RU158898U1 - CABINET OF RADIO ELECTRONIC EQUIPMENT - Google Patents

Abstract

1. Cabinet electronic equipment (CEA), containing mounted on the frame of the upper, rear, front and side covers with seals made of sheet material, the back and front covers are removable, box-shaped and equipped with ventilation shutters, on the lower base of the frame are made ventilation holes and brackets with holes for installing support shock absorbers are installed, characterized in that the frame is made of sheet material and contains an upper base, a lower base and side walls ki with cutouts connected by interfloor partitions made with dimensions that ensure complete closure of the cabinet passageway between floors, and frames made with the possibility of installing and fixing REA blocks on them, and blinds are made on the side covers at the level of the upper and lower parts of each floor. 2. A cabinet according to claim 1, characterized in that ventilation openings are made in the lower part of the front cover. 3. A cabinet according to claim 1, characterized in that on the upper base there are holes for eyebolts and a window for the passage of cables from external connectors. 4. A cabinet according to claim 1, characterized in that holes are made on the top cover for installing external connectors. 5. A cabinet according to claim 1, characterized in that holes are made in the upper part of the side walls for mounting brackets for thrust vibration isolators. 6. A cabinet according to claim 1, characterized in that the removable front and rear covers are provided with hinges. 7. A cabinet according to claim 1, characterized in that it is equipped with fan units mounted on the floor partitions.

Description

The utility model relates to instrumentation, namely to the design of cabinets designed to accommodate electronic equipment, and can be used to create systems of equipment that is operated under the influence of intense mechanical loads on non-stationary installation objects.

Closest to the proposed one is the design of the housing of the device designed to accommodate electronic equipment according to the patent of the Russian Federation No. 127989 publ. 05/10/2013, containing a frame in the form of vertical struts and horizontal beams of profiled material, as well as a base, top, back, front covers and side walls made of sheet material, attached to the frame using fasteners and embedded parts distributed in the grooves of the profiles. The back and front covers are made removable box-shaped with handles and ventilation blinds. On the upper and lower beams of the frame, from the front and rear covers, box-shaped brackets of sheet material with inclined planes and holes for installing external connectors are installed. On the basis of the ventilation holes are made and a filter and brackets with holes for installing support vibration isolators are installed. The top cover has holes for installing eyebolts.

A significant drawback of the device is the implementation of the supporting frame from an aluminum profile, which occupies a significant part of the internal volume of the housing, which significantly reduces its usable volume.

The housing has low mechanical rigidity during vibration, since the frame is made of profiled material, which can be assembled only by means of embedded parts freely placed in the grooves of its profile, does not provide sufficient rigidity during mechanical stresses on unsteady installation objects.

The disadvantage of this device is the lack of cooling efficiency of the blocks located on the upper floor, due to their additional heating due to the lower blocks due to the fact that the heat sink holes are located only in the upper part of the housing, as well as the inability to maintain the necessary thermal conditions for cooling energy-intensive electronic blocks emitting a large amount of heat, due to the use of only natural convection.

The technical result of the utility model is to increase the efficiency of maintaining the necessary thermal regime of electronic equipment, by arranging floor insulation and floor forced or convective cooling, depending on the heat generation of the units, as well as to increase the rigidity of the cabinet of electronic equipment, providing an increase in its vibration resistance and vibration resistance, with at the same time increasing its useful internal volume, as well as improving the manufacturability of installation and convenience device maintenance.

The specified technical result is achieved by the fact that the cabinet of electronic equipment contains mounted on the frame, upper, rear, front and side covers with seals made of sheet material, the back and front covers are removable, box-shaped and equipped with ventilation shutters, on the lower base of the frame are made ventilation holes and brackets with holes for installing support shock absorbers are installed, while, in accordance with a utility model, the frame is made of sheet material, and it contains an upper base, a lower base and side walls with cutouts connected by interfloor partitions made with dimensions that provide a complete overlap of the passage section of the cabinet between floors and frames made with the possibility of installing and securing REA blocks on them, while the side covers have blinds level of the top and bottom of each floor.

Ventilation holes may be provided at the bottom of the front cover.

Holes for eyebolts and a window for passage of cables from external connectors can be made on the upper base. At the same time, holes can be made on the top cover for installing external connectors.

In the upper part of the side walls, holes can be made for the installation of mounting brackets of persistent shock absorbers.

In special cases of implementation, the removable front cover may be provided with hinges.

In special cases of implementation, for the organization of forced cooling, the cabinet can be equipped with fan units installed on the floor partitions.

The essence of the utility model is illustrated by drawings, which depict:

in FIG. 1 - cabinet electronic equipment, General front view;

in FIG. 2 - cabinet electronic equipment, General rear view;

in FIG. 3 - cabinet frame;

Cabinet electronic equipment (Fig. 1, 2) contains mounted on the frame 1 front cover 2, rear cover 3, side covers 4 and top cover 5 with seals.

The frame 1 (Fig. 3) contains an upper base 6, a lower base 7 and two side walls 8 with cutouts 9 for free passage of air. The side walls 8 are connected by interfloor partitions 10, made with dimensions that provide complete overlap of the passage section of the frame 1 between the floors, and frames 11, for installing REA blocks, providing free air passage.

For mounting the REA blocks, rails are installed on the frame 11.

On the lower base 7 of the frame, ventilation holes are made and brackets 12 with holes for installing support vibration isolators are installed.

In the upper part of the side walls 8, predominantly holes are made for mounting brackets for thrust vibration isolators.

The upper base 6 may contain holes for eye bolts and a window for the passage of cables from the external switching connectors.

The frame 1 of the cabinet is made of sheet material, for example, aluminum plate up to 18 mm, the frame is 20 mm, the partitions are 8 mm. The use of sheet material for the manufacture of the cabinet frame, in comparison with profiled, provides an increase in its internal usable volume

Covers are made of sheet material, mainly aluminum, 1.5-2 mm thick. The front cover 2 and the back cover 3 are box-shaped and removable. The front cover 2 can be mounted on hinges, which will provide ease of use and ease of maintenance during operation. In the upper part of the front 2 and rear 3 covers, shutters 13 are made for the exit of heated air. For additional intake of cold air, ventilation holes can be made in the lower part of the front cover 2.

On the side covers 4, at the level of the lower and upper parts of each floor, respectively, blinds 14 for intake and blinds 15 for air discharge are made.

The upper cover 5 is mounted on the upper base 6 to accommodate external connectors.

The assembly of the CEA cabinet is as follows.

The side walls 8 with the upper base 6 and the lower base 7 are fastened by means of fasteners, for example screws. Then in the grooves made in the side walls, interfloor partitions 10 and frames 11 are installed, further increasing the strength and rigidity of the frame 1.

Brackets 12 are installed on the lower base 7. Support vibration absorbers (not shown) are installed on the assembled frame, for example, spiral-cable vibration isolators STVR TU STVL.304245.005. Then, the front cover 2 and the rear cover 3 are mounted and fixed by means of fasteners on the frame. Brackets with persistent vibration isolators, for example STVR (not shown), are installed in the holes in the upper part of the side walls 8. We install eyebolts into the holes on the upper base.

On the top cover 5, external connectors and plugs are installed (if necessary).

Using screws to connect structural elements greatly simplifies the assembly process and reduces the degree of freedom of the parts to be joined, unlike embedded parts used in the assembly of the frame from profiles, significantly increasing the manufacturability of the product and its strength characteristics.

The installation of interfloor partitions 10, blocking the flow of heated air to the upper floors of the cabinet, and the implementation of the blinds 14 and 15 on the side covers 4 in the lower and upper parts of each floor, provide floor cooling of the REA units. At the same time, the possibility of both convective and forced cooling of the equipment on each floor is provided, depending on the heat emission of the REA units installed on it.

With convective ventilation, the warm air passing through the REA blocks bumps into the interfloor partition 10 and leaves the cabinet through the upper blinds 15 on the side covers 4 within the same floor. At the same time, through the lower blinds of this floor there is a intake of cold air. An additional flow of cooling air occurs along the REA blocks in the cavities of the front 2 and rear 3 covers when it enters through the holes in the base and exits through the blinds 13 of the front 2 and rear 3 covers in the upper part, and prevents the creation of overheating fields inside the cabinet.

At the same time, the heat dissipation of CEA blocks practically does not affect the flow of cooling air passing in the cavities of the front 2 and rear 3 covers, since it occurs from their side surfaces located along the side covers 4 with shutters, and heat is released from the end surfaces of the blocks closed by front panels , minimum.

To ensure forced cooling of the REA units, a fan block (not shown) is installed under the lower frame of each floor on the interfloor partitions 10.

When performing forced ventilation of each floor, the intake of cold air by the fan unit occurs through the louvers 14 in the side covers 4 at the bottom of the floor and through the hole in the front of the fan unit from the front cavity of the cabinet bounded by the front cover 2, through the ventilation holes in the lower base 7 and in the lower part of the front cover 2. The release of heated air occurs through the shutters 15 on the side covers 4 at the top of each floor and through the shutters 13 at the top of the front cover 2.

Thus, the implementation of the supporting frame of the structure from rolled steel and connecting its walls with screws, significantly increases its strength and stiffness, and, therefore, increases reliability in terms of mechanical stress, while increasing its useful internal volume. The installation of interfloor partitions increases the strength and rigidity of the structure, and at the same time ensures the organization of floor convective or forced cooling, depending on the heat emission of the blocks of electronic equipment, which significantly increases the efficiency of maintaining the necessary thermal regime of electronic equipment.

Claims (7)

1. Cabinet electronic equipment (CEA), containing mounted on the frame of the upper, rear, front and side covers with seals made of sheet material, the back and front covers are removable, box-shaped and equipped with ventilation shutters, on the lower base of the frame are made ventilation holes and brackets with holes for installing support shock absorbers are installed, characterized in that the frame is made of sheet material and contains an upper base, a lower base and side walls ki with cutouts connected interfloor partitions made with dimensions that ensure complete overlap passage section of the enclosure between the floors, and framework, adapted to the installation and fastening them block line, and on the side covers are made blinds at the upper and lower portions of each floor. 2. A cabinet according to claim 1, characterized in that in the lower part of the front cover ventilation holes are made. 3. A cabinet according to claim 1, characterized in that on the upper base there are holes for eyebolts and a window for the passage of cables from external connectors. 4. A cabinet according to claim 1, characterized in that holes are made on the top cover for installing external connectors. 5. A cabinet according to claim 1, characterized in that in the upper part of the side walls there are holes for mounting brackets for thrust vibration isolators. 6. The cabinet according to claim 1, characterized in that the removable front and rear covers are provided with hinges. 7. A cabinet according to claim 1, characterized in that it is equipped with fan units mounted on the floor partitions.

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