RU2751308C1 - Cladding panel for arched roofs, facades and fences - Google Patents

Abstract

FIELD: industrial and civil construction.SUBSTANCE: invention relates to the field of industrial and civil construction, namely to cladding panels for arched roofs, facades and fences. The cladding panel for arched roofs, facades and fences, made by profiling from cold-rolled metals, including those with coatings, contains a shelf and a leg with a fixing bend. The shelf on the opposite side of the leg is additionally equipped with a post with a retaining bend and a side. The post is made perpendicular to the shelf outward of the profile, and the retaining bend of the post is parallel to the shelf also outward of the profile. The side is made inside the profile parallel to the post and its height is half the height of the post so that when the panels are mounted on the surface to be faced, the inner corner between the leg and the shelf of the next panel covers the outer corner between the post and the retaining fold of the previous panel.EFFECT: reduction of labor intensity both in the manufacture of the cladding panel and in the process of installation work, simplifying the mating of adjacent panels, simplifying the lathing for the installation of panels.5 cl, 11 dwg

Description

The cladding panel for arched roofs, facades and fences belongs to the field of industrial and civil construction, and is intended for the installation of roofs of buildings with arched and straight roofs, for facing internal and external arches both in the construction of new buildings and in the reconstruction of previously operated structures, for interior and exterior cladding of walls and ceilings, and primarily ventilated facades of office buildings, warehouses, sports complexes, hangars, for the installation of fences and fences, to give construction objects aesthetic qualities and protection from external atmospheric influences.

Arched roofs are popular nowadays. An arched roof is a curved structure in the shape of an arc. Such roofs are used in residential buildings, industrial facilities and administrative buildings. Until recently, the scope of using arched roofs was limited to specialized buildings - swimming pools, greenhouses, specialized pavilions. Now, arched structures are successfully used in household construction, which is largely due to a number of inherent advantages, including:

1. Original visual characteristics.

2. Good wind resistance. The curved shape provides arched roofs with good aerodynamics, thanks to which the structure is ultimately protected from breakage of the coating.

3. Light snow load. On a curved arched roof, snow simply does not linger, therefore, all supporting elements experience significantly less stress than in other types of structures.

4. Arched structures can be used in combination with any architectural style.

Modern materials provide the consumer with a variety of colors and textures, imitation of materials for wood, stone, various materials.

A number of materials are known to cover arches (see, for example, https://kak-sdelat-kryshu.ru/chem-pokryt-arochnuyu-kryshu.html). For example, one of them is cellular polycarbonate, which is quite suitable for a veranda, awning or gazebo, but not quite suitable for the house itself, except in exotic cases. Another material mentioned is sheet steel. Flexible metal sheets are quite suitable for simply covering an arched roof - they are inexpensive and easy to install, but such a simple solution - a smooth surface - currently does not satisfy the aesthetic needs of the customer. The third material mentioned is corrugated board, which has a good bearing capacity, but its application requires a serious architectural study, because The corrugated board has a fixed bending radius - that is, it will not work to make a roof with an arbitrary bending value, and this complicates the use of corrugated board. In addition, the arched corrugated board has an industrial look and may not satisfy the tastes of a private customer.

Also known is "LONGITUDINALLY-BENDED PROFILE OP44PG (S44PG), OP18PG (S18PG)" is bent profiled sheets 1000 mm wide and up to 4000 mm long with a pre-projected bending radius, which requires matching the geometry of the arched roof truss system with possible bending radii, which excludes its use for radius walls.

Also known siding "ship board", which attracts the consumer by the heterogeneity of the facade surface (see, for example, https://www.marketprofil.ru/catalog/metallicheskiy-sayding/korabelnaya-doska/). But this material is only intended for flat surfaces, which limits its use.

Also known corrugated sheet "Wave" (see, for example, https://stolby-dlva-zabora.spb.ru/gofrolist-v19), which is a galvanized steel sheet with a wavy surface. The sheet is used as fences, when facing facades and walls of buildings and when installing roofs. The disadvantage of the sheet is its limited length: no more than 2500 mm. When constructing roofs using it, a continuous lathing is required. Such a sheet is not suitable for covering arched hangars and large facades. The manufacturer himself recommends using this sheet in small architectural forms.

Linear panels from manufacturers are also known (see, for example, https://sks59.info/p263206453-linearnaya-panel-primepanel.html, "Linear panel Primepanel-О-Г-24 × 316/0 (PRISMA 50 microns)" or https://krovfasad.com/fasadnye_materialy/fasadnie_paneli?p=note, "Facade panels"), in which the docking locks are designed so that when replacing one panel in case of damage, a large fragment of the facade must be disassembled, which leads to large unjustified labor costs Moreover, these panels are absolutely unsuitable for cladding arched roofs and openings.

The subject of this technical solution is a cladding panel designed for arranging the roof of buildings with arched and straight roofs, for cladding internal and external arches, for cladding of buildings and structures under construction and reconstruction, both from the facade side and indoors, including for radius walls , as well as for the device of fences and fences.

The technical result of the claimed invention is to reduce labor intensity, both in the manufacture of the facing panel and in the process of installation work, in simplifying the mating of adjacent panels, in simplifying the lathing for the installation of panels, in achieving a variety of the facade surface during the installation of panels, in the possibility of combining textures , colors and flexibility of panel surfaces for solving aesthetic problems in the implementation of arched and straight roofs and facades.

The specified technical result is achieved by the fact that in the proposed facing panel for arched roofs, facades and fences, made by profiling from cold-rolled metals, including with coatings, containing a shelf and a leg with a fixing bend, the shelf on the opposite side of the leg is additionally equipped with a stand with with a retaining bend and a side, while the rack is made perpendicular to the shelf outward of the profile, and the retaining bend of the rack is parallel to the shelf also outside the profile, and the side is made inside the profile parallel to the rack, and its height is half the height of the rack so that when the panels are mounted on the facing surface, the inner the angle between the leg and the shelf of the next panel covers the outer corner between the post and the retaining fold of the previous panel, in addition, the profile shelf of the facing panel can be equipped with two stiffeners, each of which can be made with at least two folds, and is located on the shelf with an indent corresponding directly from the leg and from the post at a distance equal to the width of the fastening bend so that a part of the profile flange between the stiffeners will have a concave panel surface along the entire length of the profile, and the profile flange of the facing panel can be equipped with two stiffeners, each of which can be is made with at least two folds, and is located on a shelf with an indent from the leg and from the rack, respectively, at a distance equal to the width of the fastening bend so that part of the profile shelf between the stiffeners will have a convex panel surface along the entire length of the profile, and on the profile with a straight flange, on a part of a profile flange with a concave surface and on a part of a profile flange with a convex surface, stiffeners of various shapes can be additionally made.

The proposed facing panel can be made with a straight, concave and convex profile flange, which makes it possible to perform work on facing arched roofs, facades and fences, and radius walls with minimal laboriousness. Panels are made on profiling lines with adjustable width from strips of different widths, ensuring consistency and accuracy of geometric dimensions, while the width of the panel is in the range of 135-1170 mm, and the length of the panel is up to 12000 mm under production conditions and without limitation of length at the customer's site ... The proposed panel profile makes it easy to mount arched and straight roofs, facade surfaces, both straight and radial, and replace the panel in case of damage anywhere without dismantling other panels. It is possible to alternate panels with three types of profile shelves on the facade and roof during installation, which significantly expands the possibilities for solving aesthetic problems of roof and facade design, using the color palette of polymer coatings for metal profiles and the quality of profile surfaces such as smoothness, corrugation, corrugation and texture. Installation of panels can be carried out directly on the facade base without horizontal lathing, and in the case of arched or straight roofs, installation can be performed on rafters. Concave and convex panels are manufactured with a given deflection arrow. When installing panels, the deflection arrow can be increased by pressing on the loose edge of the panel with subsequent fastening, which allows you to change the texture of the roof or facade surface, giving it a volumetric variety. The inventive cladding panel provides covering of arched roofs, arches and curved walls with any bending radius.

FIG. 1 is a cross-sectional view of a cladding panel with a straight flange; in fig. 2 is a cross-section of a cladding panel with a concave panel surface; in fig. 3-cross-section of a cladding panel with a convex panel surface; in fig. 4 is a cross-section of a cladding panel with a straight flange and additional stiffeners; in fig. 5 is a cross-section of a cladding panel with a concave panel surface and additional stiffening ribs; in fig. 6 is a cross-section of a cladding panel with a convex panel surface and additional stiffening ribs; in fig. 7 - a fragment of a cross-section of facing panels with a straight shelf assembly on the rafters of an arched roof; in fig. 8 is a fragment of a cross-section of cladding panels with a concave surface assembled on the inner arch; in fig. 9 - a fragment of a cross-section of facing panels with a convex surface assembled on a radius facade; in fig. 10 is a fragment of a cross-section of a combined installation of facing panels with a straight flange, with a concave surface and with a convex surface assembled on a straight facade; in fig. 11 is a fragment of a cross-section of a ventilated fence of the Jalousie type.

Facing panel 1 contains a shelf 2 and a leg 3 with a fastening bend 4, while the shelf 2 on the opposite side of the leg 3 is additionally equipped with a post 5 with a retaining bend 6 and a rim 7, while the post 5 is made perpendicular to the shelf 2 outward of the profile, and the retaining bend 6 posts 5 - parallel to the shelf 2 also outside the profile, and the side 7 is made inside the profile parallel to the post 5 and its height is half the height of the post 5. In addition, the shelf 2 of the profile of the facing panel 1 can be equipped with two stiffeners 8, each of which can be made with at least two folds 9, and is located on the shelf 2 with an offset 10, respectively, from the leg 3 and from the rack 5 at a distance t equal to the same width t of the fastening bend 4 so that part of the shelf 2 of the profile between the stiffeners 8 will have a concave surface 11 with a given deflection arrow h of the panel 1 along the entire length of the profile. And also the shelf 2 of the profile of the facing panel 1 can be equipped with two stiffening ribs 8, each of which can be made with at least two folds 9, and is located on the shelf 2 with an indent 10, respectively, from the leg 3 and from the rack 5 at a distance t, equal to the same width t of the fastening bend 4 so that part of the flange 2 of the profile between the stiffeners 8 will have a convex surface 12 with a given deflection arrow h of the panel 1 along the entire length of the profile. Moreover, on a profile with a straight flange 2, on a part of a flange 2 of a profile with a concave surface 11 and on a part of a flange 2 of a profile with a convex surface 12, stiffeners 13 of various shapes can be additionally made.

When installing cladding panels 1 with a straight flange 2 on the rafters 14 of the arched roof (see Fig. 7) with the horizontal arrangement of the panels 1, when, for example, installation is carried out from the bottom up, first fix the fastening bend 4 of the first panel 1 with self-tapping screws 15 to the rafters 14 along the entire length of the panel 1 according to the design and the markings on the rafters 14. Next, the second panel 1 is applied so that the inner corner between the leg 3 and the shelf 2 of the second panel 1 covers the outer corner between the post 5 and the retaining bend 6 of the first panel 1, forming an assembly adhesion of the panels 1, and fix both panels 1 through the fastening bend 4 of the second panel 1 with self-tapping screws 15 along the entire length of the second panel 1. The retaining bend 6 and the flange 7 of the previous panel 1 form a retaining stiffener 16, which additionally provides support for the shelf 2 of the next panel 1, which gives additional rigidity to the roofing. When installing the proposed panel 1 additional horizontal battens are not required, the installation can be carried out directly on the rafters 14. Installation of panels 1 on the arched rafters 14 can be carried out from top to bottom. First, the retaining bend 6 of the first panel 1 is fixed on the rafters 14 according to the intended marking. Then the second panel 1 is brought under the leg 3 with the fastening bend 4 so that the inner angle between the leg 3 and the shelf 2 of the first panel 1 would cover the external angle between the post 5 and the retaining bend 6 of the second panel 1, forming the assembly adhesion of the panels 1. Then, both panel 1 through the fastening bend 4 of the first panel 1 with self-tapping screws 15 along the entire length of the first panel 1.

The process is repeated, forming the roof on the rafters 14 from top to bottom. This kind of installation of the roof may be even more preferable, because installers, going down the roof, leave behind a decorated surface.

Installation of cladding panels 1 with a concave surface 11, for example, on the inner arch 17 (see Fig. 8) is carried out similarly to the installation of panels 1 with a straight flange 2 on the rafters 14 of an arched roof. When installing panels 1 with a concave surface 11, the deflection arrow h can be increased by pressing on the unsecured edge of the panel 1 with subsequent fastening, which makes it possible to change the texture of the surface of the arch 17, giving it a volumetric variety. The deflection arrow h of the panel 1 has nothing to do with the radius of curvature of the inner arch 17. Facing the arch 17 with wide or narrow panels 1 is selected depending on the overall design intent. Installation of cladding panels 1 with a concave surface 11 on the inner arch 17 can be carried out both from bottom to top and from top to bottom.

Installation of cladding panels 1 with a convex surface 12, for example, on a radius facade 18 (see Fig. 9) is carried out similarly to the installation of panels 1 with a straight shelf 2 on the rafters 14 of an arched roof. When installing panels 1 with a convex surface 12, the deflection arrow h can be increased by pressing on the unfixed edge of the panel 1 with subsequent fastening, which allows you to change the texture of the facade surface, giving the facade 18 a volumetric variety. Installation of cladding panels 1 with a convex surface 12 on a radius facade 18 can be carried out both from bottom to top and from top to bottom. Ventilation of the facade 18 is provided by air cavities 19 formed by the shelf 2 of one panel 1, the post 5 with the bend 6 of the adjacent panel 1 and the surface of the facade 18 to be faced.

FIG. 10 shows a fragment of a cross-section of the combined installation of cladding panels 1 with a straight flange 2, with a concave surface 11 and with a convex surface 12 assembled on a straight facade 20. Installation, for example, in the traditional laying of panels 1 from bottom to top, begins with fixing the fixing bend 4 with the first panel 1, in this example with a straight shelf 2, fixing panel 1 with self-tapping screws 15. Next, apply the second panel 1, in this example, panel 1 with a concave surface 11, and fix both panels 1 through the fixing bend 4 of the second panel 1. Next, apply the third panel 1, in this example panel 1 with a convex surface 12, and fix both panels 1 through the fastening bend 4 of the third panel 1. Installation of cladding panels 1 with their horizontal arrangement on a straight facade 20 can be carried out from top to bottom. With a vertical arrangement of cladding panels 1 on a straight facade 20, installation can be carried out both from left to right and from right to left, taking into account the aesthetic tastes of the customer, achieving a variety of lighting solutions when designing straight facades 20. Ventilation of the straight facade 20 is provided by air cavities 19 formed by a rack 5 s bending 6 of one panel 1, the surface of the facade to be faced 20 and one of the shelves 2 of the adjacent panel 1: either with a straight shelf 2, or with a concave surface 11, or with a convex surface 12.

FIG. 11 shows a fragment of a cross-section of a ventilated fence of the "Louver" type made of facing panels 1 with a straight shelf 2. On the fence posts of the section, for example, vertical bearing U-shaped posts 21 facing the inner cavities 22 are pre-installed. In these cavities 22, facing panels 1 are alternately installed so that the retaining bend 6 of the facing panel 1 rests on one side of the inner cavity 22 of the post 21, and the fastening bend 4 of the facing panel 1 rests on the other side of the inner cavity 22 of the post 21. Install the first panel 1, fixing it to the supporting posts 21 with self-tapping screws 23. Then the second panel 1 is installed so that the fold 7 of the lower panel 1 is just above the lower edge of the fastening fold 4 of the upper adjacent panel 1 by some non-critical value h. With this installation, the fence is opaque, but ventilated in the style of "Blinds" with a relief surface. Installation can be carried out from bottom to top or from top to bottom with minimal installation costs. If the cladding panel 1 is damaged in the fence section, it is dismantled and replaced without dismantling other panels 1.

With vertical laying of cladding panels 1, an additional frame is required, but at the same time, the installation of individual sections can be carried out both from right to left and from left to right, achieving facade diversity when arranging fences and fences.

Claims (6)

1. Facing panel for arched roofs, facades and fences, made by profiling from cold-rolled metals, including with coatings, containing a shelf and a leg with a fixing bend, characterized in that the shelf on the opposite side of the leg is additionally equipped with a stand with a retaining bend and side, while the stand is made perpendicular to the shelf outside the profile, and the supporting bend of the stand is parallel to the shelf also outside the profile, and the side is made inside the profile parallel to the stand and its height is half the height of the stand so that when the panels are mounted on the surface to be faced, the inner angle between the leg and the shelf of the next panel covers the outer corner between the upright and the retaining fold of the previous panel. 2. The facing panel according to claim 1, characterized in that the profile shelf is provided with two stiffeners, each of which is made with at least two folds, and is located on the shelf with an indent from the leg and from the rack, respectively, at a distance equal to the width of the fastening bend so that part of the profile flange between the stiffeners forms a concave panel surface along the entire length of the profile. 3. The facing panel according to claim 1, characterized in that the profile shelf is equipped with two stiffeners, each of which is made with at least two folds, and is located on the shelf with an indent from the leg and from the rack, respectively, at a distance equal to the width of the fastening bend so that part of the profile flange between the stiffeners forms a convex panel surface along the entire length of the profile. 4. Cladding panel according to claim 1, characterized in that the profile shelf is additionally provided with stiffening ribs. 5. A facing panel according to claim 2, characterized in that the part of the profile flange with a concave surface is additionally provided with stiffening ribs. 6. A cladding panel according to claim 3, characterized in that part of the profile flange with a convex surface is additionally provided with stiffening ribs.

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