RU173757U1 - FACADE PANEL - Google Patents

Abstract

The utility model relates to the field of construction and can be used for cladding building facades, including during major repairs. The technical result consists in reducing the material consumption of the facade panel with heat-insulating properties while maintaining the wear resistance of the facade of the building. The front panel contains a metal case, inside of which there is a heater. The case is a rectangular plate, which is provided with walls around the perimeter. The upper wall is made of an L-shaped profile and is directed to the front side of the panel. Unlike the prototype, the body is made of galvanized steel with a thickness of 0.3 to 0.7 mm, the side walls are made of a L-shaped profile and are directed into the interior of the panel, while the upper wall is equipped with an additional wall of the L-shaped profile directed to the front side , and contains a mount, and a gap is made between the bottom wall and the insulation. 3 s.p. f-ly, 2 Fig.

Description

The utility model relates to the field of construction and can be used for cladding building facades, including during major repairs.

The prior art is a facing warming building panel having the shape of a rectangular parallelepiped and containing a heat-insulating back layer made of polyurethane foam, a front facing layer made of finishing material, and fixing brackets for mounting the panel on a building surface monolithically bonded. As the finishing material of the cladding layer, ceramic or tile or metal or wood tiles or natural or artificial stone or any other suitable cladding material may be used. Mutually intersecting ventilated channels are made on the outer surface of the heat-insulating layer. [Utility Model Patent No. RU 83267, publication date 05/27/2009]

Also known from the prior art is a metal plate containing an aluminum plate, an insulating layer and a layer of inorganic material, which are arranged from top to bottom. The edges around the aluminum plate are additionally provided with curved walls and envelope the insulating layer. The thickness of the aluminum sheet is in the range from 0.8 mm to 1.5 mm, and the thickness of the plate of inorganic material is from 5 to 7 mm. [Utility Model Patent No. CN 204456730, Publication Date 07/08/2015]

The closest analogue of the claimed utility model is an aluminum composite panel containing a multilayer structure of interconnected layers, one of which is made of aluminum with protective coatings, the other is made of heat-insulating polymer material, and made with bends around the perimeter like a cassette, and on the side bends symmetrically made fasteners in an amount of at least one pair, and the upper bend is double at right angles to the previous plane, characterized in that it and contains two aluminum sheets, between which there is a composite polymer layer made on the basis of high-pressure polyethylene and connected to aluminum sheets with a high molecular weight adhesive film, the outer surface of one of the aluminum sheets, which is the outer one, is made with a polymer coating, while on the side bends with aluminum rivets mounted fasteners - ikli, and the lower bend is made double at right angles to the previous plane inside the cassette. [Utility Model Patent No. RU 72710, Publication Date 04/27/2008]

The main disadvantage of the known devices is the high material consumption. In particular, in the closest analogue, two aluminum sheets and an additional adhesive layer are used, which are necessary to ensure strength, thereby increasing material consumption.

The technical problem, which the claimed model is aimed at, is the high material consumption of the front panel with thermal insulation properties.

The technical result consists in reducing the material consumption of the facade panel with heat-insulating properties while maintaining the wear resistance of the facade of the building.

The essence of the claimed device is as follows.

The front panel contains a metal case, inside of which there is a heater. The case is a rectangular plate, which is provided with walls around the perimeter. The upper wall is made of an L-shaped profile and is directed to the front side of the panel. Unlike the prototype, the body is made of galvanized steel with a thickness of 0.3 to 0.7 mm, the side walls are made of a L-shaped profile and are directed into the interior of the panel, while the upper wall is equipped with an additional wall of the L-shaped profile directed to the front side , and contains a mount, and a gap is made between the bottom wall and the insulation.

Side walls directed into the interior of the panel provide fixation of the insulation inside the facade panel and can be made from 15 to 150 mm high. This height allows the location of the insulation necessary to ensure thermal insulation of the thickness, as well as the strength of the facade panel to external physical and climatic effects.

The fastening can be made in the form of a hole located in the center, or a pair of holes located at the edges of the upper wall, with the possibility of placing bolts or mounting brackets in them, and provide the ability to fix the panel to the guide profiles located on the wall of the building.

The height of the additional wall of the L-shaped profile on the upper wall and the height of the gap between the lower wall and the insulation can be made any, depending on the dimensions of the facade panel, so that the wall can enter the gap. The presence of an additional wall of the L-shaped profile on the upper wall and the gap between the insulation and the lower wall makes it possible to fix the adjacent facade panel by hooking its lower wall to the additional wall of the L-shaped profile. Due to the additional fixation of the panels on the facade of the building by meshing adjacent facade panels for each other, an increase in the strength of fastening the panels to the facade of the building is ensured. The additional wall of the L-shaped profile on the upper wall can be made shorter than the length of the upper wall and located in the center in order to provide access to the fasteners located on the upper wall. The bending angle of the upper wall can be blunt in order to reduce the likelihood of sediment accumulation on its surface.

The insulation can be made in the form of a plate with a thickness of 15 mm to 100, depending on the required degree of thermal insulation of the building, while the width and height of the plates can be any, depending on the dimensions of the facade panel. Non-combustible, moisture-resistant materials with a thermal conductivity of not more than 0.03 W / m * K and compressive strength of at least 100 kPa, with a density of 10 to 45 kg per m ³ , for example, expanded polystyrene or extruded, can be used as insulation material polystyrene foam, or polyurethane foam.

The case of the facade panel can be made by stamping, bending or rolling sheets of galvanized steel with a thickness of 0.3 to 0.7 mm. The use of galvanized steel as the material of the case of the facade panel provides the ability to make the case of one metal sheet with a thickness of 0.3 to 0.7 mm, which, due to the strength characteristics of the material, together with the presence of insulation inside the case, provides the necessary wear resistance of the structure. The height of the case can be from 300 to 6000 mm, width - from 200 to 6000 mm, depending on the shape and size of the building, for the cladding of which panels are used.

Due to the implementation of the case of the facade panel with a thickness of 0.3 to 0.7 mm, material consumption is reduced, while due to the implementation of the case of the facade panel of galvanized steel and the reduction of the load on the fastening of facade panels, the wear resistance of the facade panel to the external physical and climatic conditions is maintained impact in the process of facing the building and its further operation. Due to the execution of the side walls of the L-shaped profile, the upper wall of the housing with the mount and the additional wall of the L-shaped profile directed to the front side of the panel, as well as the clearance between the insulation and the lower wall, it is possible to mesh adjacent panels to each other, which allows reduce the number of additional materials used for fastening while maintaining the wear resistance of the facade panels. The above distinctive essential features provide a solution to the problem of high material consumption, which ensures the achievement of a technical result to reduce material consumption while maintaining the wear resistance of the building facade, which allows us to conclude that the claimed utility model meets the patentability criterion of "novelty".

The inventive utility model can be performed by known methods from known materials, which ensures its compliance with the patentability criterion of "industrial applicability".

The essence of the claimed utility model is illustrated by the following drawings:

FIG. 1 is an isometric view of a front panel from a front side;

FIG. 2 is an isometric view of a front panel from the back.

The facade panel contains a housing 1 made of galvanized steel, inside of which a heater 2 is located. Housing 1 is a rectangular plate that is provided with walls around the perimeter. The upper 3 and side 4 walls are made of an L-shaped profile, while the side walls 4 are directed into the interior of the panel, and the upper wall 3 is directed to the front side of the panel, provided with an additional wall of the L-shaped profile 5 directed to the front side, and contains holes 6 for fasteners, and the insulation is made with a gap 7 to the bottom wall 8. The bending angle of the upper wall 3 is 120 °, and the thickness of the housing 1 is 0.3 mm.

The principle of operation of the claimed utility model is as follows.

The insulation 2 is fixed in the housing 1 of the facade panel by fixing with the walls of the housing. The facade panel is fixed to the U-shaped guide profiles mounted on the wall of the building by fixing bolts in the holes 6 of the upper wall 3. The next facade panel is attached by hooking the lower wall 8 to the additional wall of the L-shaped profile 5 of the previous panel and fixed to the U-shaped guide profiles by fixing bolts in holes 6.

Claims (4)

1. A facade panel containing a metal case, inside of which a heater is located, the case is a rectangular plate, which is provided with walls around the perimeter, the upper wall is made of a L-shaped profile and is directed to the front side of the panel, characterized in that the case is made of galvanized steel thickness from 0.3 to 0.7 mm, the side walls are made of a L-shaped profile and directed into the inner space of the panel, and the upper wall is equipped with an additional wall of the L-shaped profile directed to the front side, and contains a fastener, while a gap is made between the bottom wall and the insulation inside the case. 2. The facade panel according to claim 1, characterized in that the bending angle of the upper wall is made obtuse. 3. The front panel according to claim 1, characterized in that the fastening is made in the form of brackets. 4. The facade panel according to claim 1, characterized in that the fastening is made in the form of holes located at the edges of the upper wall, and the length of the L-shaped wall is less than the length of the upper wall.

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