RU985U1 - Electronic block - Google Patents

Abstract

A radio electronic unit comprising a housing with inlet and outlet openings, in the internal cavity of which are electronic modules with powerful fuel elements mounted on the base of a radiator with flat fins, and an air duct, the outlet cross section of which is opposite the radiator fins, characterized in that the air duct is provided with nozzle cages with slotted holes on their end surfaces that are installed on the outlet section of the above duct and are located with their slotted holes with minimum clearance relative to the vertices of the flat fins of the radiator.

Description

Electronic block

The device relates to electronics and can be used in powerful transistor communication equipment.

A radio electronic unit is known (see USSR AS No. 999184, class MKI NS5K7 / 2C, application form 07.05.79), comprising a housing inside which radiators with flat fins are mounted with powerful heat-generating elements fixed to their bases.

The disadvantage of this device is the high aerodynamic drag due to significant losses of air pressure at the inlet and outlet of the radiator, as well as during flow along flat ribs.

This drawback is partially eliminated in the electronic unit, which is the closest in design features to the proposed one and is taken as the closest analogue of Sem. A.S.SSSR I274166, class MKI N07K7 / 20, publ. 11/30/86, Eyul.№44).

This device contains a housing with inlet and outlet openings, in the internal cavity of which are placed electronic modules with powerful heat-generating elements fixed to the base of the radiator with flat fins and an air duct, the outlet cross-section of which is opposite the radiator fins. In this case, air is supplied perpendicular to the air duct through the outlet the radiator base, reaches it, turns 90 ° and moves the ribs to the opposite ends of the radiator.

This device does not provide enough heat dissipation. This is due to the fact that with the specified CXIM supply, the air flow moves mainly near the base of the radiator and the upper part of the fins practically does not participate in heat removal.

class MKI N07K7 / 20

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In addition, when using radiators of large length manufactured by rolling or, in the direction of the ends of the radiator, an increasing temperature gradient associated with air heating takes place.

The proposed design peniaei4 the task of increasing the efficiency of cooling the radiator by changing the pattern of supply and exhaust air from the surface of the radiator fins.

The problem is solved by installing nozzle nozzles at the exit section of the duct, the end face surfaces of which are provided with slotted holes located with a minimum clearance relative to the vertices of the radiator fins.

When air enters the duct, it reaches the nozzle nozzles, is accelerated in them and is directed perpendicularly to the radiator base through the helical openings. Due to the dynamic pressure acquired in the nozzle nozzles, air in the form of jets penetrates to the base of the radiator and flows along it in opposite directions. After the adjacent jets meet each other, the air turns around again by 90 °, leaves the radiator and, through the channels between the nozzle nozzles, is led to the outlet openings in the block body.

Implementation of the design allows you to:

-increase the efficiency of heat removal from the radiator by using the entire surface of the fins;

-exclude the unevenness of the temperature field of the radiator;

-decrease the aerodynamic drag of the radiator due to a substantial increase in the input section of the intercostal canal and a reduction in its length.

The device is illustrated by drawings, where in (Tig. 1 the design of the utility model is presented, in Fig. 2 a section A-A of Fig. 1.

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electronic modules 4 with powerful heat-generating elements 5 fixed on the base of the radiator b with flat fins 7f and an air duct 8, the output section 9 of which is opposite the fins of the radiator 7. To the output section 9 of the air duct 8 are attached nozzle nozzles 10, the end surfaces of which II are fitted slotted holes 12 located with a minimum clearance relative to the vertices of the ribs of the radiator 7.

The duct 8 can be box-shaped and located both inside and outside the housing I. When placing the duct 8 outside the housing I, its output section coincides with the inlet of the housing I. In Fig. 1, an embodiment of the duct inside the housing I is given. In this case, the inlet, the cross-section of the duct 8 is equipped with fans 13, and the inlet 2 of the housing is equipped with an air filter 14. A pipe 15 located above the nozzle nozzles 1C is connected to the outlet 3 of the housing I. The duct 8 is additionally equipped with end screens 16.

The device operates as follows. When the fans 13 are turned on, air through the inlet holes 2 in the housing I is sucked into the internal cavity of the unit and is pumped into the duct 8. Due to the excess pressure, air is squeezed out of the duct 8 through nozzle nozzles 10, accelerated in them and in the area of end surfaces II through slotted holes 12 in the form of jets fed perpendicular to the base of the radiator b. Upon reaching the base of the radiator, each of the air jets is divided into two streams, which turn around at 9 ° C and spread in opposite directions. P: barely meeting the current jets with each other, the air turns around again by 90 °, washes the side surface of the ribs, while absorbing the heat dissipated by it, and leaves the radiator, then the air enters the channels 17 between the nozzles not-sadxi-l: 1C and through the nozzle 15 is fed to the outlet 3 in the housing I of the block.

Claims (1)

A radio electronic unit comprising a housing with inlet and outlet openings, in the internal cavity of which are electronic modules with powerful fuel elements mounted on the base of a radiator with flat fins, and an air duct, the outlet cross section of which is opposite the radiator fins, characterized in that the air duct is provided with nozzle cages with slotted holes on their end surfaces that are installed on the outlet section of the above duct and are located with their slotted holes with minimum clearance relative to the vertices of the flat fins of the radiator.