CN218523285U - Adjusting structure for 5G base station - Google Patents

Abstract

The application relates to an adjusting structure for a 5G base station, which comprises a main body part, a bearing component and a rotating component, wherein the bearing component and the rotating component are respectively installed at two ends of the main body part. The bearing assembly comprises a first body part and a second body part, the 5G base station is rotatably mounted on the first body part, the second body part is abutted to the bottom surface of the 5G base station and is rotatably mounted on the first body part for adjusting an included angle between the 5G base station and the main body part in the axial direction, the second body part can also bear the 5G base station, and the stability of the 5G base station is improved. The runner assembly includes drive wheel and intermittent type wheel, and the drive wheel is provided with dials the piece, and the intermittent type wheel is provided with a plurality of depressed parts, dials the piece and can stretch into the depressed part to the drive intermittent type wheel rotates, and the intermittent type wheel is connected with the main part and can drive the main part and rotate, and then adjusts the angle of 5G basic station along the circumference of main part.

Description

A regulatory structure for 5G base stations

technical field

This application relates to the technical field of 5G base station adjustment, in particular to an adjustment mechanism for a 5G base station.

Background technique

The 5G base station is the core equipment of the 5G network, which provides wireless coverage and realizes the wireless signal transmission between the wired communication network and the wireless terminal. At present, it is necessary to carry the 5G base station through the installation bracket to determine the angle of the position of the 5G base station, but the 5G base station is fixed on the It is inconvenient to adjust its angle after installing the bracket.

Utility model content

This application provides an adjustment structure of a 5G base station, which is used to solve the problem of inconvenient adjustment of the angle of the 5G base station.

An embodiment of the present application provides an adjustment structure for a 5G base station. The adjustment structure for a 5G base station includes:

main body;

A bearing assembly, the bearing assembly is connected to the main body for installing a 5G base station;

a rotating assembly, the rotating assembly is connected to an end of the main body away from the carrying assembly;

Wherein, the carrying assembly includes a first body part and a second body part, the first body part is mounted on the body part, and the second body part is rotatably mounted on the first body part for Adjust the angle between the 5G base station and the axial direction of the main body, the rotating assembly includes a driving wheel and an intermittent wheel, the driving wheel is provided with a toggle, and a depression is provided along the radial direction of the intermittent wheel part, a plurality of recessed parts are arranged at intervals along the circumference of the intermittent wheel, and the toggle member can extend into the recessed part and move relative to the recessed part for driving the intermittent wheel to rotate. The wheel is connected with the main body, and is used to drive the main body to rotate, so as to adjust the angle of the 5G base station along the circumference of the main body.

In a possible implementation manner, the rotating assembly includes a connecting piece, one end of the connecting piece is connected to the main body, and the other end can extend into the intermittent wheel and is arranged coaxially with the intermittent wheel.

In a possible implementation manner, the driving wheel is provided with a limiting protrusion, and the limiting protrusion is located on the side of the driving wheel where the dial is provided, and the intermittent wheel is provided with a first limiting groove , the limiting protrusion can extend into the first limiting groove.

In a possible implementation manner, the rotating assembly includes a driving motor, the driving wheel is installed at an output end of the driving motor, and the driving motor is used to drive the driving wheel to rotate.

In a possible implementation manner, the carrying assembly includes a rotating shaft, and the rotating shaft is used to connect the first body part and the second body part, and the second body part can move along with the rotating shaft. turn.

In a possible implementation manner, a rotating handle is provided on one side of the rotating shaft, and the rotating handle is connected to the rotating shaft for driving the rotating shaft to rotate.

In a possible implementation manner, a rotating part is provided on a side of the second body part close to the first body part, the rotating shaft is connected to the rotating part, and the rotating part faces the first One side of the body part is set as an arc surface.

In a possible implementation manner, the bearing assembly includes at least two clamping pieces, the clamping pieces are installed on both sides of the second body part respectively, and are used for clamping the 5G base station.

In a possible implementation manner, an elastic member is provided between the clamping piece and the second body portion, for limiting the relative position between the clamping piece and the second body portion, so as to Clamp the 5G base station.

In a possible implementation manner, the main body part includes a first main body part and a second main body part, the first main body part is telescopically installed and connected to the second main body part, and the bearing assembly is installed on the The first main body part, the rotating assembly is installed on the second main body part.

An embodiment of the present application provides an adjustment structure for a 5G base station, including a main body, a carrying assembly and a rotating assembly, and the carrying assembly and the rotating assembly are respectively installed at both ends of the main body. The carrier assembly includes a first body part and a second body part. The 5G base station is rotatably mounted on the first body part. The second body part abuts against the bottom surface of the 5G base station and is rotatably mounted on the first body part for By adjusting the included angle between the 5G base station and the axial direction of the main body, the second main body can also support the 5G base station and improve the stability of the 5G base station. The rotating assembly includes a driving wheel and an intermittent wheel. The driving wheel is provided with a toggle, and the intermittent wheel is provided with a plurality of recesses. The toggle can extend into the recesses to drive the intermittent wheel to rotate. The intermittent wheel is connected with the main body and can drive The main body rotates to adjust the angle of the 5G base station along the circumference of the main body.

It is to be understood that both the foregoing general description and the following detailed description are exemplary only and are not restrictive of the application.

Description of drawings

FIG. 1 is a schematic structural diagram of an adjustment structure for a 5G base station provided in an embodiment of the present application;

FIG. 2 is a schematic structural diagram of a rotating assembly provided in an embodiment of the present application;

Fig. 3 is a front view of the rotating assembly provided by the embodiment of the present application;

FIG. 4 is a schematic structural diagram of a bearing assembly provided in an embodiment of the present application;

Fig. 5 is a front view of the second body part provided by the embodiment of the present application.

Reference signs:

1- Main body;

11 - the first main body;

12 - the second main body;

2-carrying components;

21 - the first body part;

211-installation groove;

22 - the second body part;

221 - rotating part;

23 - axis of rotation;

24 - turn the handle;

25-clamping piece;

251 - foam layer;

252 - silica gel layer;

26 - elastic member;

27 - guide;

28 - mounting plate;

29 - locking piece;

3-Rotating components;

31 - drive wheel;

311 - toggle;

312-limit protrusion;

32-intermittent wheel;

321 - depression;

322-the first limit slot;

33-connector;

331-limit block;

34 - drive motor;

4- transmission box;

41 - housing;

42 - Mounting seat;

43 - bottom plate;

5-stabilizer;

6- fixed sleeve;

7-limit plate.

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the application and together with the description serve to explain the principles of the application.

Detailed ways

In order to better understand the technical solutions of the present application, the embodiments of the present application will be described in detail below in conjunction with the accompanying drawings.

It should be clear that the described embodiments are only some of the embodiments of the present application, not all of the embodiments. Based on the embodiments in this application, all other embodiments obtained by persons of ordinary skill in the art without creative efforts fall within the protection scope of this application.

Terms used in the embodiments of the present application are only for the purpose of describing specific embodiments, and are not intended to limit the present application. The singular forms "a", "said" and "the" used in the embodiments of this application and the appended claims are also intended to include plural forms unless the context clearly indicates otherwise.

It should be understood that the term "and/or" used herein is only an association relationship describing associated objects, which means that there may be three relationships, for example, A and/or B, which may mean that A exists alone, and A and B exist simultaneously. B, there are three situations of B alone. In addition, the character "/" in this article generally indicates that the contextual objects are an "or" relationship.

It should be noted that the orientation words such as "up", "down", "left", and "right" described in the embodiments of the present application are described from the angles shown in the drawings, and should not be interpreted as limiting the implementation of the present application. Example limitations. Furthermore, in this context, it also needs to be understood that when it is mentioned that an element is connected "on" or "under" another element, it can not only be directly connected "on" or "under" another element, but can also To be indirectly connected "on" or "under" another element through an intervening element.

As shown in Figures 1 to 3, the embodiment of the present application provides an adjustment structure for a 5G base station, including a main body 1, a bearing assembly 2 and a rotating assembly 3, and the bearing assembly 2 and the rotating assembly 3 are respectively installed on the main body 1, the bearing assembly 2 is used to install the 5G base station, and the rotating assembly 3 is used to adjust the direction of the main body 1. The carrier assembly 2 is provided with a first body part 21 and a second body part 22. The first body part 21 is provided with a mounting groove 211 for installing a 5G base station. The 5G base station is rotatably connected to the mounting groove 211. The second body part 22 can be Rotatingly installed on the first body part 21, and abut against the lower surface of the 5G base station, it is used to support the 5G base station, making it more stable after installation. When the second body part 22 rotates relative to the first body part 21, The included angle between the 5G base station and the axial direction H of the main body 1 can be adjusted. The rotating assembly 3 includes a driving wheel 31 and an intermittent wheel 32, a dial 311 is provided on the driving wheel 31, a recessed portion 321 is provided on the intermittent wheel 32, the recessed portion 321 extends along the radial direction R of the intermittent wheel 32, and a plurality of The recessed portion 321 is arranged at intervals along the circumferential direction of the intermittent wheel 32, and the toggle member 311 can extend into the recessed portion 321, and can move relative to the recessed portion 321, so that the driving wheel 31 can drive the intermittent wheel 32 to rotate, and the intermittent wheel 32 and the main body 1, and can drive the main body 1 to rotate, and then adjust the angle of the 5G base station along the circumference of the main body 1.

The second body part 22 and the rotating assembly 3 enable the adjustment structure of the 5G base station to adjust the angle of the 5G base station in different directions, improving the working effect of the 5G base station. After the 5G base station is installed on the first body part 21, the second body part 22 can abut against the lower surface of the 5G base station to support the 5G base station, which is beneficial to improve the stability of the 5G base station.

As shown in FIG. 1 , in a possible embodiment, a stabilizer 5 is provided on the side of the first body part 21 away from the mounting groove 211 , and the stabilizer 5 is sheathed on the end of the main body 1 away from the rotating assembly 3 . The carrier assembly 2 is installed on the main body 1, the side of the stabilizer 5 close to the rotating assembly 3 is provided with a fixed sleeve 6 connected to the main body 1, and the side away from the rotating assembly 3 is provided with a limiter connected with the main body 1 The disk 7, the stabilizer 5 and the limit disk 7 can limit the position of the bearing assembly 2 along the axial direction H of the main body 1, and the 5G base station is installed on the bearing assembly 2, which can improve the stability of the 5G base station in the adjustment structure for the 5G base station sex.

As shown in Figure 1, in a possible embodiment, the main body 1 includes a first main body 11 and a second main body 12, the first main body 11 is connected to the rotating assembly 3, and the second main body 12 is telescopic Installed on the end of the first main body 11 away from the rotating assembly 3 , the bearing assembly 2 is installed on the end of the second main body 12 away from the first main body 11 .

Through the first main body 11 and the second main body 12, the position of the 5G base station can be adjusted along the axial direction H of the main body 1, combined with the above-mentioned bearing assembly 2 and the rotating assembly 3, the adjustment structure for the 5G base station can be adjusted in three directions The location and/or angle of the 5G base station.

As shown in FIG. 2 , in a possible embodiment, the adjustment structure of the 5G base station also includes a transmission box 4 connection, the transmission box 4 includes a housing 41 and a mounting seat 42, and the end of the main body 1 away from the bearing assembly 2 is installed on the The housing 41 and the mounting base 42 are located on both sides of the housing 41. The transmission box 4 can be installed on a horizontal support plane. The mounting base 42 and the support plane can be connected by bolts to fix the position of the 5G base station. A bottom plate 43 is disposed inside the housing 41 , and both the driving wheel 31 and the transmission wheel are mounted on the bottom plate 43 and can rotate relative to the bottom plate 43 .

The driving wheel 31 drives the transmission wheel to rotate through the toggle member 311, and the driving wheel 31 and the transmission wheel are arranged in the housing 41, which can reduce the influence of the external environment on the driving wheel 31 and the transmission wheel, so its reliability can be improved, which is beneficial to The service life of the rotating assembly 3 is improved.

As shown in FIG. 3 , in a possible embodiment, the intermittent wheel 32 includes at least six recesses 321 , and the driving member 311 can be inserted into and disengaged from one of the recesses when the driving wheel 31 rotates once. part 321, and can drive the intermittent wheel 32 to rotate a certain angle, so as to realize the plane six-way angle adjustment of the 5G base station.

As shown in FIGS. 2 and 3 , in a possible embodiment, the rotating assembly 3 includes a driving motor 34 , the driving motor 34 is installed on the outside of the casing 41 , and the output shaft of the driving motor 34 can extend into the inside of the casing 41 It is connected with the driving wheel 31 and can drive the driving wheel 31 to rotate, thereby adjusting the angle of the 5G base station.

The output end of the drive motor 34 is connected to the drive wheel 31, so that the drive wheel 31 can rotate with the output end of the drive motor 34, and then drive the intermittent wheel 32 and the main body 1 to rotate to realize the adjustment of the angle of the 5G base station. Compared with the manual adjustment of the angle of the 5G base station in the related art, the motor is used to rotate the driving wheel 31, which makes the adjustment process of the 5G base station more labor-saving.

As shown in FIG. 3 , in a possible embodiment, the driving wheel 31 is provided with a limiting protrusion 312 , and the limiting protrusion 312 is located on the side of the driving wheel 31 provided with the dial 311 , and is the same as the driving wheel 31 . The shaft is set, and the intermittent wheel 32 is provided with a plurality of first limiting grooves 322, and the first limiting grooves 322 are located between two adjacent recessed parts 321. After the toggle piece 311 is separated from the recessed parts 321, the position The protrusion 312 can extend into the first limiting slot 322 .

When the limit protrusion 312 can extend into the first limit groove 322, the inner wall of the first limit groove 322 abuts to limit the position of the intermittent wheel 32, so that when the toggle member 311 is rotated to the preset position, it can smoothly Extending into the recessed portion 321 is beneficial to improve the stability of the rotating assembly 3 during operation.

The cross-section of the limit protrusion 312 is circular, but a gap is provided on the side close to the toggle piece 311. After the toggle piece 311 stretches into the recess 321, the gap can avoid the intermittent wheel 32, so that part of the intermittent wheel 32 will Delimited by the gap, reducing the impact on the movement of the intermittent wheel 32.

As shown in FIG. 3 , in a possible embodiment, the rotating assembly 3 includes a connecting piece 33 , the connecting piece 33 is arranged coaxially with the intermittent wheel 32 , and can pass through the housing 41 so that one end thereof is connected to the main body 1 , the other end can stretch into the intermittent wheel 32.

One end of the connecting piece 33 extending into the intermittent wheel 32 is provided with a limit block 331, and the intermittent wheel 32 is provided with a second limit groove, and the limit block 331 can be stretched into the second limit groove to limit the connecting piece 33 and the intermittent The relative positions between the wheels 32 enable the intermittent wheels 32 to drive the main body 1 to rotate.

In a possible embodiment, the driving wheel 31 can be made of stainless steel. Since the driving wheel 31 is connected to the driving motor 34 outside the casing 41, the possibility of the drive being eroded by the external environment is relatively high. If the driving wheel 31 is made of stainless steel, which can reduce the possibility of rusting of the driving wheel 31 and is beneficial to improve the service life of the rotating assembly 3 .

In a possible embodiment, the intermittent wheel 32 can be made of alloy steel, and the stability of the alloy steel is stronger, so that the intermittent wheel 32 is more stable when driving the connecting piece 33 and the main body 1 to rotate, which is beneficial to The service life of the rotating assembly 3 is improved.

As shown in Figure 4, in a possible embodiment, mounting plates 28 are provided on both sides of the first body part 21, the second body part 22 is located between the two mounting plates 28, and the bearing assembly 2 includes a rotating shaft 23. The rotating shaft 23 can pass through the mounting plate 28 and the second body part 22 to rotatably connect the first body part 21 and the second body part 22 together. The second body part 22 can take the rotating shaft 23 as an axis, and be able to rotate with it.

When the second body part 22 rotates with the rotation shaft 23, the angle between the first body part 21 and the second body part 22 can be changed, and the 5G base station is rotatably installed in the installation groove 211 on the first body part 21, and The second body part 22 abuts against the bottom surface of the 5G base station, while the angle between the first body part 21 and the second body part 22 changes, the angle between the 5G base station and the first body part 21 can be changed, and then Its angle can be adjusted.

As shown in FIG. 4 , in a possible embodiment, a rotating handle 24 is provided on one side of the rotating shaft 23 , and the rotating handle 24 is located on the side of the mounting plate 28 away from the second body part 22 and is connected to the rotating shaft 23 , for driving the rotating shaft 23 to rotate.

When the same magnitude of force is used, the rotating handle 24 is provided, which can increase the torque received by the rotating shaft 23, so that the operator can drive the rotating shaft 23 to rotate more easily.

As shown in Figure 4, in a possible embodiment, a locking member 29 is arranged between the rotating handle 24 and the mounting plate 28, at least part of the locking member 29 can rotate the inside of the handle 24 to lock the rotating handle 24, limit the relative position between it and the first body part 21, and then limit the relative position between the first body part 21 and the second body part 22, so that the carrier assembly 2 can fix the 5G base station more stably.

As shown in FIG. 4 , in a possible embodiment, the side of the second body part 22 close to the first body part 21 is provided with a rotating part 221 connected to the rotating shaft 23, and the rotating part 221 faces the first body part 21 One side of is set as arc.

The rotating portion 221 is provided with an arc surface so that the rotation of the second body portion 22 relative to the first body portion 21 will not be interfered, thereby making the rotation of the second body portion 22 relative to the first body portion 21 smoother. A silicone layer 252 can be provided on the arc surface to make the surface of the rotating part 221 in contact with the first body part 21 smoother, and further improve the smoothness of the second body part 22 when rotating.

In a possible embodiment, a rubber layer is provided on the side of the mounting plate 28 close to the rotating part 221 and both sides of the rotating part 221 close to the mounting plate 28, and the rubber layer can improve the distance between the mounting plate 28 and the rotating part 221. The frictional force reduces the possibility of relative sliding between the mounting plate 28 and the rotating part 221, which is beneficial to improving the stability of the relative rotation between the first body part 21 and the second body part 22.

As shown in FIG. 4 , in a possible embodiment, the bearing assembly 2 includes at least two clips 25 , and along the width direction of the second body part 22 , a plurality of clips 25 are installed on the second body part respectively. The two sides of 22 are used to clamp the 5G base station.

The second body part 22 abuts against the bottom surface of the 5G base station, and the clamping parts 25 are located on both sides of the second body part 22, so that it can clamp both sides of the 5G base station to limit the gap between the 5G base station and the second body part 22. The relative position is conducive to improving the stability of 5G base stations.

As shown in FIG. 5 , in a possible embodiment, an elastic member 26 is disposed between the clamping member 25 and the second body portion 22 , so that the clamping member 25 clamps the 5G base station from both sides.

When the 5G base station is placed between the two opposite clamping members 25, the elastic member 26 is stretched, and after the 5G base station is placed at a preset position, the 5G base station can be clamped due to the elasticity of the elastic member 26 itself, which is used to limit the 5G base station. The relative position with the second body part 22 is to improve the stability of the 5G base station, which is beneficial to improve the working effect of the 5G base station.

As shown in FIG. 5 , in a possible embodiment, a guide piece 27 is also provided between the clamping piece 25 and the second body portion 22 , and one end of the guide piece 27 is installed on the clamping piece 25 and the elastic piece 26 The other end can extend into the guide groove provided in the second body part 22 .

The guide piece 27 can limit the movement trajectory of the clamping piece 25, so that the guide piece 27 can only move in a direction close to or away from the second body part 22, and when the clamping piece 25 clamps the 5G base station, it can reduce the shaking of the clamping piece 25 possible, making the 5G base station more stable after being installed on the carrier component 2.

As shown in FIG. 5 , in a possible embodiment, a foam layer 251 and a silicone layer 252 are provided on the side of the clamping member 25 close to the second body portion 22, and the foam layer 251 and the silicone layer 252 are more flexible. It can buffer the damage of the clamping part 25 to the 5G base station, which is conducive to improving the protection of the 5G base station. The frictional force of the silica gel layer 252 is relatively large, which is conducive to limiting the relative position between the clamping part 25 and the 5G base station, and improving the protection of the 5G base station. stability.

The embodiment of the present application provides an adjustment structure for a 5G base station, including a main body 1 , a bearing assembly 2 and a rotating assembly 3 , and the bearing assembly 2 and the rotating assembly 3 are respectively installed at both ends of the main body 1 . The carrier assembly 2 includes a first body part 21 and a second body part 22. The 5G base station is rotatably mounted on the first body part 21. The second body part 22 abuts against the bottom surface of the 5G base station and is rotatably mounted on the first body part 22. The main body 21 is used to adjust the angle between the 5G base station and the axial direction H of the main body 1 , and the second main body 22 can also support the 5G base station and improve the stability of the 5G base station. The rotating assembly 3 includes a driving wheel 31 and an intermittent wheel 32. The driving wheel 31 is provided with a dial 311, and the intermittent wheel 32 is provided with a plurality of recesses 321, and the dial 311 can extend into the recesses 321 to drive the intermittent wheel 32 to rotate. , the intermittent wheel 32 is connected with the main body 1 and can drive the main body 1 to rotate, and then adjust the angle of the 5G base station along the circumference of the main body 1 .

The above descriptions are only preferred embodiments of the present application, and are not intended to limit the present application. For those skilled in the art, there may be various modifications and changes in the present application. Any modifications, equivalent replacements, improvements, etc. made within the spirit and principles of this application shall be included within the protection scope of this application.

Claims (10)

1. A kind of adjustment structure for 5G base station, it is characterized in that, described adjustment structure for 5G base station comprises: Main body (1); a bearing component (2), the bearing component (2) is connected to the main body (1), and is used for installing a 5G base station; a rotating assembly (3), the rotating assembly (3) is connected to an end of the main body (1) away from the bearing assembly (2); Wherein, the carrying assembly (2) includes a first body part (21) and a second body part (22), the first body part (21) is installed on the body part (1), and the second body The part (22) is rotatably installed on the first body part (21), and is used to adjust the included angle between the 5G base station and the axial direction of the main body part (1), and the rotation assembly (3) includes A driving wheel (31) and an intermittent wheel (32), the driving wheel (31) is provided with a dial (311), a recess (321) is provided along the radial direction of the intermittent wheel (32), and a plurality of recesses parts (321) are arranged at intervals along the circumference of the intermittent wheel (32), and the toggle piece (311) can extend into the recessed part (321) and move relative to the recessed part (321), for The intermittent wheel (32) is driven to rotate, and the intermittent wheel (32) is connected with the main body (1) to drive the main body (1) to rotate so as to rotate along the circumference of the main body (1). To adjust the angle of the 5G base station. 2. The adjustment structure for 5G base stations according to claim 1, characterized in that the rotating assembly (3) includes a connecting piece (33), and one end of the connecting piece (33) is connected to the main body (1) connected, the other end can extend into the intermittent wheel (32), and is coaxially arranged with the intermittent wheel (32). 3. The adjustment structure for 5G base stations according to claim 1, characterized in that, the drive wheel (31) is provided with a limit projection (312), and the limit projection (312) is located on the drive wheel (31). The wheel (31) is provided with one side of the toggle (311), the intermittent wheel (32) is provided with a first limiting groove (322), and the limiting protrusion (312) can extend into the first Limiting groove (322). 4. The adjusting structure for 5G base stations according to claim 1, characterized in that, the rotating assembly (3) includes a driving motor (34), and the driving wheel (31) is mounted on the driving motor (34) ), the drive motor (34) is used to drive the drive wheel (31) to rotate. 5. The adjustment structure for 5G base stations according to claim 1, characterized in that, the bearing assembly (2) includes a rotating shaft (23), and the rotating shaft (23) is used to connect the first body part (21) and the second body part (22), and the second body part (22) can rotate with the rotation shaft (23). 6. The adjusting structure for 5G base station according to claim 5, characterized in that, one side of the rotating shaft (23) is provided with a rotating handle (24), and the rotating handle (24) is connected to the rotating shaft The shaft (23) is connected to drive the rotation shaft (23) to rotate. 7. The adjustment structure for 5G base stations according to claim 5, characterized in that, a rotating part (221) is provided on the side of the second body part (22) close to the first body part (21) , the rotating shaft (23) is connected to the rotating part (221), and the side of the rotating part (221) facing the first body part (21) is arranged as an arc surface. 8. The adjustment structure for 5G base stations according to claim 1, characterized in that, the carrying assembly (2) includes at least two clamping pieces (25), and the clamping pieces (25) are respectively installed on Both sides of the second body part (22) are used to clamp the 5G base station. 9. The adjustment structure for 5G base station according to claim 8, characterized in that, an elastic member (26) is arranged between the clamping member (25) and the second body part (22), The relative position between the clamping part (25) and the second body part (22) is restricted to clamp the 5G base station. 10. The adjustment structure for a 5G base station according to any one of claims 1 to 9, characterized in that the main body (1) comprises a first main body (11) and a second main body (12) , the first main body part (11) is telescopically installed on the second main body part (12), the bearing assembly (2) is installed on the first main body part (11), and the rotating assembly ( 3) Installed on the second body part (12).

Images