RU107536U1 - HEAT INSULATION PANEL - Google Patents

Abstract

 A heat-insulating panel containing reinforcing elements in a layer of foamed insulation, characterized in that the reinforcing elements are made in the form of a spatial frame of transverse rods and flat elements in the form of rods diverging from the center of the panel to the periphery, connected by a flexible continuous element in the form of a curl and fixed to the transverse the rods.

Description

The utility model relates to the field of construction, in particular to heat-insulating materials, and can be used in construction and other related industries.

Known heat-insulating panel made of polyurethane foam, polyvinyl chloride and other components to give elasticity to the product, excluding the emission during operation of volatile and toxic substances (see V. A. Vorobyov "Technology of building materials and plastic-based products" M .: Higher school 1974 p. 315).

The disadvantage of this heat-insulating panel is its low tensile strength in bending (2 ... 5 kg / cm ² ) and impact strength (0.2 ... 1.3 kg cm / cm ² ), which reduces its functionality during prolonged alternating loads.

Closest to the proposed technical solution is a heat-insulating panel, which, in order to increase the bearing capacity, is equipped with anchor beams in the form of diverging rods arranged in a checkerboard pattern with a length of at least half the thickness of the insulation layer (see ed. Certificate No. 557163 of 05.05.77 Bul. No. 17) is a prototype.

The disadvantage of the prototype is the lack of mechanical strength under alternating loads.

The objective of the utility model is to expand the functionality by increasing the elastic and mechanical properties of the heat-insulating panel.

The technical result is achieved by the fact that the heat-insulating panel contains a reinforcing element made in the form of a spatial frame.

A distinctive feature of the proposed heat-insulating panel from the specified prototype is the implementation of reinforcing elements in the form of a spatial frame of transverse rods and flat elements, which are rods diverging from the center of the panel to the periphery, connected by a flexible continuous element in the form of a curl, mounted on the transverse rods. Such a reinforcing element can significantly increase the mechanical strength and elastic properties of the heat-insulating panel in the conditions of distributed or concentrated alternating power loads in the vertical or horizontal directions if it is used as a cushioning and shock-absorbing material.

In Fig.1 shows the proposed insulation panel, in Fig.2 the configuration of the spatial frame, performing the functions of the reinforcing element.

The design of the heat-insulating panel contains a spatial frame 1, located in the layer of foamed insulation 2 and made of wire or polymer bundles. The frame 1 is made of flat elements 3, containing rods 4, diverging from the center to the periphery of the panel, interconnected by a flexible continuous element 5 in the form of a curl, and fixed in space along the height of the panel on the transverse rods 6. The number of flat elements 3, fixed on the transverse rods 6, determined by the height of the panel.

Elements 3 are fixed on the transverse rods 6, then the spatial frame 1 is poured with foamed insulation 2, for example polyurethane foam, forming a rigid thermal insulation panel based on foamed insulation 2.

The thermal insulation panel in this design can be successfully used with significant alternating loads in the case of insulation of floors, roofs, walls of mobile insulated houses of geologists and oil industry workers. In addition, in this design, the panels can be used as lightweight ceilings, which will lead to a reduction in construction and operational costs, to increase fire resistance and reliability of the structure.

Claims (1)

A heat-insulating panel containing reinforcing elements in a layer of foamed insulation, characterized in that the reinforcing elements are made in the form of a spatial frame of transverse rods and flat elements in the form of rods diverging from the center of the panel to the periphery, connected by a flexible continuous element in the form of a curl and fixed to the transverse the rods.