CN219874028U - Quick assembly mechanism suitable for antenna debugging - Google Patents

Abstract

The utility model discloses a rapid assembly mechanism suitable for antenna debugging, which comprises a debugging piece, a plastic clamping piece and a reflecting plate, wherein the debugging piece and the reflecting plate are assembled into a whole through the plastic clamping piece. The rapid assembly mechanism suitable for antenna debugging provided by the utility model has the advantages that the designed upper inclined boss, the designed lower inclined boss and the plastic clamping piece are matched in place through the elastic deformation of the plastic clamping piece, the rapid assembly of the test piece and the reflecting plate is realized, the plastic clamping piece can be conveniently detached and replaced from the reflecting plate, a plurality of hole sites can be designed on the reflecting plate to adjust the position, the whole structure is simple and reliable, the use is convenient, the installation can be completed only by simple insertion action, a large amount of cost can be saved, the working efficiency is improved, the universality is strong, and part of parts can be properly changed according to specific requirements, so that the adjustment of the electric performance, especially the front-back ratio and the wave width can be met.

Description

Quick assembly mechanism suitable for antenna debugging

Technical Field

The utility model belongs to the technical field of antennas, and particularly relates to a rapid assembly mechanism suitable for antenna debugging.

Background

With the increasing complexity of antenna structures, the index requirements of the multi-frequency antenna are more and more strict, and for front-to-back ratio, horizontal wave width and cross polarization adjustment of the antenna, the mode adopted in the general case is to design the side surface of the reflecting plate into a city wall shape with alternating height, and the price calculation of the sheet metal part generally calculates the price by the length and width of the sheet metal expansion, so that a great amount of sheet metal waste is increased for adjusting the electric performance. The partition plate is installed through plastic rivets, and a plastic film is needed to be filled between the test piece and the reflecting plate for insulation, so that the problems of complex assembly and long time consumption exist.

Therefore, the utility model discloses a rapid assembly mechanism suitable for antenna debugging.

Disclosure of Invention

In order to solve the technical problems in the prior art, the utility model aims to provide a rapid assembly mechanism suitable for antenna debugging.

In order to achieve the above purpose and achieve the above technical effects, the utility model adopts the following technical scheme:

the utility model provides a quick assembly mechanism suitable for antenna debugging, includes debugging piece, plastics fastener and reflecting plate, assemble into an organic whole through plastics fastener between debugging piece and the reflecting plate.

Further, the lower part slotting is formed in the lower half part of the plastic clamping piece, the lower part slotting is matched with the reflecting plate, the upper half part of the plastic clamping piece is provided with the square groove, the square groove is matched with the test piece, the plastic clamping piece is inserted onto the reflecting plate through the lower part slotting, and the test piece is inserted onto the plastic clamping piece through the square groove.

Further, the lower half part of the plastic clamping piece is provided with a lower inclined boss and a lower U-shaped table, the upper half part of the plastic clamping piece is provided with an upper inclined boss and an upper U-shaped table, the lower U-shaped table and the upper U-shaped table are of hollow structures, the lower inclined boss is arranged on the lower U-shaped table, and the upper inclined boss is arranged on the upper U-shaped table.

Further, the lower U-shaped table is provided with two lower inclined surface bosses which are not in the same plane and are arranged in a staggered mode, the lower inclined surface bosses are arranged towards the lower grooves on the plastic clamping piece, the upper U-shaped table is provided with two upper inclined surface bosses which are not in the same plane and are arranged in a staggered mode, and the upper inclined surface bosses are arranged towards the square grooves on the plastic clamping piece.

Further, the lower inclined surface boss is rounded, and after the lower inclined surface boss is matched with the limiting hole on the reflecting plate and is concentrically limited, the elastic deformation of the lower U-shaped table is eliminated.

Further, after the upper inclined boss is matched with the hole site on the test piece and is concentrically limited, the elastic deformation of the upper U-shaped table is eliminated.

Further, the side edge of the reflecting plate is folded upwards, and a sinking groove and a plurality of limiting holes matched with the plastic clamping piece are formed in the folded edge.

Further, the debugging piece comprises a side edge and a plurality of hole sites, and the side edge is matched with the square groove on the plastic clamping piece.

Compared with the prior art, the utility model has the beneficial effects that:

the utility model discloses a quick assembly mechanism suitable for antenna debugging, which is characterized in that a designed limit point (comprising an upper inclined boss, a lower inclined boss and the like) is matched in place through elastic deformation of a plastic clamping piece, so that quick assembly of a test piece and a reflecting plate is realized, a plurality of hole sites can be designed on the reflecting plate to adjust the position, the plastic clamping piece is designed with a hollowed-out structure, and can be conveniently detached and replaced from the reflecting plate.

Drawings

FIG. 1 is a schematic overall perspective view of the present utility model;

FIG. 2 is an exploded view of the present utility model;

FIG. 3 is a schematic illustration of the present utility model;

FIG. 4 is a schematic limiting diagram of a reflector plate and a plastic clip according to the present utility model;

FIG. 5 is a schematic limiting diagram of a plastic clip and a test piece according to the present utility model;

fig. 6 is a schematic perspective view of a plastic clip according to the present utility model.

Detailed Description

The present utility model is described in detail below so that advantages and features of the present utility model can be more easily understood by those skilled in the art, thereby making clear and unambiguous the scope of the present utility model.

The following presents a simplified summary of one or more aspects in order to provide a basic understanding of such aspects. This summary is not an extensive overview of all contemplated aspects, and is intended to neither identify key or critical elements of all aspects nor delineate the scope of any or all aspects. Its sole purpose is to present some concepts of one or more aspects in a simplified form as a prelude to the more detailed description that is presented later.

As shown in fig. 1 to 6, a rapid assembly mechanism suitable for antenna debugging mainly comprises a test piece 10, a plastic clamping piece 20 and a reflecting plate 30; the side edge of the reflecting plate 30 is folded upwards, a sinking groove 301 is formed in the design of the reflecting plate 30, a plurality of limiting holes 302, preferably two limiting holes, are formed in the folded edge for limiting the left and right limiting of the plastic clamping piece 20; the plastic clamping piece 20 is integrally formed by injection molding, the POM is made of a material, a lower groove 205 is formed in the lower half part of the plastic clamping piece 20, front and rear limiting is carried out on the plastic clamping piece and the reflecting plate 30, a square groove 206 is formed in the upper half part of the plastic clamping piece 20, front and rear limiting of the test piece 10 is matched, U-shaped structures for realizing elastic deformation, namely an upper U-shaped table 204 and a lower U-shaped table 202 are designed in the upper part and the lower part of the plastic clamping piece 20, the upper two upper U-shaped tables 204 are not arranged on the same plane and are arranged in a staggered mode, the lower two lower U-shaped tables 202 are not arranged on the same plane and are arranged in a staggered mode, boss structures are respectively arranged between the upper U-shaped tables 204 and the lower U-shaped table 202 and are used for limiting the reflecting plate 30 and the debugging piece 10, an upper inclined plane boss 203 and a lower inclined plane boss 201 are respectively formed, the upper inclined plane boss 203 faces the square groove 206, the lower inclined plane boss 201 faces the lower groove 205 and the groove 205, installation of the plastic clamping piece 20 and the reflecting plate 30 and the debugging piece 10 is facilitated, the two holes are designed in the same, and the front side edges of the left side groove 102 and the right groove 206 of the test piece 10 are subjected to debugging.

The working principle of the utility model comprises:

the plastic clamping piece 20 is aligned with the sinking groove 301 of the reflecting plate 30 and is installed downwards, the reflecting plate 30 firstly touches the lower inclined boss 201, the lower inclined boss 201 is rounded, the lower U-shaped table 202 is elastically deformed outwards after the lower inclined boss 201 contacts with the lower groove 205, after the reflecting plate 30 contacts with the lower groove 205, the two sides of the sinking groove 301 of the reflecting plate 30 can limit the two sides of the plastic clamping piece 20 leftwards and rightwards, meanwhile, the lower inclined boss 201 is matched with the limiting hole 302 on the reflecting plate 30 to concentrically limit, the elastic deformation of the lower U-shaped table 202 is eliminated, the front and rear limit is carried out between the reflecting plate 30 and the lower groove 205, and finally the quick assembly of the plastic clamping piece 20 and the reflecting plate 30 is realized;

after the upper and lower parts of the plastic clamping piece 20 are successfully limited, the test piece 10 is inserted into the square groove 206 above the plastic clamping piece 20, the test piece 10 is longitudinally installed through the square groove 206, the test piece 10 is firstly contacted with the upper inclined surface boss 203 with a rounded corner when being downwards installed, then the upper U-shaped table 204 is elastically deformed, when the test piece 10 is installed to the bottom and contacted with the reflecting plate 30, the upper inclined surface boss 203 is matched with the hole site 102 on the test piece 10, the concentric limitation is realized, the elastic deformation of the upper U-shaped table 204 is eliminated, and finally the quick assembly of the test piece 10 and the reflecting plate 30 is completed.

The plastic clamping piece 20 can be quickly installed by identifying the positions of the holes and the grooves on the reflecting plate 30, and then the test piece 10 is inserted after being aligned with the square groove 206 on the plastic clamping piece 20, so that the plastic clamping piece is installed, and the plastic clamping piece is simple and reliable in integral structure, convenient to use and high in universality, and can be used for properly changing the parts according to actual requirements, including size change, number change, position change and the like, so that the adjustment of electrical performance, especially front-to-back ratio and wave width, is met.

Parts or structures of the present utility model, which are not specifically described, may be existing technologies or existing products, and are not described herein.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or direct or indirect application in other related arts are included in the scope of the present utility model.

Claims (8)

1. The rapid assembly mechanism suitable for antenna debugging is characterized by comprising a debugging piece, a plastic clamping piece and a reflecting plate, wherein the debugging piece and the reflecting plate are assembled into a whole through the plastic clamping piece.

2. The quick assembly mechanism for antenna debugging according to claim 1, wherein the lower half of the plastic clamping piece is provided with a lower slot, the lower slot is matched with the reflecting plate, the upper half of the plastic clamping piece is provided with a square slot, the square slot is matched with the debugging piece, the plastic clamping piece is inserted onto the reflecting plate through the lower slot, and the debugging piece is inserted onto the plastic clamping piece through the square slot.

3. The quick assembly mechanism for antenna debugging according to claim 2, wherein the lower half of the plastic clamping piece is provided with a lower inclined boss and a lower U-shaped table, the upper half of the plastic clamping piece is provided with an upper inclined boss and an upper U-shaped table, the lower U-shaped table and the upper U-shaped table are hollow structures, the lower inclined boss is arranged on the lower U-shaped table, and the upper inclined boss is arranged on the upper U-shaped table.

4. The quick assembly mechanism for antenna debugging according to claim 3, wherein the two lower U-shaped platforms are arranged on the same plane in a staggered manner, the lower inclined surface boss is arranged towards the lower slot on the plastic clamping piece, the two upper U-shaped platforms are arranged on the same plane in a staggered manner, and the upper inclined surface boss is arranged towards the square slot on the plastic clamping piece.

5. The rapid assembling mechanism for antenna debugging according to claim 3, wherein the lower inclined boss is rounded, and after the lower inclined boss is matched with the limiting hole on the reflecting plate and is concentrically limited, the elastic deformation of the lower U-shaped table is eliminated.

6. The rapid assembling mechanism for antenna debugging according to claim 3, wherein after the upper inclined boss is matched with the hole site on the test piece and is concentrically limited, the elastic deformation of the upper U-shaped table is eliminated.

7. The rapid assembly mechanism for antenna debugging according to claim 1, wherein the side edge of the reflecting plate is folded upwards, and a sinking groove and a plurality of limiting holes matched with the plastic clamping piece are formed in the folded edge.

8. The quick assembly mechanism for antenna tuning of claim 1 wherein said tuning element comprises a side edge and a plurality of holes, said side edge being adapted to a square slot in the plastic clip.