SU1719584A1 - Three-layer enclosing panel - Google Patents

Abstract

The invention relates to construction and can be used as a constructive element of wall and roof fencing of buildings and structures. The purpose of the invention is to reduce the labor intensity of installation by reducing the compressing force of the sealing gasket. The three-layer panel of the enclosure includes an outer 1, an inner 2 lining and a heat insulating layer 3 between them. The outer facing 1 has longitudinal bends 4, and the inner 2 has longitudinal bends 5. The edges of the bends of the linings 1 and 2 are folded between each other by folds 6 through heat insulating gaskets 7. The outer facing 1 has a longitudinal protrusion 8, the edge of which is bent to the shape of the outermost corrugation outer facing 1 adjacent panel. The overlap of the protrusion .8 on the extreme corrugation of the adjacent panel and the installation of the rivet 9 ensures the tightness of the joint at atmospheric precipitation. The inner lining 2 has a protrusion 10, the edge of which is bent at an angle of 75-90 ° & inside the panel. The protrusion 10 is formed by a fold of the inner lining 1 and has a thickness equal to twice the thickness of the lining. This ensures sufficient rigidity of the protrusion 10 and the minimum squeezing force of the elastic sealing gasket 11. The protrusion 10 also serves to fasten the panel to the wall bar pins or coating girders with self-tapping screws 12. 2 Il. sl C

Description

The invention relates to the construction and can be used as a structural element of the wall and roof fencing of buildings and structures.

The purpose of the invention is to reduce the complexity of installation by reducing the compression force of the sealing gasket.

In FIG. 1 schematically shows a panel with a longitudinal joint assembly, cross section: in FIG. 2 is a graph of the compression force of the sealing gasket versus the tilt angle of the liner bend.

The three-layer panel of the fence consists of the outer 1 and the inner lining and the heat-insulating layer placed between them 3. The outer lining 1 has the longitudinal bends 4, and the inner lining 2 has the longitudinal bends 5. The edges of the bends of the outer 1 and 2 inner lining are folded with each other using folds 6 through heat-insulating gaskets 7. The outer lining 1 has a longitudinal protrusion 8, the edge of which is bent in the shape of the outermost corrugation of the outer lining 1 of the adjacent panel. The overlap of the protrusion 8 on the extreme corrugation of the adjacent panel and the installation of the rivet 9 provides a tight joint in atmospheric precipitation. The inner lining 2 has a protrusion 10, the edge of which is bent at an angle of 75-90 ° into the panel. The protrusion 10 is formed by a fold of the inner lining 1 and has a thickness equal to the double thickness of the lining. This ensures sufficient rigidity of the protrusion 10 and the minimum compression force of the elastic sealing strip 11. The protrusion 10 also serves to fasten the panel to the crossbars of the wall fencing or girders using self-tapping screws 12.

The design of the panel provides for its manufacture on continuous production lines. At the beginning of the line, roll sheets of the outer 1 and inner 2 lining are profiled on two mills. Further, the inner surfaces of the linings are degreased and covered with a layer of glue. After that, in the inner lining 2, which is turned upward by the bends 5, a heat-insulating layer 3, for example, miyearovatny plates with vertically oriented fibers, is laid, and covered with a second lining. In the process, the panel is compressed and heated to a temperature of 130-150 ° C (to accelerate the polymerization of the adhesive). In the next step, heat-insulating spacers 7 are put on the bent edges of the outer lining 1 and rolling occurs. The last operation on the production line is the sticker of the sealing strip 11 and the packaging of the panels.

The speed of manufacturing panels on a continuous production line can reach 2m in 1 min. The complexity of manufacturing at the same time is reduced by 5-6 times compared with the three-layer panels manufactured in this war. Steel consumption is reduced by 1.2 kg (5.8%) per 1 m ^{2 of the} fence. The tightness of the proposed fence increases, since the known does not provide for the installation of gaskets.

The three-layer fencing panel has a high bearing capacity, good heat engineering properties, flame retardant and durable.

Claims (1)

Claim Three-layer fencing panel, including the outer inner lining with longitudinal bends and protrusions, the sealing gasket and the heat-insulating layer between the lining, with the fact that, in order to reduce the complexity of installation by reducing the compression force of the sealing gasket , the protrusion of the inner lining is formed by its fold and has a thickness equal to the double thickness of the lining, and the edge of the protrusion is bent at an angle of 75-90 ^r into the panel, and the sealing gasket consists of two parts, one of which is p positioned at the bends of the outer panel lining, and the other is attached to the bend of the inner lining with the possibility of compression by the edge of the protrusion of the inner lining of the adjacent panel. "