CN219739277U - 5G antenna device - Google Patents

Abstract

The utility model relates to the technical field of 5G antenna equipment, in particular to a 5G antenna device, which comprises a 5G antenna box, a mounting backboard arranged on the 5G antenna box and two identical clamping pieces symmetrically arranged on the mounting backboard; the clamping piece comprises a mounting seat, a rotating mandrel, a clamping plate and a torsion spring, wherein the mounting seat is mounted on the mounting backboard, the rotating mandrel is rotatably arranged on the mounting seat, the clamping plate is arranged on the rotating mandrel and synchronously rotates along with the rotating mandrel, and the torsion spring is arranged on the rotating mandrel in a penetrating manner and is used for connecting the mounting seat and the clamping plate; the clamping plate is provided with a mounting hole; when the torsion spring is not subjected to torsion, the clamping plate is parallel to the surface of the mounting backboard; when the torsion spring is subjected to torsion, the clamping plate is meshed in the direction close to the mounting backboard under the torsion of the torsion spring. The 5G antenna device is convenient to install and convenient to adjust the height and the angle.

Description

5G antenna device

Technical Field

The utility model relates to the technical field of 5G antenna equipment, in particular to a 5G antenna device.

Background

The antenna device is widely applied to the field of telecommunication, and various antenna devices arranged on an antenna bracket (generally about 10m-15 m) are visible everywhere in our life. The antenna device is greatly affected by environmental factors, such as the presence of obstructions (e.g., houses, trees) in the environment, which can interfere with the antenna device signal. The antenna support is fixedly mounted on the ground, and the antenna device is generally fixedly mounted on the antenna support by a fastener (such as a hoop device), which is an objective fact that will be understood by those skilled in the art and will not be described in detail herein. However, the shielding in the environment is not fixed, such as the height of the surrounding closely-spaced trees or the newly-built surrounding buildings, which can affect the signal of the antenna device, even if the tree limbs extend to the antenna to enable the antenna device to angularly displace, and the height and/or the angle of the antenna device need to be adjusted.

In the practical use process, staff reacts, and the antenna device is required to be adjusted in height and/or angle, and the antenna device is required to be detached from the antenna bracket and reinstalled, so that the process is complicated and the workload is high. Particularly, for the 5G antenna devices (which are generally distributed at intervals of 200-300 m), the number of the antenna devices is large, the workload of workers is greatly increased, and the maintenance cost is also increased for an operating enterprise.

Disclosure of Invention

Accordingly, in view of the above-mentioned problems, the present utility model proposes a 5G antenna device that is convenient to install, adjust the height and angle.

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

A5G antenna device comprises a 5G antenna box, a mounting backboard arranged on the 5G antenna box, and two identical clamping pieces symmetrically arranged on the mounting backboard;

the clamping piece comprises a mounting seat, a rotating mandrel, a clamping plate and a torsion spring, wherein the mounting seat is mounted on the mounting backboard, the rotating mandrel is rotatably arranged on the mounting seat, the clamping plate is arranged on the rotating mandrel and synchronously rotates along with the rotating mandrel, and the torsion spring is arranged on the rotating mandrel in a penetrating manner and is used for connecting the mounting seat and the clamping plate;

the clamping plate is provided with a mounting hole;

when the torsion spring is not subjected to torsion, the clamping plate is parallel to the surface of the mounting backboard;

when the torsion spring is subjected to torsion, the clamping plate is meshed in the direction close to the mounting backboard under the torsion of the torsion spring.

Further, a first anti-slip lining is further arranged on the mounting backboard.

Further, a second anti-slip lining is arranged on the inner wall of the mounting hole.

Through the scheme, the utility model has the beneficial effects that:

the 5G antenna device is arranged on the antenna bracket when in use, is convenient to install, and is convenient for adjusting the height and the angle on the antenna bracket. Specifically, when using, apply torsion to the splint of two holders, make two splint be close to each other, then pass the mounting hole of two splint with the antenna boom respectively, loosen the torsion of appling two splint after, two splint receive the torsion of torsional spring tightly to grasp the antenna boom on the installation backplate, easy to assemble.

When the height and/or angle of the 5G antenna device on the antenna bracket are/is required to be adjusted, the height and/or angle of the 5G antenna device on the antenna bracket can be adjusted only by applying torsion to the clamping plates of the two clamping pieces to reduce or eliminate the force applied by the two clamping plates on the antenna bracket. After the adjustment is completed, the torsion applied to the two clamping plates is released, and the two clamping plates are subjected to torsion of the torsion springs to clamp the antenna bracket on the mounting backboard again.

Further, through still being provided with first anti-skidding lining on the installation backplate, be provided with the second anti-skidding lining on the inner wall of mounting hole, the frictional force between first anti-skidding lining and the second anti-skidding lining and the antenna support is big, avoids receiving external force (like the wind blows) 5G antenna device landing or turned angle from the antenna support in daily normal use.

Drawings

Fig. 1 is a schematic side view of the structure of the present 5G antenna device.

Fig. 2 is a schematic plan view of the structure of the present 5G antenna device.

Fig. 3 is an enlarged view at a in fig. 2.

Fig. 4 is a schematic structural view of the present 5G antenna device mounted on an antenna stand.

Detailed Description

The utility model will now be further described with reference to the drawings and detailed description.

Referring to fig. 1 to 4, the present embodiment provides a 5G antenna device including a 5G antenna case 1, a mounting back plate 2, two identical holders 3, and a first non-slip liner 4.

The 5G antenna box is an existing device, and in this embodiment, the 5G antenna box has a circular structure, and in the actual use process, the 5G antenna box may also have other shapes. The utility model does not relate to structural improvements of the 5G antenna box itself.

As shown in fig. 1, 2 and 4, the mounting backplate 2 is mounted on a 5G antenna box 1. And the two clamping pieces 3 are symmetrically arranged on the mounting backboard 2.

More specifically, the clamping member 3 includes a mounting seat 31 mounted on the mounting back plate 2, a rotating spindle 32 rotatably provided on the mounting seat 31, a clamping plate 33 provided on the rotating spindle 32 to rotate in synchronization with the rotating spindle 32, and a torsion spring 34 provided to pass through the rotating spindle 32 for connecting the mounting seat 31 and the clamping plate 33 (although specific connection means of the mounting seat 31, the clamping plate 33, and the torsion spring 34 are not shown in fig. 1 to 4, it will be apparent to those skilled in the art that one end of the torsion spring 34 is connected to the mounting seat 31, and the other end of the torsion spring 34 is connected to the clamping plate 33).

The clamping plate 33 is provided with a mounting hole 35, and a second anti-slip lining 5 is arranged on the inner wall of the mounting hole 35.

The first anti-slip lining 4 and the second anti-slip lining 5 are anti-slip rubber pads for increasing friction force.

As shown in fig. 1, the clamping plate 33 is parallel to the surface of the mounting backplate 2 when the torsion spring 34 is not under torsion.

In use, a torsion force is applied to the clamping plates 33 of the two clamping members 3 to enable the two clamping plates 33 to be close to each other, and when the torsion spring 34 is subjected to the torsion force, the clamping plates 33 are meshed in the direction of the mounting backboard 2 by the torsion force of the torsion spring 34. Antenna mount 100 (antenna mount 100 is an existing device and the utility model is not directed to an improvement to antenna mount 100) is then passed through mounting hole 35 of clamp plate 33. After the torsion applied to the clamping plates 33 is released, the torsion springs 34 are to be restored, and the two clamping plates 33 are tightly clamped on the mounting backboard 2 by the torsion force of the torsion springs 34. Specifically, the antenna support 100 is clamped between the first anti-slip liner 4 and the second anti-slip liner 5, and the friction force between the first anti-slip liner 4 and the second anti-slip liner 5 and the antenna support 100 is large, so that the 5G antenna device is prevented from sliding off or rotating from the antenna support 100 due to external force (such as wind) in the normal daily use process, and the daily installation and use requirements are met.

When the height and/or angle of the 5G antenna device need to be adjusted, the height and/or angle of the entire 5G antenna device can be adjusted by only applying torsion to the clamping plates 33 of the two clamping members 3, so that the force applied by the two clamping plates 33 to the antenna bracket 100 is reduced or eliminated. After the adjustment is completed, the torsion applied to the two clamping plates 33 is released, and the two clamping plates 33 are subjected to torsion of the torsion springs 34 to clamp the antenna support 100 on the mounting backboard 2 again.

While the utility model has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (3)

1. A 5G antenna apparatus, characterized in that: the antenna comprises a 5G antenna box, a mounting backboard arranged on the 5G antenna box and two identical clamping pieces symmetrically arranged on the mounting backboard;

the clamping piece comprises a mounting seat, a rotating mandrel, a clamping plate and a torsion spring, wherein the mounting seat is mounted on the mounting backboard, the rotating mandrel is rotatably arranged on the mounting seat, the clamping plate is arranged on the rotating mandrel and synchronously rotates along with the rotating mandrel, and the torsion spring is arranged on the rotating mandrel in a penetrating manner and is used for connecting the mounting seat and the clamping plate;

the clamping plate is provided with a mounting hole;

when the torsion spring is not subjected to torsion, the clamping plate is parallel to the surface of the mounting backboard;

when the torsion spring is subjected to torsion, the clamping plate is meshed in the direction close to the mounting backboard under the torsion of the torsion spring.

2. A 5G antenna assembly according to claim 1, characterized in that: the mounting backboard is also provided with a first anti-slip lining.

3. A 5G antenna device according to claim 1 or 2, characterized in that: and a second anti-slip lining is arranged on the inner wall of the mounting hole.