RU2357330C1 - Thermo-electrical battery - Google Patents

Abstract

FIELD: instrument making.

SUBSTANCE: invention relates to thermo-electrical instruments, in particular, to thermo-electrical batteries (TEB). The device structure surface formed by the TEB branches, apart from the areas adjoining the extending parts of switching plates, is coated with heat insulation dielectric material. The area not coated with the said material is determined as the product of thermal element branch thickness by 1/4 of its height. Note here that heat is picked up from the switching plates and adjacent areas via evaporation of heat carrier effected by appropriate evaporation systems.

EFFECT: higher efficiency of removing heat from TEB hot contacts (feeding it thereto).

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Description

The invention relates to thermoelectric instrumentation, in particular to the construction of thermoelectric batteries (TEB).

The prototype of the invention is the thermopile, described in [1]. A fuel cell consists of semiconductor thermoelements connected in series to an electric circuit, each of which is formed by two branches (columns made either cylindrical or in the form of a rectangular parallelepiped) made of a p- and n-type semiconductor, respectively. The thermoelement branches are interconnected by means of connection plates, the p-type and n-type branches contacting the end surfaces with two opposite surfaces of the connecting plate, respectively. The patch 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 thermopile branches, with the odd patch plates protruding over one surface of the structure, and the even patch plates over the other. Accordingly, heat is removed and supplied from the protruding parts of the switching plates due to air or liquid heat exchange.

A disadvantage of the known design is the removal (supply) of heat only from the surface of the protruding parts of the patch plates, while due to the thermal conductivity there is also heating (cooling) of the adjacent areas of the branches of thermocouples.

The aim of the invention is to increase the efficiency of removal (supply) of heat from the hot (cold) contacts of the fuel element due to the removal (supply) of heat also from neighboring areas of the branches of thermocouples.

ее высоты. При этом съем теплоты с коммутационных пластин, а также с близлежащих к ним областей осуществляется за счет испарения теплоносителя, реализуемого соответствующими испарительными системами.The goal is achieved in that the surface of the structure formed by the thermopile branches, with the exception of areas adjacent to the protruding parts of the patch plates, is covered with a layer of heat-insulating dielectric material. The area not covered by a layer of insulating dielectric material is determined by the product of the thickness of the thermoelement branch by

her heights. In this case, heat is removed from the connecting plates, as well as from areas adjacent to them, due to the evaporation of the coolant sold by the corresponding evaporative systems.

The design of the thermoelectric battery is shown in Fig.1-2. The fuel and energy complex consists of alternating branches connected in series to the electric circuit by means of switching plates 1 and 2, made of p-type 3 and n-type 4 semiconductor, respectively. The electrical connection of the branches is carried out by means of the p-type branch 3 - switching plate 1 or 2 - the branch n-type 4, where the p-type 3 branch is in contact with the end surface from one of the surfaces of the patch plate, and the n-type 4 branch is on the other. Each branch in the thermopile is in contact with opposite end surfaces with two connection plates 1 and 2. Connection plates 1 and 2 have an area slightly larger than the cross-sectional area of the p- and n-type branches 3 and 4, as a result of which their ends protrude beyond the surface of the structure formed by the branches of the thermopile. The ends of the odd patch plates 1 protrude beyond one surface of the structure, and the ends of the even patch plates 2 protrude from the other.

ее высоты. Съем теплоты с коммутационных пластин, а также с близлежащих к ним областей осуществляется за счет испарения теплоносителя, реализуемого соответствующими испарительными системами 6.The surface of the structure formed by the thermopile branches, with the exception of areas adjacent to the protruding parts of the connection plates 1 and 2, is covered with a layer of heat-insulating dielectric material 5. The area not covered by a layer of heat-insulating dielectric material 5 is determined by the product of the thickness of the thermoelement branch by

her heights. Heat is removed from the switching plates, as well as from areas adjacent to them, due to the evaporation of the coolant sold by the corresponding evaporative systems 6.

TEB operates as follows.

When a direct electric current supplied from an electric energy source passes through the thermopile, between the switching plates 1 and 2, which are the contacts of the p- and n-type branches 3 and 4, a temperature difference occurs due to the release and absorption of Peltier heat. With the polarity of the electric current indicated in FIG. 1, the odd patch plates 1 are heated and the even ones are cooled 2. Heat is removed from the patch plates 1 and 2, as well as from the areas adjacent to them, due to the evaporation of the coolant sold by the corresponding evaporative systems 6. Improving the efficiency Heat is removed from the hot and cold contacts of the thermopile; it is also removed from the regions of the structure surface formed by the thermopile branches that are adjacent to the switching plates. At the same time, thermal insulation 5 serves to reduce heat gain from the environment.

Literature

1. Pozdnyakov BS, Koptelov EA Thermoelectric power. M .: Atomizdat, 1974.

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, with the exception of areas adjacent to the protruding parts of the connection plates, is covered with a layer of heat-insulating dielectric material, and the area not covered by a layer of heat-insulating dielectric material is determined by the product of the thickness thermocouple branches on

its height, while the heat is removed from the switching plates, as well as from areas adjacent to them, due to the evaporation of the coolant sold by the corresponding evaporative systems.

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