CN216600369U - Communication equipment panel assembly - Google Patents

Abstract

The utility model discloses a communication equipment panel component, which comprises a sheet metal panel, two side plates vertically connected to two opposite sides of the sheet metal panel, and at least one honeycomb plate fixed on the sheet metal panel through laser welding; the sheet metal panel is provided with at least one group of connecting positions, and each connecting position comprises a plurality of connecting holes which are arranged at intervals along the length direction of the sheet metal panel and used for being matched with a connector; the honeycomb panel along the length direction extension of panel beating panel and span connect the position on. According to the communication equipment panel component, the honeycomb plate is fixed on the sheet metal panel in the laser welding mode, compared with a conventional insertion mode, the connection contact area between the honeycomb plate and the sheet metal panel is larger, the ventilation and heat dissipation effects are improved, electromagnetic wave leakage can be effectively prevented, the arrangement of structures such as insertion and the like is reduced, the structure is simple, the processing technology is simplified, and the cost is reduced.

Description

Communication equipment panel assembly

Technical Field

The utility model relates to the technical field of communication equipment, in particular to a panel assembly of communication equipment.

Background

At present, the front panel of the communication equipment is mostly made of aluminum profiles matched with a CNC (computer numerical control) machining process, so that the product cost is high. The molding structure of the panel component of the communication equipment is complex, and the processing dimensional precision is difficult to ensure; meanwhile, the panel is required to be ensured to have enough strength by reinforcing the welding of the bracket, the process flow is long, the number of parts is large, the product quality is difficult to ensure, and the cost is increased.

In addition, the honeycomb panel is fixed through the grafting on the panel components of current, has the electromagnetic wave risk of leaking.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the present invention is to provide a communication device panel assembly for improving shielding effectiveness.

The technical scheme adopted by the utility model for solving the technical problems is as follows: the communication equipment panel component comprises a sheet metal panel, two side plates vertically connected to two opposite sides of the sheet metal panel, and at least one honeycomb plate fixed on the sheet metal panel through laser welding;

the sheet metal panel is provided with at least one group of connecting positions, and each connecting position comprises a plurality of connecting holes which are arranged at intervals along the length direction of the sheet metal panel and used for being matched with a connector; the honeycomb panel extends along the length direction of the sheet metal panel and spans the connecting position.

Preferably, the sheet metal panel is further provided with at least one supporting wall, and the supporting wall comprises a plurality of supporting plates which are arranged at intervals along the length direction of the sheet metal panel; each support plate corresponds to the side edge of one connecting hole; and one side surface of the honeycomb plate is connected with the corresponding side surface of the supporting wall through laser welding.

Preferably, the honeycomb plate comprises oppositely arranged connecting plates and a honeycomb structure arranged between the two connecting plates; and the connecting plate is connected with the corresponding side surface of the supporting wall through laser welding.

Preferably, the width of the honeycomb panel in the width direction of the sheet metal panel is 0.37 inches.

Preferably, the sheet metal panel comprises a main board and two long side boards vertically connected to two sides of the main board in the length direction,

the two side plates are vertically connected to both sides of the main plate in the width direction.

Preferably, one side of the side plate corresponding to the main plate is provided with a first connecting part, and two sides of the side plate corresponding to the two long side plates are respectively provided with a second connecting part; the first connecting part and the second connecting part are both relatively vertical to the side plate;

the first connecting parts are attached and fixed to the main board, and the second connecting parts are attached and fixed to the inner side faces of the long side plates respectively.

Preferably, a step is arranged on one second connecting part, and the corresponding long side plate is provided with a bend which is matched and connected with the step.

Preferably, the sheet metal panel and the side plates are provided with sprouting holes and/or salad holes.

Preferably, the communications equipment panel assembly further comprises a support chassis; the sheet metal panel is superposed and fixed on the support bottom plate; the support bottom plate is provided with at least one elongated slot, and the elongated slot is relatively communicated with the connecting position.

Preferably, the side plates, the sheet metal panel and the support bottom plate are integrally locked through fasteners.

According to the communication equipment panel component, the honeycomb plate is fixed on the sheet metal panel in the laser welding mode, compared with a conventional insertion mode, the connection contact area between the honeycomb plate and the sheet metal panel is larger, the ventilation and heat dissipation effects are improved, electromagnetic wave leakage can be effectively prevented, the arrangement of structures such as insertion and the like is reduced, the structure is simple, the processing technology is simplified, and the cost is reduced.

Drawings

The utility model will be further described with reference to the accompanying drawings and examples, in which:

fig. 1 is a schematic structural diagram of a communication device panel assembly according to an embodiment of the present invention;

fig. 2 is an exploded view of a communication device panel assembly according to an embodiment of the present invention.

Detailed Description

For a more clear understanding of the technical features, objects and effects of the present invention, embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

As shown in fig. 1 and 2, a communication equipment panel assembly according to an embodiment of the present invention is used for communication equipment, and may include a sheet metal panel 10, two side plates 20 vertically connected to opposite sides of the sheet metal panel 10, and at least one honeycomb plate 30 fixed to the sheet metal panel 10 by laser welding.

The sheet metal panel 10 may be configured in various corresponding shapes and sizes according to the communication device. At least one group of connecting positions 40 is arranged on the sheet metal panel 10 and used for positioning the connector. Each connecting position 40 includes a plurality of connecting holes 41 arranged at intervals along the length direction of the sheet metal panel 10, and the connectors can be respectively matched and fixed on the connecting holes 41 in an inserting plate manner. The honeycomb panel 30 extends along the length of the sheet metal panel 10 and spans the connection sites 40 to provide ventilation and connection shielding.

Specifically, structurally, the sheet metal panel 10 may include a main plate 11, and two long-side plates 12 vertically connected to opposite sides of the main plate 11. Taking the sheet metal panel 10 shown in fig. 2 as a rectangular panel as an example, the sheet metal panel 10 has two long sides and two short sides, the long sides correspond to the length of the sheet metal panel 10, and the short sides correspond to the width of the panel. The mainboard 11 is of a flat plate structure, and the connecting position 40 is arranged on the mainboard 11; two long-side plates 12 are vertically connected to both sides (i.e., the long sides) of the main plate 11 in the length direction; the two side plates 20 are perpendicularly attached to both sides (i.e., short sides) in the width direction of the main plate 11.

In this embodiment, the sheet metal panel 10 is integrally formed by a sheet metal member. Wherein, two long sideboard 12 accessible are buckled the relative both sides of an organic whole at mainboard 11, and structure as an organic whole with mainboard 11, structural strength is high.

The connection sites 40 are provided on the main board 11 of the panel and may be formed by stamping or the like. In the connection sites 40, the connection holes 41 may be the same or different in shape and size, and may be respectively provided according to the connectors to be mounted.

The sheet metal panel 10 is further provided with at least one supporting wall, and the supporting wall can be located between the two groups of connecting positions 40 on the sheet metal panel 10. The supporting wall comprises a plurality of supporting plates 13 which are arranged at intervals along the length direction of the sheet metal panel 10; each support plate 13 corresponds to a side of a connecting hole 41 and can function as a support for the honeycomb panel 30. The strip 13 may be integral with the main plate 11 and may be formed by bending a cut-out piece of the main plate 11 that is cut to form the connection hole 41.

The honeycomb panel 30 is attached to the sheet metal panel 10 in parallel and is welded to the sheet metal panel 10 through laser, and compared with a conventional plug-in connection mode, the connection is more stable, and the contact connection area is larger, so that the shielding effectiveness is better.

The number of the cellular boards 30 can be set corresponding to the number of the connection sites 40, so that at least one cellular board 30 corresponds to one connection site 30 to perform the functions of ventilation and connection shielding.

As shown in fig. 1 and 2, in the present embodiment, two sets of connection positions 40 are provided on the sheet metal panel 10, and two sets of connection positions 40 are also provided on the honeycomb panel 30, and are respectively laser-welded on the surface of the main board 11 and respectively cross over the two sets of connection positions 40. Wherein, a honeycomb plate 30 is corresponding to a connection position 40 and is abutted against a long side plate 12, the bottom surface of the honeycomb plate 30 is laser welded on the surface of the main plate 11, and one side surface is laser welded with the surface of the long side plate 12. The other cellular board 30 is corresponding to the other connection position 40, and can be abutted against the other long side board 12 like the aforementioned cellular board 30, or can be laser welded on the surface of the main board 11 and positioned between the two sets of connection positions 40 and close to and across the other connection position 40.

In conjunction with the placement of the buttress on the sheet metal panel 10, a honeycomb panel 30 may be placed on the sheet metal panel 10 adjacent to the buttress. Specifically, the honeycomb panel 30 is connected to the surface of the sheet metal panel 10 (i.e., the main panel 11) by laser welding at its side facing the sheet metal panel 10, and is connected to the corresponding side of the buttress by laser welding at its side facing the buttress. The connection of the buttress to the honeycomb panel 30 provides a supporting attachment thereto.

The honeycomb panel 30 further may include oppositely disposed connector panels 31, a honeycomb structure 32 disposed between the two connector panels 31; the honeycomb structure 32 may be formed by bending and connecting sheet metal strips. A connecting plate 31 is connected to the corresponding side of the support wall (the stay 13) by laser welding.

In addition, in the present invention, the honeycomb panel 30 is widened in width as compared with the conventional honeycomb panel arrangement, that is: the width of the honeycomb panel 30 in the width direction of the sheet metal panel 10 is 0.37 inches, increasing the ventilation area, thereby improving the ventilation efficiency. The length of the honeycomb panel 30 is set to correspond to the length of the connection location 40, and is 16.24 inches, for example.

The two side plates 20 correspond to both sides in the width direction of the sheet metal panel 10, respectively. The shape and the like of the side plate 20 can be flexibly set, and for example, the side plate may be a trapezoidal structure as shown in fig. 1 and 2, and the side surface of the side plate facing away from the sheet metal panel 10 is an inclined surface.

In the fitting manner, the side panel 20 is fitted between the main panel 11 and the long-side panel 12 of the sheet metal panel 10. Wherein, one side of the side plate 20 corresponding to the main plate 11 is provided with a first connecting part 21, and two sides of the side plate 20 corresponding to the two long side plates 12 are respectively provided with a second connecting part 22; the first connecting portion 21 and the second connecting portion 22 are perpendicular to the side plate 20. The first connecting portion 21 is attached to and fixed on the main board 11, and the two second connecting portions 22 are respectively attached to and fixed on the inner side surfaces of the two long-side boards 12.

Alternatively, a step 221 is formed on one second connecting portion 22, and the corresponding long-side plate 12 is provided with a bend 121 to fit and connect with the step 221. The step 221 may be formed on the second connection portion 22 by bending, or may be formed on the groove surface by notching. The bend 121 of the long-side plate 12 is formed by bending corresponding to the step 221.

In addition, the sheet metal panel 10 and the side panel 20 can be provided with a bud-extracting hole and/or a salad hole for matching with a connecting piece and the like to install the whole panel assembly on the front side of the chassis of the communication equipment. The sheet metal panel 10 and the side panel 20 may be connected by a pop hole and/or a salad hole.

Further, the communication equipment panel assembly of the present invention further includes a support chassis 50; the sheet metal panel 10 is stacked and fixed on the support base 50.

Corresponding to the connection position 40 on the sheet metal panel 10, at least one elongated slot 51 is provided on the support base plate 50, and the elongated slot 51 is relatively communicated with the connection position 40. The support substrate 50 and the honeycomb panel 30 are respectively located on opposite surfaces of the sheet metal panel 10. In assembly, the side panels 20, the sheet metal panel 10 and the support floor 50 may be integrally locked by fasteners (not shown).

When the communication equipment panel component is manufactured, after the sheet metal panel 10, the side plates 20, the supporting bottom plate 50 and other parts are formed by sheet metal part processing, the pre-formed honeycomb plate 30 is fixed on the upper surface of the sheet metal panel 10 by laser welding; the supporting bottom plate 50 is matched with the cellular board 30 back to the back on the lower surface of the sheet metal panel 10, the two side plates 20 are matched on two sides of the sheet metal panel 10, and the three types of the panels are locked together through the locking pieces penetrating into the supporting bottom plate 50, the sheet metal panel 10 and the side plates 20.

When in use, the communication equipment panel assembly is arranged on the front side of the chassis, and the connector is matched on the connecting hole 41 of the sheet metal panel 10 according to requirements.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A communication equipment panel component is characterized by comprising a sheet metal panel, two side plates vertically connected to two opposite sides of the sheet metal panel, and at least one honeycomb plate fixed on the sheet metal panel through laser welding;

the sheet metal panel is provided with at least one group of connecting positions, and each connecting position comprises a plurality of connecting holes which are arranged at intervals along the length direction of the sheet metal panel and used for being matched with a connector; the honeycomb panel extends along the length direction of the sheet metal panel and spans the connecting position.

2. The communication equipment panel assembly of claim 1, wherein the sheet metal panel is further provided with at least one supporting wall, and the supporting wall comprises a plurality of supporting plates arranged at intervals along the length direction of the sheet metal panel; each support plate corresponds to the side edge of one connecting hole;

and one side surface of the honeycomb plate is connected with the corresponding side surface of the supporting wall through laser welding.

3. The telecommunications equipment panel assembly of claim 2, wherein the cellular board includes oppositely disposed connection panels, a cellular structure disposed between two of the connection panels; and the connecting plate is connected with the corresponding side surface of the supporting wall through laser welding.

4. The communications equipment panel assembly of claim 1 wherein the honeycomb panel has a width of 0.37 inches in the width direction of the sheet metal panel.

5. The communication equipment panel assembly of claim 1, wherein the sheet metal panel comprises a main plate, two long side plates vertically connected to both sides of the main plate in a length direction,

the two side plates are vertically connected to both sides of the main plate in the width direction.

6. The communication equipment panel assembly of claim 5, wherein a first connecting portion is disposed on one side of the side plate corresponding to the main plate, and a second connecting portion is disposed on two sides of the side plate corresponding to the two long side plates; the first connecting part and the second connecting part are both relatively vertical to the side plate;

the first connecting parts are attached and fixed to the main board, and the second connecting parts are attached and fixed to the inner side faces of the long side plates respectively.

7. The communication equipment panel assembly of claim 6, wherein one of the second connecting portions has a step, and the corresponding long side plate has a bend to fit the step.

8. The communication equipment panel assembly of claim 1, wherein the sheet metal panel and the side panels are provided with sprout holes and/or salad holes.

9. The communications equipment panel assembly of any one of claims 1-8 further comprising a support chassis; the sheet metal panel is superposed and fixed on the support bottom plate; the support bottom plate is provided with at least one elongated slot, and the elongated slot is relatively communicated with the connecting position.

10. The communications equipment panel assembly of claim 9 wherein the side panels, sheet metal panel and support base panel are integrally secured by fasteners.

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