SU1125462A1 - Heat-transfer pipe - Google Patents

Abstract

1. A HEAT PIPE containing a gas reservoir and a condenser and an evaporator connected by means of steam and condensate lines, the last of which has a capillary-porous filler with an axial channel, into which a condensate line is inserted, which has perforations in this area, characterized in that the purpose of intensification of heat transfer and the possibility of cooling several objects at the same time, the latter are located in a gas tank connected to an evaporator and a condenser by means of pipelines and equipped with on the side of the condenser, a device for the forced circulation of gas; in this case, the condenser is divided by a perforated longitudinal partition into two upper layers of which measure, a screw is installed, and the filler is equipped with gas-tight lids with perforation at the ends coinciding with the vapor channels of the filler, 2. Pipe 110 p.1 , differs from the fact that the paropy filler channels have a semicircular profile and are arranged in a spiral. 3. A pipe according to Claim 1, characterized in that, with whole ups (for filling the heat pipe with heat carrier, the lower chamber of the condenser is provided with a filling nozzle.

Description

1 The invention relates to heat engineering and can be used in heat exchangers. The known heat pipe contains an evaporator and a condenser connected by means of vapor and condensate of the ducts, the first of which contains a capillary-porous filler with an axial channel and longitudinal vapor-like channels quenched from the end. Ij The disadvantages of this pipe are the need to evacuate its cavity during manufacture, not high { heat transfer capacity and failure rate due to the accumulation of non-condensable gases. Also known is a heat pipe containing a gas tank and a condenser and an evaporator connected by means of vapor and condensate lines, the latter of which has a capillary-porous filler with an axial channel, into which a condensate line is inserted, having jZl perforation in this area. The disadvantages of the well-known pipe are the low heat transfer capacity, the failure of the pipeline when non-condensing gases are formed in the pipe during its operation, and the possibility of cooling only one object. The purpose of the invention is the intensification of heat transfer and the possibility of cooling simultaneously several objects. This goal is achieved by the fact that in a heat pipe containing a gas reservoir and connected by means of steam and condensate lines a condenser and an evaporator, the last of which has a capillary-porous filler with an axial channel, into which a condensate line is inserted, having perforations in this area, Additional cooling objects are located in a gas tank connected to the evaporator and condenser through pipelines and equipped with a forced gas circulation device on the condenser side. capacitor is divided perforated longitudinal partition into two chambers of which the upper set screw, and the filler is provided with a gastight .torTsov krshkami perforated, sov622 incident with steam channels filler Thus steam feeds filler have a semicircular profile, and arranged in a spiral. The bottom chamber of the condenser is equipped with a charging nipple. Figure 1 presents the proposed heat pipe, General view; figure 2 - section aa in figure 1. Heat pipes contain a gas tank 1 and connected via steam and condensate lines 2 and 3, respectively, condenser 4 and evaporator 5, the latter of which has a capillary-porous filler 6 with an axial channel 7, into which a condensate line having rm is introduced. This section is a perforation 8. In the gas tank 1 additional cooling objects 9 and a device 10 for forced circulation of gas are placed. When this tank 1 is connected to the evaporator 5 and the condenser 4 through pipelines 11, the condenser 4 is divided by a perforated longitudinal partition 12 into two chambers 13 and 14, in the top of which, chamber 14, auger 5 is installed, and the filler 6 is provided with gas-tight covers 16 at the ends with perforation 17 coinciding with the steam channels 18 of the filler 6, which, in turn, are arranged in a spiral and have a semicircular profile. For simplicity, filling the heat pipe with a heat transfer medium, the lower chamber 13 of the condenser is equipped with a filling nozzle 19. The proposed heat pipe works as follows. At the beginning of operation of the heat pipe, the device 10 is turned on. The gas flow blows the additional cooling objects 9 located in the tank 1, cools them, and enters the evaporator manifold 5, where, thanks to the channels 8, is evenly distributed through the steam channels 18, in which it cools, giving off heat to the incoming on the evaporation of the coolant. The resulting vapor-gas flow rises into the upper chamber 14 of the condenser 4, where the steam is condensed, and the condensate formed through the perforations in the longitudinal partition flows into the lower chamber 13, from where again through the condensate line 3

3 .1 1254624

The invention allows to increase 5, and the cooled and separated heat transfer capacity of the heat-gas stream returns to the standpipe and increases the number of voir 1, cooling objects.

Claims (3)

1. A HEAT PIPE containing a gas tank and connected by means of steam and condensate pipelines, a condenser and an evaporator, the last of which has a capillary-porous filler with an axial channel into which a condensate pipe is introduced having perforation in this section, characterized in that, for the purpose of intensification heat transfer and providing the possibility of cooling several objects at the same time, the latter are located in a gas tank connected to the evaporator, condenser and condenser by means of pipelines and equipped with condenser oons are forced gas circulating devices; in this case, the capacitor is divided by a perforated longitudinal partition into two chambers, a screw is installed in the upper one, and the filler is equipped with gas-tight covers at the ends with perforation matching the vapor channels of the filler. 2. The pipe in π. 1, characterized in that the vapor channels of the filler have a semicircular profile and are arranged in a spiral. 3. The pipe according to claim 1, characterized in that, in order to simplify the filling of the heat pipe with a coolant, the lower condenser chamber is equipped with a filling nozzle.