RU2795288C1 - Thermoelectric device for heat removal from rea elements - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: thermoelectric device for removing heat from elements of radio electronic apparatus (REA). Manufacturing the main heat exchanger in thermal contact with the heat-generating junctions of the TEB, and an additional heat exchanger in the form of an all-metal structure, the area of which corresponds to the area of the TEB, while in the main heat exchanger in the horizontal direction, perpendicular to each other, there are two groups of through cylindrical holes, each group being implemented in-line, the upper holes of which are located in height below the level of the surface of the recess in which the REA element is placed, at a distance of 2 mm from it, while on the sides of the main heat exchanger, opposite each other, with the help of fasteners, two pairs of fan units are installed, powered from a source of electrical energy, which blow air, respectively, through two groups of through cylindrical holes.

EFFECT: increasing the cooling efficiency of the REA element by increasing the intensity of heat removal from the heat-producing junctions of the thermoelectric battery (TEB) sections.

1 cl, 1 dwg

Description

The invention relates to electronics and can be used to provide the required temperature conditions for elements of radio electronic equipment (REA).

The prototype of the proposed device is the device described in [1]. The device contains a thermoelectric battery (TEB) electrically connected to the output of the temperature controller, the input of which is connected to a temperature sensor that is in contact with the fuel element of the REA located in the recess formed by the design of the TEB, the main heat exchanger, which is in thermal contact with the fuel junctions of the TEB and additional heat exchanger. The thermopile is divided into the main and two additional sections connected electrically in series and made of thermoelements identical in their geometric, electrical and thermal characteristics. The main section of the thermopile is located in the center of the main heat exchanger, and additional sections of the thermopile are located at the edges on the protrusions of the main heat exchanger, the area of \u200b\u200bwhich corresponds to the area of the additional sections of the thermopile. The REE fuel element is placed in the formed recess to provide thermal contact with the heat-absorbing junctions of the main section of the thermopile, with the heat-absorbing junctions of the additional sections of the thermopile and the REE fuel element, an additional heat exchanger contacts. The main and additional heat exchangers are made in the form of an all-metal structure.

The disadvantage of the device is the low intensity of heat removal from the heat-generating junctions of the thermopile sections through the main heat exchanger, which implements natural air heat removal, characterized by a low heat transfer coefficient, which reduces the efficiency of heat removal from the electronic equipment element.

The aim of the invention is to increase the efficiency of heat removal from the electronic equipment element by increasing the intensity of heat removal from the heat-generating junctions of the thermopile sections through the main heat exchanger by organizing forced air heat removal from it.

The goal is achieved by the fact that in the main heat exchanger in the horizontal direction, two groups of through cylindrical holes are made perpendicular to each other. Each group is implemented in a corridor order, the upper of which are located in height below the level of the surface of the recess in which the electronic equipment element is located, at a distance of 2 mm from it. On the sides of the main heat exchanger, opposite each other, by means of fasteners, two pairs of fan units are installed, powered from a source of electrical energy, so that they blow air through two groups of through cylindrical holes, respectively.

The structure of the device is shown in Fig. 1, a . Figure 1, b shows the cross section of the main heat exchanger at the level of through cylindrical holes with two pairs of fan units. The device contains the main section of the thermopile 1 located in the center and two additional sections of the thermopile 2 located at the edges. The main 1 and additional 2 sections of the thermopile, electrically connected in series, consist of thermoelements identical in their geometric, electrical and thermal characteristics. The main 1 and additional 2 sections of the thermopile with their heat-generating junctions are in thermal contact with the main heat exchanger 3, which is an all-metal structure with protrusions along the edges, the area of \u200b\u200bwhich corresponds to the area of the additional sections of the thermopile 2. The main 1, additional 2 sections of the thermopile and the main heat exchanger 3 form a structure , having a recess in its central part, in which, with the provision of thermal contact with the heat-absorbing junctions of the main section of the thermopile 1, the fuel element REE 4 is installed. The heat-absorbing junctions of the additional sections of the thermopile 2 and the fuel element of the REE 4 are in contact with an additional heat exchanger 5, which is also an all-metal structure. A temperature sensor 6 is brought into direct contact with the REA fuel element 4, the output of which is electrically connected to the input of the temperature controller 7, the latter's output is electrically connected to the main 1 and additional 2 sections of the thermopile.

In the main heat exchanger 3 in the horizontal direction, two groups of through cylindrical holes 8 and 9 are made perpendicular to each other, each group is implemented in a corridor order, the upper of which are located in height below the surface level of the recess in which the electronic equipment element is located, at a distance of 2 mm from her. On the sides of the main heat exchanger 3, opposite each other, with the help of fasteners 10, two pairs of fan units 11 and 12 are installed, powered by an electric power source 13, so that they blow air through two groups of through cylindrical holes 8 and 9, respectively.

The device works as follows.

Since the temperature regime of efficient operation of the REA fuel element 4 is higher than the ambient temperature, during such operation, the heat flow is always directed from the REA fuel element 4 through heat exchangers 3 and 5 to the environment. The main 1 and additional 2 sections of the thermopile, being included in this process, intensify the heat transfer. Part of the heat from the fuel element REA 4 is transferred to the heat-absorbing junctions of the main section of the thermopile 1 and through the heat-generating junctions to the main heat exchanger 3, which dissipates it into the environment. The other part is transferred to additional heat exchanger 5, the heat dissipation from which occurs both directly into the environment and through heat-absorbing and heat-releasing junctions of additional sections of thermopile 2, as well as the main heat exchanger 3.

Since there is no need to cool the REA fuel element 4 below the ambient temperature, the temperature controller 7, in accordance with the readings of sensor 6 and the operating temperature set on the scale of the temperature controller 7, turns on and off, if necessary, the main 1 and additional 2 sections of the thermopile, automatically maintaining the temperature fuel element REA 4 in a given range.

Two groups of fan units 11 and 12, which are fixed with fasteners 10 on the sides of the main heat exchanger 3 and are fed by an electric power source 13, blow air through two groups of through cylindrical holes 8 and 9, thereby realizing the forced removal of heat from the main heat exchanger 3, in which the heat transfer coefficient is significantly higher than in the case of natural air heat exchange. Due to the higher intensity of heat removal from the main heat exchanger 3, the intensity of heat removal from the heat-generating junctions of the thermopile sections also increases, which in turn increases the efficiency of heat removal from the REA element.

Literature

1. RF patent 2788082 Thermoelectric device for heat removal from REA elements / Ismailov T.A., Evdulov O.V., Kazumov R.Sh., Ibragimova A.M. // BI No. 2, 2023.

Claims (1)

A thermoelectric device for removing heat from REA elements, containing a thermoelectric battery (TEB) electrically connected to the output of the temperature controller, the input of which is connected to a temperature sensor in contact with the REA fuel element located in the recess formed by the design of the TEB, the main heat exchanger located in thermal contact with the fuel junctions of the thermopile, and an additional heat exchanger, and the thermopile is divided into the main and two additional sections connected electrically in series and made of thermoelements identical in their geometric, electrical and thermal characteristics, and the main section of the thermopile is located in the center of the main heat exchanger, and additional sections of the thermopile are located at the edges on the protrusions of the main heat exchanger, the area of \u200b\u200bwhich corresponds to the area of \u200b\u200bthe additional sections of the thermopile, while the fuel element of the REE is placed in the formed recess to provide thermal contact with the heat-absorbing junctions of the main section of the thermopile, with the heat-absorbing junctions of the additional sections of the thermopile and the fuel element of the REE contacts an additional heat exchanger, while the main and additional heat exchangers are made in the form of an all-metal structure, which differs the fact that in the main heat exchanger in the horizontal direction, two groups of through cylindrical holes are made perpendicular to each other, and each group is implemented in a corridor order, the upper of which are located in height below the level of the surface of the recess in which the electronic equipment element is located, at a distance of 2 mm from it , while on the sides of the main heat exchanger opposite each other by means of fasteners, two pairs of fan units are installed, powered from a source of electrical energy, so that they blow air through two groups of through cylindrical holes, respectively.

Images