RU2359179C1 - Thermal protective shield - Google Patents

Abstract

FIELD: means of protection.

SUBSTANCE: shield is designed for protecting operators against intensive irradiation. Shield contains a rigid frame made from thermal protective material, and external layers made of perforated plates or grids, which are related thereto; on both sides of the frame between surfaces of protective external layers there arranged are layers made from corrugated thermal-protective material, for example alfol, at that, the shield can be both stationary and portable.

EFFECT: improving efficiency and reliability of microclimate creation process in hot workshops.

3 cl, 2 dwg

Description

The invention relates to safety in the workplace, in particular to devices for protection against intensive exposure of operators.

The closest technical solution to the claimed object is a heat shield according to the patent of the Russian Federation No. 2067730, class. F24F 3/06 of 10/10/96, comprising a rigid frame of heat-protective material and associated protective outer layers of perforated sheets or nets.

Its disadvantage is the relatively low efficiency of the thermal protection process.

The technical result is an increase in the efficiency and reliability of the process of creating a microclimate in hot shops.

This is achieved by the fact that in a heat shield containing a rigid frame made of heat shield material and associated protective outer layers of perforated sheets or nets, layers of corrugated heat shield material, for example alpha, are placed on both sides of the frame between the surfaces of the protective outer layers, and the screen may be made both stationary and portable.

Figure 1 shows a frontal section of the proposed heat shield, figure 2 is a left view of figure 1.

The heat shield comprises a rigid frame 2 of heat shield material and associated protective outer layers 1 and 5 of perforated sheets or nets made of tinplate or galvanized iron or aluminum.

On both sides of the carcass 2, between the surfaces of the protective outer layers 1 and 5, layers 3 and 4 of corrugated heat-shielding material, for example alpha, asbestos, aluminum foil on asbestos or mesh, are placed. The heat shield can be made either stationary or portable, or mobile, for example on wheels or rollers.

Heat shield works as follows.

Screens can be single and multi-layered depending on the required efficiency. The air gap between the layers of the screen with a free suction of heated air between the individual layers increases the efficiency of shielding. In the presence of such interlayers (with a thickness of not more than 20–25 mm, and preferably up to 10 mm), the required number of layers is smaller. In some cases, there is a need for shielding viewing windows (crane cabins, control panels). Conventional glazing creates a slight weakening of the radiant flux, which, however, is in most cases insufficient, as a result of which it is necessary to resort to multilayer glazing, which enhances the screening effect. Useful of Solex heat-absorbing glass, previously heat-treated, as well as glass with a metal mesh, is useful. Watering the glass enhances the shielding effect due to the action of a thin film of water spreading over the glass. Glass heat filters that prevent the penetration of infrared rays can also be used.

Claims (3)

1. A heat shield comprising a rigid frame of heat-protective material and associated protective outer layers of perforated sheets or nets, characterized in that on both sides of the frame between the surfaces of the protective outer layers are layers of corrugated heat-protective material, such as alpha, the screen may be made both stationary and portable. 2. The heat shield according to claim 1, characterized in that it is multilayer with a layer thickness of not more than 20 ÷ 25 mm 3. The heat shield according to claim 1, characterized in that it is made with a viewing window of laminated glazing from heat-absorbing glass of the Solex type, previously heat-treated, or glass with a metal mesh, or a heat filter that prevents the penetration of infrared rays.

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