RU2634928C1 - Device for distributing heat from ree elements, working in mode of intermittent heat release - Google Patents

Abstract

FIELD: radio engineering, communication.

SUBSTANCE: device contains a thin-walled metal container filled with a consumable working substance, on one of the end surfaces of which there is an element of radio electronic equipment (REE). The container has horizontally arranged air ducts divided into two groups. Air ducts of the first group have a length along the width of the container so that the length of the ducts is equal to the width of the container. And the ends of the air ducts of the first group are hermetically closed by the side wall, and the beginning of the air ducts are made through. The air ducts of the first group perpendicularly in the horizontal plane are connected to the ducts of the second group so that their beginnings correspond to the ducts of the first group, and the ends - to the front wall of the container. During a pause in the operation of the REE element, air is pumped through the ducts by means of fans oriented perpendicularly to each other. One of them works to blow the air flow into the ducts of the first group, and the second - to blow it out of the air ducts of the second group.

EFFECT: increasing the intensity of heat removal from the melting substance during a pause in the operation of the radio electronic equipment element.

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Description

The invention relates to electronics, in particular to the field of cooling elements of electronic equipment (CEA) operating in the mode of intermittent heat release.

The prototype of the invention is the device described in [1]. The device consists of a thin-walled metal container filled with a melting working substance, on one of the end surfaces of which a CEA element is placed. In a metal container, through horizontal ducts are made. Ducts are pipelines whose length corresponds to the width of the container. During a pause in the operation of the CEA element, air is pumped through the air ducts by means of fans powered from an electric energy source. In this case, one of the fans works by blowing the air flow into the duct, and the second - by blowing it.

The disadvantage of this device is the low intensity of heat removal from the melting substance during a pause in its operation, due to the limited area of thermal contact of the air ducts with the cooling air flow and the working substance.

The aim of the invention is to increase the intensity of heat removal from the melting substance during a pause in the operation of the CEA element.

The goal is achieved in that (the design of the device is shown in Fig. 1) the device contains a thin-walled metal container 1 filled with a consumable working substance 2, on one of the end surfaces of which there is a CEA element 3. In the metal container 1, through horizontal ducts 4 are made, separated into two groups. The ducts of the first group have a width across the container 1 so that their beginning and ends correspond to its two opposite side walls (the length of the ducts is equal to the width of the container). Moreover, the ends of the ducts of the first group abut against the side wall and are hermetically closed with it, and the beginning of the ducts are made through. The air ducts of the second group are connected to the ducts of the first group perpendicularly in a horizontal plane so that their beginnings correspond to the ducts of the first group and the ends of the front wall of the container. During a pause in the operation of the CEA 3 element, air is pumped through the air ducts 4 by means of fans 5, powered by an electric energy source (not shown in Fig. 1). The fans are oriented relative to each other perpendicularly, and one of them works by blowing the air flow into the air ducts of the first group, and the second - by blowing it from the air ducts of the second group.

The device operates as follows.

During the cycle of operation of the CEA 3 element, the heat coming from it is transferred to the metal container 1 and through the contact surface to the working substance 2. The working substance 2 is heated to the melting temperature and the melting process. The temperature of the shell of the metal container 1 and, accordingly, of the CEA 3 element will not increase significantly compared to the melting temperature of the working substance 2, as long as both phases exist (solid and liquid). At the end of the cycle of operation of the CEA 3 element, the cooling and solidification of the working substance 2 occurs due to the forced pumping of air by the fans 5 through the ducts 4.

Pumping air through two groups of perpendicularly located ducts 4 will allow to intensify the process of cooling and solidification of the working substance 2 in comparison with the prototype by increasing the area of heat removal.

Literature

1. RF patent for the invention No. 2351105. A device for removing heat from elements of electronic equipment with repeatedly short-term heat releases // Ismailov T.A., Evdulov O.V. Makhmudova M.M., publ. 03/27/2009, bull. No. 9.

Claims (1)

A device for removing heat from CEA elements operating in the mode of repeated short-term heat release, containing a thin-walled metal container filled with a melting working substance, on one of the end surfaces of which a CEA element is installed, in which horizontally arranged air ducts are made, the length of which corresponds to the width of the container, through which, during a pause in the operation of the CEA element, air is pumped by fans, one of which works by blowing air flow into the air the duct, and the second blow it, characterized in that in addition to the existing ducts of the first group and perpendicular to them in a horizontal plane, ducts of the second group are connected so that their beginnings correspond to the ducts of the first group and the ends of the front wall of the container, while the ends of the ducts of the first group abut against the side wall and hermetically closed by it, and their beginnings are made through, the fans are oriented perpendicular to each other, and one of them works by blowing air through an eye in the ducts of the first group and the second - on its blowing duct of the second group.

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