SU1017900A1 - Adjustable heat pipe - Google Patents

Abstract

ADJUSTABLE THERMAL PIPE, containing a partially filled with heat-transfer agent sealed casing, connected to the condensation zone 1ush spout with perforated; capillary-porous inserts and a wick placed on the inner surface of the casing and reservoir and in contact with the inserts, about a t of I and h w and with the fact that, with a goal, to increase the heat transfer capacity of the pipe when using a two-component coolant, the tank is separated from the condensation zone by a transverse partition, installed with a gap relative to about the hull.

Description

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The invention relates to heat transfer devices, in particular to heat pipes with a two-component coolant.

A two-component heat pipe is known, comprising a sealed enclosure with a capillary structure placed on its internal surface impregnated with a two-component heat carrier Cl7 "

The disadvantage of this heat pipe is high thermal resistance, which is caused by the separation of the heat transfer medium inside the pipe into components.

Closest to the invention is an adjustable heat pipe, containing a hermetic body partially filled with heat carrier, a tank with perforated capillary-porous inserts connected to the condensation zone and a wick placed on the inner surface of the case and the tank and contacting the inserts 2}.

The disadvantage of this heat pipe is the relatively low heat transfer capacity when using a two-component heat carrier, which is caused, starting with a certain value of the input heat flux, the impact of the steam core of the high-boiling heat carrier component on the cache-porous portions, followed by their heating, evaporating part of them. low boiling component and blocking it with steam of a part of the volume of the condensation zone.

The purpose of the invention is to reduce the heat transfer capacity of the pipe when using a two-component coolant.

The goal is achieved by the fact that in a heat pipe containing a sealed body partially filled with heat carrier, a reservoir with perforated capillary-porous inserts and a wick placed on the inner surface of the case and reservoir and contacts with inserts in the condensation zone, the reservoir is separated from the condensation zone transverse partition installed with a gap relative to the body.

Fig, 1 depicts adjustable so-called heat pipe, longitudinal section j

FIG. 2 shows section A-A in FIG. one.

The heat pipe comprises a housing 1 with evaporation zones 2-4; condensation and transport respectively. The condensation zone 3 is connected to a reservoir 5 5c with perforated capillary-porous inserts 6. A wick 7 is placed on the inner surface of the housing 1 and the reservoir 5, the contact wed with the inserts b, the reservoir 5 is separated 0 of the condensation zone 0 from the transverse partition 8, made in the form of a thin disk and fixed with a gap 9 relative to the housing 1 by means of lugs 10. Zone 3 of condensation 5 is provided outside with cooling fins 11.

Heat pipe works as follows.

When heat is supplied and removed in the corresponding zones, heat and mass transfer are carried out through the pipe with a change in the state of aggregation; a low boiling point component is displaced into the condensation zone 3 and the reservoir 5, which is at lower temperatures. Between areas of the pipe covered by high- and low-boiling components, in the condensation zone 3 there is a transition region that is somewhat elongated along the 0 axis of the tube, which can move depending on the magnitude of the heat flux supplied, which contributes to the stabilization of the evaporated evaporation zone 2. 5 With high heat flow

almost all of the condensation zone 3 is occupied by the 9 LEADING component of the coolant and the pipe works almost as one component (keeping one 0 of the main qualities of two-component pipes - low temperature of the coolant freezing), while the partition 8 prevents the core of the high boiling point 5 from entering the tank | 5, that

provides a reduction in thermal resistance of the pipe and, as a result, an increase in its heat transfer capacity.

Thus, the installation of a transverse wall between the condensation zone and the reservoir ensures a consistent heat transfer capacity of the heat pipe with a two-component coolant.

Claims (1)

ADJUSTABLE THERMAL 'PIPE, containing partially filled ”nshch; coolant 'hermetic housing connected to the condensate zone and a reservoir with perforated for the purpose of increasing the heat transfer ability of the pipe when using a two-component heat carrier, the tank is separated from the condensation zone by a transverse partition installed in the housing. with a clearance relatively 1 Zone Transport evaporation zone * Zone \ non & sensations I ί Hi se