SU929986A1 - Heat pipe - Google Patents

Description

The invention relates to heat transfer devices.

A heat pipe is known that contains a sealed enclosure partially filled with coolant and non-condensable gas with evaporation and condensation zones, the last of which has a window in the end wall of the enclosure that is closed by a glass inserted into the enclosure and made in the bottom area of a material permeable to non-condensable gas til.

The disadvantage of this pipe is the instability of the characteristics when it starts from a state with a solid coolant, which is due to the possibility of recondensation of a significant part of the coolant from the evaporation zone to the condensation zone until the time when the coolant in the last zone passes into a liquid state.

The purpose of the invention is to obtain stable characteristics of the pipe when starting it from its state with a solid coolant.

This goal is achieved by ensuring that the rest of the glass is made of a material that is not permeable to non-condensable gas ⁵ .

In addition, to expand the scope of the pipe, a part of the glass made of impermeable to non-condensable gas - material, may be in the form of a bellows.

In FIG. 1 shows a heat pipe, a longitudinal section; in FIG. 2 - a fragment of the cross section of the pipe, in which the glass has a bellows section.

The heat pipe contains a housing 1 with zones 2 and 3 of evaporation and condensation, respectively, and a wick 4 on its inner surface. In the end wall of the housing 1 in the condensation zone 3, a window 5 is made, closed by a glass 6, a portion 7 of which in the bottom zone is made of a material permeable to molecules non-condensing3 929986 gas, the rest of the glass 6 is made of a material not permeable to non-condensing gas, moreover, this part can be made in the form of a bellows 8, and the cup 6 in this case is equipped with a drive 9 of the unit 1, from a material impermeable to non-condensable gas, provides stable characteristics of the pipe when it starts from the state with solid heat carrier.

to move and adjust the position of its bottom.

The heat pipe works as follows.

When supplying and removing heat in zones 2 and 3 of evaporation and condensation, heat and mass transfer between these aeons occurs with a change in the state of aggregation of the coolant. When non-condensable gas is released inside the pipe (as a result of, for example, slow chemical reactions), part of this gas leaves the cavity of the heat pipe through section 7 of glass 6 and then through window 5, while the gas and vapor boundary moving in the direction of the housing end 1 in the zone 3 of condensation, it stops at the junction of section 7 with the remaining 25 part of the glass 6. Thus, in the cavity of the heat pipe there is always a certain amount of non-condensable gas necessary to maintain stable characteristics of the pipes when it starting from a state with a solid heat carrier. To regulate the amount of gas, the cup portion 7 can be axially moved using the actuator 9 and _{35 of the} bellows 8.

Therefore, the implementation of the section of the glass 6 adjacent to the end face of the core

Claims (2)

(5) HEAT PIPE The invention relates to heat transfer devices. A heat pipe is known that contains a hermetic body partially filled with heat carrier and non-condensable gas with evaporation and condensation zones, in the latter of which a window is closed in the end wall of the body, made in the area of the bottom from a material permeable to non-condensing gas tl . The disadvantage of this pipe is the instability of the characteristics when it is started up from the state of solid coolant, which is due to the possibility of recondensation of a significant part of the coolant from the evaporation zone to the condensation zone until the time when the coolant in the last zone goes into a liquid state. stable characteristics of the pipe when it is started up from a state with a solid coolant. This goal is achieved by the fact that the rest of the glass is made of a material that is not permeable to the non-condensable gas. In addition, in order to expand the field of application of a pipe, a portion of a glass made of a gas material which is not permeable to non-condensable gas may be in the form of a bellows. FIG. 1 shows a heat pipe, a longitudinal section; in fig. 2 - a fragment of a pipe section in which the glass has a bellows section. The heat pipe contains a housing 1 with zones 2 and 3 of evaporation and condensation, respectively, and a wick on its inner surface. A window 5 is made in the end wall of the housing 1 in the condensation zone 3, closed by a bowl 6, the portion 7 of which is made in the bottom zone of a material permeable to molecules of non-condensing gas, the rest of the glass 6 is made of a material that is not permeable to non-condensing gas, and this part can be made in the form of a bellows 8, and the glass 6 in this case is equipped with a drive 9 for moving and regulating vani poli its bottoms. Heat pipe works as follows. When heat is supplied and removed in zones 2 and 3 of evaporation and condensation, heat and mass transfer between these zones is carried out with a change in the state of aggregation of the coolant. When a non-condensing gas is released inside the pipe (as a result, nap {imer, slow chemical reactions), a part of this gas leaves the heat pipe cavity through section 7 of cup 6 and then through window 5, while the gas-vapor boundary moves in the direction of the end of the body 1 in the condensation zone 3, stops in the zone of the junction of the section 7 with the rest of the glass 6. Thus, in the cavity of the heat pipe there is always a certain amount of non-condensing gas needed. . -,, -. „To maintain the stable characteristics of the pipe when it starts up from the state with a solid heat carrier. To regulate the amount of gas, the gas station section 7 can be moved in the axial direction by means of the actuator 9 and the bellows 8. Therefore, making the glass section 6 adjacent to the end of the housing 1 from a material that is not permeable to non-condensable gas ensures It starts up with solid heat carrier. Claim 1. Heat pipe containing partially filled with coolant and non-condensable gas sealed enclosure with evaporation and condensation zones, in the latter of which a window is inserted in the end wall of the housing closed with a glass inserted into the housing that is permeable to non-condensing gas characterized in that, in order to obtain stable characteristics of the pipe when starting up from a state with a solid heat carrier, the rest of the / cup is made of a material not Nitzan for nekondensiruyuschegos gas. 2. A pipe according to claim 1, characterized in that, in order to expand the field of use, the part made of a material which is not permeable to a non-condensable gas has the shape of a bellows. Sources of information taken into account during the examination 1 "USSR Author's Certificate N ° 631771, cl. F 28 D 15/00. 1977. ) YY /}} 7GA g: -,. I