CN117328733A - Communication base station tower pole height and verticality adjusting device - Google Patents

Abstract

The application discloses a device for adjusting the height and verticality of a tower pole of a communication base station, which relates to the technical field of tower communication base stations, and is arranged in an adjusting layer of a lower layer of an equipment carrying layer; comprising the following steps: the device comprises a driving assembly, a lifting assembly and a reinforcing correction assembly; the lifting component is arranged on each vertex angle of the adjusting layer; the top surface of the lifting assembly is connected with the equipment carrying layer; the bottom surface of the lifting assembly is connected with a base station under the adjusting layer; the driving component is accommodated in the adjusting layer; the driving assembly and the lifting assembly are in driving connection; the two ends of the reinforcing correction component are respectively connected with the outer walls of the equipment carrying layer and the adjusting layer, extend or recover along with the lifting component, and correct the perpendicularity of the lifted equipment carrying layer relative to the bottom surface of the base station. The device need not to carry out and increases the support construction, can adjust the straightness that hangs down after the height of basic station and the lifting as required, and the signal coverage of basic station increases after the regulation, effectively reduces signal obstacle and interference, improves signal transmission's quality and reliability.

Description

Communication base station tower pole height and verticality adjusting device

Technical Field

The application relates to the technical field of tower type communication base stations, in particular to a device for adjusting the height and the verticality of a tower pole of a communication base station.

Background

The base station is mainly used as a fixed seat of a high-power multi-channel bidirectional radio transmitter. The Base Station Subsystem (BSS) is the most direct basic component of the mobile communication system in relation to the wireless cellular network, and the base station mainly plays a role of relay in the whole mobile network. The base stations are connected by adopting wireless channels and are responsible for wireless transmission, reception and wireless resource management. And the main base station and the Mobile Switching Center (MSC) are connected by a wired channel, so that the communication connection between the mobile users or between the mobile users and the fixed users is realized.

In the use, the tower height needs to be adjusted for expanding the communication coverage range and solving the problem that signal propagation is temporarily shielded, but the tower vertical height adjusting device of the tower communication base station in the current market is low in convenience for most adjustment, is unfavorable for improving the adjusting efficiency, is inconvenient to install, and easily generates potential safety hazards when adjusting.

Disclosure of Invention

The application provides a communication base station tower pole height and straightness adjusting device that hangs down, the device need not to increase the support construction, can adjust the height of basic station and the straightness that hangs down after the lifting as required, and overall structure stability is high after adjusting, and adjustable scope is big, and the signal coverage of basic station increases after adjusting, effectively reduces signal obstacle and interference, improves signal transmission's quality and reliability, ensures the safety and the integrality of data.

The utility model provides a tower pole height and verticality adjusting device which is arranged in an adjusting layer of a lower layer of an equipment carrying layer; comprising the following steps: the device comprises a driving assembly, a lifting assembly and a reinforcing correction assembly; the lifting component is arranged on each vertex angle of the adjusting layer; the top surface of the lifting assembly is connected with the equipment carrying layer; the bottom surface of the lifting assembly is connected with a base station under the adjusting layer;

the driving component is accommodated in the adjusting layer; the driving assembly and the lifting assembly are in driving connection;

the two ends of the reinforcing correction component are respectively connected with the outer walls of the equipment carrying layer and the adjusting layer, extend or recover along with the lifting component, and correct the perpendicularity of the lifted equipment carrying layer relative to the bottom surface of the base station;

the drive assembly includes: the device comprises a frame, a motor, a screw and gears arranged in pairs; the frame is arranged in the adjusting layer; the motor is arranged on the bottom surface of the frame, and the driving end of the motor penetrates out of the frame and is in driving connection with the screw; the screw is in driving connection with gears on two sides of the screw; the gear is in driving connection with the rotating rod; the rotating rod is respectively connected with each lifting assembly in a driving way;

the lifting components are respectively arranged on each vertex angle of the adjusting layer; the lifting component is arranged on the base station and is in lifting connection with the equipment carrying layer;

when the equipment carrying layer is lifted, the driving assembly drives the lifting assemblies on all the vertex angles to synchronously lift;

when the equipment carrying layer is lowered, the driving assembly drives the lifting assemblies on the top corners to synchronously lower.

Preferably, the lifting assembly comprises: the device comprises a vertical rod, a lifting rod, an adjusting rod, a clamping frame and a sliding block; the vertical rods are arranged on the top surfaces of all the towers of the base station; a lifting rod is movably inserted into the top surface of the vertical rod; one end of the adjusting rod is connected with the driving assembly, and the other end of the adjusting rod is connected with the clamping frame;

the clamping frame is connected with a sliding block which is arranged in the inner cavity of the vertical rod in a sliding way; the lifting rod is abutted on the clamping frame and moves up and down along the inner cavity of the vertical rod along with the clamping frame.

Preferably, it comprises: an extension rod; the driving component is connected with the adjusting rod through the extension rod.

Preferably, the driving assembly includes: rotating rods arranged in pairs; the gear is sleeved on the rotating shaft; the two ends of the rotating rod are respectively rotatably arranged on the frame; the rotating rod is connected with one end of the extension rod.

Preferably, the frame comprises: the cross bars, the placing racks and the mounting racks are arranged in pairs; the two ends of the cross rod are respectively connected with the inner wall of the vertical rod; two ends of the placing frame are respectively connected with the middle part of the cross rod; the mounting frame is arranged in the middle of the top surface of the placing frame; the mounting frame is provided with a through hole; the motor driving end is arranged in the through hole in a penetrating way; the gears are respectively arranged on the mounting frames at two sides of the through hole.

Preferably, the frame comprises: the support plates are arranged in pairs; the support plates are symmetrically arranged at two ends of the mounting frame; the two ends of the rotating shaft are respectively rotatably arranged on the support plates.

Preferably, the reinforcement correction assembly comprises: the device comprises a fixing block, a reinforcing rod, a telescopic rod and a connecting ring; the bottom end of the reinforcing rod is arranged on the outer wall of the vertical rod through a fixed block; the other end of the reinforcing rod is connected with the telescopic rod in a telescopic way; the top end of the telescopic rod is movably connected with the tower pole of the equipment carrying layer through a connecting ring.

Preferably, when the equipment carrying layer is lowered, the reinforcing rod is retracted and then accommodated in the telescopic rod.

Preferably, it comprises: a connecting plate; a connecting plate is arranged on the outer side wall of the connecting ring; the top surface of the telescopic rod is connected with the bottom surface of the connecting plate which extends vertically.

Another aspect of the present application further provides a tower communication base station, including an adjustment layer and an equipment carrying layer disposed on top of the base station; the adjusting layer is internally provided with the tower pole height and verticality adjusting device; the device carrying layer is arranged on the top surface of the adjusting layer; the tower pole height and verticality adjusting device is in driving connection with the equipment carrying layer.

Preferably, the base station includes: a base and a plurality of stacked support layers; the supporting layer is arranged on the base; the support layer includes: a plurality of tower poles, a plurality of supporting frames and a plurality of connecting rods; the tower poles are respectively arranged on each vertex angle of the supporting layer; the upper and lower parts of the adjacent towers in the same plane are connected through a connecting rod; the supporting frame is arranged in a plane surrounded by the tower pole and the connecting rod.

The beneficial effects that this application can produce include:

1) The utility model provides a tower height and straightness adjusting device that hangs down for tower communication basic station sets up the adjustment layer through setting up under tower body equipment carries on the layer to through the gear that sets up in pairs, realize the synchronous lifting or the reduction to the tower pole that sets up on each apex angle of tower body by motor drive, realize carrying on the reliable regulation of layer overall height to equipment. The device is simple to operate, high in stability in the adjustment process, and particularly suitable for height adjustment of an area with a certain height and strong upper wind power.

2) According to the tower pole height and verticality adjusting device, after lifting, the carrying layer is driven by wind power to apply radial force to the adjusting layer, and the supporting of the telescopic component sleeved outside each vertical rod of the adjusting layer can be obtained, so that verticality offset caused by the carrying layer of equipment is reduced.

Drawings

Fig. 1 is a schematic perspective view of a tower communication base station provided in the present application;

fig. 2 is a schematic perspective view of a signal receiver mounting structure on a tower-type communication base station provided by the present application;

fig. 3 is a schematic perspective view of a tower height and verticality adjusting device for a tower communication base station provided by the present application;

FIG. 4 is a schematic perspective view of a screw structure provided herein;

FIG. 5 is a perspective view of the adjustment lever structure provided herein;

fig. 6 is a perspective view of a reinforcement bar structure provided herein.

Reference numerals:

1. a base; 2. a tower pole; 3. a support frame; 4. a connecting rod; 5. a mounting plate; 6. a fixing frame; 7. a connecting block; 8. a signal receiver; 91. a vertical rod; 92. a cross bar; 93. a placing rack; 94. a mounting frame; 95. a motor; 96. a screw; 97. a support plate; 98. a rotating lever; 99. a gear; 10. an extension rod; 11. a screw; 121. an adjusting rod; 122. a clamping frame; 123. a sliding block; 124. a lifting rod; 13. a fixed block; 14. a reinforcing rod; 15. a telescopic rod; 16. a connecting plate; 17. and a connecting ring.

Detailed Description

For the purposes of making the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are some of the embodiments of the present application, but not all of the embodiments. The components of the embodiments of the present application, which are generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Accordingly, the following detailed description of the embodiments of the present application, provided in the accompanying drawings, is not intended to limit the scope of the application, as claimed, but is merely representative of selected embodiments of the application. All other embodiments, based on the embodiments herein, which would be apparent to one of ordinary skill in the art without undue burden are within the scope of the present application.

Technical means which are not described in detail in the application and are not used for solving the technical problems of the application are all arranged according to common general knowledge in the field, and various common general knowledge arrangement modes can be realized.

Example 1

As shown in fig. 1 to 6, the tower height and verticality adjusting device for a tower type communication base station provided by the application includes: the tower comprises a base 1, wherein a plurality of groups of tower poles 2 are fixedly connected to the top of the base 1, and a supporting frame 3 is fixedly connected between any two adjacent tower poles 2 which are positioned on the same layer and on the same plane; the support frame 3 includes: support rods arranged in a crossed manner; two ends of the supporting rod are respectively connected with the diagonal vertexes of the plane surrounded by the tower pole 2; the support rods are arranged in pairs, and are respectively connected with each vertex of the plane. The middle parts of the support rods are connected and provided with mounting pieces. Connecting rods 4 are arranged at the upper part and the lower part of the adjacent tower poles 2 in the same plane, and the connecting rods 4 and the tower poles 2 enclose the plane.

The top of the tower pole 2 is fixedly connected with a mounting plate 5 so as to realize the connection of the tower poles 2 at the upper layer and the lower layer. The top layer is an equipment carrying layer, and the tower body structure of the equipment carrying layer is the same as that of other layers, except that a fixing frame 6 is arranged at the midpoint position of the supporting frame 3, namely, the mounting part arranged at the intersection point of the supporting rods in an outward extending way. The outside fixedly connected with connecting block 7 of mount 6, the other end fixedly connected with signal receiver 8 of connecting block 7.

An adjustment layer is provided below the device-mounting layer, and a drive assembly is provided in the adjustment layer. The supporting frames 3 are not arranged in each side surface of the adjusting layer so as to adjust the verticality and the height of the tower body. An equipment carrying layer is arranged on the upper part of the adjusting layer.

The vertical rods 91 are respectively arranged on the mounting plates 5 on the top surfaces of the tower poles 2 of the adjusting layer; two ends of the cross bar 92 are respectively connected with the inner side walls of the adjacent vertical bars 91; the cross bars 92 are arranged in pairs, and the middle parts of the adjacent cross bars 92 are provided with a placing rack 93.

The top fixedly connected with mounting bracket 94 of rack 93, mounting bracket 94 middle part sets up the through-hole, fixedly connected with motor 95 on the outer bottom surface of through-hole of mounting bracket 94, and motor 95's output passes through with rotate the screw 96 fixed connection of installing on the through-hole top surface, the one end perpendicular mounting bracket 94 of motor 95 of screw 96 is kept away from upwards extends and is connected with the gear 99 drive of installing in the through-hole both sides.

The top surfaces of the two cross rods 92 are fixedly connected with support plates 97, two ends of a rotating rod 98 are rotatably arranged on the support plates 97, a gear 99 is sleeved on the rotating rod 98, and the gear 99 is rotatably arranged on the mounting frame 94.

One end of the rotation rod 98 is fixedly connected with the extension rod 10 by a screw 11. One end of the extension rod 121 is connected with the extension rod 10, the other end of the extension rod 121 is fixedly connected with a clamping frame 122, the clamping frame 122 penetrates through the inner cavity of the vertical rod 91, a sliding block 123 sliding up and down along the inner cavity is arranged in the inner cavity of the vertical rod 91, and the sliding block 123 is connected with the clamping frame 122.

The sliding block 123 is contacted with the inner side of the clamping frame 122, the top surface of the vertical rod 91 is provided with an opening, the lifting rod 124 is inserted into the inner cavity of the vertical rod 91, the bottom of the lifting rod 124 is abutted with the top of the clamping frame 122, and the top of the lifting rod 124 is provided with the mounting plate 5. The tower 2 of the equipment-carrying floor is connected to the lifting bar 124 via the mounting plate 5.

In this embodiment, the motor 95 rotates to drive the screw 96 to rotate, the screw 96 rotates to drive the gear 99 to rotate, the gear 99 rotates to drive the rotating rod 98 to rotate, the rotating rod 98 rotates to drive the extending rod 10 to rotate, the extending rod 10 rotates to drive the connecting end of the adjusting rod 121 to press down or lift up, and when the connecting end of the adjusting rod 121 presses down, the sliding end of the adjusting rod 121 lifts up to provide upward thrust for the lifting rod 124.

When the connecting end of the adjusting rod 121 is lifted, the lifting rod 124 slides down along the inner cavity of the vertical rod 91 after the sliding end of the adjusting rod 121 is pressed down. Lifting or lowering of the lifting rod 124 enables adjustment of the height of the tower 2.

The height adjusting process can be realized by only the motor 95, the operation is convenient and quick, the adjusting efficiency is improved, the height adjusting process is that the lower layer tower body is used for supporting the whole lifting upper tower body, the reliable lifting force is provided for the tower body, the installation is stable, and the potential safety hazard during the adjustment is reduced. The adjusting process is simple and convenient, the height adjustment can be realized without improving or increasing tower body carrying equipment, and the effects of expanding the communication range and the communication signal strength can be realized as required.

Example 2

As shown in fig. 1 to 6, the method further includes: reinforcing the correction assembly; the two ends of the reinforcing correction component are respectively connected with the outer walls of the equipment carrying layer and the adjusting layer; the upper part of the outer wall of the vertical rod 91 is fixedly connected with a fixed block 13 so as to avoid limiting the sliding distance of the lifting rod 124 on the vertical rod 91. The top of the fixed block 13 is fixedly connected with a reinforcing rod 14, the top end of the reinforcing rod 14 is movably connected with a telescopic rod 15, the top end of the telescopic rod 15 is fixedly connected with a connecting plate 16, and the outer side wall of the connecting ring 17 is provided with the connecting plate 16; the connecting plate 16 extends outwards perpendicular to the connecting ring 17, and the top surface of the telescopic rod 15 is connected with the bottom surface of the connecting plate 16. According to the arrangement, the perpendicularity of the lifted equipment carrying layer can be effectively corrected.

The connecting ring 17 is fixedly connected with the tower pole 2 on the upper layer of the adjusting layer, and the length of the telescopic rod 15 is the same as that of the reinforcing rod 14. The telescopic rod 15 is accommodated in the reinforcing rod 14. The telescopic rod 15 is pulled out from the reinforcing rod 14 along with the lifting of the lifting assembly to be connected and arranged on the outer wall of the equipment carrying layer.

In this embodiment, when the tower pole 2 is adjusted, the telescopic rod 15 stretches and consolidates and stabilizes the tower pole 2 and the adjusting device together with the reinforcing rod 14, so that the stability of the tower pole 2 is enhanced, the dangerous accident possibly occurring in the adjusting process of the tower pole 2 is reduced, the safety of the device is improved, the correction of the relative tower bottom verticality of the equipment carrying area on the upper part of the heightened tower body can be realized, and the verticality change caused by the radial wind power increase born on the upper part of the heightened tower body is reduced.

When the device is used, when the whole lifting equipment carries on the layer, at first rotate through motor 95 and drive screw rod 96 and rotate, screw rod 96 rotates and drives gear 99 and rotate, gear 99 rotates and drives dwang 98 and rotate, dwang 98 rotates and drives extension pole 10 and rotate, extension pole 10 rotates and drives regulation pole 121 and rotate, regulation pole 121 rotates and drives holder 122 and remove, holder 122 removes and drives lifter 124 and remove, lifter 124 removes the height that can adjust tower pole 2, simultaneously after equipment carries on the layer lifting, telescopic link 15 is pulled out the back from reinforcing rod 14, consolidate stability to tower pole 2 and adjusting device, correct the straightness that hangs down, the stability in use of tower pole 2 after the reinforcing risees.

The device can be used for adjusting the lifting height of the equipment carrying layer according to the height of the arranged tower body, and can improve the height of the tower body by 10%, and the perpendicularity is changed into 0, so that the effect of expanding the signal coverage range is realized. The device can realize the whole steady lifting to tower body upper portion equipment carrying layer, can effectively correct the holistic straightness that hangs down after the lifting simultaneously, avoid the change of tower body upper portion straightness that hangs down after the lifting, when realizing that communication range enlarges, communication signal does not have the hindrance, guarantee the safe and reliable nature of use after the lifting.

Although the present application has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described above, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present application.

Claims (10)

1. The tower pole height and verticality adjusting device for the tower type communication base station is characterized in that the device is arranged in an adjusting layer of a layer below an equipment carrying layer; comprising the following steps: the device comprises a driving assembly, a lifting assembly and a reinforcing correction assembly; the lifting component is arranged on each vertex angle of the adjusting layer; the top surface of the lifting assembly is connected with the equipment carrying layer; the bottom surface of the lifting assembly is connected with a base station under the adjusting layer;

the driving component is accommodated in the adjusting layer; the driving assembly and the lifting assembly are in driving connection;

the two ends of the reinforcing correction component are respectively connected with the outer walls of the equipment carrying layer and the adjusting layer, extend or recover along with the lifting component, and correct the perpendicularity of the lifted equipment carrying layer relative to the bottom surface of the base station;

the drive assembly includes: the device comprises a frame, a motor, a screw and gears arranged in pairs; the frame is arranged in the adjusting layer; the motor is arranged on the bottom surface of the frame, and the driving end of the motor penetrates out of the frame and is in driving connection with the screw; the screw is in driving connection with gears on two sides of the screw; the gear is in driving connection with the rotating rod; the rotating rod is respectively connected with each lifting assembly in a driving way;

the lifting components are respectively arranged on each vertex angle of the adjusting layer; the lifting component is arranged on the base station and is in lifting connection with the equipment carrying layer;

when the equipment carrying layer is lifted, the driving assembly drives the lifting assemblies on all the vertex angles to synchronously lift;

when the equipment carrying layer is lowered, the driving assembly drives the lifting assemblies on the top corners to synchronously lower.

2. The apparatus of claim 1, wherein the lifting assembly comprises: the device comprises a vertical rod, a lifting rod, an adjusting rod, a clamping frame and a sliding block; the vertical rods are arranged on the top surfaces of all the towers of the base station; a lifting rod is movably inserted into the top surface of the vertical rod; one end of the adjusting rod is connected with the driving assembly, and the other end of the adjusting rod is connected with the clamping frame;

the clamping frame is connected with a sliding block which is arranged in the inner cavity of the vertical rod in a sliding way; the lifting rod is abutted on the clamping frame and moves up and down along the inner cavity of the vertical rod along with the clamping frame.

3. The apparatus according to claim 2, characterized by comprising: an extension rod; the driving component is connected with the adjusting rod through the extension rod.

4. A device according to claim 3, wherein the drive assembly comprises: rotating rods arranged in pairs; the gear is sleeved on the rotating shaft; the two ends of the rotating rod are respectively rotatably arranged on the frame; the rotating rod is connected with one end of the extension rod.

5. The apparatus of claim 4, wherein the frame comprises: the cross bars, the placing racks and the mounting racks are arranged in pairs; the two ends of the cross rod are respectively connected with the inner wall of the vertical rod; two ends of the placing frame are respectively connected with the middle part of the cross rod; the mounting frame is arranged in the middle of the top surface of the placing frame; the mounting frame is provided with a through hole; the motor driving end is arranged in the through hole in a penetrating way; the gears are respectively arranged on the mounting frames at two sides of the through hole.

6. The apparatus of claim 5, wherein the frame comprises: the support plates are arranged in pairs; the support plates are symmetrically arranged at two ends of the mounting frame; the two ends of the rotating shaft are respectively rotatably arranged on the support plates.

7. The apparatus of claim 2, wherein the reinforcement correction assembly comprises: the device comprises a fixing block, a reinforcing rod, a telescopic rod and a connecting ring; the bottom end of the reinforcing rod is arranged on the outer wall of the vertical rod through a fixed block; the other end of the reinforcing rod is connected with the telescopic rod in a telescopic way; the top end of the telescopic rod is movably connected with the tower pole of the equipment carrying layer through a connecting ring.

8. The apparatus of claim 7, wherein the reinforcement rod is received within the telescoping rod when the equipment carrying layer is lowered.

9. The apparatus according to claim 7, comprising: a connecting plate; a connecting plate is arranged on the outer side wall of the connecting ring; the top surface of the telescopic rod is connected with the bottom surface of the connecting plate which extends vertically.

10. The tower type communication base station is characterized by comprising an adjusting layer and an equipment carrying layer which are arranged at the top of the base station; a tower height and verticality adjusting device as claimed in any one of claims 1 to 9 is accommodated in the adjusting layer; the device carrying layer is arranged on the top surface of the adjusting layer; the tower pole height and verticality adjusting device is in driving connection with the equipment carrying layer;

the base station comprises: a base and a plurality of stacked support layers; the supporting layer is arranged on the base; the support layer includes: a plurality of tower poles, a plurality of supporting frames and a plurality of connecting rods; the tower poles are respectively arranged on each vertex angle of the supporting layer; the upper and lower parts of the adjacent towers in the same plane are connected through a connecting rod; the supporting frame is arranged in a plane surrounded by the tower pole and the connecting rod.