SU510570A1 - Three-layer panel - Google Patents

Description

The invention relates to the field of construction and can be used in industrial, civil and agricultural farming as a fencing structure.

A three-layered panel is known, including the skin and the middle layer of a honeycomb filled with cast foam.

The disadvantage of the known solution is the sharp discrepancy between the rigid honeycomb system and the foam filling, as a result of which the operation of the foam as a construction material is excluded.

The presence of hard honeycombs as a power material of the middle layer of the structure when combined with the common adhesive with a small glue line contributes to the concentration of high stresses at the junction under cyclic loads on the structure, which negatively affects its strength.

The purpose of the invention is to increase the strength and deformation rigidity of the panel by including foam in the panel operation.

This goal is achieved by the fact that the honeycomb skeleton is formed by alternating flexible and rigid elements, the latter of which are rigidly connected with their ends with common ends.

FIG. 1 shows the proposed panel, a general view; in fig. 2 is a diagram of the connection of the frame elements.

The panel includes common surfaces 1. middle layer 2 of foam (phenolic, polyurethane, etc.) and a honeycomb frame containing rigid 3 and flexible 4 elements.

The ratios of rigid and flexible elements in the frame and its configuration are determined depending on the type and properties of the foam, on its foaming and on the type of skin material.

Rigid elements of the reinforcing cage perceive part of the shear stresses arising in the middle layer of the npiJ structure and the operating loads on it fix the distance between the casings during panel manufacturing, ensure reliable bonding during panel transportation and installation.

In the process of foaming in closed polygons of the foam, the flexible elements ensure uniform distribution along the plane of the rigid elements in the reinforcing system and contribute to improving the strength and deformation characteristics of the phenolic foam.

The foam, as determined by the flexible elements 4, senses the shear stresses acting on the middle layer of the panel and ensures stability in the vertical plane of the links of the planar elements of the reinforcement cage.

The llaaii Miie n framework of flexible ijicMeurois, supported by foam plastic, makes it possible to reduce to a minimum the use of technological and operational deformations and thereby prevent the formation of treading in the middle layer.

In the process of making the panel, flexible elements allow controlling the strength II deformation parameters of the middle layer by changing the geometrical parameters of the reinforcing cage.

As a result of using a limited number of rigid elements in the reinforcement cage and putting the middle layer (foam) into operation, a sharp decrease in the concentration of nanocomposites is achieved.

p, meciax socks platings. reinforcement cage

Forms at l and and 3 obr te and and

Trilayer ianel), inclusive; and the plating and the middle layer of an eot-like framework filled with a casting non-woven frame, I distinguish HI from the fact that, with the aim of increasing the rigidity and deformative stiffness of the panel, due to the inclusion of a non-elastane in the panel work. the honeycomb skeleton is formed by a 1on1nmns turn with flexible and rigid elements, but the next of them are rigidly connected by their ends to the opening.

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