RU113286U1 - FACING PANEL, INSTALLATION ELEMENT FOR FACING PANEL AND WALL FACING SYSTEM - Google Patents

Abstract

1. The facing panel is made in the form of a rectangular slab, which has a front and back surfaces, longitudinal and transverse ends, both longitudinal ends of a rectangular slab have straight and beveled sections, the planes of the beveled sections are parallel, and the angle between the front surface and the surface of the beveled section is from 20 ° to 80 °, while one longitudinal end of the rectangular slab is provided with a slot located between the straight and beveled sections, at a distance of 5 mm to 50 mm from the rear surface of the rectangular slab. ! 2. A cladding panel according to claim 1, characterized in that the rectangular board is made of wood. ! 3. An installation element for a cladding panel, containing at least one strip with a surface for fastening and with holes for fastening, rigidly connected to the fixing unit, the fixing unit has a stop flange, which is perpendicular to the mounting surface, an installation rib that is perpendicular to the stop flange and a locking rib that forms an angle with the seating surface, the seating surface of the locating member being parallel to the seating surface of the locking assembly. ! 4. A mounting element for a cladding panel according to claim 3, characterized in that the angle between the locking rib and the seating surface is in the range from 20 ° to 80 °. ! 5. An installation element for a cladding panel according to claim 3, characterized in that the width of the stop flange is in the range from 5 mm to 50 mm. ! 6. A wall cladding system containing brackets that have holes in one plane for fastening to the wall, and in the other plane there are longitudinal slots, guides,

Description

The inventive utility model relates to the field of industrial and civil construction, in particular to the construction of hinged cladding of buildings and structures, and can be used for facade cladding in the construction of new buildings and other structures of housing, industrial and civil construction or in the reconstruction of previously used to give them aesthetic qualities and protection against the effects of external atmospheric phenomena.

A known wall cladding system (see patent DE 10041775, class MKI E04F 13/08, published 06.02.2003), comprising a bracket mounted on the wall by means of anchors, a vertical T-shaped profile having two symmetrical guides, in which Adjustment bracket is installed. The bracket is equipped with ribs for connection with the mounted tongue-and-groove type slabs, while the bracket is made in two versions - support and in-line. The system design provides for the possibility of installing wall insulation.

The disadvantages of the known system are the complexity of the profile and the whole system, laborious installation (at least four brackets must be installed on each plate), high material consumption, and, as a result, high cost.

A device for attaching facing plates is known (see patent RU No. 2180935, class MKI E04F 13/08, 03/27/2002, Bull. No. 9), containing load-bearing profiles, each of which engages by means of ribs with two opposite surfaces of the tiles forming a thorn-groove joint. The device also contains a support profile fixed to the surface exposed to the cladding, and an intermediate element associated with the supporting and supporting profile. The supporting profile has two support flanges facing opposite sides and mounted on an intermediate element that is surrounded by a supporting profile so that an adjustable gap is formed between the intermediate element and the supporting profile. The supporting profile for installing the facing plates of the last row has a rib located in the horizontal plane, and the other rib in the vertical plane.

The disadvantages of this device are the complexity and high material consumption of the bearing profiles, the large dimensions of the intermediate element, due to the need for adjustment, an increase in the thickness of the plates due to the organization of the tongue-and-groove connection.

Closest to the claimed device in technical essence and the achieved result is described in patent No. 2307906 RU "Method of mounting a ventilated cladding of buildings and the design of the fence for implementing the method." In the presented construction, in particular, the hinged cladding panel comprises an external and an internal surface, a horizontal shelf, plane-parallel bevels along the upper and bevels along the lower edge of the panel, and a triangular-shaped groove on the external surface. The panel is mounted on a vertical bearing surface by horizontal clamping row profiles made of sheet steel material and having a vertical back wall, a horizontal supporting shelf and a front bend at an angle equal to, for example, 45º, equipped with spacer elements. However, such fastening is not reliable enough, therefore, the panel is additionally equipped with at least two spacer sleeves with threaded holes through which the panels are fixed with bolts.

The disadvantage of this design is the complexity of the assembly, in which it is necessary to attach the panel to the supporting structure from the back. Also, the protruding parts of the pressure line profiles can impair the appearance of the building.

The technical result that is achieved in the claimed utility model is to simplify the system of fastening the front panels, which increases the speed of assembly of wall cladding. In addition, the appearance of the cladding of the building is improved.

The technical result is achieved by the fact that the facing panel is made in the form of a rectangular plate. The rectangular plate has front and back surfaces, longitudinal and transverse ends. Both longitudinal ends of a rectangular plate have straight and beveled sections. The planes of the beveled sections are parallel. The angle between the front surface and the surface of the beveled area is from 20º to 80º. One longitudinal end of the rectangular plate is provided with a slot. The slot is located between the straight and beveled sections at a distance of 5 mm to 50 mm from the back surface of a rectangular plate.

In a particular case, a rectangular plate is made of wood.

Also, the technical result is achieved by the fact that the mounting element for the cladding panel contains at least one bar with a surface for mounting and with a hole for mounting, rigidly connected to the fixing unit. The fixing unit has a thrust shelf that is perpendicular to the seating surface, a mounting rib that is perpendicular to the thrust shelf, and a locking rib that is at an angle to the landing surface. The surface for fastening the facing panel is parallel to the seating surface of the fixing unit. Moreover, the angle between the fixing rib and the landing surface is in the range from 20º to 80º.

Also, the technical result is achieved in that the width of the thrust shelf is in the range from 5 mm to 50 mm.

Also, the technical result is achieved by the fact that the wall cladding system contains brackets, in which in one plane there are holes for fastening to the wall. In another plane there are longitudinal slots. The guides are rigidly connected to the corner elements, which are connected by screws to the brackets through the longitudinal slots in the brackets. Each mounting element contains at least one plank with a mounting surface, fastened with screws to the rails and rigidly connected to the fixing unit of the facing panel. Each fixing unit of the facing panels has a thrust shelf perpendicular to the seating surface, a mounting rib perpendicular to the thrust shelf, and a fixing rib that is at an angle to the seating surface. Moreover, the thrust shelf, the installation rib and the fixing rib in the profile are interconnected at one point. The surface for mounting the mounting element is parallel to the mounting surface of the fixing unit. Each facing panel is made in the form of a rectangular plate, which has one longitudinal end with a slot. Both longitudinal ends of the plate at a distance from the back surface to the slot have sections perpendicular to the back surface of the plate. At a distance from the slot to the front surface, both longitudinal ends of the plate have sections that are parallel to each other and have an inclination with respect to the front surface of the plate. The angle of inclination between the fixing rib and the installation rib is equal to the angle of inclination of the sections of the longitudinal ends of the plate, which are parallel to each other, and have an inclination with respect to the front surface of the plate. The dimensions of the thrust shelf of the fixing unit are equal to the distance from the back surface of the rectangular plate to the slot in the end of the rectangular plate.

In the following, the claimed technical solution is illustrated by a detailed description of a specific but not limiting present solution, an example of its implementation and the accompanying drawings, in which:

figure 1 is a fragment of a variant of execution of the facing panel;

figure 2 is an example of the installation element for the facing panel;

figure 3 is a variant of the wall cladding system.

The facing panel, a fragment of which is shown in FIG. 1, is made in the form of a rectangular plate 1 and has a front 2 and a back 3 surface, longitudinal and transverse ends. Both longitudinal ends of the rectangular plate 1 have straight sections 4, perpendicular to the back surface 3, and beveled sections 5. The planes of the beveled sections 5 are parallel. The angle a of the bevel is from 20 ° to 80 °. One longitudinal end face of the rectangular plate is provided with a slot 6. The slot 6 is located between the straight section 4 and the beveled section 5 at a distance of 5 mm to 50 mm from the back 3 of the surface of the rectangular plate 1. The rectangular plate 1 can be made, for example, of wood.

An example of the installation element 7 for the cladding panel is presented in figure 2. In the above example, the mounting element 7 contains strips 8 with surfaces 9 and with a hole 10 for fastening, rigidly connected to the fixing unit 11 for the rectangular plate 1. The fixing unit 11 has a stop shelf 12, which is perpendicular to the seating surface 13, an installation rib 14, which is perpendicular the abutment shelf 12, and the fixing rib 15, which forms an angle β with the seating surface 13. The angle β between the locking rib 15 and the seating surface 13 can be from 20 ° to 80 °. The width of the thrust shelf 12 is determined by the thickness of the installed rectangular plate 1 and can be selected from the interval from 5 mm to 50 mm The material for the manufacture of the mounting element 7 may be, for example, an aluminum alloy.

Figure 3 shows an embodiment of the wall cladding system, which contains brackets 16, in which in the same plane there are holes 17 for fastening to the wall. In the other plane there are longitudinal slots 18. The guides 19 are rigidly connected to the corner elements 20, which are attached to the brackets 16, for example, screw connections 21 through the longitudinal slots 18 in the brackets 16. The mounting elements 7 are fastened with screws 22 to the guides 19. At the same time, the mounting elements 7 have nodes 11 for fixing rectangular plates 1. Each fixing node 11 has a thrust shelf 12 perpendicular to the seating surface 13, a mounting rib 14, perpendicular to the thrust shelf 12, and a fixing rib 15 that is is angled to the seating surface 13. Moreover, the thrust shelf 12, the mounting rib 14 and the fixing rib in the profile are interconnected at one point. Each facing panel is made in the form of a rectangular plate 1, which has one longitudinal end with a slot 6. Both longitudinal ends of the rectangular plate 1 at a distance from the back surface 3 to the slot 6 have sections 4 perpendicular to the back surface 3 of the rectangular plate 1. At a distance from the slot 6 to the front surface 2, both longitudinal ends of the rectangular plate 1 have beveled sections 5 that are parallel to each other and have an inclination with respect to the front surface 2 of the rectangular panel 1. The angle of inclination β between the fixing the widening edge 15 and the seating surface 13 is equal to the angle of inclination α of the chamfered sections 5 of the longitudinal ends of the rectangular plate 1. The chamfered sections 5 of the longitudinal ends of the rectangular plate 1 are parallel to each other and have an inclination with respect to the front surface 2 of the rectangular panel 1. Dimensions of the thrust shelf 12 11 are equal to the distance from the back surface 3 of the rectangular plate 1 to the slot 6 at the end of the rectangular plate 1.

The assembly and installation of the utility model is as follows.

The brackets 16 through the holes 17 are attached to the wall. Then, using the screw connections 21, the corner elements 20 are installed 20. The guides 19 are rigidly fixed to the corner elements 20. After that, the guides 19 are aligned in a vertical plane by moving the corner elements 20 in the grooves 18 of the brackets 16. After alignment, the guides 19 are fixed in the selected position, tightening the screw connections 21. The installation element 11 is positioned horizontally and fixed on the guides 19 through the hole 10 using, for example, self-tapping screws 22. Installation rib 1 4 of the mounting element 7 are aligned with the slot 6 of the rectangular plate 1. On top of the rectangular plate 1, the next mounting element 7 is mounted so that the fixing rib 15 of the mounting element 7 is aligned with the beveled portions 5 of the rectangular plate 1. Fasten this mounting element 1 using the hole 10 and self-tapping screw 22. Thus, the cladding system is dialed row by row.

The inventive wall cladding system has a design that allows it to be easily and quickly mounted on the walls of buildings. In this case, the cladding may have a diverse appearance, depending only on the material from which the cladding panel is made and the method of processing the front surface of the cladding panel.

Claims (6)

1. The facing panel is made in the form of a rectangular plate, which has a front and back surfaces, longitudinal and transverse ends, both longitudinal ends of the rectangular plate have straight and beveled sections, the planes of the beveled sections are parallel, and the angle between the front surface and the surface of the beveled section is from 20 ° to 80 °, while one longitudinal end of the rectangular plate is provided with a slot located between the straight and beveled sections, at a distance of 5 mm to 50 mm from the back surface of the rectangular plate. 2. The facing panel according to claim 1, characterized in that the rectangular plate is made of wood. 3. The mounting element for the cladding panel, comprising at least one bar with a mounting surface and with mounting holes, rigidly connected to the fixing unit, the fixing unit has a thrust shelf that is perpendicular to the seating surface, a mounting rib that is perpendicular to the thrust shelf and a fixing rib, which forms an angle with the seating surface, the surface for mounting the mounting element parallel to the seating surface of the fixing unit. 4. The installation element for the facing panel according to claim 3, characterized in that the angle between the fixing rib and the seating surface is in the range from 20 ° to 80 °. 5. The installation element for the cladding panel according to claim 3, characterized in that the width of the thrust shelf is in the range from 5 mm to 50 mm 6. The system of wall cladding, containing brackets, in which there are holes in one plane for fastening to the wall, and in the other plane there are longitudinal slots, guides rigidly connected to the corner elements, which are connected by screws to the brackets through the longitudinal slots in the brackets, mounting elements having strips with a seating surface, which are fastened with screws to the rails, while the mounting elements have fixing units for the facing panels, characterized in that each fixing unit is facing panels has a thrust shelf perpendicular to the seating surface, a mounting rib perpendicular to the thrust shelf, and a fixing rib that is at an angle to the landing surface, and the thrust shelf, mounting rib and fixing rib in the profile are connected at one point, and each facing the panel is made in the form of a rectangular plate, which has a front and back surfaces, longitudinal and transverse ends, both longitudinal ends of a rectangular plate have straight and beveled sections, sko planes sections are parallel, and the angle between the front surface and the surface of the beveled section is equal to the angle between the fixing rib and the seating surface of the fixation unit, while one longitudinal end of the rectangular plate is provided with a slot, and the dimensions of the stop flange of the fixation unit are equal to the distance from the inner surface of the rectangular plate to the slot in end of a rectangular plate.