RU2793865C1 - Sealed radio-electronic assembly - Google Patents

Abstract

FIELD: radio engineering.

SUBSTANCE: invention can be used in the design of electronic equipment. The technical result is achieved by the fact that the sealed radio-electronic assembly consists of a housing in the of secured walls and has two inlet round holes located on the left wall and two outlet round holes located on the right wall. Directly at the inlets inside the case, on the left wall, there is a pair of air-blowing fans, and on the right wall, directly at the outlets, there is a pair of exhaust fans. Walls with ribs are made inside the block housing on both sides, between the walls with installed fans and walls with ribs on both sides there are housing air ducts tightly fixed to them in form of a rectangular pipe with a partition inside, dividing the air flows created by each fan. On the walls with ribs there are rectangular air inlet and outlet holes, between the walls with ribs in the grooves there are functional units having groups of wedges with a screw on the outer sides, tightly adjoining the grooves. Functional units contain a heat-generating element in form of a printed circuit board with radio elements, in the lower part of which there is a cut-in connector, a radiator, which is the body of the functional unit, closed by a lid on the reverse side of the printed circuit board. On the radiator of each functional unit, an air duct is installed through the sealing rubber, with sealing rubbers at the ends, the size and shape of the inlet and outlet openings of the air ducts on the radiators of the functional units coincide with the inlet and outlet air rectangular holes on the walls with ribs. The place of installation of functional units in the assembly body is closed with a lid. All connections of the external parts of the assembly body are sealed and have a conductive connection.

EFFECT: ensuring high power dissipation and noise immunity while maintaining an airtight structure.

2 cl, 8 dwg

Description

The present invention relates to radio engineering and can be used in the design of radio electronic equipment.

Known "Electronic unit with air cooling" (RU 2569492 (application 2014127398 dated 07/04/2014, publ. 11/27/2015, IPC H05K 7/20), containing a housing cooling system formed by an inlet on the rear wall, outlets on the front panel, bottom cover, inner and outer left side, right side, as well as rear walls, upper inner and outer covers, made with the possibility of passing between the inner and outer walls and the covers of the cooling air flow. at least one functionally arranged fuel element.Inside the case, parallel to the rear wall, there is a middle wall with a divider, installed with the possibility of forming the main compartment and the air distribution compartment, in the inner side walls and the inner upper cover of which additional inlets are made. module, includes a printed circuit board with electrical and radio products installed on a radiator, covered with a module cover with holes, with the possibility of forming an internal cooling channel. Moreover, the radiator is placed inside the main compartment parallel to the middle wall and fixed on the inner side walls of the housing by means of a wedge mechanism. Moreover, the wedge-shaped mechanism provides a snug fit of the side and upper end contact surfaces of the radiator to the surfaces of the inner side walls and the upper housing cover, with the possibility of convective heat removal through the internal cooling channel and conductive heat removal to the housing walls. At the same time, the inner top cover is configured to form two compartments with the outer top cover by means of a partition, containing transitional inlet and outlet holes located coaxially with the holes in the module cover. Known "Air-cooled instrument housing" RU 2491662 C1 (application 2012121250 dated 05/24/2012, publ. 08/27/2012, IPC G42B 9/02), containing a housing cooling system formed by an inlet, outlets, bottom cover, internal and external left side, right side, rear walls, as well as a double top cover, forming closed inner and outer contours and made with the possibility of passing between the inner and outer walls of the cooling air flow. The side inner walls are made in the form of radiators. Outlets are made on the front panel, the inner top cover is made in the form of a radiator. Inside the housing are placed with the possibility of passing between them the cooling air flow. Double partitions, installed with the possibility of forming at least two main and one additional compartments. Inside each main compartment there is at least one functionally arranged fuel element, made in the form of a radio-electronic module with a heat sink, installed by the contact surfaces of the heat sink on the inner side wall of the housing or partition and fixed with the possibility of a snug fit to their inner surfaces. End contact surface - to the surface of the inner upper cover of the housing. The inlet is made on the rear wall or on the bottom cover. At least one radio-electronic module is installed in the additional compartment, at least one radio-electronic module with a heat sink is placed in the additional compartment, installed by the contact surfaces of the heat sink on the inner side wall of the case or partition and fixed with the possibility of its snug fit to their inner surfaces , and the end contact surface - to the surface of the inner upper cover of the housing. One or both walls of the double partition is made in the form of radiators. The inner rear wall is made in the form of a radiator. The closest in technical essence is the “hermetic case of the device” RU 2327312 C1 (application 2006143189 dated 12/07/2006, publ. 06/20/2008, IPC H05K 5/00) with at least one fuel element enclosed in it, containing a cooling system housing, including an inlet, an outlet. At the same time, the housing cooling system is formed by internal and external left side, right side, front and rear walls, as well as a double top cover, forming a closed circuit and made with the possibility of passing between the inner and outer walls and between the outer and inner covers of the double top cover of the cooling flow air. The inner side walls are made in the form of radiators, and the outer side walls contain at least two outlets, made with an offset along the height of the side walls, the inlet being located on the outer rear wall, and the outlets on the outer side walls and the top cover are placed from the front wall of the case. The body of the device additionally contains a sealing element configured to simultaneously provide sealing, thermal conductivity and electrical conductivity between the walls of the device body. The disadvantages of the known technical solutions are the low efficiency of heat removal.

The technical result of the invention is high power dissipation and noise immunity while maintaining a sealed design.

The essence of the proposed radio-electronic sealed unit is that it contains at least one fuel element, a housing consisting of the left and right side walls, front and rear walls, a cooling system that includes inlet and outlet round holes, and the inlet holes are located on left wall, and the outlet on the right, a sealing element and a cover.

New features of the proposed invention are that an inlet is additionally introduced, moreover, air-blowing fans are installed on the inlets, and exhaust fans evacuating air are installed in the outlets, moreover, inside the block housing between the walls with installed fans and walls with ribs on both sides, there are housing air ducts hermetically fixed to them in the form of a rectangular pipe with a partition, and on the walls with ribs there are inlet and outlet rectangular air holes, functional units are installed between the walls with ribs, having a fuel element in the form of a printed circuit board with radioelements, in the lower part of which there is a cut-in connector, a radiator, with an air duct installed on it, having sealing elements at the ends that are tightly adjacent to the walls with ribs at the inlet and outlet rectangular air holes, there are also groups of wedges with a screw on the outer sides of the functional unit. External sealed connectors are installed on the front wall of the radio-electronic sealed unit.

In FIG. 1 shows an electronic sealed unit. General form.

In FIG. 2 shows a radio-electronic sealed unit. View of the functional units and air ducts of the body.

In FIG. 3 shows a radio-electronic sealed unit. View of the inlet fans and air inlets.

In FIG. 4 shows a radio-electronic sealed unit. View of exhaust fans and air outlets.

In FIG. 5 shows the functional unit of the block. View of the printed circuit board.

In FIG. 6 shows the functional unit of the block. View of the radiator, air duct with sealing rubber bands.

In FIG. 7 shows the functional unit of the block. General form.

In FIG. 8 shows a radio-electronic sealed unit. View of the switching board and the printed circuit board of external connectors.

The radio-electronic sealed unit consists of a housing 1 made in the form of screwed walls. The cooling system, which includes two inlet round holes 2 on the left wall and two outlet round holes 3 on the right. A pair of inlet fans 4 blowing air, located inside the case 1 on the left wall directly at the inlets 2, and on the right wall - a pair of exhaust fans 5 located directly at the holes 3. Air ducts of the case 7 located inside the unit case between the walls with installed fans and walls with ribs 6 on both sides, hermetically fixed to the walls of the case with fans and walls with ribs 6. Air ducts of the case 7 are made in the form of a rectangular tube with a partition inside, separating the air flows generated by each fan, and serve to direct the air flow from inlet fans 4 into the inlet air rectangular holes 8 in the walls with ribs 6, and prevent air from entering the rest of the unit. And on the opposite side - to direct the air exhaust from the outlet rectangular air holes 9 in the wall with ribs 6, and also to prevent the outgoing air from entering the rest of the block. Moreover, the distance from the fan to the wall with ribs 6 should be 40-50 mm. The size of the rectangular holes is chosen as large as possible, based on design considerations.

Between the walls with ribs 6, in special grooves 10, functional units 11 are installed, having a fuel element in the form of a printed circuit board 12 with radioelements, in the lower part of which there is a cut-in connector 13, a radiator 14, which is also the body of the functional unit. Radiator air duct 15 is installed on radiator 14, which directs the air flow along the radiator fins, with sealing elements 16 installed at the ends. The air duct is fastened to the radiator through a sealing rubber 17. For fastening in the block housing on the outer sides of the functional unit, there are groups of wedges with a screw 18. For installation and removal from the block housing, extractor levers 19 are located in the upper part of the functional unit. On the reverse side of the printed circuit board functional unit is covered with cover 20. Radiator 14, air duct 15, groups of wedges 18 are also part of the unit's cooling system.

Inside the block, parallel to the front panel, there is a printed circuit board 21 for desoldering external sealed connectors, fastened to the front panel. A switching board 22 is attached to the lower part of the walls with ribs, having, on one side, cut-in electrical connectors for docking with functional units, and, on the other hand, cut-in connectors for electrical connection to the printed circuit board of external sealed connectors.

The joints of the walls are sealed with rubber seals 23. External sealed connectors 24 are located on the front wall.

The place of installation of functional modules is closed by cover 25.

Cooling radio-electronic sealed unit is as follows. After switching on, the inlet fans 4 immediately begin to pump air into the internal volume of the unit. The air enters the housing duct 7. Then it enters the air inlet 8 in the walls with ribs 6. After that, the air runs through the radiator 15 air duct along the radiator fins 14, removing the heat that is transferred from the radio elements located on the printed circuit boards 12. Exhaust fans 5 help to quickly evacuate the inlet air to the outside. In this way, sufficient air flow is ensured for cooling the functional modules. At the same time, the tightness of the block is not violated, since the air ducts of the housing 7, sealing gum 16, 17 prevent air from penetrating to the internal unprotected parts of the block. The air passes only through the air duct of the housing 7, which is hermetically connected to the walls of the case with fans and with walls with ribs 6, entering the inlet rectangular holes 8. Then it goes through the duct 15, directly cooling the radiators 14, and, leaving the outlet rectangular air holes 9, is blown out outwards by an exhaust fan 5 through an air duct of the housing 7 hermetically attached to the walls of the housing with fans and to the walls with ribs 6.

Additionally, heat removal from printed circuit boards 12 of functional units 11 is carried out due to the snug fit of groups of wedges with a screw 18 to the grooves 10. Thus, the heat from the radio elements located on the printed circuit boards 12 due to the thermal conductivity of the radiators 14 passes to the walls with ribs 6 and then cools by the oncoming air flow from the inlet fans 4, or is drawn out by the exhaust fans 5.

Protection against electromagnetic interference is ensured by the fact that all connections of the external parts of the block body are sealed and have a conductive connection. External sealed connectors 24 are installed through sealing gaskets. Seals are made of conductive rubber.

Claims (2)

1. Radio-electronic sealed unit, consisting of a case in the form of screwed walls, having two inlet round holes located on the left wall, and two outlet round holes located on the right wall, directly at the inlet holes inside the case on the left wall there are a pair of air-blowing fans , and on the right wall directly at the outlets - a pair of exhaust fans, and inside the block housing on both sides there are walls with ribs, between the walls with installed fans and the walls with ribs on both sides there are air ducts of the housing hermetically fixed to them in the form of a rectangular pipe with a partition inside separating the air flows created by each fan, and on the walls with ribs there are inlet and outlet rectangular air holes, functional units are installed between the walls with ribs in the grooves, having groups of wedges with a screw on the outer sides, tightly adjacent to the grooves, functional units contain a heat-releasing element in the form of a printed circuit board with radio elements, in the lower part of which there is a cut-in connector, a radiator, which is the body of a functional unit, on the reverse side of the printed circuit board closed by a lid, an air duct is installed on the radiator of each functional unit through a sealing rubber, having sealing rubbers at the ends, the size and shape of the inlet and outlet openings of the air ducts on the radiators of the functional units coincide with the inlet and outlet air rectangular openings on the walls with fins, the place of installation of the functional units in the block body is closed with a cover, while all connections of the external parts of the block body are sealed and have a conductive connection. 2. Radio-electronic sealed unit according to claim 1, characterized in that external sealed connectors are installed on the front wall.

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