RU211245U1 - ROOF PANEL - Google Patents

Abstract

The utility model relates to construction, in particular to elements of building structures, namely to enclosing structures for heated industrial, administrative and residential buildings, and can be used for the construction of individual parts of buildings. The technical result of the claimed utility model is to improve the performance of the building, as well as to improve the thermal performance, including the prevention of the formation of cold bridges. In addition, the claimed utility model ensures the assembly accuracy of the panel frame while realizing the possibility of increasing thermal protection and protecting the panel from wind and moisture. The specified technical result is achieved due to the fact that the roofing panel contains a frame consisting of longitudinal and transverse galvanized steel perforated profiles, the inner part of which is filled with heat and sound insulating material, characterized in that the said frame profiles are fastened together with detachable joints equipped with connecting beams, the inner side the panels are sequentially sheathed with a vapor barrier material and an inner layer, the outer side of the panel - with a wind-proofing material and an outer layer, while the frame profiles are made U-shaped and C-shaped, and the inner and outer layers are made with protrusions along the versatile long ends of the frame, and on one of said long ends of the frame are fixed with an insert made of heat-insulating material.

Description

The utility model relates to construction, in particular to elements of building structures, namely to enclosing structures for heated industrial, administrative and residential buildings, and can be used for the construction of individual parts of buildings.

A building panel is known from the existing prior art (Patent AU 2366597 A, 04.12.1997, A61B 50/10; A61B 50/13, A61B 50/15, A61B 50/18, A61G 12/00, A61G 13/00, E04B 2/ 00, E04B 2/08, E04B 2/72, E04B 9/00, E04C 2/22, E04C 2/30, E04C 2/38, E04F 13/08, E04F 13/18), containing a core of foamed plastic material in generally rectilinear configuration having two main, generally parallel and mating surfaces, which are separated by the thickness of the core, and four edge surfaces connecting the mating surfaces.

A building panel is also known from the prior art (Patent RU 80870 U1, February 27, 2009, E04B 2/02, E04B 5/00), containing an inner plate connected in series, a vapor barrier film, a sound-absorbing tape, a metal frame, a waterproof layer, a heater, an outer plate and a facade finishing layer, wherein magnesite boards are used as internal and external plates, a waterproofing film is used as a waterproof layer, and cellulose insulation is used as a heater.

The closest technical solution is a building panel of high engineering complexity (Patent RU 100788 U1, 12/27/2010, E04C 2/00), containing a series-connected fence plate, a vapor barrier film, a rigid welded metal frame, thermal insulation, waterproofing, an external fence plate, and engineering networks are placed in a profile frame, and a rigid frame provides a load-bearing load for the construction of low and medium-rise buildings.

The main disadvantage of the above technical solutions is the possible violation of the geometry of the panel structures due to insufficient accuracy in assembling the panel frames, as well as the insufficient degree of thermal protection and wind protection and the possibility of forming cold bridges.

The technical result of the claimed utility model is to improve the performance of the building, as well as to improve the thermal performance, including the prevention of the formation of cold bridges. In addition, the claimed utility model ensures the assembly accuracy of the panel frame while realizing the possibility of increasing thermal protection and protecting the panel from wind and moisture.

The specified technical result is achieved due to the fact that the roofing panel contains a frame consisting of longitudinal and transverse galvanized steel perforated profiles, the inner part of which is filled with heat and sound insulating material, characterized in that said frame profiles are fastened together with detachable joints equipped with connecting beams, the inner side the panels are sequentially sheathed with a vapor barrier material and an inner layer, the outer side of the panel - with a wind-proofing material and an outer layer, while the frame profiles are made U-shaped and C-shaped, and the inner and outer layers are made with protrusions along the versatile long ends of the frame, and on one of said long ends of the frame are fixed with an insert made of heat-insulating material.

In particular, the inner and outer layers can be made in pairs with protrusions along the versatile long ends of the frame for attaching an insert made of heat-insulating material, which can be fixed to one of the said long ends of the frame by means of a galvanized tape with self-tapping screws and joining the panels to each other.

In this case, the fastening of the vapor barrier and/or wind and waterproofing material to the frame can be carried out by means of double-sided adhesive tape.

In addition, the heat and sound insulating and/or vapor barrier and/or wind and waterproofing material and/or the inner layer and/or the outer layer can be made of non-combustible materials.

Moreover, the heat and sound insulating material can be made of a heater based on basalt rocks, and/or mineral wool, and/or cellulose wool, and/or various foam plastics, and/or polystyrene concrete, and/or expanded vermiculite, and/or granulated foam glass, and/ or fiberglass and/or glass wool and/or foam concrete and/or polyurethane foam and/or FASROCK mineral felt.

In this case, the foams may contain expanded polystyrene and/or polyurethane foam and/or phenolic foam.

In addition, the vapor barrier and/or wind and waterproofing material can be made in the form of vapor and/or wind and/or noise and/or waterproofing membranes and/or films and/or tapes and/or diaphragms and /or contain FASROCK mineral felt.

Moreover, the inner layer and / or the outer layer can be made in the form of a fiber cement board, and / or a cement-magnesium plate with perforation, and / or a steel sheet with a perforated anti-corrosion coating, and / or a plasterboard fire-resistant and / or moisture-resistant sheet, and / or glass-magnesite sheet and/or profiled steel sheet with or without top coat and/or plain galvanized sheet.

While detachable connections can be made in the form of screw and/or bolted and/or stud connections.

In addition, screw and/or bolt and/or stud connections can be made of high-strength steel elements, and screw connections can be made with self-tapping screws.

Moreover, the frame from its flat side can be made rectangular, or square, or triangular, or parallelogram, or any other polygonal shape.

The essence of the utility model is illustrated by drawings, which show special cases of the claimed roofing panel:

figure 1 shows an isometric view of the general view of the roofing panel; figure 2 - schematic section of the panel along the short end; figure 3 is an enlarged node 1 of fig. 2; figure 4 is an enlarged node 2 of fig. 2 where:

1 - flat frame;

2 - detachable connections;

3 - heat and sound insulating material;

4 - vapor barrier material;

5 - inner layer;

6 - windproofing material;

7 - outer layer;

8 - insert made of heat-insulating material;

9 - galvanized tape.

A particular case of the implementation of the roofing panel can be made as follows: the roofing panel contains a flat frame 1, consisting of longitudinal and transverse profiles, and the said profiles of the frame 1 are fastened together with detachable connections 2, equipped with connecting bulges.

The inner part of the frame 1 can be filled with a heat and sound insulating material 3, the inner side of the panel can be successively sheathed with a vapor barrier material 4 and an inner layer 5, and the outer side of the panel with a windproof material 6 and an outer layer 7.

The inner and outer layers can be made in pairs with protrusions along the versatile long ends of the frame for fastening the insert 8, which can be fixed to one of the mentioned long ends of the frame by means of a galvanized tape 9 with self-tapping screws, from a heat-insulating material and joining the panels together.

When this fastening vapor barrier 4 and/or windproof 6 material to the frame can be carried out by means of double-sided adhesive tape.

In addition, heat and sound insulating 3 and/or vapor barrier 4 and/or windproof 6 material and/or inner layer 5 and/or outer layer 6 can be made of non-combustible materials.

Moreover, the heat and sound insulating material 3 can be made of a heater based on basalt rocks, and/or mineral wool, and/or cellulose wool, and/or various foam plastics, and/or polystyrene concrete, and/or expanded vermiculite, and/or granulated foam glass, and / or fiberglass and / or glass wool and / or foam concrete and / or polyurethane foam and / or FASROCK mineral felt.

In this case, the foams may contain expanded polystyrene and/or polyurethane foam and/or phenolic foam.

In addition, vapor barrier 4 and/or windproof 6 material can be made in the form of steam and/or wind and/or noise and/or waterproofing membrane and/or film and/or tape and/or diaphragms and/or contain FASROCK mineral felt.

Moreover, the inner layer 5 and / or the outer layer 7 can be made in the form of a fiber cement board, and / or a cement-magnesium plate with perforation, and / or a steel sheet with a perforated anti-corrosion coating, and / or a plasterboard fire-resistant and / or moisture-resistant sheet, and/or glass-magnesite sheet, and/or profiled steel sheet with or without top coat, and/or plain galvanized sheet.

When this detachable connection 2 can be made in the form of screw and/or bolted and/or stud connections.

In addition, screw and/or bolt and/or stud connections can be made of high-strength steel elements, and screw connections can be made with self-tapping screws.

Moreover, the frame 1 from its flat side can be made rectangular, or square, or triangular, or parallelogram, or any other polygonal shape.

The profiles of the frame 1 are made of U-shaped and C-shaped steel perforated galvanized profiles rolled on the profiling line according to TU 1122-001-59271378-2009.

The roof panel is assembled as follows: first, a flat frame 1 is assembled from U-shaped and C-shaped steel perforated galvanized profiles. At the same time, the frame profiles 1 are fastened together by means of detachable connections 2, equipped with connecting bundles. Then, a double-sided adhesive tape is glued to the inside of the panel, to which a vapor barrier material 4 is glued, sheathed with an inner layer 5, for example, with profiled sheets without paintwork using self-tapping screws, and the frame with the inner layer is turned over. Next, the inner part of the frame 1 is filled with a heat and sound insulating material 3, for example, from a non-combustible insulation based on basalt rocks, a double-sided tape is also glued to the outer part of the panel, to which a wind-proofing material 6 is glued, and sheathed with an outer layer 7, for example, smooth galvanized sheets using self-tapping screws. In this case, the inner and outer layers can be made in pairs with protrusions along the versatile long ends of the frame for fastening the insert 8, which can be fixed to one of the mentioned long ends of the frame by means of a galvanized tape 9 with self-tapping screws, from a heat-insulating material and joining the panels to each other.

The claimed combination of features will ensure the achievement of the claimed technical result as follows. The use of vapor barrier and wind-proof materials prevents the loss and absorption of condensate, its ingress into the panel insulation, and the formation of "cold bridges". The execution of structural elements from a perforated profile and the presence of an insert made of heat-insulating material in the lock also prevents the formation of “cold bridges”. The assembly of the frame frame from longitudinal and transverse elements, fastened with a detachable connection equipped with connecting beams, ensures assembly accuracy, strength and resistance of the structure to various loads, which leads to an improvement in the performance of the building, as well as an increase in its thermal performance. The use of an insert made of heat-insulating material on the ends of the panels also prevents the formation of cold bridges when the panels are joined together in a lock.

Technical solutions coinciding with the set of essential features of the claimed utility model have not been identified, which allows us to conclude that the claimed utility model complies with such a patentability condition as “novelty”.

Claims (10)

1. Roofing panel containing a frame consisting of longitudinal and transverse galvanized steel perforated profiles, the inner part of which is filled with heat and sound insulating material, characterized in that the said frame profiles are fastened together with detachable joints equipped with connecting beams, the inner side of the panel is successively sheathed with a vapor barrier material and the inner layer, the outer side of the panel - with a wind-proofing material and the outer layer, while the frame profiles are made U-shaped and C-shaped, and the inner and outer layers are made with protrusions along the versatile long ends of the frame, and an insert is fixed on one of the mentioned long ends of the frame made of heat-insulating material. 2. Roof panel according to claim 1, characterized in that the liner is fixed by means of a galvanized tape with self-tapping screws. 3. Roofing panel according to claim 1, characterized in that the vapor barrier and/or wind and waterproofing material is fastened to the frame using double-sided adhesive tape. 4. Roofing panel according to claim 1, characterized in that the heat and sound insulating and/or vapor barrier and/or wind and waterproofing material and/or the inner layer and/or the outer layer is made of non-combustible materials. 5. The roofing panel according to claim 1, characterized in that the heat and sound insulating material is made of a heater based on basalt rocks, and / or mineral wool, and / or cellulose wool, and / or various foam plastics, and / or polystyrene concrete, and / or expanded vermiculite and/or granulated foam glass and/or glass fibers and/or glass wool and/or foam concrete and/or polyurethane foam and/or FASROCK mineral felt. 6. Roof panel according to claim 5, characterized in that the foams contain expanded polystyrene and/or polyurethane foam and/or phenolic foam. 7. Roof panel according to claim 1, characterized in that the vapor barrier and/or wind and waterproofing material is made in the form of a vapor and/or wind and/or noise and/or waterproofing membrane and/or a film, and/ or tapes and/or diaphragms and/or contain FASROCK mineral felt. 8. Roof panel according to claim 1, characterized in that the inner layer and/or the outer layer is made in the form of a fiber cement board, and/or a perforated magnesium cement board, and/or a perforated steel sheet with an anti-corrosion coating, and/or fire-resistant and/or moisture-resistant gypsum board, and/or glass magnesite sheet, and/or profiled steel sheet with or without top coat, and/or plain galvanized sheet. 9. Roof panel according to claim 1, characterized in that the detachable connections are made in the form of screw and/or bolted and/or stud connections. 10. Roofing panel according to claim 9, characterized in that the screw and/or bolt and/or stud connections are made of high-strength steel elements, and the screw connections are made with self-tapping screws.

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