SU1079996A1 - Heat pipe - Google Patents

Abstract

1., HEAT PIPE; working on a binary mixture with the addition of an inert gas, containing a vertical casing divided by transverse partitions into a front-mounted cold-storage chamber, a condenser and an absorber, a capillary structure located on the inner surface of the condenser and the REFRIGERATOR chamber, which is only In order to improve efficiency, in the absorber there is additionally installed a heated steam lift pipe with a liquid collector at the upper end, and in the partition between the condenser and the absorber, tsevoe hole connected with the collecting pipe via a ring, which outer wall is made of greater length, - the internal (n-vjso i; o from about:.

Description

2. Pipe POP.1, as distinguished from the fact that, in order to increase operational reliability,

on the lower end of the parlift tube there is a reverse clapboard

The invention relates to heat transfer devices, in particular to heat DLT refrigeration effect pipes.

A device for producing cold is known, comprising an absorber, a condenser, a refrigerating chamber and a main for transporting a high boiling component in the liquid phase using a pair of low boiling components, ij.

The disadvantage of this device. are low absorber efficiency and relatively large size associated with the features of the placement of individual structural components of the device.

The closest to the present invention is a heat pipe operating on a binary mixture with an additive of inert gas, containing a vertical case divided by transverse partitions and regularly located from top to bottom of the refrigerating chamber condenser and absorber, a capillary structure located on the inner surface of the condenser and the refrigerating chamber 2 .

The disadvantage of this heat pipe is relatively low efficiency, due to the complete evaporation in the evaporator of both components of the binary mixture, a pair of one of which (absorbent) is not used directly in the cycle

The purpose of the invention is to increase

ECONOMY.

The goal is achieved by the fact that in a heat pipe running on a binary mixture with an additive of inert gas containing a vertical casing divided by transverse partitions into a river bed located from top to bottom of the refrigerating chamber j condenser and absorber, a capillary structure located on the inner surface of the condenser and the refrigerating chamber , in the absorber, an additional heated perlift tube is installed with a liquid collector at the upper end, and in the partition between the condenser and the absorber, Oval hole; connected to the collector by an annular pipe

the outer wall of which is made longer than the inner.

To increase operational reliability, a check valve can be installed at the lower end of the perlift tube,

The drawing schematically shows a heat pipe, longitudinal section

The pipe includes a housing 1, divided by transverse partitions.

2 and 3 on the front-mounted cold-storage chamber 4, condenser 5 and absorber b, capillary structure 7, located

5 on the inner surface of the condenser 5 and the refrigerating chamber 4, and a heated perlfft tube 8 installed in the absorber 6 with a collection of 9 liquids at the upper end,

3, the partition 3 between the condenser 5 and the absorber 6 has an annular opening 10 connected to the collector 9 by means of an annular nozzle, the outer wall 11 of which is longer than the inner wall 12. The walls 11 and 12 of the annular nozzle form a hydraulic seal in the collector 9. Perlift tube 8 is provided at the lower end with a flap 13. In partitions 2 to 3

0, lifting and descending tubular channels 14 and 15, respectively, are installed, in the absorber 6 there are placed kagallarno-porous nozzles 16, which provide a developed surface

5 mass transfer.

In addition to the binary mixture of low-boiling and high-boiling components ((refrigerant and absorbent, respectively), the heat pipe is filled with light DIM with an inert gas, collection 9 also plays the role of a reflux condenser.

Heat pipe works as follows,. -

When heat is applied to the parlift 5 tube 8 in the binary mixture are formed. refrigerant bubbles, and the end-1x solution solution is reduced. Vapor bubbles pop up entrain the liquid absorbent and lift it into Q 9 collector, in which the concentration of refrigerant, the vapor in steam, and the latter passes through the annular port to condenser 5, where it is compressed and the capillary structure 7 rises into the refrigerating chamber 4, At that time, 3 10799 as a liquid absorbent, the passage through the water seal formed by the wall 11 of the ring nozzle is drained into the absorber 6 by means of capillary-porous nozzles 16. The refrigerant in the refrigerating chamber 4 evaporates at a low temperature and forms an inert gas. th steam-gas mixture, according to Kana-. Lou 15 is lowered into the absorber 6, where it moves upward and enriches the lean solution (absorbent) flowing through the nozzles 16, after which the liquid binary mixture through the check valve 13 enters the lift pipe 8 and the inert gas through channel 64 14 - refrigerating chamber 4, and the cycle is repeated. Valve 13 prevents liquid from escaping into absorber 6 at fluctuations of pressure in parlift tube 8. Due to the fact that only a very small fraction of the absorbent evaporates in this pipe, the efficiency of the heat pipe during the production of cold is significantly increased. Thus, installation of a parlift absorber in the absorber a tube equipped with a reflux condenser in the form of a fluid collector with a water seal allows to increase the efficiency of the heat pipe during the production of cold.

Claims (2)

(34) 1., HEAT PIPE) operating on a binary mixture with the addition of an inert gas, containing a vertical casing, divided by transverse partitions into a half-condenser and absorber, half-top to top, refrigerating chamber, a capillary structure located on the inner surface of the condenser and cooling chamber, due to the fact that, in order to increase efficiency, in the absorber there is additionally installed a heated parlift pipe with a fluid collector at the upper end, and in the partition between the condenser and the absorber an annular hole is made with a ber, connected to the collector by means of an annular nozzle, the outer wall of which is made of a greater length than the inner one. " 2. The pipe according to claim 1, characterized in that, in order to increase operational reliability, a check valve is installed at the lower end of the parlift tube.