SU798466A1 - Termosiphon - Google Patents

Description

(54) THERMOSIFON

This invention relates to controllable heat pipes, a working telesad kotarak. is a dielectric liquid and can be used in the system of evaporative cooling of electronic and high-voltage equipment. A thermosyphon is known, comprising a housing with condensation and evaporation zones, in the latter of which there is an insert forming a gap with the walls of the housing and a current source connected by one pole to the housing in the evaporation zone and the other to the insert. The insert is made hollow, perforated at the end located in the vapor line. and with entrance windows on the opposite end, located / in the condensation zone. The regulation of heat transfer is carried out by varying the intensity of the electric field in the interelectrode gap. The drawbacks of the device are perforated; the insert is not optimally located relative to the heating surface and forms a fixed gap that does not change during the operation of the thermosyphon. The aim of the invention is to expand the range of thermal resistance. This goal is achieved in that the insert is made of two identical sections, installed with the possibility of movement in the transverse direction and interconnected by bimetallic plates. Bimetallic plates are made -shaped and their ends are attached to the upper or lower codes of the insert sections. The insert is connected to a current source through at least one of the bimetallic plates. The drawing schematically shows a thermosyphon with flat side walls, a longitudinal section. The thermosyphon comprises a housing 1 with evaporation and condensation zones 2.3, respectively. In the evaporation zone 2, an insert is placed in the form of two identical sections 4 and 5, installed with a gap of 6, relative to the walls of the housing 1 and connected 6 and K1 decoupling 7.8 U-shaped plates that can be moved in the transverse direction. Bimetaptic plates 7,8 are attached to the upper or lower ends of the insertion sections 4.5. Case 1 in zone 2 of evaporation is connected to the same pole of the current source, and the insert through the bimetallic plate 7 and high-voltage input 9 to the alternating pole of the current source. The housing 1 is separated by a dielectric insert 10.

Thermosyphon, works as follows.

High voltage from a single current source through a high-voltage input 9 and bimetallic; plate 7 is fed to sec 4 and S inserts. The other pole of the current source is connected to the housing 1 in the evaporation zone 2. When operating the device at low thermal loads, sections 4 and 5 are set to the position at which they form a slit gap 6 with a heating surface in the size of the tear-off diameter of the vapor bubble. The intensification of heat transfer in this case is due to the intense transfer of heat through the microlayer liquid at the base of the large parsysheid spheroids formed and due to the eectroconvective mixing of the two-phase medium. When the heat shrinks (the rise in temperature leads to the fact that the bimetallic plates 7 and 8, bending, increase the gap gap 6, which prevents the time-dependent onset of the heat transfer crisis.

Thus, the heat transfer characteristics of the thermosyphon are regulated by changing the gap between the insert and the device case and the change in the intensity of the electric field.

The advantage of the proposed design is that it allows to obtain a wider range of regulation of thermal resistance.

Claims (3)

1. A thermosyphon comprising a case c;) us of condensation and evaporation, in the latter of which there is an insert forming a gap with the walls of the case and a current source connected by one pole to the case in the evaporation zone and the other to the insert, in that In order to expand the limits of thermal resistance control, the insert is made of two identical sections, which are mounted with the possibility of moving the wheels into. transverse directions and interconnected bimetallic plates. 2. A thermosyphon according to claim 1, in accordance with claim 1, so that the bimetallic plates are U-shaped and their ends are attached to the upper or lower ends of the insert sections. 3. The thermosyphon of claim 1, wherein the insert is connected to the current source through at least one of the bimetallic plates. Sources of information taken into account in the examination 1. USSR author's certificate No. 536389, cl. F28D15 / 00, 1974.