SU787875A1 - Heat transfer apparatus - Google Patents

Description

The invention relates to heat pipes and can be used in heat engineering. Heat transfer devices are known that contain a heat pipe with evaporation and condensation zones, the first of which is equipped with a capillary tube. structure, and the last - a compensating tank, a transverse partition with valves located at the end of the condensation zone, and a condensate line installed between the zones and connected to the tank 1. A disadvantage of the known devices is the unstable operation of the evaporation zone. Due to the fact that in the evaporation zone, the entire volume is filled with pill-porous material, premature evaporation of the latter is possible, leading to high thermal resistance, which reduces the heat flow, and the liquid heat carrier (condensate) returns to the evaporator / It is only due to the capillary forces of the capillary-porous material. The purpose of the invention is to stabilize the operation of the evaporation zone. The goal is achieved by the fact that the device contains an additional heat pipe, the condensation zone of which is made in the form of a bellows located inside the tank, and to compensate for the tank capacity adjacent to the end of the evaporation zone of the main tube and communicating with it through the capillary structure - using a condensate line. The drawing shows the proposed device. The heat transfer device includes a main heat pipe 1, an additional heat pipe 2. The heat pipe 1 contains an evaporation zone 3 equipped with a capillary structure 4, and a condensation zone 5 equipped with a main compensating tank 6 and a transverse partition 7 with a valve 8, a compensating tank 9 and a condensate line 10, partition 11. The Vipline pipe 2 contains a condensation zone 12 in the form of a bellows located inside the tank 6, an evaporation zone 13 located outside the pipe 1. The heat transfer device operates as follows ohm When you turn on the heat pipe -2 in operation, the bellows 12 expands et-, c and pushes the heat-transfer fluid out of the compensating tank 6 through

Claims (1)

The formula of the invention, the condensate line 10 into the compensating tank 9. Through the capillary-porous structure 4, the liquid flows into the evaporation zone. In this case, the main heat pipe 1 begins to work; the damper evaporating in zone 3 condenses in aeon 5 and accumulates. here. When the heat supply to the evaporation zone 13 of the heat pipe 2 is stopped, the bellows 12 is reduced, the liquid is drawn from the condensation zone through the valves 8 into the compensating tank 6. The additional heat pipe 2 is turned on again and the cycle repeats. The compensating capacity 9 of the main heat pipe 1 has a volume calculated for the stock of liquid coolant for one cycle of the device. Additional heat pipe 2 serves not only to transfer heat (auxiliary function), but also to create a time-variable pressure, which allows the heat carrier to be pumped into the evaporation zone of the main heat pipe. The use of a coolant in an additional pipe with a boiling point below the boiling point of the coolant of the main heat pipe allows the use of a low-power heat source using oscillations A heat transfer device comprising a heat pipe with evaporation and condensation zones, the first of which is equipped with a capillary structure, and the last is a compensating tank, a transverse partition with valves located at the end of the condensation zone, and a condensate pipe installed between the zones and connected to the tank, characterized in that, in order to stabilize the operation of the evaporation zone, the device contains additional heat pipe, the condensation zone of which is made in the form of a bellows located inside the tank, and compensates conductive container adjacent to the end of the evaporation zone main conduit and communicating with it by the capillary structure, and the main-tank via condensate.