RU212446U1 - CONSTRUCTION PANEL FOR FACING THE EXTERNAL AND INTERIOR SURFACES OF BUILDINGS - Google Patents

Abstract

The utility model relates to the field of construction, in particular to sheet metal cladding panels for covering roofs and walls of buildings. The technical result of the invention is to improve the structural properties of the panel. The specified technical result is achieved due to the fact that the building panel for facing the external and internal surfaces of the building is made in the form of a profiled sheet section, one edge of which is made with a step, on the outer edge of which the first flat edge is formed, bent perpendicular to the plane of the panel, away from the outer surface of the panel, and the second edge of the sheet is made with a step, on the outer edge of which there is a fastening profile made from the edge section of the sheet, while the fastening profile contains a second flat edge bent perpendicular to the panel plane, away from the outer surface of the panel, on the edge of the second flat edges, a third flat edge is formed, bent in the direction from the first edge of the sheet at an acute angle to the second edge; edges perpendicular to the plane of the panel, and the second edge of the sheet is bent away from the first edge of the sheet with the formation of a mounting flange along a line located in the plane of the panel fastening, while the total width of the first and third edges is greater than the width of the second edge, and the width of the second edge is greater than the width of the first edge . 2 w.p. f-ly, 5 ill.

Description

The utility model relates to the field of construction, namely to cladding elements that can be used to increase the strength of structures, and can be used for cladding the internal and external surfaces of buildings and structures.

Various types of sheet metal cladding structures are known. Many of them have the disadvantages that fastening the panels is complex and time consuming, in particular, requires compliance with strict requirements for the design of the crate, the use of a predetermined number of facing elements arranged in a predetermined pattern. Many known panels require special fasteners such as steel strips and fastening clips to be attached to the support structure, which are attached to the support structure with screws or nails to position the panels relative to the support structure and in part to support the panels. These fasteners must be precisely positioned relative to the joint between the two panels, which requires very precise measurements for each fastener.

Known construction panel for roofing, including longitudinal and transverse edges, alternating wavy surfaces of large and small radii, forming a lock ledges on the longitudinal edges, while the transition of the longitudinal directions in the transverse is made at acute angles (patent RU 2119569 C1, publication date 27.09.1998 ). When using a well-known panel, it is required either to use fasteners that pass through the decorative coating of the panel, or to install special fasteners in the form of clamps at the junction of the panels with each other. The bearing capacity of the known panels is practically absent, including due to the high mobility of the clamps relative to the panels even after the final installation.

The closest analogue of the patented solution is a building panel according to the RF patent RU2436911 for facing the external and internal surfaces of a building, which is a flat profile made of sheet material, including an L-shaped protrusion on one edge and a second L-shaped protrusion on the opposite edge with a bend on the outer On the surface of one of the L-shaped protrusions, an angle profile with holes is fixed, while on the edge perpendicular to the edges with the protrusions, a bend is made towards the back surface of the panel.

The disadvantage of this panel is the possibility of warping of the panel during installation, the need to install special fasteners, such as self-tapping screws with a countersunk head, in specially formed holes provided for them. Warping of the panels during installation reduces the mechanical strength of the joint and the structure as a whole. The stress of the material in various places of the panels can lead to the formation of cracks in the canvas, violation of the integrity of the panel, and the penetration of moisture under the cladding.

The task to be solved when creating a utility model is to create cladding panels devoid of the above and other disadvantages of panels known from the prior art, to create universal panels that improve the strength of structures when using panels.

The technical result achieved in the implementation of the utility model is to improve the structural properties of the panel, that is, to create panels with increased reliability and load-bearing capacity.

The specified technical result is achieved due to the fact that the building panel for facing the external and internal surfaces of the building is made in the form of a profiled sheet section, one edge of which is made with a step, on the outer edge of which the first flat edge is formed, bent perpendicular to the plane of the panel, away from the outer surface of the panel, and the second edge of the sheet is made with a step, on the outer edge of which there is a fastening profile made from the edge section of the sheet, while the fastening profile contains a second flat edge bent perpendicular to the panel plane, away from the outer surface of the panel, on the edge of the second flat edges, a third flat edge is formed, bent in the direction from the first edge of the sheet at an acute angle to the second edge; edges perpendicular to the plane of the panel; and the second edge of the sheet is bent away from the first edge of the sheet with the formation of a mounting flange along a line located in the plane of the panel fastening, while the total width of the first and third edges is greater than the width of the second edge, and the width of the second edge is greater than the width of the first edge.

In a particular case of implementation, the interface between the second and third edges can be made in the form of a radius rounding and the interface between these edges can be filled with an elastic sealant.

The essence of the utility model is illustrated by graphic materials, which show:

Fig. 1 - general view of the construction panel.

Fig. 2 - front view of the construction panel.

Fig. 3 - side view of the construction panel.

Fig. 4 - view of the construction panel from above.

Fig. 5 is a cross-sectional view of the joining of two panels in use.

As shown in FIG. 1, a building panel for covering roofs and facades of buildings can be made in the form of a section of a profiled sheet. The panel material can be copper sheet, galvanized steel sheet, laminated metal sheet, and other material commonly used in roofing. The use of polymer sheets is also acceptable, however, in the manufacture of plastic panels and roof assembly, it may be necessary to additionally heat the products to ensure that the product is formed into a stable shape.

For the manufacture of a building panel, a sheet of any length can be processed on a seam-rolling machine, followed by cutting the finished profile into sections of the required length, or blanks pre-cut to the size of the panel can be processed on a beading machine. Other methods of manufacturing panels are also possible.

As shown in the drawings, one edge of the sheet, for example the right one in FIG. 2, which is made with a step 10, on the outer edge of which the first flat edge 2 is formed, bent perpendicular to the plane of the panel, away from the outer surface of the panel. The edges 3 of the steps can be made vertical or at an angle to the main plane 1 of the panel. The second one, on the left in Fig. 2, the edge of the sheet is made with a step 11, on the outer edge of which there is a fastening profile made from the edge section of the sheet, while the fastening profile, as shown in FIG. 5, comprises a second flat edge 50 bent perpendicular to the plane of the panel, away from the outer surface of the panel, a third flat edge 51 is formed on the edge of the second flat edge, bent in the direction from the first edge of the sheet at an acute angle to the second edge, the edge 55 of the third edge is formed folding the sheet along the outer border of the third edge so that the surface of the continuation of the sheet after the folding line is in contact with the surfaces of the third and second edges and goes beyond the border of the second edge in section 56 perpendicular to the plane of the panel. The second edge of the sheet is bent away from the first edge of the sheet to form a mounting flange 5 along line 57 located in the plane of the panel fastening. Flange 5 can be made with fixing holes 8, which simplify the installation of panels and provide additional stability of the panel structure during its installation.

The end edges of the panel can be made with additional bent edges 6 and 7, which simplifies the formation of a seam connection when using panels to protect against adverse weather conditions such as wind and rain.

The joint or interface line 4 between the second and third edges can be made in the form of a radius, and the interface between these edges can be filled with elastic sealant 58, made in the form of a rubber or silicone band.

When using a panel as shown in FIG. 5, the panel is attached to the supporting base using the flange 5, by fixing the flange with fasteners such as flat head screws on the supporting base. After that, the next panel is attached to the installed panel, the upper edge of the edge 2 of which is placed in the space between the edges 50 and 51. In this case, the fastener cap does not deform any of the panels, which increases the stability of the structure, in which unacceptable stresses do not occur. Vertical edges 2 and 50, as well as descents of 3 steps, form a rigid structure that can take on loads from the supporting base. The width (vertical distance in Fig. 5) of the edge 2 can be chosen such that the upper edge of the edge is in contact with the sealant 58, which, taking into account the possibility of elastic deformations of the corresponding step, further increases the tightness and strength of the structure made of panels. After installation, the edge 55 can be rolled to create an airtight seam between the panels. Rolling, when using panels, is a simple technological operation and can be performed with a hand tool.

Claims (3)

1. Construction panel for cladding the external and internal surfaces of the building, made in the form of a section of a profiled sheet, one edge of which is made with a step, on the outer edge of which the first flat edge is formed, bent perpendicular to the plane of the panel, away from the outer surface of the panel, and the second edge the sheet is made with a step, on the outer edge of which there is a fastening profile made from the edge section of the sheet, while the fastening profile contains a second flat edge bent perpendicular to the panel plane, away from the outer surface of the panel, a third flat edge is formed on the edge of the second flat edge, bent in the direction from the first edge of the sheet at an acute angle to the second edge, the edge of the third edge is formed by folding the sheet in the lower part of the third edge so that the surface of the continuation of the sheet is in contact with the surfaces of the third and second edges and goes beyond the border of the second edge perpendicular to the plane of the panel, and the second is it the edge one hundred is bent away from the first edge of the sheet with the formation of a mounting flange along a line located in the plane of the panel fastening, while the total width of the first and third edges is greater than the width of the second edge, and the width of the second edge is greater than the width of the first edge. 2. Building panel according to claim 1, characterized in that the junction between the second and third edges is made in the form of a radius rounding. 3. Construction panel according to claim 1, characterized in that the interface between the second and third edges is filled with an elastic sealant.

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