SU1747843A1 - Heat tube - Google Patents

Abstract

Usage: in heat pipes with a bellows movable element designed to move a control body of a controlled object while changing the temperature of a controlled surface. The essence of the invention heat pipe contains a hermetic body 1 with a wick 2 on its inner surface partially filled with coolant and non-condensable gas on its inner surface connected to the bellows cavity 3 The end wall of the bellows is made in the form of a glass 5 which is mounted on the housing 1 eccentrically. The bellows 3 is placed inside the cavity with Akana 5. The lower casing and forming glass raspblozheny flush eccentricity is offset relative to the housing cup is 0,5 (dCT-dK) where dct inner diameter glass d - inner diameter of the housing 1 yl slab C

Description

This invention relates to heat engineering. namely, heat pipes with a bellows-type moving element designed to move the control body of the controlled object when the temperature of the controlled surface changes

Heat pipes-heat-converters temperature-displacement are known, containing a sealed, partially filled with heat carrier and non-condensable gas body with a bellows in which one end wall is movable and connected to the control member.

However, these heat pipes, due to the larger internal volume, are not fast, which is important from the standpoint of controlling the temperature of the object. With small quantities of steam produced in a large volume, they are inoperable (give small movements

Bellows or moving altogether absent)

Closest to the invention is a heat pipe-heat converter containing a hermetic body, partially filled with heat carrier and non-condensable gas, with a wick on its inner surface, connected to the bellows cavity. the end wall of which is made in the form of a cup eccentrically attached to the body. It has a high response rate due to a smaller internal volume and a smaller amount of fluid accumulating in the bellows.

However, part of the fluid in the horizontal position of the heat converter is still delayed by the corrugations of the bellows (in its lower part), which adversely affects the speed

OBJECT OF THE INVENTION

2

-H 00

4 WITH

This goal is accomplished by the fact that in a heat pipe containing a partially filled with heat carrier and non-condensing gas, a hermetic housing with a wick on its inner surface, connected to a sylph cavity, the end wall of which is made in the form of a cup eccentrically fixed on the body with a sylph placed inside the cavity of the glass, and the lower the bodies of the body and the cup are located at the same level, and the eccentricity of the displacement of the glass relative to the body is 0.5 (dcr-dk), where dcr is the inner diameter of the glass; dK is the inner diameter of the case.

The proposed design eliminates fluid retention by corrugations of the bellows, so that which is above the lowest generatrix of the body and the glass, made at the same level. An eccentricity of 0.5 (dcr-dx) is greater than the known thickness of the bellows corrugations between the cup and the bellows of the bellows and the wall thickness of the cup and the cylindrical part of the body. This makes it possible to increase the speed of heat conversion, since the accumulation of fluid in the bellows part is eliminated.

A comparative analysis with a known heat pipe shows that the proposed heat pipe-heat converter is characterized by the fact that the bellows is located inside the cavity of the cup, with the lower forming bodies of the shell and the cup being at the same level, and the eccentricity of the cup displacement relative to the shell is 0.5 (dCT -dK).

Thus, the proposed heat converter meets the criteria of the invention of novelty.

Comparison of the proposed solution with other technical solutions in this field of technology makes it possible to identify the features that distinguish the proposed solution from the known ones, which allows us to conclude that the criterion meets significant differences.

The drawing shows the proposed heat pipe-heat converter,

The heat pipe contains a hermetic cylindrical body 1 partially filled with coolant and non-condensing gas, with a wick 2 on its inner surface connected to the bellows cavity 3 having a movable

the end face 4 and the fixed end face, made in the form of a cup 5 eccentrically mounted on the housing 1 A bellows 3 is placed inside the cavity of the cup 5, the lower ones

the generators of housing 1 and cup 5 are on the same level, and the eccentricity of displacement of cup 5 relative to housing 1 is 0.5 (dcr-d).

In the movable bottom of the bellows rests the stem 6 of the control body. The wick 2 is located in the evaporation zone 7.

Heat pipe works as follows.

When heat is applied to the evaporation zone

7. Heat and mass transfer is carried out in the pipe with a change in the state of aggregation of the heat transfer medium, at the same time steam displaces the non-condensable gas and compresses it. The pressure in the pipe (with increasing steam temperature) increases and the movable end wall 4 of the bellows 3 moves, moving the control rod 6.

The speed is due to the fact. that as a result of the fixed end wall of the bellows in the form of a cup 5, in which the bellows 3 itself is placed, the accumulation of fluid in the bellows is prevented, which returns to the evaporation zone 7 unhindered.

The proposed heat pipe-heat converter is promising when regulating the temperature conditions of some internal combustion engines (diesel engines) by acting on the flow of fluid or

air that will improve their technical and economic indicators.

Claims (1)

Invention Formulation Heat pipe containing partially a horizontal sealed case filled with a heat carrier and non-condensable gas with a wick on its inner surface connected to the bellows cavity. the end wall of which is made in the form of a cup eccentrically fixed on the body, characterized in that, in order to increase the thermal conversion speed, the bellows is placed inside the cavity of the cup, and the lower generators of the body and the cup are located at the same level, and the eccentricity of the glass displacement relative to the body is 0.5 (dcr-dic), where dot is the internal diameter of the glass, dK is the internal diameter of the body.