preferred embodiment of the present invention, a building panel according to the present invention is characterized in that it is provided with first suspension means which are mounted on said fastener and which have a hook profile. Due to this, the construction panel can be easily suspended, which simplifies its installation and alignment.

 According to a second preferred embodiment of the present invention, the building panel according to the present invention is characterized in that said fastening bodies are made of synthetic material and include a sleeve and a wall plug that can be fixed therein. The use of synthetic material enhances thermal insulation.

 Advantageously, said fastening element is provided with longitudinal rims (flanges) on which a protruding rib is provided, said lattice being welded to said protruding rib. In this way, a clearly defined contact surface is obtained for welding the grating to the fastener.

 The present invention further relates to a building structure that includes a building panel and a frame. Such a construction is characterized in that said frame includes vertical and transverse beams of said frame, said second beam being designed to interact with said means of suspension of the plate.

 The invention will now be explained in more detail with reference to the drawings.

 Figure 1 shows in expanded form the first embodiment of a building panel in accordance with the present invention.

 Figure 2 shows in expanded form a second embodiment of a building panel in accordance with the present invention.

 Figures 3 and 4 show a sleeve and a dowel, respectively.

 In FIG. 5 shows the fastening means inserted in the plate and the fastening element.

 Figure 6 shows a cross section of a mounting element.

 In FIG. 7 shows some details of a structure that include building panels in accordance with the present invention.

 On Fig is an example of a mounting profile.

 Figure 9 shows an example of a device for manufacturing a building panel in accordance with the present invention.

 In the drawings, like numbers denote like elements.

 In FIG. 1 shows a cross section and disassembled components of a first embodiment of a building panel in accordance with the present invention. The building panel 1 includes a plate 2 made of foam material, such as, for example, styrene or polystyrene. The advantages of such a foamed material include its excellent thermal and acoustic insulating properties; In addition, this material is cheap. The plate has, at least from one of its longitudinal sides, a relief surface formed by recesses 3 made at the same distance from each other. The fact that the recesses are made at the same distance from each other is preferable for production reasons, and also improves the adhesion of concrete to the slab. However, the recesses can be provided at different distances from each other.

 The recesses 3 extend over the entire width of the slab and become wider when they are deepened into the foam material. The notches mainly have a dovetail profile. The recesses, for example, have a wide base of 5 cm, a small base of 3.5 cm and a height of 1.5 cm. The distance between two successive recesses is, for example, 4.5 cm.

 You can use other forms (profiles) of the recesses, for example, T-shaped or stepped. Through the use of a recess with a cross section, which essentially becomes wider as it penetrates into the foam, concrete that is sprayed onto the slab during the formation of the building structure can easily penetrate the recess. Since the base of the recess located in the depth of the slab is wider than the base on the surface of the recess, the concrete is blocked in the recesses, which results in good adhesion of the concrete to the slab.

 For connecting the building panels in accordance with the present invention with each other, fastening elements 4, 5 are provided. For a building panel that has a length of, for example, 1080 mm, two fastening elements 4, 5 are provided that extend into the recess. The geometric profile of the fastener corresponds to the profile of the recess. So, for example, for a recess with a dovetail profile, the fastener will have a grooved profile shown in Figs. 1 and 6. The open part of the fastener is located so that when the fastener is installed in the plate, this open part is located on the side the outer surface of the plate. Due to this arrangement, concrete can also penetrate into the cavities formed in the fastening element. The fastening elements can be made, for example, of steel, and mainly of stainless steel, or of hard synthetic material. Since the profile of the fastening element corresponds to the profile of the recess, it can easily be installed in the recess without stresses in the plate, for example, as a result of thermal deformations.

 A grid 6 is mounted on the fastening elements 4, 5. The lattice is predominantly welded to the fastening elements. The lattice forms hardening (reinforcement) for concrete; it is mainly made of steel wire. The thickness of the steel wire depends, for example, on the load applied to the building element. As a result of the fact that the lattice 6 is connected to the fastening elements, and the fastening elements are connected to the plate, the lattice, fastening elements and the plate form a relatively lightweight structure that is easy to transport and install.

 When the fastener 4 and the grill 6 are made of steel, the grill is connected to the fastener by welding, for example, by electric welding. In order to obtain a clear contact surface for welding, a protruding rib 15 on each of the longitudinal flanges 16 of the fastening element 4 is preferably provided. This protruding rib is formed by a bending (folding) operation during the manufacturing of the fastening element. The protruding rib is made mainly in the middle of the longitudinal flange 16, as shown in Fig.6. However, a protruding rib may also be provided on the lateral edge of the longitudinal flange. The presence of a protruding rib contributes to the formation of a clear connection for conducting electric welding. The grid is welded to the most protruding rib.

 In the embodiment shown in FIG. 1, the building panel has only one side with recesses, fasteners and a grill. Such a building panel is suitable for the construction of external walls on the first or other floors, as well as for the erection of a roof.

 In the embodiment shown in FIG. 2, the building panel has two longitudinal sides with recesses 3; it also contains additional fasteners 7, 8 and an additional grill 9, which are fixed to the panel on its other side. The additional fastening elements 7, 8 and the additional grill 9 are similar to the fastening elements 4, 5 and the grill 6, respectively. The construction panel shown in FIG. 2 can be used, for example, to construct a mesh wall when concrete is sprayed from two sides of the construction panel.

 The fastening elements 4, 5 and 7, 8 and the grilles 6 and 9 connected together are connected to the plate 2 using the fastening means shown in FIGS. 3 and 4. The fastening means include a sleeve 12 into which the dowel 14 is inserted. Sleeve 12 contains a head 13 in the form of a disk and has a jagged end 11 in which a groove is made 10. The sleeve operates in accordance with a well-known principle similar to the principle of operation of plastic wall sleeves. To install the sleeve in the plate and in the fastening element, a hole is made. This hole is drilled predominantly after the fastener is installed in the recess, so that the hole in the plate automatically matches the hole in the fastener. The sleeve is introduced in such a way that the head 13 makes contact with the plate, while the serrated end 11 protrudes from the open side of the fastener, as shown in FIG. Locking (fixing) of the sleeve 12 in the fastening element is carried out using the dowel 14. When the dowel is inserted into the sleeve, the serrated end sections diverge, as a result of which the sleeve is stuck (blocked) in the fastening element and connects this element to the plate. In another embodiment, the serrated end is fixed in the plate.

 The sleeve 12 and the dowel 14 are mainly made of synthetic material or other material that does not conduct heat well to minimize heat transfer. If the sleeve 12 and the dowel 14 are made of synthetic material, then the heat transfer from the fastener 4 through the sleeve 12 and the dowel 14 to the outside is bad.

 To ensure a good connection of two successive building panels in accordance with the present invention, additional profiles 34, 35 are provided on their side walls. Step-shaped profile structures 34, 35 with additional cutouts are mainly used.

 7 shows a structure constructed using building panels in accordance with the present invention. The structure shown has both a basement and upper floors. For the construction of the first and upper floors, building panels are used that are provided with a grid 6 on one longitudinal side, in this case, on the side located on the inside of the wall. For the construction of ceilings, building panels are also used, which are provided with a grill on one side. The building panel 1 for a vertical wall is mounted on vertical beams 17, which are made, for example, of steel or concrete. Cross beams are attached to these beams, for example, with screws. A building panel equipped with suspension means 19 (Fig. 8) is suspended by means of them to the beams 18. Advantageously, the suspension means of the plate are additionally attached to the beams, for example, by means of screws, in order to ensure rigid anchoring of the construction panel to the vertical beams.

 The beams 18 have a mainly C-shaped section, the open part of which is pressed against the beams 17. The profile of the C-shaped has great strength due to its geometry. The fastening means 19 has a mainly Z-section, as shown in FIG. Section 20 of the second fastening profile 19 is fixed at the bottom (base) 21 of the grooved profile of the fastening element (Fig. 6). When hanging the building panel, section 22 partially abuts against the first fastening profile 18, while section 23 enters the open side of the C-shaped profile.

 Thanks to the use of such fastening, building panels can easily be hung out, in the case of the erection of vertical walls, using a Z-shaped profile and a C-shaped relief. In the construction of ceilings, they also resort to the use of C- and Z-shaped profiles, with which they connect the building panel with the support beams. Since the building panels are then simply suspended, the main concerns are with the installation of beams 17, which must be precisely aligned to obtain a straight wall. After the beams 17 are precisely aligned, the beams 18 fixed to them will also be precisely aligned, which also applies to the building panels attached to them. Thus, the alignment of the wall is limited to align the beams 17.

 After installation of the building panels, spraying is carried out under concrete pressure on that longitudinal side or longitudinal sides where there is a grate 6 (or 9). For the basement wall 24, concrete is sprayed from two sides, while for the first floor wall 25 or for the walls of the upper floors, concrete is sprayed from the inside of the wall. For the roof 25, which is made of building panels in accordance with the present invention, the grill is located on the inside of the roof. In the case when concrete is sprayed only on one longitudinal side of the building panel, then on the other side put plaster 27, for example, gypsum.

 In FIG. 9 shows an example of a device for manufacturing building panels in accordance with the present invention. A plate 28 made, for example, of styrene, is brought into contact with the embossed surface of the cutting section 29. In this section, a surface relief 3 is cut out on the plate with a cutting organ. The grid 6 (or 9) is welded in the welding section 30 to the fastening elements 4, 5 (or 7, 8). After that, the plate and grill, equipped with fasteners, are transferred to the assembly section 31 for connecting them together. In the assembly section there is a drilling device 33, designed to drill holes in the fasteners and in the plate. In addition, the assembly section is provided with input devices for fastening means by means of which bushings 12 and dowels 14 are inserted into the drilled holes in order to obtain a building panel 1 in accordance with the present invention. The drilling device 33 and the input device of the fastening bodies are predominantly mounted on the same axis, therefore it is not necessary to separately install the input devices 32. Instead of drilling the plate, you can use fasteners with pre-made holes and drive the finished sleeve and dowel into the plate.

Claims (1)

 \ \\ 1 1. Building panel (1), including a slab (2) made of insulating foam material, in which at least one of its longitudinal sides creates a relief formed by recesses (3), which become wider as they deepen in foamed material, fasteners (4, 5, 7, 8) that go into the indicated recesses (3) and are installed at a certain distance from each other, and a grill (6, 9), which is superimposed on these fasteners (4, 5 , 7, 8), characterized in that said fastening elements (4, 5, 7, 8) have mainly a profile in in the form of a gutter that enters the indicated recesses (3), and in the indicated fastening elements, holes are made that go further through the indicated plate (2), and (12, 14) fastening means are introduced into these holes for connecting the fastening elements (4, 5 , 7, 8) with a stove (2). \\\ 2 2. The panel according to claim 1, characterized in that it is equipped with the first means of suspension of the plate (19), which are mounted on the indicated fastener (4, 5, 7, 8) and have a hook profile. \\\ 2 3. The panel according to claim 1 or 2, characterized in that the said fastening means (12, 14) are made of synthetic material and include a sleeve (12) and an expansion bolt shield (14), which are fixed in the panel. \\\ 2 4. The panel according to any one of claims 1 to 3, characterized in that said fastening element (4, 5, 7, 8) has longitudinal flanges (16) on which a protruding rib (15) is made, and said the grill (6, 9) is welded to the specified protruding rib (15). \\\ 2 5. The building structure, which includes a building panel (10) in accordance with claim 2 and a frame, characterized in that said frame contains vertical (17) and transverse (18) beams of said frame, and said means plate suspensions (19) are fixed on said transverse beams (18). \ \\ 2 6. The construction according to claim 5, characterized in that the frame beams (17, 18) have mainly a C-shaped profile. \\\ 2 7. Building construction, characterized in that it includes building panels according to any one of claims 1 to 4.

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