CN113363699A - 5G outdoor antenna adjusting bracket and operation method thereof - Google Patents

Abstract

The invention discloses a 5G outdoor antenna adjusting bracket and an operating method thereof, wherein the adjusting bracket comprises a holding pole and an antenna, the holding pole and the antenna are movably connected through an adjusting mechanism, the adjusting mechanism comprises a first threaded sleeve, a screw cap, a first sleeve ring, a connecting shaft, a movable connecting rod, a first shaft seat, a first rotating shaft, a second threaded sleeve, a second sleeve ring, a fixed connecting rod, a second shaft seat, a second rotating shaft, an external thread and a groove, and a locking mechanism is arranged between the first sleeve ring and the first threaded sleeve. According to the 5G outdoor antenna adjusting bracket, firstly, angle adjusting operation is more convenient, the antenna is more stable after adjustment, the height of the antenna outside the holding pole can be adjusted, the functionality is stronger, secondly, the function of azimuth adjustment is realized, various adjusting requirements of the 5G antenna can be met after the antenna is installed, and the practicability is higher; in addition, the angle of the 5G antenna can be indicated during angle adjustment, and the convenience of use is further improved.

Description

5G outdoor antenna adjusting bracket and operation method thereof

Technical Field

The invention relates to the field of adjusting supports, in particular to a 5G outdoor antenna adjusting support, and more particularly relates to a 5G outdoor antenna adjusting support and an operation method thereof.

Background

With the development of science and technology, people have an increasing demand for network speed, and the technology is a latest generation cellular mobile communication technology and also an extension behind 4G, 3G and 2G systems, the performance goal of 5G is high data rate, delay reduction, energy conservation, cost reduction, system capacity improvement and large-scale equipment connection, the coverage of 5G signals mainly depends on a base station, the base station needs to be supported by a 5G antenna, and an adjusting bracket needs to be used when the 5G antenna is installed;

the existing 5G outdoor antenna adjusting bracket has certain defects to be improved when in use, firstly, the angle adjustment is troublesome, the operation is complex, the stability is poor, only the angle adjustment can be carried out, the height adjustment cannot be carried out, and the functionality of the adjusting bracket is reduced; secondly, the antenna does not have the function of azimuth adjustment, the adjustment requirement after the 5G outdoor antenna is installed cannot be met by simple angle adjustment, and the practicability is poor; in addition, do not possess the function that the angle was instructed, people need borrow the angle that external instrument carried out the measurement antenna when angle regulation, have increased the loaded down with trivial details nature of work, and the practicality is poor.

Disclosure of Invention

The invention mainly aims to provide a 5G outdoor antenna adjusting bracket, which can effectively solve the problems of troublesome angle adjustment, complex operation and poor stability in the background art, can only adjust the angle and cannot adjust the height, and reduces the functionality of the adjusting bracket; secondly, the antenna does not have the function of azimuth adjustment, the adjustment requirement after the 5G outdoor antenna is installed cannot be met by simple angle adjustment, and the practicability is poor; in addition, do not possess the function that the angle was instructed, people need borrow the angle that external instrument carried out the measuring antenna when angle regulation, have increased the loaded down with trivial details nature of work, the poor technical problem of practicality.

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

the utility model provides a 5G outdoor antenna adjusts support, includes and embraces pole and antenna, embrace through adjustment mechanism swing joint between pole and the antenna, adjustment mechanism is including first thread bush, nut, first lantern ring, even axle, movable connecting rod, first axle bed, first pivot, second thread bush, second lantern ring, fixed connecting rod, second axle bed, second pivot, external screw thread and recess, be equipped with locking mechanism between first lantern ring and the first thread bush, locking mechanism is including locking bolt, locking cap, activity groove, ejector pad and rubber pad, be equipped with angle indicating mechanism between second lantern ring and the second axle bed, angle indicating mechanism includes angular scale, fixing base, directional pole and prong.

As a further scheme of the invention, the first thread bushing and the second thread bushing are both sleeved outside the holding pole, the first thread bushing is located above the second thread bushing, the nut is sleeved outside the holding pole and is attached to the bottom of the first thread bushing, the number of the grooves is two, the two grooves are respectively opened outside the first thread bushing and the second thread bushing, the first sleeve ring and the second sleeve ring are respectively sleeved outside the first thread bushing and the second thread bushing through the grooves, one end of the movable connecting rod is movably connected to the outside of the first sleeve ring through a connecting shaft, the first shaft seat is fixedly installed at the top position of one side of the antenna, the other end of the movable connecting rod is movably connected with the first shaft seat through a first rotating shaft, one end of the fixed connecting rod is fixedly installed outside the second sleeve ring, the second shaft seat is fixedly installed at the bottom position of one side of the antenna, the other end of the fixed connecting rod is movably connected with the second shaft base through a second rotating shaft, and the external thread is arranged on the outer surface of the holding pole.

As a further scheme of the invention, the first thread bushing, the nut and the second thread bushing are in threaded connection with the holding rod through external threads, and the length of the movable connecting rod is greater than that of the fixed connecting rod.

As a further scheme of the invention, the movable groove is formed in the first sleeve, the locking bolt penetrates through the movable groove and is movably connected with the push block, the rubber pad is fixedly arranged on one side of the push block, and the locking cap is in threaded connection with the outer part of the locking bolt.

As a further scheme of the invention, the outer part of the second sleeve ring is also provided with a locking mechanism, and the rubber pad is tightly pressed on the outer part of the first threaded sleeve.

As a further scheme of the invention, the angle scale is fixedly arranged at the front part of the second shaft seat, the fixed seat is fixedly arranged at the position, close to the front part, outside the second lantern ring, the pointing rod is fixedly arranged at the front part of the fixed seat, and the pointed end is integrally connected at one end of the pointing rod.

As a further scheme of the present invention, the pointing rod is horizontally disposed at 180 degrees, the center point of the angle scale and the second rotating shaft are concentric circles, and the center point of the pointing rod and the center point of the angle scale are horizontally disposed.

An operation method of a G outdoor antenna adjusting bracket specifically comprises the following steps:

the method comprises the following steps: after the holding rod is installed, the angle of the antenna is adjusted by using the adjusting mechanism, during operation, the nut is rotated to enable the nut to fall off the bottom surface of the first threaded sleeve, then the first threaded sleeve is rotated, the first threaded sleeve rotates on the inner side of the first sleeve ring, the first threaded sleeve is enabled to ascend or descend through the external thread, when the first threaded sleeve ascends, the movable connecting rod is driven to ascend through the connecting shaft, meanwhile, the angle of the movable connecting rod is changed through the connecting shaft and the first rotating shaft, the antenna can be driven to rotate outside the second rotating shaft through the second shaft base, the angle of the antenna is changed, the larger the ascending distance of the first threaded sleeve is, the closer the angle of the antenna is to the vertical line, the smaller the ascending distance of the first threaded sleeve is, the closer the angle of the antenna is to the horizontal line, and the angle adjustment of the antenna is realized;

step two: the first threaded sleeve and the second threaded sleeve are rotated simultaneously, the first threaded sleeve and the second threaded sleeve move simultaneously to respectively drive the first sleeve ring and the second sleeve ring to move simultaneously, so that the height of the antenna outside the pole can be adjusted, and the height adjustment of the antenna is realized;

step three: the locking bolt is rotated to drive the push block to move, so that the rubber pad is separated from the outside of the first threaded sleeve, and then the first sleeve ring and the second sleeve ring are rotated to drive the antenna to rotate around the holding pole simultaneously, so that the direction adjustment of the antenna is realized;

step four: after the first sleeve ring is adjusted to a proper position, the locking bolt is rotated, the locking bolt pushes the push block to be in the movable groove under the action of the threads, so that the rubber pad is tightly pressed on the outer part of the first threaded sleeve, and the position of the first sleeve ring is fixed;

step five: when the angle is adjusted, the second shaft base can follow the antenna to generate angle change, the second shaft base can drive the angle scale to generate angle change, the center point of the pointing rod and the center point of the angle scale are in the same horizontal plane, and therefore when the angle scale rotates, the rotating angle can be observed through the tip of the pointing rod, and therefore the angle of the antenna can be known.

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

by arranging the adjusting mechanism, the nut is rotated to enable the nut to fall off the bottom surface of the first threaded sleeve, then the first threaded sleeve is rotated, the first threaded sleeve rotates on the inner side of the first sleeve ring to enable the first threaded sleeve to ascend or descend with the external thread, when the first threaded sleeve ascends, the movable connecting rod is driven to ascend through the connecting shaft, the angle of the movable connecting rod is changed through the connecting shaft and the first rotating shaft, the antenna can be driven to rotate on the outer portion of the second rotating shaft through the second shaft base, the angle of the antenna is changed, the larger the ascending distance of the first threaded sleeve is, the closer the angle of the antenna is to the vertical line, the smaller the ascending distance of the first threaded sleeve is, the closer the angle of the antenna is to the horizontal line, the first threaded sleeve and the second threaded sleeve are rotated simultaneously, the concave part of the first threaded sleeve and the second threaded sleeve move simultaneously, and the first sleeve ring and the second sleeve are driven to move simultaneously respectively, the height of the antenna outside the pole can be adjusted, so that the height adjustment of the antenna is realized, the angle adjustment operation is more convenient, the antenna is more stable after adjustment, the use convenience is improved, the height of the antenna outside the pole can be adjusted while the angle is adjusted, and the functionality is stronger;

through the arrangement of the locking mechanism, the locking bolt is rotated to drive the push block to move, so that the rubber pad is separated from the outside of the first threaded sleeve, then the first sleeve ring and the second sleeve ring are rotated to drive the antenna to rotate around the holding rod at the same time, the azimuth adjustment of the antenna is realized, after the antenna is adjusted to a proper position, the locking bolt is rotated to push the push block inside the movable groove through the action of threads, so that the rubber pad is tightly pressed on the outside of the first threaded sleeve, the position of the first sleeve ring is fixed, the azimuth adjustment function is realized, various adjustment requirements of the antenna can be met after the antenna is installed, and the practicability is higher;

through setting up angle indicating mechanism, in the angle modulation, the second shaft base can follow the antenna and produce the angle change, then the second shaft base will take the angle scale to produce the angle change, because of the central point of directional pole and the central point of angle scale are in same horizontal plane, therefore when the angle scale rotated, can observe the pivoted angle through the tip of directional pole, thereby learn the angle of antenna, can instruct the angle that the antenna changed in the angle modulation, need not to use outside instrument to measure, further improve the convenience of using.

Drawings

Fig. 1 is a schematic overall structure diagram of a 5G outdoor antenna adjusting bracket according to the present invention;

FIG. 2 is a cross-sectional view of a first threaded sleeve and a first collar of a 5G outdoor antenna adjusting bracket according to the present invention;

FIG. 3 is a disassembled view of a first threaded sleeve and a first collar of a 5G outdoor antenna adjusting bracket according to the present invention;

FIG. 4 is a top view of a first threaded sleeve and a first collar of a 5G outdoor antenna adjusting bracket according to the present invention;

fig. 5 is an enlarged view of a in fig. 1 of a 5G outdoor antenna adjusting bracket according to the present invention.

In the figure: 1. holding the pole; 2. an adjustment mechanism; 201. a first threaded sleeve; 202. a nut; 203. a first collar; 204. a connecting shaft; 205. a movable connecting rod; 206. a first shaft seat; 207. a first rotating shaft; 208. a second threaded sleeve; 209. a second collar; 2010. fixing the connecting rod; 2011. a second shaft base; 2012. a second rotating shaft; 2013. an external thread; 2014. a groove; 3. an antenna; 4. a locking mechanism; 401. locking the bolt; 402. a locking cap; 403. a movable groove; 404. a push block; 405. a rubber pad; 5. an angle indicating mechanism; 501. an angle scale; 502. a fixed seat; 503. a pointing stick; 504. a pointed tip.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1-5, a 5G outdoor antenna adjusting bracket includes a pole 1 and an antenna 3, the pole 1 and the antenna 3 are movably connected through an adjusting mechanism 2, the adjusting mechanism 2 includes a first thread bushing 201, a nut 202, a first collar 203, a connecting shaft 204, a movable connecting rod 205, a first shaft seat 206, a first rotating shaft 207, a second thread bushing 208, a second collar 209, a fixed connecting rod 2010, a second shaft seat 2011, a second rotating shaft 2012, an external thread 2013 and a groove 2014, a locking mechanism 4 is disposed between the first collar 203 and the first thread bushing 201, the locking mechanism 4 includes a locking bolt 401, a locking cap 402, a movable groove 403, a push block 404 and a rubber pad 405, an angle indicating mechanism 5 is disposed between the second collar 209 and the second shaft seat 2011, the angle indicating mechanism 5 includes an angular disc 501, a fixed seat 502, a pointing rod 503 and a pointed tip 504;

the first threaded sleeve 201 and the second threaded sleeve 208 are sleeved outside the pole 1, the first threaded sleeve 201 is located above the second threaded sleeve 208, the nut 202 is sleeved outside the pole 1 and attached to the bottom of the first threaded sleeve 201, the number of the grooves 2014 is two, the two grooves 2014 are respectively arranged outside the first threaded sleeve 201 and the second threaded sleeve 208, the first collar 203 and the second collar 209 are respectively sleeved outside the first threaded sleeve 201 and the second threaded sleeve 208 through the grooves 2014, one end of the movable connecting rod 205 is movably connected to the outside of the first collar 203 through the connecting shaft 204, the first shaft seat 206 is fixedly installed at the top of one side of the antenna 3, the other end of the movable connecting rod 205 is movably connected with the first shaft seat 206 through the first rotating shaft 207, one end of the fixed connecting rod 2010 is fixedly installed outside the second collar 209, the second shaft seat 2011 is fixedly installed at the bottom of one side of the antenna 3, the other end of the fixed connecting rod 2010 is movably connected with a second shaft seat 2011 through a second rotating shaft 2012, and an external thread 2013 is formed on the outer surface of the holding pole 1; the first threaded sleeve 201, the nut 202 and the second threaded sleeve 208 are in threaded connection with the holding pole 1 through external threads 2013, and the length of the movable connecting rod 205 is greater than that of the fixed connecting rod 2010; the movable groove 403 is formed in the first collar 203, the locking bolt 401 penetrates through the movable groove 403 to be movably connected with the push block 404, the rubber pad 405 is fixedly installed on one side of the push block 404, and the locking cap 402 is in threaded connection with the outer portion of the locking bolt 401; the outer part of the second lantern ring 209 is also provided with a locking mechanism 4, and a rubber pad 405 is tightly pressed on the outer part of the first threaded sleeve 201; the angle scale 501 is fixedly arranged at the front part of the second shaft seat 2011, the fixed seat 502 is fixedly arranged at the position close to the front part outside the second lantern ring 209, the pointing rod 503 is fixedly arranged at the front part of the fixed seat 502, and the pointed end 504 is integrally connected with one end of the pointing rod 503; the pointing rod 503 is arranged at 180 degrees in the horizontal direction, the center point of the angle scale 501 and the second rotating shaft 2012 are concentric circles, and the center point of the pointing rod 503 and the center point of the angle scale 501 are arranged horizontally.

An operation method of a 5G outdoor antenna adjusting bracket specifically comprises the following steps:

the method comprises the following steps: after the holding pole 1 is installed, the angle of the antenna 3 is adjusted by the adjusting mechanism 2, and during operation, the nut 202 is turned so that the nut 202 falls off the bottom surface of the first thread bush 201, then, the first threaded sleeve 201 is rotated inside the first collar 203, so that the first threaded sleeve 201 is raised or lowered by the external thread 2013, when the first thread bush 201 ascends, the movable connecting rod 205 is driven upwards by the connecting shaft 204, meanwhile, the movable connecting rod 205 generates angle transformation through the connecting shaft 204 and the first rotating shaft 207, the antenna 3 can be driven to rotate outside the second shaft 2012 through the second shaft base 2011, the angle of the antenna 3 is changed, the larger the ascending distance of the first threaded sleeve 201 is, the closer the angle of the antenna 3 is to the vertical line, the smaller the ascending distance of the first threaded sleeve 201 is, and the closer the angle of the antenna 3 is to the horizontal line, so that the angle adjustment of the antenna 3 is realized;

step two: simultaneously, the first threaded sleeve 201 and the second threaded sleeve 208 are rotated, the first threaded sleeve recess 201 and the second threaded sleeve 208 simultaneously move to respectively drive the first collar 203 and the second collar 209 to simultaneously move, so that the height of the antenna 3 outside the pole 1 can be adjusted, and the height of the antenna 3 can be adjusted;

step three: the locking bolt 401 is rotated, so that the locking bolt 401 drives the push block 404 to move, the rubber pad 405 is separated from the outside of the first threaded sleeve 201, and then the first lantern ring 203 and the second lantern ring 209 are rotated, so that the first lantern ring 203 and the second lantern ring 209 simultaneously drive the antenna 3 to rotate around the pole 1, and the azimuth adjustment of the antenna 3 is realized;

step four: after the position is adjusted to a proper position, the locking bolt 401 is rotated, the locking bolt 401 pushes the push block 404 in the movable groove 403 through the thread action, so that the rubber pad 405 is pressed on the outer part of the first thread sleeve 201, and the position of the first collar 203 is fixed;

step five: during angle adjustment, the second shaft base 2011 can change the angle along with the antenna 3, and the second shaft base 2011 can bring the angle disc 501 to change the angle, so that when the angle disc 501 rotates, the rotating angle can be observed through the tip 504 of the pointing rod 503, and the angle of the antenna 3 can be known.

According to the invention, by arranging the adjusting mechanism 2, rotating the nut 202 to enable the nut 202 to fall off the bottom surface of the first thread bushing 201, then rotating the first thread bushing 201, the first thread bushing 201 rotates on the inner side of the first sleeve ring 203, so that the first thread bushing 201 rises or falls with the external thread 2013, when the first thread bushing 201 rises, the connecting shaft 204 drives the movable connecting rod 205 to go up, and simultaneously the movable connecting rod 205 generates angle transformation through the connecting shaft 204 and the first rotating shaft 207, so that the antenna 3 can be driven to rotate on the outer part of the second rotating shaft 2012 through the second shaft base 2011, so that the antenna 3 generates angle change, the distance of the first thread bushing 201 rises is larger, the angle of the antenna 3 is closer to the vertical line, the distance of the first thread bushing 201 rises is smaller, the angle of the antenna 3 is closer to the horizontal line, and simultaneously the first thread bushing 201 and the second thread bushing 208 are rotated, the first thread bushing 201 and the second thread bushing 208 move simultaneously, the first sleeve ring 203 and the second sleeve ring 209 are respectively driven to move simultaneously, so that the height of the antenna 3 outside the holding pole 1 can be adjusted, the height adjustment of the antenna 3 is realized, the angle adjustment operation is more convenient, the antenna 3 is more stable after adjustment, the use convenience is improved, the height of the antenna 3 outside the holding pole 1 can be adjusted during the angle adjustment, and the functionality is stronger; by arranging the locking mechanism 4, the locking bolt 401 is rotated, so that the locking bolt 401 drives the push block 404 to move, the rubber pad 405 is separated from the outside of the first threaded sleeve 201, then the first sleeve ring 203 and the second sleeve ring 209 are rotated, the first sleeve ring 203 and the second sleeve ring 209 are enabled to simultaneously drive the antenna 3 to rotate around the holding pole 1, the azimuth adjustment of the antenna 3 is realized, after the antenna is adjusted to a proper position, the locking bolt 401 is rotated, the locking bolt 401 pushes the push block 404 to be arranged inside the movable groove 403 through the thread effect, so that the rubber pad 405 is tightly pressed on the outside of the first threaded sleeve 201, the position of the first sleeve ring 203 is fixed, the function of azimuth adjustment is realized, various adjustment requirements of the antenna 3 can be met after the antenna is installed, and the practicability is higher; through setting up angle indicating mechanism 5, in angle modulation, second shaft base 2011 can follow antenna 3 and produce the angle change, then second shaft base 2011 will take angle scale 501 to produce the angle change, because of the central point of directional pole 503 and the central point of angle scale 501 are in same horizontal plane, therefore when angle scale 501 rotated, can observe the pivoted angle through point 504 of directional pole 503, thereby learn antenna 3's angle, can instruct the angle that antenna 3 changed in angle modulation, need not to use external instrument to measure, further improve the convenience of using.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. The utility model provides a support is adjusted to outdoor antenna of 5G which characterized in that: the angle indication device comprises a pole (1) and an antenna (3), wherein the pole (1) and the antenna (3) are movably connected through an adjusting mechanism (2), the adjusting mechanism (2) comprises a first thread bush (201), a nut (202), a first lantern ring (203), a connecting shaft (204), a movable connecting rod (205), a first shaft seat (206), a first rotating shaft (207), a second thread bush (208), a second lantern ring (209), a fixed connecting rod (2010), a second shaft seat (2011), a second rotating shaft (2012), an external thread (2013) and a groove (2014), a locking mechanism (4) is arranged between the first lantern ring (203) and the first thread bush (201), the locking mechanism (4) comprises a locking bolt (401), a locking cap (402), a movable groove (403), a push block (404) and a rubber pad (405), an angle indication mechanism (5) is arranged between the second lantern ring (209) and the second shaft seat (2011), the angle indicating mechanism (5) comprises an angular disc (501), a fixed seat (502), a pointing rod (503) and a pointed head (504).

2. The 5G outdoor antenna adjusting bracket according to claim 1, wherein: the antenna comprises a pole (1), a first threaded sleeve (201), a second threaded sleeve (208), a nut (202), two grooves (2014), two shafts (204), a first lantern ring (203) and a second lantern ring (209), wherein the first threaded sleeve (201) and the second threaded sleeve (208) are all sleeved outside the pole (1), the nut (202) is sleeved outside the pole (1) and attached to the bottom of the first threaded sleeve (201), the grooves (2014) are sleeved outside the first threaded sleeve (201) and the second threaded sleeve (208) respectively, the first lantern ring (203) and the second lantern ring (209) are sleeved outside the first threaded sleeve (201) and the second threaded sleeve (208) respectively through the grooves (2014), one end of a movable connecting rod (205) is movably connected outside the first lantern ring (203) through a connecting shaft (204), the first axle seat (206) is fixedly installed at the top of one side of the antenna (3), and the other end of the movable connecting rod (205) is movably connected with the first axle seat (206) through the first axle seat (207), one end of the fixed connecting rod (2010) is fixedly mounted outside the second lantern ring (209), the second shaft base (2011) is fixedly mounted at the bottom of one side of the antenna (3), the other end of the fixed connecting rod (2010) is movably connected with the second shaft base (2011) through a second rotating shaft (2012), and the external thread (2013) is opened on the outer surface of the holding pole (1).

3. The 5G outdoor antenna adjusting bracket according to claim 1, wherein: the first threaded sleeve (201), the nut (202) and the second threaded sleeve (208) are in threaded connection with the holding pole (1) through external threads (2013), and the length of the movable connecting rod (205) is larger than that of the fixed connecting rod (2010).

4. The 5G outdoor antenna adjusting bracket according to claim 1, wherein: the utility model discloses a locking device, including a locking bolt, a push block, a movable groove, a rubber pad, a locking cap, a push block, a locking bolt, a push block and a movable bolt, wherein the movable groove (403) is opened in the first lantern ring (203), the locking bolt (401) runs through the inside and the push block (404) swing joint of the movable groove (403), the rubber pad (405) is fixedly installed on one side of the push block (404), and the locking cap (402) is in threaded connection with the outside of the.

5. The 5G outdoor antenna adjusting bracket according to claim 1, wherein: the outside of the second lantern ring (209) is also provided with a locking mechanism (4), and the rubber pad (405) is pressed on the outside of the first threaded sleeve (201).

6. The 5G outdoor antenna adjusting bracket according to claim 1, wherein: the angle scale (501) is fixedly installed at the front part of the second shaft seat (2011), the fixed seat (502) is fixedly installed at the position, close to the front part, of the outer part of the second lantern ring (209), the pointing rod (503) is fixedly installed at the front part of the fixed seat (502), and the pointed end (504) is integrally connected to one end of the pointing rod (503).

7. The 5G outdoor antenna adjusting bracket according to claim 1, wherein: the pointing rod (503) is arranged at 180 degrees in the horizontal direction, the center point of the angle scale (501) and the second rotating shaft (2012) are concentric circles, and the center point of the pointing rod (503) and the center point of the angle scale (501) are arranged horizontally.

8. An operating method using the 5G outdoor antenna adjusting bracket of claim 1, characterized in that the operating method specifically comprises the following steps:

the method comprises the following steps: after the pole (1) is installed, the angle of the antenna (3) is adjusted by using the adjusting mechanism (2), during operation, the nut (202) is rotated to enable the nut (202) to fall off the bottom surface of the first thread bushing (201), then the first thread bushing (201) is rotated, the first thread bushing (201) rotates on the inner side of the first sleeve ring (203), the first thread bushing (201) is enabled to ascend or descend through the external thread (2013), when the first thread bushing (201) ascends, the movable connecting rod (205) is driven to ascend through the connecting shaft (204) and the first rotating shaft (207), meanwhile, the movable connecting rod (205) generates angle transformation through the connecting shaft (204) and the first rotating shaft (207), the antenna (3) can be driven to rotate outside the second rotating shaft (2012) through the second shaft base (2011), the angle of the antenna (3) is changed, the distance of ascending of the first thread bushing (201) is larger, the angle of the antenna (3) is closer to the vertical line, the smaller the ascending distance of the first thread sleeve (201) is, the closer the angle of the antenna (3) is to the horizontal line, and the angle adjustment of the antenna (3) is realized;

step two: the first threaded sleeve (201) and the second threaded sleeve (208) are rotated simultaneously, the first threaded sleeve recess (201) and the second threaded sleeve (208) move simultaneously, the first lantern ring (203) and the second lantern ring (209) are driven to move simultaneously respectively, the height of the antenna (3) outside the pole (1) can be adjusted, and the height adjustment of the antenna (3) is achieved;

step three: the locking bolt (401) is rotated, so that the locking bolt (401) drives the push block (404) to move, the rubber pad (405) is separated from the outside of the first threaded sleeve (201), then the first lantern ring (203) and the second lantern ring (209) are rotated, the first lantern ring (203) and the second lantern ring (209) simultaneously drive the antenna (3) to rotate around the pole (1), and the direction adjustment of the antenna (3) is realized;

step four: after the first sleeve ring (203) is adjusted to a proper position, the locking bolt (401) is rotated, the locking bolt (401) pushes the push block (404) to be in the movable groove (403) through the thread action, so that the rubber pad (405) is pressed on the outer portion of the first threaded sleeve (201), and the position of the first sleeve ring (203) is fixed;

step five: when the angle is adjusted, the second shaft seat (2011) can change the angle along with the antenna (3), the second shaft seat (2011) can drive the angle scale (501) to change the angle, and the center point of the pointing rod (503) and the center point of the angle scale (501) are in the same horizontal plane, so that when the angle scale (501) rotates, the rotating angle can be observed through the pointed end (504) of the pointing rod (503), and the angle of the antenna (3) can be known.

Images