SU1329313A1 - Heat pipe - Google Patents

Abstract

The invention relates to heat engineering, and may be used in heat transfer devices. The invention makes it possible to increase operational reliability. Before operation, the fluid fills the siphon tube (CT) 5 over its entire length. In the course of operation in the zone 2, the coolant vapor that is formed enters through channel 4 into the zone 3 of condensation. The resulting condensate through the hole 8 flows into the condensate collector (K) 6 As a result, the liquid level in the terminal portion of the thermosyphon from the side of the evaporation zone 2 decreases, and in zone 3 it rises. Due to this, the condensate from K 6 goes through pipe 5 to zone 2 of evaporation. Heater H is turned off. If the ST 5 is not full, the heating in zone 2 is stopped and the heater 9 is turned on before working with water. At that, the liquid in K 6 boils and is squeezed out in ST 5, filling it, after which the heater 9 is turned off. 1 il. with N9 SO Yuo H

Description

The invention relates to the field of heat engineering and can be used in heat transfer devices.

The circuit of the invention is an increase in operational reliability.

The drawing shows the described heat pipe.

The heat pipe contains a P-shaped housing 1 with evaporation and condensation zones 2 and 3, respectively, inside which, with the formation of an annular channel 4, there is a siphon tube 5, which repeats the shape of the housing 1 o And in the housing 1 under zone 3 there is a condensate collector 6 separated from zone 3 with a partition with a throttle unlocking 8 and equipped with a heater 9,

The described pipe works as follows.

In the thermosyphon prepared for operation, the liquid fills the siphon tube 5 along its entire length, and at both ends of the thermosyphon the liquid is at the same level.

In the course of operation, the heat carrier steam generated by boiling in zone 2 enters through an annular canal,: - And in zone 3 of condensation. The condensate film forming flows down and then through the opening 8 enters the condensate collector 6. As a result, the liquid level in the terminal part of the thermosyphon from the evaporation zone 2 decreases and in the condensation zone 3 rises. Due to the difference of these levels, the condensate from the condensate collector 6 goes through the siphon tube 5 to the evaporation zone 2, and the condensate

Editor C, Fists

Compiled by C, Bugorsk

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VNIIPI State Committee for Inventions and Discoveries under the USSR Committee on Scientific and Technical Information 113035, Moscow, Zh-35, 4/5, Raushsk nab.

Production and publishing plant GTatent, Uzhgorod, st. Gagarin, 101.

the coolant circulation circuit closes. Heater 9 is off during normal operation

Consider the case when the siphon tube 5 was drained before starting and the path for the liquid between zones 2 and 3 was broken. This can be detected, for example, using a temperature sensor. In this case, the heating in zone 2 is stopped and the heater 9 is turned on. Liquid in the condensate collector 6 boils up. Due to the increase in pressure in the condensate collector 6, the liquid is squeezed out of it through the siphon tube 5 and fills it. Then the heater 9 is turned off and normal operation of the thermosyphon starts (heat supply in zone 2 and removal in zone 3). The power supplied to the heater 9, and the duration of its operation necessary to fill the siphon tube 5, are determined on the stage of experimental development of the thermosyphon.

Claims (1)

Invention Formula A heat pipe containing a different case with evaporation and condensation zones connected by a siphon tube located inside the case and repeating its shape, characterized in that, in order to increase operational reliability, the D case below the condensation zone is made of a condensate separator separated from the last partition with a throttle bore and fitted with a heater.