RU2009149621A - THERMOELECTRIC BATTERY - Google Patents

Abstract

A thermoelectric battery consisting of semiconductor thermoelements connected in series into an electric circuit by means of connecting plates, each of which is formed by two branches made of a semiconductor of p- and n-type, respectively, wherein the p-type and n-type branches contact with their end surfaces, respectively, with two opposite surfaces of the connecting plate, the connecting plates have a slightly larger area than the cross-sectional area of the branches, as a result of which they protrude beyond the surface of the structure formed by the branches of the thermoelectric battery, characterized in that the surface of the structure formed by the branches of the thermoelectric battery, with the exception of the areas adjacent to the protruding parts of the connecting plates, is covered with a layer of heat-insulating dielectric material, and the area not covered by a layer of heat-insulating dielectric material, having a profiled side surface made in a wave-like manner, is determined by the product of the thickness of the thermoelement branch and its height, while the heat removal from the hot connecting plates, as well as from those adjacent to them areas is carried out by means of forced air heat exchange using a fan, and heat is removed from the cooled switching plates and areas adjacent to them by pumping liquid in a liquid heat exchanger in contact with them.

Claims (1)

A thermoelectric battery consisting of semiconductor thermoelements connected in series through electrical wiring plates, each of which is formed by two branches made of a semiconductor of p- and n-type, respectively, with p-type and n-type branches contacting the end surfaces with two opposite surfaces of the patch plate, patch plates have a slightly larger area than the cross-sectional area of the branches, as a result of which they protrude and the surface of the structure formed by the branches of the thermoelectric battery, characterized in that the surface of the structure formed by the branches of the thermopile the surface made in a wave-like manner is determined by the product of the thickness of the thermocouple branch by its height, while the heat is removed from switching plates, as well as areas close to them is carried out by forced air heat exchange means of a fan, and the removal of heat from the refrigerated switching plates and surrounding regions to them is performed by pumping the liquid in a contacting them with a liquid heat exchanger.