SU1326868A1 - Heat pipe testing stand - Google Patents

Abstract

The invention allows to simplify the design and reduce the dimensions of the stand. The 6-meter tank 4 is made in the form of a funnel with a tube passing along the axis of the tank 4, communicated with it through the holes in the lower part and connected to the drain tank 2. The tube is filled in the form of a coaxial thermosyphon 7, taken out of the tank 4 and on this An auxiliary circulation circuit 9 located in the heat exchanger 8 is installed. The temperature of the heat transfer medium is controlled by its contact with the thermosyphon 7. The fins of the thermosyphon helps to calm the flow of the heat transfer medium. 1 hp f-ly, 1 ill.

Description

The invention relates to heat engineering, namely to test apparatus for heat transfer devices.

The aim of the invention is to simplify the design and reduce the size.

The drawing shows the layout of the stand.

The stand contains the drainage .2 and 3 consumable tanks installed in circuit 1 of the coolant, inside the last of which is placed a measuring tank 4 enclosed in a shell 5 with a lid 6, to which a coaxial thermosyphon 7 is located, placed along the axis of the measuring tank 4 and exchanged at the bottom end, the thermosiphon 7 is equipped with a heat exchanger 8, included in the auxiliary circulation circuit 9 with a thermostat atom 10, between the shell 5 and the measuring tank 4 there is a transition chamber 11 connected by pipeline 12 with a drain tank 2, which is also connected to the channel 13 formed by the inner wall of the thermosyphon 7. In the circuit 1 there is a pump 14, a throttle 15 and a heat exchanger 16 of the condensation zone 17 of the heat pipe 18 connected to the supply tank 3 and also the valve 19. The pipe 18 is equipped with a heater 20 and thermocouples 21-23, the valve 24 serves to connect the supply tank 3 with Atmosphere / Blocks 25 and 26 of photometric control of the liquid level are installed at the sugene ends of the measuring tank 4. The channel 13 through the holes 27 communicates with the measuring tank 4, the Chamber 11 has slotted channels 28 in the contact zone of the tank 4 and the shell 5, Thermosiphon 7 can be gas-regulated and have

Editor T. Lazorenko

Compiled by A. Lobanov

Tehred V.Kadar Proofreader T.Kolb

Order 3268/34 Draw 611 Subscription

BNIIPI USSR State Committee

for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5

Production and printing company, Uzhgorod, st. Project, 4

fins both external and internal (not shown).

The stand works as follows. When the pump 14 is operated, the coolant from the heat exchanger 16 enters the supply tank 3 and then into the channel 13 and into the mercury tank 4 (with the valve 19 closed), after filling

poured over its upper end into chamber 11 and further into drain tank 2. Then the cycle is repeated,.,. In another mode of operation (with valve 19 open), the heat sink from channel 13 immediately goes into drain tank 2 "The temperature mode of the heat carrier is regulated contact with the thermosyphon 7. The thermosyphon fins 7 helps to calm the heat carrier flow.

Claims (2)

Formula invented and. 1, Test stand for heat pipes, which are installed in the circulation circuit of the heat carrier drain and supply tanks, inside the latter of which is placed a tank enclosed in a shell with a funnel cap fitted with a tube passing along the axis of the measuring tank communicated with it through openings in the lower part and connected to the drain tank, as well as an auxiliary circulation circuit with a heat exchanger and a thermostat, making it possible, in order to simplify the design and downsize, the tube is made in the form of coaxial th thermosyphon, emitted from the bottom beyond the boundaries of the measuring tank and on this site located in the heat exchanger of the auxiliary circuit. 2. The stand pop, 1, is distinguished by the fact that the thermosiphon is gas-regulated.