CN110571506B - Fixing support for multiple antennas - Google Patents

Abstract

The invention discloses a fixing bracket for multiple antennas, which comprises a base, a plurality of first supporting components respectively installed on the base, wherein the first supporting components are provided with a fixing frame, a supporting frame installed on the fixing frame and used for fixing the first antenna, a first driving cylinder for driving the fixing frame to rotate in the horizontal direction and a second driving cylinder fixed on the fixing frame and used for driving the supporting frame to rotate in the vertical direction. According to the service conditions of different antennas, support assemblies with different structures are arranged, so that pitching and horizontal rotation angles of different antennas are met, and quick and efficient driving of communication signals is realized.

Description

Fixing support for multiple antennas

Technical Field

The invention relates to the technical field of fixed brackets, in particular to a fixed bracket for multiple antennas.

Background

With the development of the communication industry, the 5G technology is gradually applied to life, and a new fixing support is required to fix and install the 5G antenna, but other antennas such as 4G/3G are still applied to life. Therefore, a fixing bracket for installing multiple antennas is needed, and the fixing bracket is not only used for fixing the antennas, but also used for debugging according to the application places of the antennas, so that the antennas are required to be rotated, and communication reception is met to the greatest extent.

The antenna is used for the antennas with the quality far greater than that of other types of 5G antennas, can efficiently rotate, can be conveniently installed, and is an urgent problem for enterprises to solve.

Accordingly, it is necessary to provide a fixing bracket for various antennas to solve the above-mentioned problems.

Disclosure of Invention

In order to solve the above problems, an object of the present invention is to provide a fixing bracket for multiple antennas, which can flexibly rotate at various angles.

In order to achieve the above purpose, the invention adopts the following technical scheme: the utility model provides a fixed bolster for multiple antenna, its include the base, install respectively in a plurality of first supporting components of base, first supporting component has the mount, install in the mount and be used for fixing the support frame of first antenna, drive the rotatory first actuating cylinder of mount horizontal direction and be fixed in the mount and drive the rotatory second actuating cylinder of support frame vertical direction.

The first driving cylinder is provided with an output shaft, the output shaft extends in the horizontal direction, one end of the first driving cylinder is fixed to the base, the other end of the first driving cylinder is connected with a rotating shaft extending in the vertical direction, and the rotating shaft is mounted on the base through a bearing.

The base is provided with a base, a plurality of support arms extending outwards from the base and sleeves respectively fixed at the tail ends of the support arms, the sleeves are provided with through holes penetrating through the upper surface and the lower surface of the sleeve, and the bearings are fixed in the through holes.

The rotary shaft is connected with the first pushing cylinder through a connecting piece, the connecting piece is vertically fixed on the rotary shaft, the first pushing cylinder is fixedly connected with the connecting piece through a pushing rod, and the pushing rods are perpendicular to the output shafts of the connecting piece and the first pushing cylinder.

The first support assembly further comprises a rotating rod arranged on the fixing frame, the supporting frame is arranged on the rotating rod, one end of the second pushing cylinder is fixed on the fixing frame, and the other end of the second pushing cylinder is fixedly connected with the lower end of the supporting frame.

The second pushing cylinder is connected with the supporting frame through a connecting rod, the connecting rod is fixed on the supporting frame, and the connecting rod is parallel to the rotating rod and is vertically fixed with the second pushing cylinder.

The fixing bracket for the multiple antennas further comprises a second supporting component which is respectively fixed on the sleeve of the base and used for installing a second antenna.

The second support assembly comprises a fixed plate fixed on the sleeve, a first rotating shaft vertically installed on the fixed plate, a shell covering the rotating shaft and a first motor fixedly installed in the shell and driving the shell to rotate around the first rotating shaft.

The second support assembly further comprises a second rotating shaft penetrating through the shell and a second motor driving the second rotating shaft to rotate, and a rotating frame and a shelving plate are fixed at two ends of the second rotating shaft.

The first rotating shaft is arranged in the vertical direction, and the second rotating shaft is arranged in the transverse direction.

Compared with the prior art, the fixing bracket for the multiple antennas has the beneficial effects that: according to the service conditions of different antennas, support assemblies with different structures are arranged, so that pitching and horizontal rotation angles of different antennas are met, and quick and efficient driving of communication signals is realized.

Drawings

For a clearer description of the technical solutions of the embodiments of the present invention, the drawings that are needed in the description of the embodiments will be briefly introduced below, it being obvious that the drawings in the description below are only some embodiments of the present invention, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art, wherein:

Fig. 1 is a perspective view of a fixing bracket for various antennas according to the present invention.

Fig. 2 is another angular perspective view of the fixing bracket for various antennas shown in fig. 1.

Fig. 3 is a partial perspective view of the fixing bracket for various antennas shown in fig. 1.

Fig. 4 is another partial perspective view of the fixing bracket for various antennas shown in fig. 1.

Fig. 5 is an assembly schematic diagram of the rotation member and the connecting member in the first support assembly shown in fig. 1.

Detailed Description

The present invention will now be described in detail with reference to the accompanying drawings, but it should be emphasized that the following embodiments are merely exemplary and are not intended to limit the scope and application of the present invention.

Referring to fig. 1 to 5, the present invention is a fixing bracket for multiple antennas, which includes a base 1, a first support assembly 2 mounted on the base 1 for mounting a first antenna 20, and a second support assembly 3 mounted on the base 1 for mounting a second antenna 30.

In the present invention, a 5G antenna is taken as the first antenna 20, a 4G antenna is taken as the second antenna 30, and in other embodiments, the first antenna 20 and the second antenna 30 are not limited to one type of antenna.

The base 1 has a base 11, a plurality of arms 12 extending outwardly from the base 11, and sleeves 13 respectively fixed to ends of the arms 12. The base 11 is a cylindrical structure, the support arm 12 extends downwards from the outer side edge of the base 11, the sleeve 13 fixes the tail end of the support arm 12 in a welding mode, and the sleeve 13 is provided with a through hole 131 penetrating through the upper surface and the lower surface of the sleeve.

The first support assembly 2 is for mounting a first antenna 20, and includes a bearing (not shown) fixed in the sleeve 13, and a rotation shaft 21 mounted in the bearing. The bearing is fixed in the through hole (the manner of fixing the bearing to the through hole 131 is the prior art, and corresponds to the manner of fixing the bearing by the bearing housing).

The first support assembly 2 further comprises a connecting piece 22 vertically fixed at one end of the rotating shaft 21, and a first pushing cylinder 23 mounted on the base 1, wherein an output shaft of the first pushing cylinder 23 is connected with the connecting piece 22, the connecting piece 22 is pushed and pulled by driving the first pushing cylinder 23, and the connecting piece 22 drives the rotating shaft to rotate in the bearing.

A fixing frame 24 is fixed at one end of the rotation shaft 21, and the fixing frame 24 and the rotation shaft 21 can be connected through threads, however, in other embodiments, a pin key manner can be added between the fixing frame 24 and the rotation shaft 21 for fixing. In this embodiment, as shown in fig. 5, specifically, the rotation shaft 21 has a threaded portion 211 located on the surface thereof and a polish rod 212 located above the threaded portion 211, the diameter of the polish rod 212 is larger than that of the threaded portion 212, a step is formed between the threaded portion 212 and the polish rod 212, the fixing frame 24 has a threaded hole (not indicated), the threaded portion 211 is close to the end of the rotation shaft 21, the end of the rotation shaft 21 further has a nut 213, the polish rod 212 passes through the threaded hole, the threaded portion 211 and the threaded hole are engaged with each other, and the nut 213 can be locked at the lower end of the rotation shaft 21 or can be integrated with the rotation shaft 21. The nut 213 abuts against the fixed mount 24, and the polish rod 212 is accommodated in the bearing. The connecting member 22 may be a sheet structure which is fixed to the top of the polish rod 212 by screws, or the connecting member 22 may be sleeved on the rotating shaft 21 and then fixed by fasteners. The connecting piece 22 is perpendicular to the polished rod 212, the first pushing cylinder 23 is fixedly connected with the connecting piece 22 through a pushing rod 221, and the pushing rods 221 are perpendicular to the connecting portion 22 and the first pushing cylinder 23.

The fixing frame 24 includes a fixing portion 241 fixed to the rotation shaft 21 and extension portions 242 extending from both ends of the fixing portion 241, respectively, the extension portions 242 being perpendicular to the fixing portion 241. The screw holes are located at the upper and lower surfaces of the penetrating fixing portion 241. The screw portion 211 and the fixing portion 241 are fixed perpendicular to each other.

The first support component 2 further comprises a support frame 25 and a rotating rod 26 arranged on the back of the support frame 25, the support frame 25 is of a plate-shaped structure, the support frame 25 can also be of an L-shaped or U-shaped structure, the lower end of the L-shaped or U-shaped structure is used for holding the first antenna, the support frame 25 can be of a frame structure, the side edge of the support frame 25 is fixed with the first antenna, the support frame 25 is used for fixing the first antenna, the rotating rod 26 can be horizontally arranged according to different antenna structures. Both ends of the rotation rod 26 are mounted to the fixing frame 24, and the rotation rod 26 is movably mounted or fixed to the extension portion 242. The fixed frame 24 is also fixed with a second pushing cylinder 28, the tail end of the second pushing cylinder 28 is fixed at the tail end of the extending part 242 of the fixed frame 24, and the output shaft of the second pushing cylinder 28 is connected with the supporting frame 25. The fixing point of the second pushing cylinder 28 to the supporting frame 25 is located below the rotating rod 26. In this embodiment, a support lug 29 is disposed at the end of the fixing frame 24, the second pushing cylinder 28 is fixed on the support lug 29 and extends obliquely downward, and the second pushing cylinder 28 is fixed at the lowest end of the supporting frame 25. The second pushing cylinder 28 is connected with the supporting frame 25 through a connecting rod 210, the connecting rod 210 is fixed on the supporting frame 25, and the connecting rod 210 is parallel to the rotating rod 26 and is vertically fixed with the second pushing cylinder 28.

By driving the second pushing cylinder 28, the second pushing cylinder 28 drives the supporting frame 25 to rotate around the rotating rod 26, so that the first antenna can form different angles with the horizontal plane through the second pushing cylinder 28. The first pushing cylinder 23 is driven by the first pushing cylinder, and the first pushing cylinder 23 drives the rotation shaft 21 and the fixing frame 24 to rotate in the horizontal direction.

In this embodiment, the first support assemblies 2 are uniformly mounted at three angles of the base 11, and each first support assembly 2 is provided with a first antenna, so that the first antenna can face in all directions through the first pushing cylinder 23 and the second pushing cylinder 28, thereby improving the received signal strength.

The second support assembly 3 is fixed on the sleeve 13 of the base 1, and is provided with a fixing plate 31 fixed on the sleeve 13, wherein the fixing plate 31 is horizontally arranged; the second support assembly 3 further has a rotation shaft 32 vertically mounted to the fixing plate 31 and a housing 33 covering the rotation shaft 32, the first rotation shaft 32 is vertically disposed, the second support assembly 3 further has a first motor (not shown) driving the housing 33 to rotate around the first rotation shaft 32, and the housing 33 and parts in the housing 33 are driven to rotate around the fixing plate 31 following the first rotation shaft 32 by driving the first motor. The first rotating shaft 32 is fixed with a first rotating gear, the first motor is fixed in the shell and is connected with a second rotating gear, the first rotating gear is meshed with the second rotating gear, when the first motor is driven, the first rotating shaft 32 does not move, and the first motor and the shell rotate around the first rotating shaft 32 in the horizontal direction.

The second support assembly 3 further includes a second rotating shaft 34 penetrating the housing 33 and a second motor (not shown) for driving the second rotating shaft 34 to rotate, the second motor (not shown) is installed and fixed in the housing 33, the second rotating shaft 34 is horizontally arranged, and both ends of the second rotating shaft 34 are fixed with a rotating frame 35 and a rest plate 36 fixed on the rotating frame 35. When the second motor drives the second rotation shaft 34 to rotate, the rotation frame 35 follows the second rotation shaft 34 so that the second antenna fixed on the rest plate 36 can satisfy different pitching angles. The first motor is driven to drive the whole housing 33 to rotate, so that the housing 33 and the second antenna are driven to rotate to any angle in the horizontal direction.

The first pushing cylinder and the second pushing cylinder can be any one or more of an air cylinder, an electric cylinder, an oil cylinder and the like with pushing functions.

Therefore, the invention sets the support components with different structures according to the use conditions of different antennas, thereby meeting the requirements of pitching and horizontal rotation angles of different antennas and realizing rapid and efficient driving of communication signals.

Of course, those skilled in the art will recognize that the above-described embodiments are for illustrative purposes only and are not meant to be limiting, and that changes and modifications of the above-described embodiments are intended to be within the scope of the appended claims, as long as they are within the true spirit of the invention.

Claims (7)

1. A fixed bolster for multiple antenna, it includes the base, install respectively in a plurality of first supporting component of base, its characterized in that: the first supporting component is provided with a fixed frame, a supporting frame which is arranged on the fixed frame and used for fixing a first antenna, a first pushing cylinder which drives the fixed frame to rotate in the horizontal direction, and a second pushing cylinder which is fixed on the fixed frame and drives the supporting frame to rotate in the vertical direction; the first pushing cylinder is provided with an output shaft, the output shaft extends in the horizontal direction, one end of the first pushing cylinder is fixed on the base, the other end of the first pushing cylinder is connected with a rotating shaft extending in the vertical direction, and the rotating shaft is mounted on the base through a bearing; the rotating shaft is provided with a threaded part positioned on the surface of the rotating shaft and a polish rod positioned above the threaded part, and the fixing bracket for the multiple antennas further comprises a sleeve respectively fixed on the base and a second supporting component used for installing a second antenna; the second support assembly comprises a fixed plate fixed on the sleeve, a first rotating shaft vertically installed on the fixed plate, a shell covering the rotating shaft and a first motor fixedly installed in the shell and driving the shell to rotate around the first rotating shaft.

2. The mounting bracket for a plurality of antennas as claimed in claim 1, wherein: the base is provided with a base, a plurality of support arms extending outwards from the base and sleeves respectively fixed at the tail ends of the support arms, the sleeves are provided with through holes penetrating through the upper surface and the lower surface of the sleeve, and the bearings are fixed in the through holes.

3. The mounting bracket for a plurality of antennas as claimed in claim 2, wherein: the rotary shaft is connected with the first pushing cylinder through a connecting piece, the connecting piece is vertically fixed on the rotary shaft, the first pushing cylinder is fixedly connected with the connecting piece through a pushing rod, and the pushing rods are perpendicular to the output shafts of the connecting piece and the first pushing cylinder.

4. The mounting bracket for a plurality of antennas as claimed in claim 1, wherein: the first support assembly further comprises a rotating rod arranged on the fixing frame, the supporting frame is arranged on the rotating rod, one end of the second pushing cylinder is fixed on the fixing frame, and the other end of the second pushing cylinder is fixedly connected with the lower end of the supporting frame.

5. The mounting bracket for a plurality of antennas as defined in claim 4, wherein: the second pushing cylinder is connected with the supporting frame through a connecting rod, the connecting rod is fixed on the supporting frame, and the connecting rod is parallel to the rotating rod and is vertically fixed with the second pushing cylinder.

6. The mounting bracket for a plurality of antennas as claimed in claim 1, wherein: the second support assembly further comprises a second rotating shaft penetrating through the shell and a second motor driving the second rotating shaft to rotate, and a rotating frame and a shelving plate are fixed at two ends of the second rotating shaft.

7. The mounting bracket for a plurality of antennas as defined in claim 6, wherein: the first rotating shaft is arranged in the vertical direction, and the second rotating shaft is arranged in the transverse direction.