SU648825A1 - Heat pipe - Google Patents

Description

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The invention relates to heat engineering, in particular to heat exchangers with an intermediate heat transfer medium - heat pipes.

A heat pipe is known that includes a housing with a capillary structure inside, an accelerator of the working substance, made in the form of an ultrasonic frequency generator emitter attached through an acoustic concentrator to the housing, mainly in the condensation zone, when the working substance circulates from the condensation zone to the evaporation zone and back one.

However, in this device there is a large thermal resistance in the evaporation zone, due to the thickness of the heat transfer layer with low thermal conductivity and the presence of an impregnated porous structure which makes it difficult to close the liquid phase, and the maximum distance to which heat can be transported is 1- 1.5 m. In addition, the rigidity and large dimensions of the transport zone limit the use of this device.

A heat pipe is also known, comprising chambers arranged one above the other, connected by two pipes (with leads, the first of which is connected to the upper zones of the chambers, and the second to the lower ones.

In these pipes, heat transfer in the chambers is improved, but they cannot transfer heat from top to bottom.

The purpose of the inventions is to ensure the transfer of heat from top to bottom the intensification of heat transfer.

This is achieved by the fact that the tube additionally contains an emitter of ultrasonic waves, placed in the lower zone of the lower chamber), and the second pipeline is designed as a set of hapillary tubes placed above the radiator, and also the fact that the chambers are made with | .

The figure shows schematically the proposed heat pipe.

The heat pipe contains a chamber 1 and a chamber 2 located above it, connected by a pipeline 3, under the cables to the upper zones of the chambers, and a pipe 4 connected to the lower zones of the chambers and made as a set of capillary tubes 5. Ultrasonic waves emitter 6 mounted in concentrator 7. Thermowires 8 serve for supplying power to emitter 6. The lower end of conduit 4 is placed over emitter 6. Both ends of conduit 4 are under a layer of heat carrier 9. Chambers 1 and 2 are equipped with fins 1O.

When heat is transferred from top to bottom, the pipe operates in the following way.

When heat is supplied to chamber 2, coolant 9 evaporates, and steam through conduit 3 enters chamber 1, which is cooled. When cooled on the walls of chamber 1 and the ribs u, the vapor condenses and collects in the form of a layer of coolant at the bottom. The liquid coolant under the action of the radiator 6 ultrasonic waves is driven through the capillary tubes 5 into the chamber 2, i, which ensures splashing of it from the upper part of the pipeline 4 and thereby intensifies the heat exchange. Under the action of the radiator 6, the heat-transfer fluid is sprayed in the chamber 1, as well as to the intensifier, heat exchange.

Claims (2)

Invention Formula i. A heat pipe containing piacos placed one above the other chamber, connected by two pipelines, the first of which is connected to the upper zones of the chambers, and the second to the lower characterized in that, in order to provide heat transfer from top to bottom and intensify heat exchange, the pipe further comprises an ultrasound wave emitter in the lower zone of the lower chamber, and the second pipeline is made in the form of a set of capillary tubes placed above the radiator. 2. A heat pipe according to claim 1, which is in such a way that the chambers are made with developed internal angles. Sources of information taken into account in the examination 1. USSR author's certificate No. 399692, cl. F 25 B 19 / O4, 1971. 2. US patent No. 3472314, cl. ) 6, 1969. J s