SU1213553A1 - Cabinet for electronic equipment - Google Patents

Abstract

The invention relates to devices for cooling a legs ((the most recent electronic equipment. The purpose of the invention is to increase hope, efficiency and noiselessness by improving vibro-acoustic characteristics and creating intense natural air convection in the cabinet. The cabinet works as follows. In load mode, when all the equipment is working, the air in compartment 3, heated by blocks 5, rises up, passes through the main heat exchanger 8, cools, its density rises, as a result of which it decreases the speed due to the effect of the floor of gravity, which is directed towards the upward flow / 1 / Yu G (L with 01 ate with S .1

Description

ku air. Then, through the gap 10, the cooled air enters the inlet of an additional heat exchanger 9, when passing through which is again cooled. In this case, the air density is even more likely, and since in this case the gravity field acts in accordance with the downward air flow, it promotes its accelerated movement from above. BHHsV The air cooled in the additional heat exchanger 9 enters the compartment 4, where at its top movement Down cools the blocks 6 and then through the window 7 passes into the compartment 3 to the blocks 5. Thus the air circulation path is closed. In high-profile mode, when the power equipment of the cabinet is not working and the heat

The invention relates to devices for cooling heat generating electronic equipment, which are subject to the requirement of increased reliability, efficiency and noiselessness, especially in conditions that require hermetic design of the cabinet body.

The purpose of the invention is to improve the reliability of the operation of efficiency and improve vibroacoustic characteristics by creating in the cabinet an intensified: natural air convection.

FIG. Figures 1 and 2 show the design options for the cabinet.

The cabinet includes a housing 1, divided by a vertical partition 2 into interconnecting compartments 3 and 4 with blocks of different heat capacity. In compartment 3 there are blocks 5 with a large heat release (power transformers, chokes, power valve blocks, interlocking, and other tag-loaded power elements), in compartment .4 there are blocks 6 with less heat separation electronic blocks with radio elements that are not allowed high values of cooling air temperatures, electrolytic capacitors, etc.

There is practically no separation in compartment 3, only the equipment located in the compartment L is operating, which emits a small amount of heat. In this case, as in the load mode, there is an intensive natural circulation of air in the cabinet. Placing blocks 5 in the compartment 3 in order to reduce heat generation from the bottom up contributes to a more intensive movement of cooling air due to a large pressure drop across the height of the cabinet and more uniform cooling of elements in the compartment. In the description of the invention, a second embodiment of a cabinet for cooling electrical equipment is shown. 1 hp f-ly. 2 Il.

2

. The cops are lightly loaded in terms of heat.

The compartments 3 and 4 communicate with each other in the lower part of the cabinet through window 7 in the vertical partition 2, in the upper part through the main 8 and additional 9 heat exchangers, installed 1

above the compartments 3 and 4, and through the gap 10 formed by the upper crush 11 of the housing 1 and the upper parts of the heat exchangers 8 and 9. The cross sections of the compartments 3 and 4 above which

The heat exchangers are installed, completely overlapping with their structural elements so that all - cooled air passes through them.

In compartments 3 and 4, blocks 5 and 6 are located so that they form ventilation ducts 12 for the passage of cooling air. In compartment 3 with a large heat gap

5, the elements are arranged in order of reducing heat generation from bottom to top.

Cabinet electronic equipment operates as follows.

In the load mode, when all the equipment is working, the air of the compartment 3, heated by blocks 5, rises up, passes through the main heat exchanger 8, cools, the density

0

0

3

it rises, resulting in a decrease in speed due to the gravitational floor, which is directed towards the rising air stream, then through the gap 10 the cooled air enters the inlet of the additional heat exchanger 9, passing through which is again cooled, and its density is even greater rises and, since in this case the field of gravity acts in accordance with the downward flow of air, it contributes to its accelerated movement from top to bottom. The air cooled in the additional heat exchanger 9 enters compartment 4, where, when it moves from top to bottom, cools blocks 6 and then through window 7 passes into compartment 3 to blocks 5. Thus, the air circulation path closes.

In standby mode, when the power equipment of the cabinet is not working and there is practically no heat generation in compartment 3, but only the equipment located in compartment 4, which releases a small amount of la, works, heated air in compartment 4 rises, is cooled in additional heat exchanger 9, through the gap 10 enters the main heat exchanger 8, where it is further cooled and. having accelerated, enters compartment 3, then through window 7 passes into compartment 4. In this case, as in the load mode, there is an intensive natural circulation of air in the cabinet.

Placing blocks 5 in the compartment in order to reduce the loss of money from the bottom up contributes to a more intensive movement of the cooling air.

spirit due to the pressure drop along the height of the cabinet and more uniform cooling of elements in the compartment.

The second embodiment of the cabinet of electronic equipment differs from the first in that case I is divided by partitions 2 into three communicating compartments with different heat loads. In the central

The compartment 3 contains equipment with a large heat release, in the side compartments 4 there is an equipment with a smaller heat release.

F o rm, lla inventions

Claims (2)

one . A cabinet of electronic equipment, comprising a housing divided by a partition into communicating between them are compartments in which blocks with different heat release are installed, a heat exchanger installed above the compartment with a large heat release, characterized in that that in order to increase reliability in operation, efficiency and improve vibroacoustic characteristics, the cabinet is equipped with an additional heat exchanger installed above the with lower heat generation and located in the same plane as the main heat exchanger, the main and additional heat exchangers being installed with the possibility of overlapping the cross section corresponding compartments. 2. The cabinet according to claim 1, which is different from the fact that in the compartment with a large heat release, the blocks are arranged in order to reduce heat release from the bottom up. /five Compiled by S. Dudkin Editor O. Golovach Tehred J. Kastelevich Proofreader M. Pojo Order 786/61 Circulation 767 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab. 4/5 Branch GOSH Patent, Uzhgorod, st. Project, 4 FIG. 2