SU649938A1 - Coaxial heat pipe - Google Patents

Description

one

The invention relates to heat engineering, and more specifically to heat pipes, which can be used in thermal and growth equipment for growing structures at high temperatures of the order of 800 to 2400 ° K.

A coaxial heat pipe is known, containing and cylinders with an annular gap with a capillary-porous filler mounted on the walls facing each other, connected by porous bridges 1.

However, the known coaxial heat pipes are characterized in that the small thickness of the semi-ring of the porous filler can be deformed, and as a result, the fit to the cylinder surfaces is broken; an increase in the thickness of the half-rings will lead to an increase in the mass of the heat-transfer medium and the total mass of the heat pipe, which will negatively affect the isothermal length along the heat pipe.

In non-adherent areas, the surface of the cylinders is not wetted by the working fluid and zones with elevated temperature are created, which sometimes lead to burnout of the heat pipe and its outflow.

The purpose of the invention is to increase the hard2

stability and reliability at high thermal loads.

This is achieved by the fact that in the annular gap the plates are radially arranged, connected by annular springs having a cut along the generatrix, and the plates are in contact with the filler and jumpers.

FIG. 1 depicts the described coaxial heat pipe; in fig. 2 shows section A-A in FIG. i.

The coaxial heat pipe contains cylinders coaxially arranged with an annular gap 1 and 2 and 3 with a capillary-porous filler 4 on walls facing each other, connected by porous bridges 5; in the annular gap 1 radially stirring, ena plate 6, connected by annular springs 7, having a cut 8 along the generatrix, and plastpny contact with the filler 4 and bridges 5.

Plate 6 is located along the longitudinal axis of the pipe. The cavities between the plates form the vapor channels 9.

Heat pipe works as follows.

Heat is transferred from the outer surface of the outer cylinder 2, the working fluid evaporates from the capillary-porous filler 4 and, after passing through the steam channel 9, it condenses on the filler of the inner cylinder 3 and gives off heat. Through the capillary structure of the plates 6, the working fluid returns to the filler of cylinder 2 and the cycle repeats.

The frame of plates 6 incorporates the function of a rigid truss, which at high temperature eliminates longitudinal deformations of thermal friction. Due to the longitudinal plates 6, a reliable fit of the filler 4 to the inner surfaces of the cylinders is ensured, as a result, there are no sections with dried filler and, therefore, burn through the wall of the heat pipe cylinder.

A cut 8 on the annular springs 7 allows the thermal expansion during the operation of the heat pipe to be worked out by fixing the longitudinal plates 6.

The invention allows to increase the rigidity and reliability of the pipe design when

high heat loads, thereby increasing the durability of the coaxial tube by half.

Form via of the invention

Coaxial heat pipe containing coaxially arranged with an annular gap cylinders with capillary-porous

filler pa facing each other walls connected by porous bars, characterized in that, in order to increase rigidity and reliability at high temperatures, in the annular gap

plates arranged radially are connected by annular springs having a cut along the generatrix, the plates being in contact with the filler and jumpers.

Information sources,

taken into account in the examination 1. US patent No. 3603382, cl. 165-105, 1971.

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