SU920419A1 - Method of checking fluid-tightness of thermal siphons - Google Patents

Description

(54) METHOD FOR CONTROLLING THE THERMOSIFONS TIGHTNESS

one

The invention relates to leak testing of thermosyphons and heat pipes.

A known method for testing the tightness of heat pipes and thermosyphons, which consists in blowing the surface of a thermosyphon with a jet of gels, connecting its cavity to a mass spectrometric leak detector, and judging by the penetration of gels 1.

The known method does not allow to determine the tightness of the thermosyphon in the filled state, since its cavity must be connected to the mass spectrometer.

The closest to the technical nature of this invention is a method of monitoring the tightness of thermosyphons or heat pipes, which consists in creating thermal perturbation of the heat carrier of the thermosyphon, and the integrity is judged by the temperature change on the surface of the latter.

The disadvantage of this method is the impossibility; control of thermosyphons assembled with semiconductor devices.

that is, complete disassembly of this unit is necessary to measure the temperature on the surface of a thermosyphon.

The purpose of the invention is to provide control of thermosyphons assembled with semiconductor devices.

The goal is achieved by the fact that in the method of monitoring the tightness of thermosyphons, which consists in creating thermal perturbation of the heat carrier of the thermo siphon, and judging the tightness by changing the temperature on the surface of the latter, using an element with high thermal conductivity, it is heated to the boiling point of the coolant, set the element on the free surface evaporate 15 l of thermosyphon and the temperature of the contact surface of the element is measured, by which the temperature on the surface is measured. Osifona.

The drawing shows a diagram of a device for implementing a method for monitoring the tightness of thermosyphons.

The device contains a heater 1 with element 2 with high thermal conductivity installed on the free surface

the evaporator of thermosyphon 3 assembled with power semiconductors 4. Thermocouple 5 is installed on the contacting surface of element 2.

Heater 1 is connected to a regulated voltage source 6. The display device 7 captures the output signal.

The method is carried out as follows.

They create thermal perturbation of the thermosyphon coolant.

Element 1 is heated to the boiling point of the coolant, maintaining a constant heat output of the heater. Element 2 is placed on the free surface of the thermosyphon evaporator, then the temperature is measured with a thermocouple. on the contact surface of the thermosyphon element 2, the change in which is judged on the tightness of the thermosyphon. The magnitude of the thermal resistance of the contact surfaces of the element 2 - the evaporator - is selected taking into account the ambient temperature, from the condition of ensuring sufficient sensitivity and the minimum measurement time.

The method provides operational monitoring of the tightness of thermosyphons without disassembling the converter units and

the use of special stands, as well as significantly improves test performance.

Claims (2)

1. Dan P. and Rey D. Heatpipes M., “Energie, 1979, p. 131 2. Dan P. and Ray D. Heat pipes M “Energie, 1979, p. 157 (prototype).