SU964415A1 - Apparatus for heat protection of objects - Google Patents

Description

(54) DEVICE FOR THERMAL PROTECTION OF OBJECTS

The invention relates to partitions for environments with different temperatures, having the property of one-sided conductivity, and can be used in heat engineering.

Devices are known for thermal protection of objects, mainly climatic chambers, containing equidistantly located inner and outer walls, an image of an empty cavity, in which heat-conducting plates are fixed on the outer surface of the inner wall with the formation of a gap relative to the inner surface of the outer wall tl.

A disadvantage of the known device is the inability to control the temperature of the transmitted heat flux, which depends on the physical properties of the bimetallic plates.

When using a known device, for example in heat chambers, it is impossible to switch from one temperature mode to another without replacing bimetallic plates.

The purpose of the invention is to regulate the temperature of the heat flux transmitted through the device and, as a result, to regulate the heat exchange process.

The goal is achieved by the fact that in the device for thermal protection of objects, mainly climate chambers, containing equidistantly located inner and outer walls, a cavity is formed, in which heat-conducting plates are fixed with equal pitch on the outer surface of the inner wall to the inner surface of the outer wall , the plates are connected with one another common under spring thrust, and one of the plates is equipped with thermomagnets with different

15, the Curie point installed on it with the given one, and on the outer surface of the outer wall above the thermomignors is installed with the possibility of reciprocating movement 20 along the plates a permanent magnet placed in guides with fixation over each thermomagnet.

FIG. 1 shows the proposed device; in fig. 2 - section

25 A-A in FIG. one.

The device contains an inner wall 1, an outer wall 2, forming a cavity 3, in which with equal pitch on the outer surface of the inner wall 1 are fixed with a gap 4

heat-conducting plates 5, connected to one another by a common spring loaded spring btg 7, thermo-magnets 8, installed with a predetermined pitch on one of the plates 5, a permanent magnet 9, placed in guides 10 with fixation over each thermomagnet.

The device works as follows.

A permanent magnet 9 is installed against one of the thermomagocytes 8 with a given Curie point equal to T .. If the inner wall 1 is in contact with a medium whose temperature is T and T T then the thermomagnet 8, which has magnetic properties, will be attracted to the magnet 9, inner shade plates 5 are not in contact with the plates of the outer wall 2, and therefore the heat from the inner wall 1 to the outer one is not transferred:. If Tj, t, then the thermo-magnetic, attached to the plate 5 and having a Curie point equal to T, loses its magnetic properties and is not attracted by the magnet 9, and the plate 5 of the wall 1 under the action of natural forces of elasticity or elasticity of the springs does not touch with the plates 5 of the wall 2. The heat flux with a temperature T will pass from the inner wall 1 to the outer wall 2.

If it is necessary to transfer the heat flux from the inner wall 1 and the outer 2 with a different temperature, for example Tz, move the constant magnet 9 along the guides 10 and set it against the thermomagnet with the Curie point, equal T. Thus, the temperature of the forward heat flux is controlled .

The reverse flow of the Tenjja from the outer wall 2 to the inner wall 1 is impossible, because in this thermo-magnet 8 it is pulled to the permanent magnet 9 and the plates 5 of the wall 1 are not in contact with the plates 5 of the wall 2, heat exchange occurs mainly due to the radiant, crtr -

ra reduced to a minimum with a radiating coating of surfaces.

The proposed device No.2 will allow you to adjust the temperature of the transmitted heat flux from the internal:

to the external glass | and to change the thermal regime inside the chamber, which will extend the functionality of the latter.

Claims (1)

1. USSR author's certificate 568831, cl. F 28 o 15/00, 1972. A-l