SU827952A1 - Heating pipe - Google Patents

Description

The invention relates to heat engineering and can be used in the energy and chemical industries, mainly in conditions with a time-variable thermal load. 5

Heat pipes are known containing a sealed housing with evaporation and condensation zones and a coaxial insert installed with an annular gap relative to the housing ι [1]. 10

A disadvantage of the known heat pipes is the inability to carry out heat discharge, starting from a certain temperature level, in order to carry out the function of its stabilization with a given value of 15 transmitted heat flux.

The purpose of the invention is the improvement of the operating parameters of the pipe under thermal overload conditions.

This is achieved by the fact that the insert from the upper-20 end face is plugged, and a central through tube is installed along its axis, immersed in liquid in the evaporation zone and extended beyond the plugged end face of the insert in the condensation zone, the cavity between the insert and the tube being communicated in the evaporation zone with an annular gap.

The drawing schematically shows the proposed heat pipe. thirty

The heat pipe contains a sealed housing 1 with zones of evaporation 2 and condensation 3, a coaxial insert 4 mounted with an annular gap 5 relative to the housing and plugged from the upper end 6, a central through pipe 7 immersed in liquid in the evaporation zone 2 and brought outside the muffled end insert, the cavity 8 between the insert 4 and the tube 7 is communicated in the evaporation zone 2 with an annular gap 5.

The operation of the heat pipe is as follows.

When heat is supplied to the evaporation zone 2, part of the coolant passes into steam, which condenses on the inner surface of insert 4. When the heat flux increases and the steam pressure increases, part of the coolant will be pushed out through the annular gap 5 and through the central through pipe 7. In this case, the thermal resistance in the zone Condensation 3 drops due to filling it with coolant. If the input power exceeds a value that is determined by the conditions of condensation, then another part of the coolant will be pushed into the annular gap 5, which leads to the release of steam through the Central tube 7 to the upper part of the heat pipe. As a result, the vapor will be condensed in the upper part of the heat pipe, and the liquid levels in the gap 5 and in the lower cavity of the insert 4 are aligned.

This design of the heat pipe operating in the gravitational field allows the heat flux to be transferred while limiting the temperature to the upper limit, which allows the creation of autonomous thermostats for use, in particular, in chemical technology apparatuses.

Claims (1)

condensed in the upper part of the heat pipe, and the liquid levels in the gap biv of the lower cavity of the insert 4 are aligned. This design of a heat pipe operating in a gravity field allows the heat flux to be transferred while limiting the temperature to an upper limit, which allows the creation of autonomous thermostats for use, in particular, in chemical technology apparatuses. Claims of Invention A heat pipe containing a hermetic housing with evaporation and condensation zones and a coaxial insert installed with an annular gap relative to the housing, characterized in that, in order to improve the working parameters of the pipe under thermal overload conditions, the insert from the upper end is plugged and its smallpox is fitted with a central through tube, immersed in a liquid in the evaporation zone and bred beyond the plugged end of the insert in the condensation zone, with the cavity between the insert and the tube communicated in the zone Yeni annular gap. Sources of information taken into account in the examination 1. US Patent No. 3568762, cl. 165-105, publ. 1971.