SU1476296A1 - Heating device - Google Patents

Abstract

The invention relates to heat engineering and allows modeling of heat fluxes diverted from power semiconductor devices during heat sink tests. The heat pipe 1 contains zones 2 and 3 of evaporation and condensation, in zone 2 a heating element 4 is installed, and in zone 3 a sleeve 5, made of fuel conducting material, is in contact with the outer surface of the pipe at least part of its perimeter. The sleeve on one of the sides has a flat heat removal zone 6 and is symmetric about the axis or plane passing through the pipe axis perpendicular to the surface of zone 6. The sleeve is formed by layers 7 and 8 of materials with different thermal conductivities, with successive alternation of layers as they move away from axis or plane of symmetry of the sleeve. With this design, a given distribution of ts is achieved, which simulates the corresponding distribution in the power semiconductor device when the zone 6 contacts the heat sink under test. 2 Il.

Description

This invention relates to heat engineering, in particular to equipment for testing heat sinks.

The purpose of the invention is to provide a simulation of heat fluxes discharged from power semiconductor devices during heat sink tests.

FIG. 1 shows a longitudinal section of a heating device with an end arrangement of the sleeve; in fig. 2 - the same, with the side arrangement of the sleeve.

The heating device contains a heat pipe 1 with zones 2 and 3 of evaporation and condensation, respectively, in zone 2 an electric heater 4 is installed, and in zone 3 there is a sleeve 5 covering the pipe 1 outside and having a flat heat removal zone 6 for contacting with the heat sink under test . The sleeve 5 may have an axis of symmetry (Fig. 1) or a plane of symmetry (Fig. 2) and is made of layers 7 and 8 of materials with different thermal conductivities alternating successively with distance from the axis or plane of symmetry of the sleeve 5. The heat pipe 1 has a wick inside 9 and, together with the sleeve 5, is externally coated with thermal insulation 10. The heat removal zone 6 of the sleeve 5 is equipped with thermocouples 11. The device is also equipped with an element 12 for pressing it against the heat sink under test.

The device works as follows.

When the electric heater 4 is turned on, the heat pipe transfers the heat flow to the sleeve bivi due to the presence of layers 7 and 8 of materials with different thermal conductivities.

Claims (1)

Invention Formula five 0 A heating device containing a heat pipe with evaporation and condensation zones, in the first of which there is a heating element, and in the second - a sleeve made of heat-conducting material, in contact with the outer surface of the pipe at least part of its perimeter and having on one of the sides removal of heat flux, characterized in that, in order to ensure the simulation of heat fluxes diverted from power semiconductor devices during testing of heat sinks, the sleeve is made 5 with a flat zone and heat and symmetrical with respect to an axis or plane extending through the pipe axis perpendicularly to the surface of the heat removal zone, and thus is formed by several layers of materials having different thermal conductivity, with successive alternating layers as the distance from the axis or plane of symmetry of the sleeve. one ten 0 Clamping device