SU683041A1 - Cabinet for radioelectronic equipment - Google Patents

Description

11. In the case 10, fittings 12 and 13 are mounted for supplying and discharging coolant and partitions 14. Partitions 14 form a series of parallel channels 15 with a common inlet and a common outlet. A common inlet of the parallel channels is connected to a fitting 12 for supplying a coolant, and a common outlet to a connector 13 for discharging a coolant. The length of the partitions 14 and the distance between them increase as they move away from the fittings. The fittings 12 and 13 are connected by means of flexible sleeves 16 to conduits 8 and 9 for supplying and discharging coolant, mounted between the rear wall and the shelves.

Shelves 4 are made removable and fixed on stops 17, made on the side walls of the cabinet. The lower base 3 of the cabinet is equipped with shock absorbers 18.

The device works as follows.

The electronic equipment blocks, which produce a large amount of heat during operation, are placed in the cabinet between the shelves in such a way as to ensure the minimum thermal resistance of the contact between the upper base of the block and the surface of the shelf or the upper base of the cabinet above it. Through the heat transfer process, heat from the upper base of the unit is transferred to the shelf or upper base of the unit. Pipeline 8 for supplying coolant last, for example, seawater, is fed through flexible hoses 16 into the channels of the shelves 4 and the upper base 5 of the cabinet, absorbs the heat transferred during the heat transfer and is discharged through the pipeline 9 to drain the coolant base blocks, which contributes to the intensification of the cooling process of electronic equipment placed in the blocks.

The invention makes it possible to provide intensive heat removal from electronic units installed in a cabinet, which makes it possible to use universal fluid supply systems, including sea water, for cooling electronic equipment.

Intensive heat removal from electronic components is achieved due to the cabinet design, which allows the use of liquid for cooling. Proposed Shkaf

it is advantageous to use on ships, as in this case it allows the use of purified intake seawater, or technically pure water from the universal shipboard system.

The design of the shelves and the upper base of the cabinet, by making channels of different lengths and cross sections in them, ensures uniform and effective cooling of the entire surface of each shelf and the upper base of the cabinet due to the elimination of stagnant zones and uniform distribution of the coolant velocity.

The proposed cabinet can dissipate

the power of heat generation of blocks, based on the allowable number of blocks located in the cabinet, is about 5-6 times greater than the indicated one. Respectively, the number of necessary cabinets for the same electronic device decreases by a factor of 5-6, therefore, its dimensions decrease by the same amount.

Claims (2)

1. USSR Author's Certificate No. 372758, cl. H 05K 7/20, 05/19/1970. 2. USSR author's certificate number 478459, cl. H 05K 7/20, 07/03/1972.