SU943515A1 - Heat pipe - Google Patents

Description

(5) HEAT PIPE

Claims (3)

1 The invention relates to a technique of heat transfer and can be used as various heat exchangers in the industrial energy, chemical, radio microbiological and other industries. A heat pipe with evaporation and condensation zones is known, comprising a housing with adjacent sections of different cross sections, the larger of which serves as a condensation zone, and the perforated insert Cl} located in this zone. A disadvantage of the known pipe is the low heat transfer capacity. The purpose of the invention is to increase the heat transfer capacity by separating steam from the liquid in front of the condensation zone. The goal is achieved by the fact that the pipe additionally contains a permanently installed screw insert, the end of the smaller section, adjacent to the condensation zone, has a socket, and the perforated insert is made in the form of a truncated cone located specularly, forming a cavity with it, in which the screw insert is located, the latter being made with turns of varying height, varying according to the shape of the cavity. The condensation zone is equipped with cooling coils located on its periphery. Figure 1 shows a heat pipe; in fig. 2 is a section A-A in FIG. A heat pipe with evaporation zones 1 and condensation 2 contains a housing with adjacent sections of different cross sections, the larger of which serves as condensation zone 2, and the perforated insert 3 located in this zone, the pipe also contains a fixedly installed auger insert k end of section 5 less 3St This section, adjacent to the condensation zone 2, has a bell 6, and the perforated insert 3 is made in the form of a mirror-shaped bell 6 with a studded cone, forming with it a cavity 7 in which the screw is mounted An avka 4, screw insert k is made with coils 8 of variable height, varying in accordance with the shape of cavity 7, and condensation zone 2 is equipped with cooling coils E located on its periphery. The perforations 10 are located in the lower part of the insert 3. The pipe is filled with coolant 11.. The heat pipe works as follows. The heat flow that must be removed is supplied to the evaporation zone of the heat pipe and transferred through the pipe wall to the coolant 11, which boils at the same time. When boiling up, vapor-liquid flow from the evaporation zone 1 occurs due to the steam lift effect, hit the screw insert, the liquid is blown to the walls of the cavity 7, from where the swirling liquid film flows to the evaporation zone 1 along the inner surface of section 5 of the smaller section, A pair, separated from the liquid, it comes out of the perforated insert 3 and condenses on the outer surface of the cooling coils 9 located on the periphery of the condensation zone 2, which is a sort of collection container. The condensate formed flows through the perforations 10 of the conical insert 3 onto the inner surface of the socket 6. The economic effect of the proposed heat pipe is to increase the heat transfer capacity by separating steam from the liquid before the condensation zone. Claim 1, a heat pipe with zones of evaporation and condensation, comprising a shell with adjacent sections of different cross sections, of which serves as a condensation zone, and a perforated insert located in this zone, characterized in that, in order to increase heat transfer capacity by separating the vapor from the liquid in front of the condensation zone, the pipe further comprises a permanently mounted screw insert, the end of the smaller section, adjacent to the condensation zone, has a socket, and the perforated the insert is placed in the form of a truncated cone mirror funnel, forming with it a cavity in which the insert is received shnekovo. 2. A tube according to claim 1, wherein the screw insert is made with turns of varying height, varying in accordance with the shape of the cavity. 3. A pipe according to claim 1, wherein the condensation zone is provided with cooling coils located at its periphery. Sources of information taken into account during the examination 1. USSR certificate W 552500, cl. F 28 D 15/00, 1975.