RU95112645A - THERMOELECTRIC UNIT (ITS OPTIONS) - Google Patents

Claims (10)

1. Thermoelectric unit containing at least one thermopile, on cold and hot junctions of which heat pipes are installed in thermal contact, the longitudinal axes of which are parallel to the surfaces of the said junctions, characterized in that each heat pipe is bent to form two sections, longitudinal axes which are offset relative to one another, while one of the sections adjoins the surface of the respective junctions, and the other is oriented in such a way that its longitudinal axis is offset with respect to the longitudinal axis n of the previous section in the direction from this surface to the center of the thermal battery, and in the case of a block containing more than one thermal battery, the latter are installed so that each subsequent thermal battery with heat pipes installed on its junctions adjoins the previous one from the side of the same name junctions.  2. The block according to claim 1, characterized in that the heat pipes are made flat multi-channel. 3. The block according to claim 1 or 2, characterized in that the heat pipes installed at least on the joints of the same name are made identical to each other, and the longitudinal axes of the said sections of the heat pipe mounted on one of the junctions of the thermopile are offset one from another by distance determined by the ratio
e = 0.5 (b + s),
where e is the distance between the longitudinal axes of the mentioned sections of the heat pipe mounted on one of the junctions of the thermopile;
b is the thickness of the thermopile;
C is the thickness of the heat pipe mounted on opposite junctions of the thermopile.  4. A thermoelectric unit containing an even number of thermopiles, on the cold and hot junctions of which heat pipes are installed in thermal contact, the longitudinal axes of which are parallel to the surfaces of the mentioned junctions, characterized in that each subsequent thermopile with heat pipes installed on its junctions is adjacent to the previous one from the side junctions of the same name, heat pipes placed on the joints of the same name facing inward in each pair of thermal batteries are installed so that one heat pipe is common to two thermal baths rails in each pair installed in series, and heat pipes placed on opposite junctions of each thermal battery are made with a bend that forms two sections, the longitudinal axes of which are offset one from another, while one of the sections adjoins the surface of the corresponding junctions, and the other is oriented in this way that its longitudinal axis is offset with respect to the longitudinal axis of the previous section in the direction from this surface to the center of the thermal battery.  5. The block according to claim 4, characterized in that the heat pipes are flat multichannel. 6. The block according to claim 4 or 5, characterized in that the heat pipes mounted on the joints of the same name are identical to each other, and the longitudinal axes of the said sections made with bending of the heat pipes are offset one from another by a distance determined by the ratio
e = 0.5 (b + 0.5c ₁ ),
where e is the distance between the longitudinal axes of the said sections made with bending of heat pipes;
b is the thickness of the thermopile;
with ₁ - the thickness of the heat pipe, which is common to two thermal batteries.  7. Thermoelectric unit containing an even number of thermopiles, on the same joints of which are installed in thermal contact with the last heat pipes, the longitudinal axes of which are parallel to the surfaces of the mentioned junctions, characterized in that it is equipped with heat exchangers installed in thermal contact on the opposite joints of the same name of the thermal batteries, in this case, each subsequent thermopile with a heat exchanger and heat pipe installed on its junctions adjoins the previous one on the side of the junctions of the same name, moreover, The heat exchangers are located on the junctions facing inward in each pair of thermal batteries and are installed so that one heat exchanger is common to two thermal batteries in each pair installed in series, and the heat pipes are made with a bend that forms two sections, the longitudinal axes of which are offset relative to each other and installed so that one of the sections adjoins the surface of the respective junctions, and the other is oriented so that its longitudinal axis is offset relative to the longitudinal axis of the previous section apart from this surface to the center of the thermopile.  8. The block according to claim 7, characterized in that the heat pipes are made flat multi-channel.  9. The block according to claim 7 or 8, characterized in that the heat exchangers are made flowing liquid. 10. Block PP. 7, 8, or 9, characterized in that the heat pipes and heat exchangers are made identical to each other, and the longitudinal axes of the said sections made with bending of the heat pipes are offset relative to each other by a distance determined by the ratio:
e = 0.5 (b + 0.5d),
where e is the distance between the longitudinal axes of the said sections made with bending of heat pipes;
b is the thickness of the thermopile;
d is the thickness of the heat exchanger.