SU1126800A1 - Gas-controlled heat pipe - Google Patents

Abstract

1. A GAS-REGULATED CAPPING PIPE, comprising a housing with evaporation and condensation zones and a shell, |) placed around the evaporation zone with an annular gap communicated from one side to the reservoir. filled with an inert gas, and on the other with a tank filled with contact liquid, characterized in that, in order to expand the field of application while reliability is simultaneous, the heat pipe also contains a second gas tank, inside of which the tank is filled, filled with contact liquid and filled into as a bellows, and a tank filled with an inert gas is hermetically separated from the cavity of the pipe body, 2, Pipe pop 1, which differs from the fact that the gas tank made with contact liquid is supplied with by the navigator. (ABOUT

Description

one

The invention relates to heat transfer devices and can be used to control temperatures and heat fluxes in various energy systems and installations.

A gas-regulated heat pipe is known, comprising a housing with evaporation zones and a gas reservoir tl} condensing.

The disadvantages of this pipe are low heat transfer capacity due to the presence of non-condensing gas in the pipe cavity, and a relatively narrow field of application, which is due to the inability to control the temperature of the heat sink (for example, the flow of the cooling condensation zone of the liquid

The closest technical solution to the present invention is a gas regulated heat pipe, comprising a housing with evaporation and condensation zones and a shell placed around the evaporation zone with an annular gap communicated on the one hand with a tank filled with an inert gas, and on the other with a tank filled with contact liquid 21

The disadvantages of this pipe are a relatively narrow field of application and low reliability, since the pipe cavity communicates with the atmosphere through a reservoir with contact liquid.

The purpose of the invention is to expand the field of application while improving reliability.

The goal is achieved by c. gas-controlled heat pipe containing a housing with evaporation and condensation zones and a shell placed around the evaporation zone with an annular gap communicated on one side with a tank filled with an inert gas, and on the other with a tank filled with contact liquid, a second gas tank is installed inside which placed a tank filled with contact fluid W made in the form of a bellows, and a tank filled with an inert gas, tightly separated from the cavity of the pipe body.

Gas tank filled with contact liquid can be equipped with a heater

68002

The drawing schematically shows a gas-regulated heat pipe, longitudinal section.

The pipe contains a sealed box 5 with the evaporation and condensation zones 2 and 3 and a shell 4 placed around the evaporation zone 2 with an annular gap 5, filled with a capillary-porous body 6 and cold common in the upper part with reserves. a 7-var filled with an inert gas, and in the lower part with a tank 8 filled with contact liquid and made in the form of a bellows 9, 1/5 A second gas tank 10 is sealed to the lower end of the shell 9, inside which is installed an ohmic heater 11 .

The first gas tank 7, filled with an inert gas, is hermetically separated from the cavity of the housing 1 and placed in its vapor channel 12. A capillary structure 13 is installed on the inner surface of the housing 1. 5 Mercury can be selected as the contact liquid.

The heater 11 may be connected to an automatic control system associated with a temperature sensor installed in-v zone 2 evaporation of the pipe (not shown)

Gas regulated heat pipe works as follows.

During the supply and removal of heat in 5 zones 2 and 3. Evaporation and condensation, respectively, through the pipe, heat and mass transfer occurs with a change in the state of aggregation of the coolant. When the heat exchange in the condensation zone 3 deteriorates (for example, when the velocity of the liquid cooling this zone decreases), the temperature of the steam in the pipe increases, the temperature and pressure of the inert gas in the gas reservoir 7 increase accordingly, the gas drains out (; liquid, lowering its level, while the heat flow supplied to the pipe decreases and the temperature of the pipe as well as the degree of heating of the pipe cools the liquid and stabilizes. With an increase in the intensity of the external heat exchanger in the end zone All the considered processes take place in the opposite direction.

When the contact fluid enters the bellows 9, it is distributed 3 1J268004

the tension and the corresponding increase in the total with the atmosphere, therefore, without the pressure of the damping gas, the danger of splashing out of this

reservoir 10, Identical examination-liquids during abrupt changes in the process of thermo-stabilization, which set the pipes in space, i.e.

occurs and when the intensity changes, the reliability of the pipe increases,

external heat exchange characteristics such as installation; second

zone 2 evaporation. - gas / tank and accommodation

To transfer the pipe to the new urr-reservoir in the form of a bellows with a conven (or range) of adjusting the tactical fluid inside it, and

by changing the magnitude of the current through 10 also. the hermetic separation of the first;

the heater 11 changes the temperature of the reservoir from the cavity of the pipe; accordingly, the gas pressure determines the expansion of its area

reservoir 10. The reservoir 8 is not consistent and increase reliability.

Claims (2)

1. A GAS ADJUSTABLE HEAT PIPE containing a housing with evaporation and condensation zones and a shell located around the evaporation zone with an annular gap communicated on one side with a tank filled with an inert gas, and on the other with a tank filled with contact liquid, about and which, in order to expand the scope of application while increasing reliability, the heat pipe also contains a second gas reservoir, inside of which is placed a reservoir filled with contact liquid and made in the form of a bellows And a reservoir filled with an inert gas, hermetically separated from the cavity of the pipe body. 2, Pipe pop. 1, characterized by the fact that the gas tank, made of contact liquid, is equipped with a heater. ,, _a SU 8.1126800 $ 1 1126800