RU2214701C2 - Cooler for radio electron hardware - Google Patents

Abstract

FIELD: radio electronics, cooling of elements of radio electron hardware operating under thermal cycling. SUBSTANCE: intensification of cooling process and hardening of fusible filling agents during interrupted operation of radio element are carried out by means of thermoelectric battery. Cooler for radio electron hardware includes thin-walled metal vessel divided by metal partitions placed in parallel to plane of arrangement of cooled radio elements into isolated compartments filled with fusible filling agents with different melting points. Melting point of filling agents grows towards plane of installation of cooled radio elements. First junction of thermoelectric battery is brazed to plane of metal vessel opposite to arrangement of cooled radio elements, second junction of battery is brought into thermal contact with heat-sink. Source of electric energy is employed to supply power to thermoelectric battery. EFFECT: elimination of restrictions for length of pause in operation of radio element. 1 dwg

Description

 The invention relates to electronic equipment, in particular to the cooling of electronic equipment, and can be used to cool elements of electronic equipment operating under cyclic thermal effects.

 The prototype of the invention is the device described in [1]. The device contains a hollow metal base for placing cooled radio elements filled with a melting filler, the base is equipped with metal partitions installed parallel to the plane of installation of the cooled elements and dividing its internal cavity into isolated compartments filled with melting fillers with different melting points and arranged in order of increasing melting temperatures of their melting fillers in the direction of the installation plane of the cooled radio element in. When operating radioelements, the bulk of the heat dissipated by them is absorbed due to the latent heat of fusion of the filler. After the end of the operation of the radio elements, the filler cools and solidifies due to heat exchange with the environment.

 A feature of this type of cooling device is the significant prevalence of the break between switching on the radio elements over the operating time of the radio elements in the "peak" mode, which is a significant drawback if it is necessary to remove heat from the radio elements with an insignificant interruption time.

 To eliminate this drawback, a device is proposed, the design of which is shown in the drawing.

 The device consists of a thin-walled metal container 1, separated by metal partitions 2, located parallel to the plane of placement of the cooled radioelements 3, into insulated compartments filled with melting fillers 4 with different melting points. The melting point of the fillers 4 increases in the direction of the plane of installation of the cooled radio elements 3. To the plane of the metal container 1, opposite to the placement of the cooled radio elements 3, the first thermoelectric battery 5 is soldered, the second one is brought into thermal contact with the radiator 6. To power the thermoelectric battery 5 uses an electric power source 7.

 The device operates as follows.

 The heat coming from the radio element 3 is transferred to the metal tank 1 and through the contact surface of the melting filler 4. Then, at the same time, the filler 4 is heated to the melting temperature and the melting process. The temperature of the shell of the metal container 1 and, accordingly, of the radio element 3 will not increase significantly compared with the melting temperature of the filler 4, located in the uppermost compartment, while both phases exist (solid and liquid). After the end of the cycle of operation of the radio element 3, the filler 4 cools and solidifies due to heat removal by the thermoelectric battery 5. In this case, the solidification time of the filler 4 is reduced by increasing the heat sink intensity. Heat removal from the second fuel junction of the thermoelectric battery into the environment is carried out by the radiator 6.

Sourse of information
1. USSR copyright certificate 1148063, cl. H 01 L 23/42, 1985.

Claims (1)

 An electronic equipment cooler containing a hollow metal base for accommodating cooled radioelements, equipped with metal partitions mounted parallel to the installation plane of the cooled radioelements and dividing its internal cavity into isolated compartments filled with melting fillers with different melting points and arranged in order of increasing melting temperatures of their melting fillers in direction to the plane of installation of the cooled radio elements, about Leach in that the plane of the metal container, opposite the placement of radioactive cooled, its first soldered junction thermoelectric battery, reduced their second junction in thermal contact with a radiator, which is powered by a source of electrical energy.