SU1583982A1 - Thermal screen - Google Patents

Abstract

The invention relates to devices for protecting elements of power equipment against heat flux and can be used in heat and power engineering or nuclear power engineering. The aim of the invention is to increase reliability and service life by reducing thermomechanical stresses. The heat shield includes walls with refrigerant channels. The difference lies in the fact that the walls are made of two parts interconnected through a heat-insulating gasket. The gasket lies in a plane parallel to the geometric axis of the channels and perpendicular to the heat flux. 1 il.

Description

The invention relates to devices for the protection of elements of power equipment against the effects of heat and air flow and can be used in heat power engineering or nuclear power engineering.

The purpose of the invention is to increase reliability and service life by reducing thermomechanical stresses.

The drawing shows a heat shield element with a single refrigerant channel.

The screen contains channel 1, walls 2 and 3, between which a heat insulating gasket 4 is installed. The heat flow passes perpendicular to the plane of the interface between the wall parts and the direction of movement of the refrigerant.

The screen works as follows.

The heat flux falling on the surface of the screen is transferred to the cooler flowing in channel 1. The heat conduction mechanism spreads heat over the cross section of the heat-stressed part of the wall 2 of the screen. The heat does not spread to the heat-insulated part of the wall 3 of the screen due to the presence of a heat-insulating gasket. The heat flow is removed by that part of the cooler that is in contact with the heated surface. This leads to the fact that the two parts of the screen walls are located with in different temperature settings. Consequently, the temperature drops across the cross section of each of the parts are reduced.

A positive effect is achieved by decreasing the temperature drop by temperature on parts of walls 2 and 3. As a result, thermal stress decreases. consequently, the service life and reliability of the device are increased, especially under the cyclic-thermal conditions of the screen.

From the design of the heat shield element shown in the drawing, it is possible to assemble large area shields by simply joining with each other, as well as to produce multi-channel structures.

Claims (1)

Invention Formula Heat shield, made in the form of a rack with channels for coolant inside of it. (EЈiA 03 with 00 geometrical axes of which are located in one plane coinciding with the plane of wall placement, characterized in that, in order to increase reliability and service life by reducing thermomechanical stresses, it is equipped with heat insulating gaskets, and the wall is made of two conjugate and interconnected parts, The interface plane of which is located in the plane of placement of the geometric axes of the channel walls, and the heat insulating channels are installed between the wall parts in the plane of their interface.