CN117878568A - High-stability antenna device - Google Patents

Abstract

The invention relates to the technical field of antenna devices and discloses an antenna device with high stability, which comprises an antenna mechanism, wherein a monitoring mechanism is arranged on the outer wall of the top end of the antenna mechanism, a limiting mechanism is arranged on the outer wall of the antenna mechanism at a position close to the monitoring mechanism, a monitoring system is arranged on the inner wall of the antenna mechanism, and the monitoring system monitors and controls the antenna mechanism, the monitoring mechanism and the limiting mechanism.

Description

High-stability antenna device

Technical Field

The invention relates to the technical field of antenna devices, in particular to an antenna device with high stability.

Background

The antenna device is a device capable of receiving and transmitting radio signals, wherein the common antenna device mainly comprises an antenna assembly, a cable, wireless AP equipment, a base, a limiting device, a power supply device, a control system and other mechanisms, and the installation and the working flow of the wireless device are as follows: during installation, the antenna assembly, the wireless AP equipment and the main body are installed on the base through the limiting device, and during operation, wireless messages are transmitted and received through the antenna assembly, the cable and the wireless AP device;

the common limiting device mainly comprises a limiting plate and a bolt component, and the specific process of fixing the wireless component on the main body by the limiting device is as follows: the antenna assembly is moved to the surface of the main body mechanism to be driven in a designated manner, after the limiting plates are moved to the designated positions, the two groups of limiting plates are fixed through the bolt assemblies, so that the installation operation of the antenna assembly can be completed, the existing antenna device is mainly installed outdoors, and therefore the limiting device is limited under the influence of the external environment, and the phenomenon that the limiting device is not thorough occurs, so that the antenna assembly cannot be thoroughly fixed on the main body, the antenna device is poor in stability and vibration phenomenon, and certain economic loss is caused; meanwhile, as the wireless device is arranged outdoors, part of wild animals stay on the surface of the antenna device, and certain damage to the antenna device is possibly caused in the stay process, so that certain economic loss is caused.

Disclosure of Invention

In order to overcome the above-mentioned drawbacks of the prior art, the present invention provides an antenna device with high stability, so as to solve the above-mentioned problems in the prior art.

The invention provides the following technical scheme: the utility model provides an antenna device that stability is high, includes antenna mechanism, antenna mechanism includes the main part, the base is installed to the bottom of main part, and base upper surface installs the steel wire, and the steel wire is installed in the outer wall of main part in the one end that keeps away from the base position, wireless AP equipment is installed to the outer wall that the main part is being close to the steel wire position, and the cable is installed to the bottom of wireless AP equipment, the outer wall at antenna mechanism top is provided with monitoring mechanism, the spacing mechanism is installed in the position that is close to monitoring mechanism to the antenna mechanism outer wall, antenna mechanism's inner wall is equipped with monitoring system, monitoring system carries out monitoring control operation to antenna mechanism, monitoring mechanism and spacing mechanism;

an antenna group is arranged at the top end of the cable, and an alarm device is arranged on the inner wall of the top end of the antenna group;

the limiting mechanism comprises one side of a supporting plate, the side of the antenna group is arranged on the side face of the antenna group, a supporting frame is arranged on the side face, away from the position of the supporting plate, of the antenna group, a second clamping plate is welded on the other side of the supporting frame, a second bolt assembly is connected with the inner wall of the second clamping plate in a threaded mode, a second limiting plate is connected with the side face, away from the position of the second clamping plate, of the second bolt assembly in a threaded mode, a U-shaped plate is sleeved on the side face, at the middle position of the side face of the second clamping plate, of the U-shaped plate, a second spring is arranged on the middle position of the side face of the U-shaped plate, a second pressure monitor is arranged on the inner wall, close to the position of the micro-supporting rod, of the second clamping plate is arranged on the same horizontal plane, the micro-supporting rod is in contact with the second pressure monitor to generate second pressure data M, and the second pressure data M is conveyed to the monitoring system to carry out monitoring operation.

Further, the monitoring mechanism comprises a first limiting plate, the outer wall threaded connection of first limiting plate has first bolt subassembly, and first bolt subassembly is keeping away from the outer wall threaded connection of first limiting plate position and has first cardboard, and first limiting plate and first cardboard are on the coplanar, and the side-mounting of first cardboard has the bracing piece, the connecting plate is installed to the one end that the bracing piece was kept away from first cardboard position, and the top welding of connecting plate has the stripper plate, hollow post has been cup jointed in the activity of the top of stripper plate, and first pressure monitor is installed to the inner wall on hollow post top, and the upper surface mounting of stripper plate has first spring, and stripper plate and first pressure monitor are alignment from top to bottom, and the stripper plate contacts first pressure monitor and produces first pressure data L and carry monitoring operation to monitoring system.

Further, the position that second cardboard side is close to second bolt assembly is installed in hollow pillar, and electric lifting column is installed to hollow pillar's inner wall, and electric lifting column's inner wall activity has cup jointed the lifter, and electric lifting column input current drive lifter carries out horizontal migration in hollow pillar inside, and the spacing plectane is installed in the position that is close to the second limiting plate to the lifter, and the stopper has been cup jointed in the inner wall activity of spacing plectane, and the third spring is installed to the side-mounting of stopper, and the electro-magnet is installed to the inner wall of spacing plectane intermediate position, and the magnet piece is installed to the outer wall that the stopper is being close to the electro-magnet position, magnet piece and electro-magnet are on same horizontal plane, monitoring system control electro-magnet input ration electric current, produce corresponding magnetic attraction and magnetic repulsion between control electro-magnet piece to drive stopper removes at the inner wall of spacing plectane.

Further, the draw-in groove has been seted up in the position that is close to spacing plectane to the second limiting plate, the electro-magnet inputs forward current, produces magnetic repulsion between drive electro-magnet and the magnet piece to in the draw-in groove of drive stopper removal to the outer wall of spacing plectane and contact the second limiting plate, the electro-magnet inputs reverse current, produces magnetic attraction between drive electro-magnet and the magnet piece, so that drive stopper removes to the inner wall of spacing plectane, so that spacing plectane shifts out the draw-in groove of second limiting plate.

Further, the monitoring system comprises a collecting unit, an analyzing unit, a decision unit and a control center, wherein the control center also controls the collecting unit, the analyzing unit and the decision unit;

the acquisition unit acquires real-time first pressure data L monitored by the first pressure monitor and real-time second pressure data M monitored by the second pressure monitor in real time and transmits the real-time first pressure data L and the real-time second pressure data M to the analysis unit;

the analysis unit further comprises a threshold module and an instruction module, wherein the threshold module simulates simulated first pressure data Ln generated by the first pressure monitor when the antenna group is in a normal limit state, integrates the simulated first pressure data Ln to form a first threshold range, the instruction module compares the real-time first pressure data L with the first threshold range, when the real-time first pressure data L is not in the first threshold range, the antenna group can be judged to be damaged by external force, the instruction module sends a first instruction to the decision unit, and when the time of the real-time first pressure data L is not in the first threshold range exceeds 10min, the instruction module sends a second instruction to the decision unit;

the threshold module simulates second pressure data Mn generated by the second pressure monitor when the second clamping plate and the second limiting plate are normally limited on the outer wall of the main body, and integrates the simulated second pressure data Mn to form a second threshold range, the comparison module compares real-time second pressure data M with the second threshold range, when the second clamping plate and the second limiting plate are installed, the second clamping plate and the second limiting plate can be normally limited on the outer wall of the main body when the real-time second pressure data M is in the second threshold range, the instruction module sends a third instruction to the decision unit, and after the second clamping plate and the second limiting plate are installed, when the real-time second pressure data M is smaller than the second threshold range, the comparison module judges that the second clamping plate, the second limiting plate and the main body are limited incompletely, and the comparison module sends a fourth instruction to the decision unit.

Further, the decision unit receives a first instruction and generates a first decision, the first decision controls the alarm device to input quantitative current to expel the destructor, the decision unit receives a second instruction and generates a second decision, and the second decision controls the antenna mechanism to remotely send an early warning to staff to remind the staff to arrive at the site for checking.

Further, the decision unit receives a third instruction and generates a third decision, the third decision controls the alarm device to input quantitative current to remind a worker that the second clamping plate and the second limiting plate are completely limited on the outer wall of the main body, the decision unit receives a fourth instruction and generates a fourth decision, the fourth decision controls the limiting mechanism to input quantitative current to temporarily fix the second clamping plate and the second limiting plate, and meanwhile controls the antenna mechanism to remotely send early warning to the worker to remind the worker to arrive at the site for checking.

The invention has the technical effects and advantages that:

1. the invention is beneficial to the fact that the monitoring system is provided with the monitoring system and the limiting mechanism, when the monitoring system monitors that the limiting is incomplete between the second clamping plate, the second limiting plate and the main body, the monitoring system controls the electromagnet to input forward current, magnetic repulsive force is generated between the driving electromagnet and the magnet block, so that the limiting block is driven to move to the outer wall of the limiting circular plate and contact with the clamping groove of the second limiting plate, meanwhile, the electric lifting column inputs quantitative current to drive the lifting rod, the limiting circular plate, the limiting block and the second limiting plate to move to the position of the second clamping plate, so that the second clamping plate and the second limiting plate are temporarily assisted to be fixed on the outer wall of the main body, and meanwhile, the monitoring system controls the antenna mechanism to remotely send early warning to staff, so that the staff is reminded of arriving at the site for checking.

2. The invention is beneficial to that when the antenna group is fixed, the antenna group drives the first pressure monitor to contact the extrusion plate, the extrusion plate generates the first pressure data L and transmits the first pressure data L to the monitoring system, when the antenna group is extruded by external force, the first pressure data L monitored by the monitoring system generates corresponding change, the monitoring system can judge whether the antenna group is damaged by the external force or not through the change of the first pressure data L, when the monitoring system monitors that the antenna group is damaged by the external force, the monitoring system controls the alarm device to input quantitative current, the alarm device sends abnormal sound, and the alarm device warns and expels the person applying the external force to the antenna group.

Drawings

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

Fig. 2 is an enlarged schematic view of the structure a in fig. 1.

FIG. 3 is a schematic cross-sectional view of the overall structure of the hollow column of the present invention.

Fig. 4 is a schematic view of a part of the structure of the limiting mechanism of the present invention.

FIG. 5 is a schematic cross-sectional view of the second card of the present invention.

Fig. 6 is a schematic cross-sectional view of the whole structure of the second limiting plate of the present invention.

FIG. 7 is a schematic cross-sectional view of the overall structure of the hollow strut of the present invention.

Fig. 8 is a schematic cross-sectional view of the whole structure of the limiting circular plate of the present invention.

Fig. 9 is a schematic overall flow chart of the monitoring system of the present invention.

The reference numerals are: 1. an antenna mechanism; 101. a main body; 102. a wireless AP device; 103. a cable; 104. an antenna group; 105. a steel wire; 106. a base; 2. a monitoring mechanism; 201. a first limiting plate; 202. a first clamping plate; 203. a first bolt assembly; 204. a support rod; 205. a hollow column; 206. an extrusion plate; 207. a connecting plate; 208. a first pressure monitor; 209. a first spring; 3. a limiting mechanism; 301. a support plate; 302. a support frame; 303. a second clamping plate; 304. a second limiting plate; 305. a U-shaped plate; 306. a hollow pillar; 307. a second bolt assembly; 308. a miniature support rod; 309. a second pressure monitor; 310. a second spring; 311. a lifting rod; 312. an electric lifting column; 313. a limit circular plate; 314. a limiting block; 315. a third spring; 316. an electromagnet; 4. a monitoring system; 401. an acquisition unit; 402. an analysis unit; 403. a decision unit; 404. and a control center.

Detailed Description

The embodiments of the present invention will be clearly and completely described below with reference to the drawings in the present invention, and the configurations of the structures described in the following embodiments are merely examples, and the antenna device with high stability according to the present invention is not limited to the structures described in the following embodiments, and all other embodiments obtained by a person of ordinary skill in the art without any inventive effort are within the scope of the present invention.

Referring to fig. 1 to 2 and 9, the invention provides an antenna device with high stability, which comprises an antenna mechanism 1, wherein a monitoring mechanism 2 is arranged on the outer wall of the top end of the antenna mechanism 1, a limit mechanism 3 is arranged on the outer wall of the antenna mechanism 1 at a position close to the monitoring mechanism 2, a monitoring system 4 is arranged on the inner wall of the antenna mechanism 1, and the monitoring system 4 monitors and controls the antenna mechanism 1, the monitoring mechanism 2 and the limit mechanism 3;

the antenna mechanism 1 comprises a main body 101, a base 106 is arranged at the bottom end of the main body 101, a steel wire 105 is arranged on the upper surface of the base 106, the steel wire 105 is arranged on the outer wall of the main body 101 at one end far away from the position of the base 106, a wireless AP device 102 is arranged on the outer wall of the main body 101 close to the position of the steel wire 105, a cable 103 is arranged at the bottom end of the wireless AP device 102, an antenna group 104 is arranged at the top end of the cable 103, and an alarm device is arranged on the inner wall of the top end of the antenna group 104.

In this embodiment, the monitoring system 4 controls the alarm device to input a quantitative current, and the alarm device emits abnormal sound to warn and expel the person applying the external force to the antenna assembly 104.

In this embodiment of the present application, the specific workflow of the embodiment of this application is: the base 106 is moved to the mounting position, the main body 101 is fixed to the surface by the bolt device, the wireless AP device 102 and the antenna group 104 are sequentially fixed to the surface of the main body 101, and the cable 103 is connected to the signal interfaces of the antenna group 104 and the wireless AP device 102, so that information transmission and reception operations are performed by the wireless AP device 102, the cable 103 and the antenna group 104 during operation.

Referring to fig. 2 to 3, the present invention provides an antenna device with high stability, including a monitoring mechanism 2, where the monitoring mechanism 2 includes a first limiting plate 201, an outer wall of the first limiting plate 201 is connected with a first bolt assembly 203 by a thread, the first bolt assembly 203 is connected with a first clamping plate 202 by a thread on an outer wall far away from the position of the first limiting plate 201, the first limiting plate 201 and the first clamping plate 202 are on the same plane, a supporting rod 204 is installed on a side surface of the first clamping plate 202, a connecting plate 207 is installed on one end far away from the position of the first clamping plate 202 by the supporting rod 204, an extrusion plate 206 is welded on a top end of the connecting plate 207, a hollow column 205 is movably sleeved on a top end of the extrusion plate 206, a first pressure monitor 208 is installed on an inner wall on a top end of the hollow column 205, a first spring 209 is installed on an upper surface of the extrusion plate 206, the extrusion plate 206 is aligned with the first pressure monitor 208, and the extrusion plate 206 contacts the first pressure monitor 208 to generate first pressure data L and transmits the first pressure data L to the monitoring system 4 for monitoring operation.

In this embodiment of the present application, the specific workflow of the embodiment of this application is: when the antenna assembly 104 is installed, when the antenna assembly 104 moves to a designated position, the first clamping plate 202 and the first limiting plate 201 move to the designated position of the outer wall of the main body 101, the first limiting plate 201 and the first clamping plate 202 are fixed on the outer wall of the main body 101 through the first bolt assembly 203, the fixing of the antenna assembly 104 is completed at this time, when the fixing of the antenna assembly 104 is completed, the antenna assembly 104 drives the first pressure monitor 208 to contact the extrusion plate 206, the extrusion plate 206 generates first pressure data L and transmits the first pressure data L to the monitoring system 4, when the antenna assembly 104 is extruded by external force, the first pressure data L monitored by the monitoring system 4 generates corresponding changes, the monitoring system 4 can judge whether the antenna assembly 104 is damaged by the external force through the changes of the first pressure data L, when the monitoring system 4 monitors that the antenna assembly 104 is damaged by the external force, the monitoring system 4 controls the alarm device to input quantitative current, the alarm device gives abnormal sound, and the alarm device gives out warning and the operation for the person applying the external force to the antenna assembly 104.

Referring to fig. 2 and fig. 3 to fig. 8, the invention provides an antenna device with high stability, which comprises a limit mechanism 3, wherein one side of a support plate 301 is arranged on the side surface of an antenna group 104, a support frame 302 is arranged on the side surface of the antenna group 104 far away from the support plate 301, a second clamping plate 303 is welded on the other sides of the support plate 301 and the support frame 302, a second bolt assembly 307 is connected with the inner wall of the second clamping plate 303 in a threaded manner, a second limit plate 304 is connected with the side surface of the second bolt assembly 307 far away from the second clamping plate 303 in a threaded manner, a U-shaped plate 305 is sleeved on the side surface of the middle position of the second clamping plate 303, a second spring 310 is arranged on the side surface of the U-shaped plate 305, a micro-shaped rod 308 is arranged on the middle position of the side surface of the U-shaped plate 305, a second pressure monitor 309 is arranged on the inner wall of the second clamping plate 303 close to the micro-shaped rod 308, the micro-shaped rod 308 and the second pressure monitor 309 are on the same horizontal plane, and the micro-shaped rod 308 contacts with the second pressure monitor 309 to generate second pressure data M, and the second pressure data M are transmitted to a monitoring system 4 for monitoring operation;

the position, close to the second bolt assembly 307, of the side surface of the second clamping plate 303 is arranged on the hollow support column 306, an electric lifting column 312 is arranged on the inner wall of the hollow support column 306, a lifting rod 311 is movably sleeved on the inner wall of the electric lifting column 312, the lifting rod 311 is driven to horizontally move by electric lifting column 312 input current, a limit circular plate 313 is arranged on the lifting rod 311 at a position close to the second limit plate 304, a limit block 314 is movably sleeved on the inner wall of the limit circular plate 313, a third spring 315 is arranged on the side surface of the limit block 314, an electromagnet 316 is arranged on the inner wall of the middle position of the limit circular plate 313, a magnet block is arranged on the outer wall of the limit block 314 close to the electromagnet 316, the magnet block and the electromagnet 316 are on the same horizontal plane, and a monitoring system 4 controls the electromagnet 316 to input quantitative current, and controls the electromagnet 316 and the magnet block to generate corresponding magnetic attraction force and magnetic repulsion force, so that the limit block 314 is driven to move on the inner wall of the limit circular plate 313;

the second limiting plate 304 is provided with a clamping groove at a position close to the limiting circular plate 313, the electromagnet 316 inputs forward current, magnetic repulsion force is generated between the driving electromagnet 316 and the magnet block so as to drive the limiting block 314 to move to the outer wall of the limiting circular plate 313 and contact the clamping groove of the second limiting plate 304, the electromagnet 316 inputs reverse current, magnetic attraction force is generated between the driving electromagnet 316 and the magnet block so as to drive the limiting block 314 to move to the inner wall of the limiting circular plate 313, and the limiting circular plate 313 is conveniently moved out of the clamping groove of the second limiting plate 304.

In this embodiment of the present application, the specific workflow of the embodiment of this application is: when the antenna set 104 moves to the outer wall of the main body 101, two sets of second clamping plates 303 and second limiting plates 304 are manually fixed to the outer wall of the main body 101 through the second bolt assemblies 307, in the installation process, the main body 101 drives the U-shaped plates 305 and the micro supporting rods 308 to contact with the second pressure monitors 309, the second pressure monitors 309 generate second pressure data M and transmit the second pressure data M to the monitoring system 4, the monitoring system 4 judges whether the two sets of second clamping plates 303 and the second limiting plates 304 are completely limited to the outer wall of the main body 101 according to the change of the second pressure data M, after the antenna set 104 is installed, the monitoring system 4 monitors the connection states of the second clamping plates 303 and the second limiting plates 304 and the main body 101 in real time according to the change of the second pressure data M, when the monitoring system 4 monitors that the second clamping plate 303, the second limiting plate 304 and the main body 101 are not thoroughly limited, the monitoring system 4 controls the electromagnet 316 to input forward current, magnetic repulsion force is generated between the driving electromagnet 316 and the magnet block, so that the driving limiting block 314 is conveniently driven to move to the outer wall of the limiting circular plate 313 and contact with the clamping groove of the second limiting plate 304, meanwhile, the electric lifting column 312 inputs quantitative current to drive the lifting rod 311, the limiting circular plate 313, the limiting block 314 and the second limiting plate 304 to move to the position of the second clamping plate 303, so that the second clamping plate 303 and the second limiting plate 304 are conveniently and temporarily assisted to be fixed on the outer wall of the main body 101, and meanwhile, the monitoring system 4 controls the antenna mechanism 1 to remotely send early warning to staff to remind the staff to arrive at the site for checking.

Referring to fig. 9, the invention provides a high-stability antenna device, which comprises a monitoring system 4, wherein the monitoring system 4 comprises an acquisition unit 401, an analysis unit 402, a decision unit 403 and a control center 404, and the control center 404 also controls the acquisition unit 401, the analysis unit 402 and the decision unit 403;

the acquisition unit 401 acquires the real-time first pressure data L monitored by the first pressure monitor 208 and the real-time second pressure data M monitored by the second pressure monitor 309 in real time, and transmits the data to the analysis unit 402;

the analysis unit 402 further includes a threshold module and an instruction module, where the threshold module simulates simulated first pressure data Ln generated by the first pressure monitor 208 when the antenna set 104 is in a normal limit state, and integrates the simulated first pressure data Ln to form a first threshold range, the instruction module compares the real-time first pressure data L with the first threshold range, when the real-time first pressure data L is not in the first threshold range, the antenna set 104 is damaged by an external force, the instruction module sends a first instruction to the decision unit 403, and when the time that the real-time first pressure data L is not in the first threshold range exceeds 10min, the instruction module sends a second instruction to the decision unit 403;

when the threshold module simulates the second clamping plate 303 and the second limiting plate 304 to be normally limited on the outer wall of the main body 101, the second pressure monitor 309 generates simulated second pressure data Mn, and integrates the simulated second pressure data Mn to form a second threshold range, the comparison module compares the real-time second pressure data M with the second threshold range, when the second clamping plate 303 and the second limiting plate 304 are installed, the second clamping plate 303 and the second limiting plate 304 can be judged to be normally limited on the outer wall of the main body 101 when the real-time second pressure data M is in the second threshold range, the instruction module sends a third instruction to the decision unit 403, and when the real-time second pressure data M is smaller than the second threshold range, the comparison module judges that the second clamping plate 303, the second limiting plate 304 and the main body 101 are limited and are not thoroughly limited, and the comparison module sends a fourth instruction to the decision unit 403;

the decision unit 403 receives the first instruction and generates a first decision, the first decision control alarm device inputs the quantitative current to expel the destructor, the decision unit 403 receives the second instruction and generates a second decision, the second decision control antenna mechanism 1 remotely sends an early warning to the staff to remind the staff to check on site, the decision unit 403 receives the third instruction and generates a third decision, the third decision control alarm device inputs the quantitative current to remind the staff that the second clamping plate 303 and the second limiting plate 304 are completely limited on the outer wall of the main body 101, the decision unit 403 receives the fourth instruction and generates a fourth decision, the fourth decision control limiting mechanism 3 inputs the quantitative current to temporarily fix the second clamping plate 303 and the second limiting plate 304, and meanwhile the antenna mechanism 1 is controlled to remotely send an early warning to the staff to remind the staff to check on site.

In the embodiment of the application, the first decision-making control alarm device inputs quantitative current, the alarm device sends out reminding sound to remind and expel on-site staff, and the destructor is warned to stop destructive behavior; the second decision-making control antenna mechanism remotely sends early warning information to a communication device of a worker, the communication device of the worker is a mobile phone and a computer, the early warning information is remotely and wirelessly transmitted through the antenna mechanism, and the worker timely arrives at the site for checking according to the prompt of the early warning information.

The specific working flow of the invention is as follows:

step one, moving a base 106 to an installation position, fixing a main body 101 on the surface through a bolt device, sequentially fixing a wireless AP device 102 and an antenna group 104 on the surface of the main body 101, simultaneously connecting a cable 103 to signal interfaces of the antenna group 104 and the wireless AP device 102, and transmitting and receiving information through the wireless AP device 102, the cable 103 and the antenna group 104 during operation;

when the antenna group 104 is installed, the first clamping plate 202 and the first limiting plate 201 are moved to the appointed position of the outer wall of the main body 101, the first limiting plate 201 and the first clamping plate 202 are fixed on the outer wall of the main body 101 through the first bolt assembly 203, the fixing of the antenna group 104 is completed at the moment, when the fixing of the antenna group 104 is completed, the antenna group 104 drives the first pressure monitor 208 to contact the extrusion plate 206, the extrusion plate 206 generates first pressure data L and transmits the first pressure data L to the monitoring system 4, when the antenna group 104 is extruded by external force, the first pressure data L monitored by the monitoring system 4 generates corresponding changes, the monitoring system 4 can judge whether the antenna group 104 is damaged by the external force through the changes of the first pressure data L, when the monitoring system 4 monitors that the antenna group 104 is damaged by the external force, the monitoring system 4 controls the alarm device to input quantitative current, and the alarm device gives abnormal sound to warn and expel the person applying the external force to the antenna group 104;

step three, when the antenna set 104 moves to the outer wall of the main body 101, two sets of second clamping plates 303 and second limiting plates 304 are manually fixed to the outer wall of the main body 101 through the second bolt assemblies 307, in the installation process, the main body 101 drives the U-shaped plates 305 and the micro supporting rods 308 to contact the second pressure monitors 309, the second pressure monitors 309 generate second pressure data M and transmit the second pressure data M to the monitoring system 4, the monitoring system 4 judges whether the two sets of second clamping plates 303 and the second limiting plates 304 are completely limited to the outer wall of the main body 101 according to the change of the second pressure data M, after the antenna set 104 is installed, the monitoring system 4 monitors the connection states of the second clamping plates 303 and the second limiting plates 304 and the main body 101 in real time according to the change of the second pressure data M, when the monitoring system 4 monitors that the second clamping plate 303, the second limiting plate 304 and the main body 101 are not thoroughly limited, the monitoring system 4 controls the electromagnet 316 to input forward current, magnetic repulsion force is generated between the driving electromagnet 316 and the magnet block, so that the driving limiting block 314 is conveniently driven to move to the outer wall of the limiting circular plate 313 and contact with the clamping groove of the second limiting plate 304, meanwhile, the electric lifting column 312 inputs quantitative current to drive the lifting rod 311, the limiting circular plate 313, the limiting block 314 and the second limiting plate 304 to move to the position of the second clamping plate 303, so that the second clamping plate 303 and the second limiting plate 304 are conveniently and temporarily assisted to be fixed on the outer wall of the main body 101, and meanwhile, the monitoring system 4 controls the antenna mechanism 1 to remotely send early warning to staff to remind the staff to arrive at the site for checking.

In the drawings of the disclosed embodiments, only the structures related to the embodiments of the present disclosure are referred to, and other structures can refer to the common design, so that the same embodiment and different embodiments of the present disclosure can be combined with each other under the condition of no conflict;

the foregoing description of the preferred embodiments of the invention is not intended to limit the invention to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and principles of the invention are intended to be included within the scope of the invention.

Claims (7)

1. The utility model provides an antenna device that stability is high, includes antenna mechanism (1), antenna mechanism (1) includes main part (101), base (106) are installed to the bottom of main part (101), and surface mounting has steel wire (105) on base (106), and steel wire (105) are installed in the outer wall of main part (101) in the one end of keeping away from base (106) position, wireless AP equipment (102) are installed in the outer wall that is close to steel wire (105) position in main part (101), and cable (103) are installed in the bottom of wireless AP equipment (102), its characterized in that: the antenna is characterized in that a monitoring mechanism (2) is arranged on the outer wall of the top end of the antenna mechanism (1), a limiting mechanism (3) is arranged on the outer wall of the antenna mechanism (1) at a position close to the monitoring mechanism (2), a monitoring system (4) is arranged on the inner wall of the antenna mechanism (1), and the monitoring system (4) monitors and controls the antenna mechanism (1), the monitoring mechanism (2) and the limiting mechanism (3);

an antenna group (104) is arranged at the top end of the cable (103), and an alarm device is arranged on the inner wall of the top end of the antenna group (104);

the limiting mechanism (3) comprises a supporting plate (301), one side of the supporting plate (301) is arranged on the side face of the antenna group (104), a supporting frame (302) is arranged on the side face, far away from the position of the supporting plate (301), of the antenna group (104), second clamping plates (303) are welded on the other sides of the supporting plate (301) and the supporting frame (302), second bolt assemblies (307) are connected with inner walls of the second clamping plates (303) in a threaded mode, second limiting plates (304) are connected with the side face, far away from the position of the second clamping plates (303), of the second clamping plates (307) in a threaded mode, U-shaped plates (305) are sleeved on the side face, second springs (310) are arranged on the side face of the U-shaped plates (305), miniature supporting rods (308) are arranged on the middle position of the side face of the U-shaped plates (305), second pressure monitors (309) are arranged on the inner walls, close to the miniature supporting rods (308), the miniature supporting rods (308) and the second pressure monitors (309) are arranged on the same horizontal plane, and the miniature supporting rods (308) are contacted with the second pressure monitors (309) to generate second pressure data M, and are conveyed to the monitoring system (4) to monitor operation.

2. A highly stable antenna device according to claim 1, characterized in that: monitoring facilities (2) are including first limiting plate (201), the outer wall threaded connection of first limiting plate (201) has first bolt subassembly (203), and first bolt subassembly (203) have first cardboard (202) in the outer wall threaded connection who keeps away from first limiting plate (201) position, and first limiting plate (201) are on the coplanar with first cardboard (202), and bracing piece (204) are installed to the side-mounting of first cardboard (202), connecting plate (207) are installed in the one end that keeps away from first cardboard (202) position to bracing piece (204), and the top welding of connecting plate (207) has squeeze plate (206), hollow post (205) have been cup jointed in the top activity of squeeze plate (206), first pressure monitor (208) are installed to the inner wall at hollow post (205) top, and first spring (209) are installed to the upper surface of squeeze plate (206), squeeze plate (206) and first pressure monitor (208) are the upper and lower alignment relation, and squeeze plate (206) contact first pressure monitor (208) produce first pressure data L and carry to monitor (4) monitoring system monitoring.

3. A highly stable antenna device according to claim 1, characterized in that: the position that second cardboard (303) side is close to second bolt assembly (307) is installed in hollow pillar (306), electric lifting column (312) is installed to the inner wall of hollow pillar (306), lifting rod (311) has been cup jointed in the inner wall activity of electric lifting column (312), electric lifting column (312) input current drive lifting rod (311) carries out horizontal migration in hollow pillar (306) inside, spacing plectane (313) is installed in the position that is close to second limiting plate (304) in lifting rod (311), stopper (314) have been cup jointed in the inner wall activity of spacing plectane (313), third spring (315) are installed to the side of stopper (314), electromagnet (316) are installed to the inner wall of spacing plectane (313) intermediate position, magnet piece is installed to the outer wall that is close to electromagnet (316) position of stopper (314), magnet piece and electromagnet (316) are on same horizontal plane, monitoring system (4) control electromagnet (316) input ration electric current, produce corresponding magnetic attraction and magnetic repulsion between control electromagnet (316) and the magnet piece, thereby drive stopper (314) and carry out removal at the inner wall of spacing (313).

4. A highly stable antenna device according to claim 3, characterized in that: the clamping groove is formed in the position, close to the limiting circular plate (313), of the second limiting plate (304), forward current is input to the electromagnet (316), magnetic repulsion force is generated between the electromagnet (316) and the magnet block, so that the limiting block (314) is driven to move to the outer wall of the limiting circular plate (313) and contact with the clamping groove of the second limiting plate (304), reverse current is input to the electromagnet (316), magnetic attraction force is generated between the electromagnet (316) and the magnet block, and the limiting block (314) is driven to move to the inner wall of the limiting circular plate (313), so that the limiting circular plate (313) is moved out of the clamping groove of the second limiting plate (304).

5. A highly stable antenna device according to claim 2, characterized in that: the monitoring system (4) comprises an acquisition unit (401), an analysis unit (402), a decision unit (403) and a control center (404), wherein the control center (404) also controls the acquisition unit (401), the analysis unit (402) and the decision unit (403);

the acquisition unit (401) acquires real-time first pressure data L monitored by the first pressure monitor (208) and real-time second pressure data M monitored by the second pressure monitor (309) in real time, and transmits the real-time first pressure data L and the real-time second pressure data M to the analysis unit (402);

the analysis unit (402) further comprises a threshold module and an instruction module, the threshold module simulates simulated first pressure data Ln generated by the first pressure monitor (208) when the antenna group (104) is in a normal limit state, and integrates the simulated first pressure data Ln to form a first threshold range, the instruction module compares the real-time first pressure data L with the first threshold range, when the real-time first pressure data L is not in the first threshold range, the antenna group (104) can be judged to be damaged by external force, the instruction module sends a first instruction to the decision unit (403), when the time of the real-time first pressure data L is not in the first threshold range exceeds 10min, the instruction module sends a second instruction to the decision unit (403);

when the second clamping plate (303) and the second limiting plate (304) are normally limited on the outer wall of the main body (101), the second pressure monitor (309) generates simulated second pressure data Mn, the simulated second pressure data Mn is integrated to form a second threshold range, the comparison module compares the real-time second pressure data M with the second threshold range, when the second clamping plate (303) and the second limiting plate (304) are installed, the phenomenon that the second clamping plate (303) and the second limiting plate (304) are limited on the outer wall of the main body (101) can be judged when the real-time second pressure data M is in the second threshold range, the instruction module sends a third instruction to the decision unit (403), and when the real-time second pressure data M is smaller than the second threshold range, the comparison module judges that the second clamping plate (303), the second limiting plate (304) and the main body (101) are limited incompletely, and the comparison module sends a fourth instruction to the decision unit (403).

6. The high stability antenna assembly of claim 5, wherein: the decision unit (403) receives a first instruction and generates a first decision, the first decision controls the alarm device to input quantitative current to expel a destructor, the decision unit (403) receives a second instruction and generates a second decision, and the second decision controls the antenna mechanism (1) to remotely send out early warning to staff to remind the staff to arrive at the site for checking.

7. The high stability antenna assembly of claim 5, wherein: the decision unit (403) receives a third instruction and generates a third decision, the third decision controls the alarm device to input quantitative current, reminds a worker that the second clamping plate (303) and the second limiting plate (304) are completely limited on the outer wall of the main body (101), the decision unit (403) receives a fourth instruction and generates a fourth decision, the fourth decision controls the limiting mechanism (3) to input quantitative current, temporarily fixes the second clamping plate (303) and the second limiting plate (304), and simultaneously controls the antenna mechanism (1) to remotely send early warning to the worker, reminds the worker to arrive at the site for checking.