SU848952A2 - Heat pipe - Google Patents

Description

(54) HEAT PIPE

one

This invention relates to heat engineering.

The known heat pipe, comprising a cylindrical body with a coaxial sleeve in the transport and evaporation zone, in the last sleeve, has a threaded connection to the body and a system of communicating longitudinal and through radial channels for the passage of steam. The fluid moves along capillary channels, representing the gap between the internal and external threads in the evaporation zone. The magnitude of the capillary potential is determined by the magnitude of this gap 1.

The disadvantage of this pipe is the large hydraulic resistance of the threaded grooves due to the small gap between the insert and the pipe body, which limits the heat transfer capacity of the heat pipe and also does not allow the manufacture of such heat pipes in a shape other than cylindrical or flat.

According to the main author. St. No. 731259 a heat pipe is known, comprising a cylindrical body and a coaxial sleeve / placed inside and provided in the evaporation zone with a system of annular and longitudinal channels, the latter of which are connected to the central steam channel by means of through radial holes, and longitudinal grooves located between the longitudinal channels and communicating with the annular channels, the sleeve being installed

10 in the evaporation zone without a gap, the annular channels have either a rectangular profile or a trapezoidal profile, and the housing and the sleeve are made of materials with different linear expansion coefficients 2.

However, the known heat pipe has insufficient heat transfer intensity.

The purpose of the invention is to intensify heat exchange.

. The goal is achieved by the fact that the outer surface of the sleeve in the direction from the longitudinal channels to the grooves has bevels forming

25 with the pipe body in the evaporation zone, additional channels.

FIG. 1 schematically shows the proposed heat pipe; in fig. 2 shows section A-A in FIG. one; on

30 of FIG. 3 - node B in FIG. 2

The heat pipe contains a sealed-cylindrical body 1 and a coaxial sleeve 2, having longitudinal grooves 4 and longitudinal channels 5 with openings b on the outer surface in the evaporation zone 3, which connect these channels with the central steam channel 7.

The outer surface of the sleeve 2 in the direction from the longitudinal channels 5 to the grooves 4 has bevels 8, which form additional channels 9 with the casing 1 in the evaporation zone 3. The longitudinal channels 5 are connected not only to the channel. 7, but also with annular channels. Bevels 8 can be made by milling, planing, electrochemical machining.

The pipe body 1 in the transport zone and the condensation zone has a capillary-porous structure 10.

Heat pipe works as follows.

When heat is applied in the vapor zone 3, vapor bubbles are formed, which move along the additional channels 9 to the central vapor channel 7. The vapor condenses in the heat removal zone, and the condensate returns to the evaporation zone through the capillary structure 10 and cores 4. Capillary

the potential arises due to the difference in the capillary pressures in the fluid near the narrow and near the wide ends of the additional channel 9 and acts even when a continuous film is formed by the vapor of the pipe body 1 and the sleeve 2.

The use of the present invention allows to increase the maximum heat transfer capacity of the heat pipe, as well as to produce heat pipes of arbitrary shape.

Claims (2)

1. Author's certificate of the USSR 544582, cl. F 28 D 15/00, 1975. 2. The author's certificate of the USSR 731259, cl. R 28 D 15/00, 1976.