SU1539496A1 - Adjustable heat pipe - Google Patents

Abstract

The invention relates to heat engineering, in particular to adjustable heat pipes used in heat setting systems. The adjustable heat pipe 1 contains a hermetic case 2 with a wick and evaporation zones 4, transport 5 and condensation 6. The evaporation zone 4 is provided with a sleeve 7 enclosing it made of thermally conductive material and is provided with a metal-semiconductor phase transition . The heat pipe 1 allows the object to be thermally stabilized with high precision using a coating of a material having a metal-semiconductor phase transition. 2 Il.

Description

Fng.1

The invention relates to heat engineering, in particular to adjustable heat pipes used in thermal stabilization systems.

The purpose of the invention is to improve the accuracy of thermal stabilization.

FIG. 1 shows a heat pipe, a general view; in fig. 2 — node I in FIG. one.

The heat pipe 1 contains a hermetic case 2 with a capillary-porous wick 3, evaporation zone 4, transport 5 and condensation 6. Evaporation zone 4 is equipped with a heat-conducting sleeve 7 enclosing it with a gap, for example, in the form of a cup 8. On the inner surface of the sleeve 7 is provided with a coating 9 made of a material having a metal-semiconductor phase transition at a temperature of thermal stabilization. The size of the gap is determined by the coefficient of volume expansion of the material of the coating 9.

Heat pipe works as follows.

When the temperature of a thermally stabilized object is below the phase transition temperature, the sleeve 7 has a high thermal resistance due to the low thermal conductivity of the material of the coating 9 and the air gap between it and the surface of the evaporation zone 4. Therefore, the heat pipe 1 is in its inoperative position and no heat is transferred from the heat-stabilized object to the heat sink.

When the object reaches the phase transition temperature, the thermal conductivity of the material of the coating 9 increases, it expands and provides contact with the surface of the evaporation zone 4, due to which the thermal resistance of the sleeve 7 drops sharply. In this case, the heat flux from the thermally stabilized object is freely transferred through the heat-conducting sleeve 7 to the surface of the evaporation zone 4. The heat pipe 1 goes into operation

,

with

YU

15 20

25

0

Q d§ CQ

35

This condition also carries out heat transfer from the object to the heat sink. Heat transfer will occur until the temperature of the object is below the temperature of thermal stabilization.

Thermally conductive sleeve 7 can be located in the condensation zone 6 of the heat pipe 1, while its operation occurs in a similar way.

The sleeve 7 can be attached to the body 2 of the heat pipe. 1, for example, using a pair of fluoroplastic rings 10 and 11 placed in the grooves on the inner surface of the sleeve 7 and the outer surface of the evaporation zone 4.

Due to the ability of materials with a metal-semiconductor phase transition, the ability to change the phase transition temperature when the different alloying elements are added to the material, the same material can be used for different thermal stabilization conditions.

The proposed heat pipe provides high accuracy in maintaining the required temperature of the object corresponding to the metal-semiconductor phase transition temperature.

Claims (1)

Invention Formula An adjustable heat pipe containing a sealed housing with a capillary-porous wick and condensation and evaporation zones, the latter of which is provided with a sleeve around it, which, in order to improve the thermal stabilization accuracy, is made of a heat-conducting material with a gap relative to the zone The evaporation of the heat pipe and on the inner surface is provided with a coating of a material that has a metal-semiconductor phase transition at the temperature of thermal stabilization. Figg