SU1174687A1 - Thermoelectric cooler - Google Patents

Abstract

1. A THERMOELECTRIC COOLER containing central and electrically insulated auxiliary thermoelements from it with hot and cold joints, characterized in that, in order to increase the cooling capacity, auxiliary thermoelements are installed in the thermal contact of their cold junctions with the side surfaces of the central thermoelement perpendicular to the last and at a distance from the cold gap of the central thermoelement of 0.35-0.45 of the height of this thermoelement. 2. A cooler according to claim 1, characterized in that all thermoelements are made with a thickness equal to 0.15 to 0.21 of their height. & (L 4: 05 00

Description

The invention relates to refrigeration engineering, in particular, to thermoelectric cooling, by it devices designed primarily for cooling infrared radiation receivers and microelectronic devices.

The purpose of the invention is to increase the cooling capacity.

The drawing shows schematically a thermoelectric cooler.

The device contains a central thermoelement, auxiliary thermoelements and a composite heat sink. The central thermoelement has 1 n-type branch, 2 p-type branch and switching plate 3. Each of the auxiliary thermoelements contains respectively: 4 n-type branch, 5 p-type branch, and switching plate 6. The side surfaces of the central thermoelement, being in direct thermal contact with auxiliary thermoelements, they are separated from the latter by a thin layer 7 of electrically insulating glue, which has good thermal conductivity. The composite heat sink contains a common base 8 and columns 10 electrolyzed from it by a layer 9 of heat-conducting ceramics. An electrically conducting jumper 11 connects the electrically branch 1 of the central thermoelectric element with branch 5 of the left auxiliary thermoelement. The same jumper (not shown) connects the branch 4 of the right auxiliary thermoelement with the branch 2 of the central thermoelement.

The thickness of all thermoelements is made equal to 0.15-0.21 of their height, and auxiliary thermoelements are installed at a distance from the cold junction of the central thermoelement of 0.35-0.45 of its height.

All thermocouples are electrically connected together in series and connected to the same current source.

Thermoelectric cooler works as follows.

When the cooler is connected to the current source, the electric current passes thermoelement branches in the following sequence: first, it passes the branches of the left auxiliary thermoelement, then through jumper 11, branches of the central thermoelement, through the second jumper and branches of the right auxiliary thermoelement.

The heat removal from the object installed on the cold junction of the central thermoelement (on the switching plate 3), as well as from the central thermoelement itself, occurs through the “cold end surfaces of the auxiliary thermoelements to the columns 10 and the base 8 of the composite heat sink. At the same time, there is also a direct outflow of heat from the central thermoelement along its branches to the heat sink.

Claims (3)

1. THERMOELECTRIC COOLER, containing central and auxiliary thermoelements with hot and cold junctions, insulated from it, characterized in that, in order to increase the cooling capacity, auxiliary thermoelements are installed in the thermal contact of their cold junctions with the lateral surfaces of the central thermoelement perpendicular to the latter and at a distance from cold junction of the central thermoelement, comprising 0.35-0.45 of the height of this thermoelement. 2. Cooler according to π. 1, characterized in that all thermocouples are made of a thickness equal to 0.15-0.21 of their height. cl 4 ^ Qi QO <1 /