SU1684091A1 - Block for making laminate structure - Google Patents

Abstract

The invention relates to the production of metal structures by pressure treatment, in particular to the manufacture of a cellular metal structure from sheet metal. The purpose of the invention is the expansion of technological capabilities by increasing the number of layers to be joined while increasing rigidity. The package for the manufacture of a multilayer structure contains layers (C) with a preformed relief in the form of alternating protrusions (B) arranged in a checkerboard pattern. One part B, having an equal pitch in mutually perpendicular rows, is placed from plane C on one side, and the other part is similar in size and with a similar pitch in mutually perpendicular rows, on the other side of C. One C with another B and C are spherical, and the height of each of them does not exceed the radius of the sphere. The invention makes it possible to obtain a bag with an amount of C greater than two, and also allows quality to be improved by increasing the rigidity. 3 il. U. (LS)

Description

The invention relates to the manufacture of metal structures by pressure treatment, in particular to the manufacture of a cellular structure of sheet metal, and can be used in engineering, construction and other industries for the manufacture of multilayer disk structures.

The purpose of the invention is the expansion of technological capabilities by increasing the number of layers to be joined while increasing rigidity.

FIG. 1 shows a package plan; in fig. 2 is a section A-A in FIG. one; in fig. 3 - multilayer package, side view.

The package for the manufacture of a multilayer structure contains layers with a pre-made relief in the form of alternating with equal pitch in mutually perpendicular rows of protrusions 1 and additional protrusions 2 similar in size to the main projections 1 directed in the opposite direction from the plane of the layer and placed between the main projections 1 in a staggered order. As a result, the profiled layer contains the ordered structure of multidirectional projections 1 and 2. The number of projections 1 and 2 is set depending on the plastic their metal properties: for more ductile metal is set greater number of protrusions. The height of the projections 1 and 2 is set depending on the diameter of the structure: the larger the diameter of the structure, the greater the height of the projections.

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The protrusions 1 and 2 in the layers are spheric, the height of the projections h does not exceed the radius r of the sphere, and the distance between the protrusions on one side of the layer 2 n is not less than two diameters of the sphere. Thereby, an increase in the stiffness of both the profiled layer and the package axis is achieved, since the protrusions made along the surface of double curvature, which is a sphere, are more rigid in comparison, for example, with conical protrusions.

At the same time, the implementation in the layers of additional arches directed to the opposite GLORON FROM THE PLANE LAYER N

placed between the main protrusions. In a staggered order, it allows eliminating weakened sections, as well as increasing i moment of inertia by increasing the height of the layer, i.e. increase the stiffness of each layer and the package as a whole.

The connection of the sheet layers in the package is carried out at the places of contact of the protrusions of the previous layer with the protrusions of the subsequent one. By performing additional oppositely directed dusts.

A package of a multi-layer disk structure containing four profiled layers with a diameter of 300 g or of M1 grade copper with a thickness of 0.5 mm was fired off. In each layer 32 protrusions with a height of 10 mm were hemmed in the form of hemispheres alternating with each other with an equal step of 42 mm. Between Them, in a staggered order, vyshtamgyuvaaapi 32 are similar in size and opposite to the plane of the protrusion layer. The connection of the sheet layers at the points of contact of the protrusions is done by soldering. The result is a four-layer package multi-layer disk design.

The advantage of na-from in comparison with the prototype is to increase the rigidity of the package for the estimates of excluding sections with small

the moment of inertia and the implementation of the projections are spherical, as well as by allowing the connection of a package of more layers,

The economic effect of applying the proposed package as compared with the prototype is filled by increasing the operational performance of the rigidity of the multilayer structure.

F o rm u l z o bretyn

Piket for the manufacture of a multilayer structure, containing at least two layers, each having a previously made flap in the form of protrusions along

both sides of the layer, placed with equal pitch in mutually perpendicular rows and with shalmSM them offset the protrusions of one side of the w.

about the fact that, with the purpose of Gassh phen 1 (the technological possibilities of the path- increasing the number of connected layers while simultaneously increasing the rigidity, the protrusions of each layer are spherical with a height not exceeding their radius, placed with each side of the layer at a distance not less than two of their diameters, and connected to the adjacent layer with their vertices.

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Claims (1)

A bag for manufacturing a multilayer structure, comprising at least two layers, each having a preformed relief in the form of protrusions on 25 both sides of the layer, placed equally spaced in mutually perpendicular rows and staggered to offset the protrusions of one side relative to the protrusions of the other side of the layer, and connected one with the other, 30 of which is the fact that, in order to expand technological capabilities by increasing the number of connected layers while increasing stiffness, the protrusions of each layer They are made spherical with a height not exceeding their radius, placed on each side of the layer at a distance not less than two diameters, and connected to the protrusions of the adjacent layer by their vertices.