SU901800A2 - Heat pipe - Google Patents

Description

(5) HEAT PIPE

Claims (1)

The invention relates to heat engineering, in particular to heat pipes. According to the main author. St. A heat pipe is known, containing a evaporator and a condenser located under it, connected by a transport section, on which a condensate stack is installed, located under the evaporator. In this case, the transport section is provided with an auxiliary condenser placed under the condensate collector, which is connected to the evaporator by means of a siphon, the pipe further containing a tank located under the auxiliary condenser and connected to the lower part of the main condenser tl3. However, the known heat pipe is not reliable enough in operation. The purpose of the invention is to increase operational reliability. This goal is achieved by the fact that the siphon is connected to the condensate collector in its lower part and is supplied with a hydraulic lock in this area. The drawing shows a heat pipe, a longitudinal section. . The heat pipe contains an evaporator 1 and a condenser 2 located below it, connected by a transport section 3, on which a condensate collector k is installed, located above the evaporator 1. Above the evaporator 1 is an auxiliary condenser 5, while the condensate collector is connected in its lower part to a siphon 6, having a hydraulic lock 7, and connected through a condenser 2c by a reservoir 8 located above the auxiliary condenser 5. The heat pipe works as follows. Before starting the pipe, the condensate takes up such a position that the evaporator 1 is filled with condensate, while the siphon tube 6 is open to allow steam to pass through. When heat is supplied to the evaporator 1, the condensate begins to evaporate, the vapor pressure is in; It increases and exceeds the vapor pressure in tank 8, as a result of which condensate is displaced by steam from condensate collector k, tpaHcnopTHoro section 3 and condenser 2 to tank 8. After displacing the coolant from the condensate collector, partial condensation occurs in the siphon 6 couple. In this case, the condensate, filled with the hydraulic shutter 7, begins to block the path of further steam supply from the evaporator 1 through the siphon 6, i.e. Due to the presence of the shutter 7, the vapor overheated in the evaporator 1 does not flow into the condensate collector k and the heating of the condensate with heated steam does not occur. Thus, the proposed implementation of the heat pipe prevents the superheated steam from the evaporator 1 from entering the condensate collector k at the moment of return of the coolant to the evaporator 1, eliminates additional heating of the condensate, significantly shortens the return period of the coolant 1, and significantly improves the operational reliability of the pipe . The invention formula Heat pipe according to ed. St. No. 726409, characterized in that, in order to increase operational performance, the siphon is connected to the conde collector (in its lower part and on this section is fitted with a hydraulic lock. Information sources taken into account during the examination 1. USSR author's certificate N 726it09, CL F 28 D 15/00, 1977. 1 GTTT g