CN111535648A - Communication base station antenna angle remote intelligent adjusting equipment - Google Patents

Abstract

The invention belongs to the technical field of communication transmission, and particularly relates to remote intelligent adjusting equipment for an antenna angle of a communication base station. The pole-holding device comprises an iron tower, a pole-holding pole, an antenna, a motor supporting seat and a camera, wherein a first connecting clamping piece is arranged on one side of the iron tower, which is far away from the ground, a supporting rod is arranged on the left side of the first connecting clamping piece, a connecting plate is arranged on the left side of the supporting rod, a second connecting clamping piece is arranged on the left side of the connecting plate, and the second connecting clamping piece fixes the pole-holding pole through a bolt; the top of the holding pole is provided with an auxiliary holding pole, and the outer side of the auxiliary holding pole is provided with a transverse moving frame; the upper part of the motor supporting seat is provided with a motor, the top of the motor is provided with driving teeth, the upper part of the motor supporting seat is provided with a guide sleeve, and the outer side of the guide sleeve is provided with a vertical moving frame; the antenna angle remote intelligent adjusting device for the communicable base station is simple to operate, high in practicability and wide in signal coverage.

Description

Communication base station antenna angle remote intelligent adjusting equipment

Technical Field

The invention belongs to the technical field of communication transmission, and particularly relates to remote intelligent adjusting equipment for an antenna angle of a communication base station.

Background

After decades of development in China, the communication iron tower is a single-pipe tower, an angle steel tower, a three-pipe tower, a roof support or a special model tower type, the antenna is hung in a mode that the traditional bolt is fixedly connected onto a pipe body holding pole of the iron tower with the specification of 70MM-75MM multiplied by 4MM, the holding pole is fixedly connected onto the iron tower in a bolt connection mode, and the antenna is evenly hung on an iron tower platform at 360 degrees, so that the coverage rate of a wave band is achieved. Fine setting about original antenna can't realize, fine setting about, the fine setting of antenna upset makes its antenna wave band can't cover between the tall and big building and shelter from the region, and when again equalling divide the suspension, all will embrace the pole and fix on the iron tower, also can have the unable coverage area of antenna wave band like this, and the signal also can't reach the coverage of full wave band, and therefore, will lead to some regional signal differences. In order to meet the coverage rate of 4G signals, Chinese iron tower companies and three operators continuously select sites to build more iron tower base stations and roof base stations, at present, domestic iron towers almost completely cover all areas, the 4G coverage rate is basically met, along with the progress and development of society, people are about to step into the 5G era, the antenna connection mode of the 5G era is still the traditional bolt connection pole holding mode, but the coverage without dead angles in all directions can still not be achieved, therefore, a remote intelligent adjusting device for the antenna angle of the communication base station is provided, and the problem is solved.

The existing communication iron tower fully embraces the pole, the signal intelligence changes the transmission angle of the antenna and the horizontal plane, the antenna can not rotate around the iron tower, the method for solving the problem at the present stage is to install more antennas on the iron tower, not only the operation cost is increased, but also the later-stage maintenance is extremely inconvenient, moreover, the angle regulation and the rotation process of the existing embracing pole all need manual operation, the operation burden of workers is increased, and the inconvenience is brought to the workers.

Disclosure of Invention

The invention mainly aims to provide communication base station antenna angle remote intelligent adjusting equipment aiming at the current situation of the prior art so as to solve the problems that the existing communication antenna cannot be remotely controlled and has covering dead angles.

In order to achieve the purpose, the invention specifically adopts the following technical scheme:

a communication base station antenna angle remote intelligent adjusting device comprises an iron tower 1, a holding pole 2, an antenna 3, a motor supporting seat 4 and a camera 8, wherein a connecting base is arranged at the bottom of the iron tower 1 and fixedly connected with a prefabricated part through a bolt, a first connecting clamping piece 11 is arranged on one side, away from the ground, of the iron tower 1, a supporting rod 1101 is arranged on the left side of the first connecting clamping piece 11, a connecting plate is arranged on the left side of the supporting rod 1101, a second connecting clamping piece 1102 is arranged on the left side of the connecting plate, the holding pole 2 is positioned on the inner side of the second connecting clamping piece 1102, and the holding pole 2 is fixed through the bolt by the second connecting clamping piece 1102; the method is characterized in that: the top of the holding pole 2 is provided with an auxiliary holding pole 201, and the outer side of the auxiliary holding pole 201 is provided with a transverse moving frame 7; the upper part of the motor supporting seat 4 is provided with a motor 8, the top of the motor 8 is provided with a driving tooth 801, the upper part of the motor supporting seat 4 is provided with a guide sleeve 5, and the outer side of the guide sleeve 5 is provided with a vertical moving frame 6; the top of the antenna 3 is hinged to the transverse moving frame 7, the bottom of the antenna 3 is hinged to the vertical moving frame 6, a cable output port 301 is arranged at the bottom of the antenna 3, and the cable output port 301 is electrically connected with the base station through an optical fiber.

Further, the bottom of the auxiliary holding pole 201 is provided with a guide plate 202, the bottom of the guide plate 202 is provided with a slide block 204, and the slide block 204 is in sliding connection with a slide groove arranged at the top of the holding pole 2.

Further, an oval guide groove 704 is formed in the transverse moving frame 7, a first strip-shaped tooth 701 is arranged on the upper portion of the oval guide groove 704, one end of the first strip-shaped tooth 701 is welded to the transverse moving frame 7, a first waist-shaped connecting piece 702 is arranged on the left side of the transverse moving frame 7, a first link mechanism 703 is arranged on the right side of the first waist-shaped connecting piece 702, and the right side of the first link mechanism 703 is hinged to the antenna 3.

Further, the outside of guide sleeve 5 be equipped with bar guide way 501, bar guide way 501 symmetry is equipped with two, one side of bar guide way 501 is equipped with second bar tooth 502.

Further, the inner side of the vertical moving frame 6 is provided with a sliding block matched with the strip-shaped guide groove 501, the right side of the vertical moving frame 6 is provided with an arc guide groove 601, the included angle between the two ends of the arc guide groove 601 is 120 degrees, the right side of the arc guide groove 601 is provided with a second connecting rod structure 603, the left side of the second connecting rod structure 603 is provided with a sliding block 602, the sliding block 602 slides in the arc guide groove 601, the right side of the second connecting rod structure 603 is hinged to the antenna 3, the left side of the vertical moving frame 6 is provided with a second waist-shaped connecting piece 604, the inner side of the second waist-shaped connecting piece 604 is provided with a tadpole-shaped clamping piece 10, one side of the tadpole-shaped clamping piece 10, which is close to the second strip-shaped teeth 502, is provided with a gear tooth matched with the second strip-shaped teeth 502, and the.

Furthermore, a rotating shaft 9 is arranged inside the holding pole 2, the rotating shaft 9 fixes the rotating shaft 9 through a bearing seat 203 arranged in the holding pole 2, a first driven tooth 901 is arranged at the bottom of the rotating shaft 9, the first driven tooth 901 is connected with a driving tooth 801 through a transmission chain, a second driven tooth 903 is arranged at one side far away from the bearing seat 203, the second driven tooth 903 is meshed with a first strip-shaped tooth 701, a coupler 902 is arranged at the upper part of the first strip-shaped tooth 701, a rotating shaft fixing plate 2011 is arranged at the upper part of the coupler 902, a coupler 902 is arranged at one side of the first strip-shaped tooth 701,

further, basic station a include AAU active antenna system, the control subassembly, power supply module, the basic station rack, AAU active antenna system includes cell-phone APP, network communication module, data acquisition module, the control unit and motor 8 and shaft coupling 902 electric connection, data acquisition module mainly includes GPRS orientation module, antenna slope and corner data acquisition module, data acquisition module gathers each module sensor data and passes through network communication module is with data transmission to cell-phone APP, cell-phone APP receives data and the positional information and the operating angle of real time monitoring antenna, cell-phone AAP end sets up and sends the instruction to the control unit through network communication module after the instruction, the control unit carries out real time regulation and control to the operating angle of motor.

Compared with the prior art, the invention has the beneficial effects that:

the auxiliary pole comprises an auxiliary pole body, a guide plate is arranged at the bottom of the auxiliary pole body, a sliding block is arranged at the bottom of the guide plate and is in sliding connection with a sliding groove formed in the top of the pole body, a rotating shaft is arranged inside the pole body and is fixed through a bearing seat arranged in the pole body, first driven teeth are arranged at the bottom of the rotating shaft, second driven teeth are arranged on one side away from the bearing seat and are meshed with the first strip-shaped teeth, a coupler is arranged on the upper portion of the first strip-shaped teeth, a rotating shaft fixing plate is arranged on the upper portion of the coupler, a coupler is arranged on one side of the first strip-shaped teeth, a motor drives the rotating shaft during operation, the rotation of the rotating shaft enables the auxiliary pole body to rotate along with the rotating shaft, and the coverage area of an antenna.

Secondly, according to the transverse moving frame provided by the invention, an oval guide groove is formed in the transverse moving frame 7, a first strip-shaped tooth is arranged at the upper part of the oval guide groove, one end of the first strip-shaped tooth is welded with the transverse moving frame, a first waist-shaped connecting piece is arranged on the left side of the transverse moving frame, a first connecting rod mechanism is arranged on the right side of the first waist-shaped connecting piece, the right side of the first connecting rod mechanism is hinged with an antenna, and the arrangement of the transverse moving frame enables the holding pole to be practical and to be used for antennas with various sizes.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a front view of the present invention.

Fig. 3 is a top view of the present invention.

FIG. 4 is a schematic cross-sectional view taken along the direction of FIG. 3A-A according to the present invention.

Fig. 5 is a schematic structural view of the guide sleeve 5 of the present invention.

Fig. 6 is a schematic structural view of the vertical movable frame 6 of the present invention.

FIG. 7 is an enlarged view of FIG. 4A according to the present invention.

FIG. 8 is an enlarged view of FIG. 4B according to the present invention.

Fig. 9 is a flow chart of the operation of the present invention.

In the figure: iron tower 1, first connecting fastener 11, support rod 1101, second connecting fastener 1102, holding rod 2, auxiliary holding rod 201, guide plate 202, bearing seat 203, slider 204, antenna 3, cable output port 301, motor supporting seat 4, guide sleeve 5, bar-shaped guide groove 501, second bar-shaped tooth 502, vertical moving frame 6, circular arc guide groove 601, slider 602, second connecting rod structure 603, second waist-shaped connecting piece 604, transverse moving frame 7, first bar-shaped tooth 701, first waist-shaped connecting piece 702, first connecting rod mechanism 703, oval guide groove 704, camera 8, driving tooth 801, rotating shaft 9, first driven tooth 901, coupler 902, second driven tooth 903 and tadpole-shaped fastener 10.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

A communication base station antenna angle remote intelligent adjusting device comprises an iron tower 1, a holding pole 2, an antenna 3, a motor supporting seat 4 and a camera 8, wherein a connecting base is arranged at the bottom of the iron tower 1 and fixedly connected with a prefabricated part through a bolt, a first connecting clamping piece 11 is arranged on one side, away from the ground, of the iron tower 1, a supporting rod 1101 is arranged on the left side of the first connecting clamping piece 11, a connecting plate is arranged on the left side of the supporting rod 1101, a second connecting clamping piece 1102 is arranged on the left side of the connecting plate, the holding pole 2 is positioned on the inner side of the second connecting clamping piece 1102, and the holding pole 2 is fixed through the bolt by the second connecting clamping piece 1102; the top of the holding pole 2 is provided with an auxiliary holding pole 201, and the outer side of the auxiliary holding pole 201 is provided with a transverse moving frame 7; the upper part of the motor supporting seat 4 is provided with a motor 8, the top of the motor 8 is provided with a driving tooth 801, the upper part of the motor supporting seat 4 is provided with a guide sleeve 5, and the outer side of the guide sleeve 5 is provided with a vertical moving frame 6; the top of the antenna 3 is hinged to the transverse moving frame 7, the bottom of the antenna 3 is hinged to the vertical moving frame 6, a cable output port 301 is arranged at the bottom of the antenna 3, and the cable output port 301 is electrically connected with the base station through an optical fiber.

Example 1

Referring to fig. 1-7, the present invention provides a technical solution: the utility model provides a remote intelligent adjusting device of communication base station antenna angle, the supplementary bottom of embracing pole 201 be equipped with deflector 202, deflector 202 bottom is equipped with slider 204, slider 204 and the spout sliding connection that embraces pole 2 top and be equipped with, embrace pole 2 inside be equipped with pivot 9, pivot 9 is fixed with pivot 9 through embracing the bearing frame 203 that is equipped with in the pole 2, the bottom of pivot 9 is equipped with first driven tooth 901, first driven tooth 901 is connected through the driving chain with driving tooth 801, the one side of keeping away from bearing frame 203 is equipped with second driven tooth 903, second driven tooth 903 meshes with first bar tooth 701, the upper portion of first bar tooth 701 is equipped with shaft coupling 902, the upper portion of shaft coupling 902 is equipped with pivot fixed plate 2011, one side of first bar tooth 701 is equipped with shaft coupling 902, the inside of lateral shifting frame 7 be equipped with oval guide way 704, the upper portion of oval guide way 704 is equipped with first bar tooth 701, first bar tooth 701 one end and the welding of lateral shifting frame 7, the left side of lateral shifting frame 7 is equipped with first waist nature connecting piece 702, the right side of first waist nature connecting piece 702 is equipped with first link mechanism 703, the right side of first link mechanism 703 is articulated with antenna 3, motor 8 drives pivot 9 when shaft coupling 902 feeds through and rotates, the rotation of pivot 9 makes supplementary pole 2 of embracing rotate thereupon, it wholly rotates to drive the antenna when supplementary pole 2 of embracing rotates, the coverage area of antenna 3 has been increased, when shaft coupling 902 disconnection, supplementary pole 2 of embracing does not rotate, the driven tooth 903 of second and the meshing of first bar tooth 701 drive lateral shifting frame 7 lateral shifting, the lateral shifting of lateral shifting frame 7 realizes the regulation of antenna 3 angle.

Example 2

Referring to fig. 1 to 8, the present invention provides a technical solution: a remote intelligent adjusting device for the antenna angle of a communication base station is characterized in that the outer side of a guide sleeve 5 is provided with two bar-shaped guide grooves 501, the two bar-shaped guide grooves 501 are symmetrically arranged, one side of each bar-shaped guide groove 501 is provided with a second bar-shaped tooth 502, the inner side of a vertical moving frame 6 is provided with a sliding block matched with the bar-shaped guide groove 501, the right side of the vertical moving frame 6 is provided with an arc guide groove 601, the included angle of two ends of the arc guide groove 601 is 120 degrees, the right side of the arc guide groove 601 is provided with a second connecting rod structure 603, the left side of the second connecting rod structure 603 is provided with a sliding block 602, the sliding block 602 slides in the arc guide groove 601, the right side of the second connecting rod structure 603 is hinged with an antenna 3, the left side of the vertical moving frame 6 is provided with a second kidney-shaped connecting piece 604, the inner side of the second kidney-shaped connecting piece 604 is provided with a tadpole, be equipped with the bolt subassembly on the second waist shape connecting piece 604, tadpole shape fastener 10 is fixed to the bolt subassembly, when adjusting the vertical position of vertical removal frame 6 according to particular case when using, upwards pull up tadpole shape fastener 10 for slider 602 is articulated with second connecting rod structure 603, recompress tadpole shape fastener 10 this moment and make the teeth of a cogwheel and the meshing of second bar tooth 502 that tadpole shape fastener 10 outside was equipped with, then it is fixed with tadpole shape fastener 10 through the bolt subassembly, finally realize the location of vertical removal frame 6.

Preferably, basic station a include AAU active antenna system, the control subassembly, power supply module, the basic station rack, AAU active antenna system includes cell-phone APP, network communication module, data acquisition module, the control unit and motor 8 and shaft coupling 902 electric connection, data acquisition module mainly includes GPRS orientation module, antenna slope and corner data acquisition module, data acquisition module gathers each module sensor data and passes through network communication module is with data transmission to cell-phone APP, cell-phone APP receives position information and the working angle of data and real time monitoring antenna, cell-phone AAP end sets up and sends the instruction to the control unit through network communication module after the instruction, the control unit carries out real time regulation and control to the working angle of motor.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (7)

1. A communication base station antenna angle remote intelligent adjusting device comprises an iron tower (1), a holding pole (2), an antenna (3), a motor supporting seat (4) and a camera (8), wherein a connecting base is arranged at the bottom of the iron tower (1) and fixedly connected with a prefabricated part through a bolt, a first connecting clamping piece (11) is arranged on one side, away from the ground, of the iron tower (1), a supporting rod (1101) is arranged on the left side of the first connecting clamping piece (11), a connecting plate is arranged on the left side of the supporting rod (1101), a second connecting clamping piece (1102) is arranged on the left side of the connecting plate, the holding pole (2) is located on the inner side of the second connecting clamping piece (1102), and the holding pole (2) is fixed through the bolt by the second connecting clamping piece (1102; the method is characterized in that: the top of the holding pole (2) is provided with an auxiliary holding pole (201), and the outer side of the auxiliary holding pole (201) is provided with a transverse moving frame (7); the upper part of the motor supporting seat (4) is provided with a motor (8), the top of the motor (8) is provided with driving teeth (801), the upper part of the motor supporting seat (4) is provided with a guide sleeve (5), and the outer side of the guide sleeve (5) is provided with a vertical moving frame (6); the top of antenna (3) and horizontal removal frame (7) articulated, the bottom and the vertical removal of antenna (3) are put up (6) articulated, the bottom of antenna (3) is equipped with cable output port (301), cable output port (301) with through optic fibre and basic station electric connection.

2. The remote intelligent adjusting device for the antenna angle of the communication base station as claimed in claim 1, wherein: the bottom of the auxiliary holding pole (201) is provided with a guide plate (202), the bottom of the guide plate (202) is provided with a sliding block (204), and the sliding block (204) is in sliding connection with a sliding groove formed in the top of the holding pole (2).

3. The remote intelligent adjusting device for the antenna angle of the communication base station as claimed in claim 1, wherein: the inside of lateral shifting frame (7) be equipped with oval guide way (704), the upper portion of oval guide way (704) is equipped with first bar tooth (701), first bar tooth (701) one end and lateral shifting frame (7) welding, the left side of lateral shifting frame (7) is equipped with first waist nature connecting piece (702), the right side of first waist nature connecting piece (702) is equipped with first link mechanism (703), the right side of first link mechanism (703) is articulated with antenna (3).

4. The remote intelligent adjusting device for the antenna angle of the communication base station as claimed in claim 1, wherein: the outside of guide sleeve (5) be equipped with bar guide way (501), bar guide way (501) symmetry is equipped with two, one side of bar guide way (501) is equipped with second bar tooth (502).

5. The remote intelligent adjusting device for the antenna angle of the communication base station as claimed in claim 1, wherein: the antenna is characterized in that a sliding block matched with the strip-shaped guide groove (501) is arranged on the inner side of the vertical moving frame (6), an arc guide groove (601) is arranged on the right side of the vertical moving frame (6), a second connecting rod structure (603) is arranged on the right side of the arc guide groove (601) with the included angle of two ends of the arc guide groove (601) being 120 degrees, a sliding block (602) is arranged on the left side of the second connecting rod structure (603), the sliding block (602) slides in the arc guide groove (601), the right side of the second connecting rod structure (603) is hinged to the antenna (3), a second waist-shaped connecting piece (604) is arranged on the left side of the vertical moving frame (6), a tadpole-shaped clamping piece (10) is arranged on the inner side of the second waist-shaped connecting piece (604), gear teeth matched with the second strip-shaped teeth (502) are arranged on one side, close to the second strip-shaped teeth (502), a pin assembly is arranged on the second waist-shaped connecting piece (.

6. The remote intelligent adjusting device for the antenna angle of the communication base station as claimed in claim 1, wherein: embrace pole (2) inside be equipped with pivot (9), pivot (9) are fixed pivot (9) through bearing frame (203) that is equipped with in embracing pole (2), the bottom of pivot (9) is equipped with first driven tooth (901), first driven tooth (901) are connected through the driving chain with initiative tooth (801), one side of keeping away from bearing frame (203) is equipped with second driven tooth (903), second driven tooth (903) and first bar tooth (701) meshing, the upper portion of first bar tooth (701) is equipped with shaft coupling (902), the upper portion of shaft coupling (902) is equipped with pivot fixed plate (2011), one side of first bar tooth (701) is equipped with shaft coupling (902).

7. The remote intelligent adjusting device for the antenna angle of the communication base station as claimed in claim 1, wherein: the basic station include AAU active antenna system, the control subassembly, power supply module, basic station cabinet, AAU active antenna system includes cell-phone APP, network communication module, data acquisition module, the control unit and motor (8) and shaft coupling (902) electric connection, data acquisition module mainly includes GPRS orientation module, antenna slope and corner data acquisition module, data acquisition module gathers each module sensor data and passes through network communication module is with data transmission to cell-phone APP, cell-phone APP receives position information and the working angle of data and real time monitoring antenna, cell-phone AAP end sets up and sends the instruction to the control unit through network communication module after the instruction, the control unit carries out real time regulation and control to the working angle of motor.

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