CN118158728A - Wireless communication base station monitoring device based on weak signal processing - Google Patents

Abstract

The invention relates to the technical field of wireless communication base station monitoring, in particular to a wireless communication base station monitoring device based on weak signal processing, which comprises a monitoring main body, wherein the upper end of the monitoring main body is provided with a device groove, the middle part of the lower end of the monitoring main body is fixedly connected with a driver, the output end of the driver penetrates through the monitoring main body and is fixedly connected with a rotating structure, the middle part of the upper end of the rotating structure is movably connected with a dismounting structure, the upper end of the dismounting structure is fixedly connected with a signal detector, the right part of the outer surface of the monitoring main body is fixedly connected with a supporting plate, one end of the supporting plate, which is close to the monitoring main body, is fixedly connected with a brushing plate, and the right part of the upper end of the baffle is detachably connected with an electric storage structure through a mounting groove. The wireless communication base station monitoring device based on weak signal processing, disclosed by the invention, has the advantages that the stability and flexibility in the process of adjusting the monitoring angle of the monitoring device are enhanced, the device is convenient to clean, the safety and reliability are realized, birds are prevented from approaching or standing, and the practicability is high.

Description

Wireless communication base station monitoring device based on weak signal processing

Technical Field

The invention relates to the technical field of wireless communication base station monitoring, in particular to a wireless communication base station monitoring device based on weak signal processing.

Background

The base station is a basic unit forming a cellular cell in mobile communication, and is used for completing communication and management functions between a mobile communication network and mobile communication users, the broad sense base station is a short term of a base station subsystem, taking a GSM network as an example, and comprises base station transceivers and base station controllers, one base station controller can control more than ten base station transceivers to tens of base station transceivers, and a narrow sense base station, namely a public mobile communication base station, is a form of a radio station, namely a radio transceiver station for carrying out information transmission with a mobile phone terminal through a mobile communication switching center in a certain radio coverage area, and a wireless communication base station is generally used for adjusting after monitoring signal values during weak signal processing, so that a monitoring device is needed.

In order to better receive signals, a wireless communication base station is usually installed in high altitude, a camera is usually adopted to monitor the periphery of the base station, the camera can rotate 360 degrees without dead angles, so that the monitoring direction is adjusted, the device cannot be lubricated in time due to high altitude installation, the device is worn after long-time use, the flexibility and the stability of the monitoring device in the rotation process are weakened, and when the angle of the camera is adjusted, if the camera is shielded by the foreign matters, the camera is not convenient to clean in time, the difficulty of high-altitude operation is high, and the monitoring progress is influenced;

When the wireless communication base station monitors weak signals, the signal detector is usually used for monitoring base station signals in real time, and has a rain shielding function, but the signal detector and the wireless communication base station are usually fixed by bolts, so that the signal detector is inconvenient to detach quickly, the stability of the signal detector after being installed is difficult to ensure, the loosening of screws is easy to occur, and the protection effect of the signal detector is weakened;

the monitoring device used by the wireless communication base station is usually installed in the high altitude along with the wireless communication base station, when the monitoring device fails or is in short circuit and suddenly powered off, maintenance personnel on the ground cannot check the condition of the base station in time, and the device is located in the high altitude and is easy to cause lightning stroke or bird residence, so that the practicability of the use of the monitoring device is affected;

therefore, we propose a novel wireless communication base station monitoring device based on weak signal processing.

Disclosure of Invention

The invention aims at: in order to solve the technical problems in the prior art, a wireless communication base station monitoring device based on weak signal processing is provided.

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

The utility model provides a wireless communication basic station monitoring devices based on weak signal processing, includes the monitoring main part, the device groove is opened to the monitoring main part upper end, the lower extreme middle part fixedly connected with driver of monitoring main part, the output of driver runs through the monitoring main part and fixedly connected with revolution mechanic, revolution mechanic's upper end middle part swing joint has the dismantlement structure, the upper end fixedly connected with signal detector of dismantlement structure, the surface right part fixedly connected with backup pad of monitoring main part, the backup pad is close to the one end fixedly connected with brush board of monitoring main part, the upper end fixedly connected with baffle of backup pad, infrared inductor is installed to the upper end of baffle, the upper end right part of baffle is opened there is the mounting groove, the upper end right part of baffle can be dismantled through the mounting groove and be connected with electric power storage structure, the lower extreme of monitoring main part can be dismantled through the screw and be connected with four evenly distributed's installation leg.

The mounting legs are provided with screws, so that the monitoring main body can be mounted on the wireless communication base station through the screws.

Preferably, the upper end of monitoring main part is opened there is spacing groove No. one, no. two spacing grooves and spread groove, no. one spacing groove and No. two spacing grooves all are located the spread groove, and No. one spacing groove is located No. two spacing grooves, the lower cell wall fixedly connected with a plurality of evenly distributed's infrared ray receiver tube of spread groove.

When monitoring the main part carries out the camera control to wireless communication basic station, generate infrared wire net between infrared ray receiving tube and the infrared emission pipe for monitoring devices is when the high altitude is used, and infrared wire net cuts off when having birds to camp or stay, thereby driver control revolution mechanic looks over, drives or clear up birds or foreign matter after looking over, the operation of being convenient for.

Preferably, the rotating-structure comprises a connecting rod, the upper end fixedly connected with device pipe of connecting rod, the surface left part fixedly connected with dead lever of device pipe, the one end fixedly connected with stopper and No. two stoppers of device pipe are kept away from to the dead lever, no. two stoppers are close to a set of pulley of one end lower part swing joint of device pipe, the camera is all installed through electrically conductive sliding ring to the upper end of stopper and No. two stoppers, the lower extreme of connecting rod and the output fixed connection of driver, two the camera is each other for the opposite direction installation.

The solar panel converts solar energy into electric energy to open the driver, the driver controls the connecting rod to rotate, the device pipe drives the first limiting block and the second limiting block to be located in the first limiting groove and the second limiting groove respectively through the fixing rod, 360-degree adjustment of the monitoring angle of the camera is achieved, and the conductive slip ring enables the camera body to be electrified and prevents the wire body from winding when rotating.

Preferably, the fan is installed to the one end that a stopper is close to the device pipe, the front end upper portion fixedly connected with L template of a stopper, the L template is close to the one end of device pipe and is opened there is the removal groove, the left cell wall fixedly connected with of removal groove is two a spring, two the common fixedly connected with movable plate of right-hand member of a spring, the right-hand member rotation of movable plate is connected with the cleaning brush, the upper end of device pipe is opened there is two draw-in grooves, the inside of device pipe is opened there is a circular slot.

The first pulley and the second pulley are respectively connected with the monitoring main body in a rotating way through the first limiting groove and the second limiting groove, so that stability and flexibility of the monitoring device in the process of adjusting the monitoring angle are enhanced, and abrasion of the device is reduced.

Preferably, the left end lower part of a stopper rotates and is connected with a set of No. two pulleys, open flutedly No. two stopper's left end, the right cell wall fixedly connected with electric telescopic handle of recess, electric telescopic handle's output fixedly connected with pinion rack, a stopper and No. two stoppers are located a spacing groove and No. two spacing inslot respectively, a pulley and No. two pulleys rotate with the monitoring main part through a spacing groove and No. two spacing grooves respectively and are connected.

When the camera adjustment shooting angle, the camera on the stopper carries out the surface shooting to signal detector for ground personnel can in time observe signal detector's abnormal conditions, the fan dispels the heat to signal detector, and the cleaning brush can clear up signal detector surface through the flexible of a spring, the signal detector of being convenient for removes dust, when the camera is sheltered from by the foreign matter, in time clear up the camera through the brush board when rotation angle, when infrared wire net cuts off, the foreign matter appears on the explanation monitoring devices, promote the foreign matter through electric telescopic handle control pinion rack is flexible to drop, the foreign matter clearance on the device of being convenient for, and safe and reliable, the operation of being convenient for.

Preferably, the dismounting structure comprises a round pipe and a supporting pipe, the outer surface of the round pipe is rotationally connected with a plurality of evenly distributed No. three pulleys, two No. two clamping grooves are formed in the upper end of the round pipe, two No. two round grooves are formed in the inner part of the round pipe, two clamping plates are rotationally connected to the left part of the outer surface of the supporting pipe and the right part of the outer surface of the supporting pipe through bearings, no. three springs are fixedly connected to the opposite surfaces of the clamping plates, no. two springs are fixedly connected to the lower end of the supporting pipe, a plurality of evenly distributed No. two springs are fixedly connected to the lower end of the supporting pipe, a brushing pipe is fixedly connected to the upper end of the signal detector, and the position of the brushing pipe corresponds to the position of a camera located on the right part.

Install the cardboard through draw-in groove No. one and No. two draw-in grooves in the circular tube, install rotatory stay tube behind the department of bottommost for the cardboard is located No. two circular grooves, reverse rotation during the dismantlement can, make signal detector be convenient for install fast and dismantle.

Preferably, the circular tube is in sliding connection with the device tube through a circular groove, a plurality of pulleys are in sliding connection with the device tube through a circular groove, a plurality of springs are in contact with the circular tube at the lower ends of the springs, the positions of the clamping plates are corresponding to the positions of the circular grooves, and the upper ends of the supporting tubes are fixedly connected with the signal detector.

Cardboard is through the flexible last cell wall and the lower cell wall contact of No. three circular grooves of spring and No. two circular grooves, combines the elasticity between No. two springs and the circular pipe, guarantees the steadiness after the signal detector installation, and when the device pipe is rotatory, no. three pulleys on the circular pipe rotate with the device pipe through a circular groove and be connected for the signal detector can realize the shock attenuation through No. two springs by a small margin when stable installation, makes the stability that signal detector used stronger.

Preferably, the right part of the outer surface of the baffle is provided with two deflection preventing grooves and sliding grooves, the two deflection preventing grooves are respectively communicated with the inside of the two sliding grooves, the two deflection preventing grooves and the sliding grooves are all arranged to be obliquely installed, the front part of the outer surface of the baffle and the rear part of the outer surface of the baffle are fixedly connected with a group of supporting rods, the opposite sides of the two groups of supporting rods are fixedly connected with reflecting lenses, the two groups of supporting rods are provided with lightning rods, the lower end of the baffle is fixedly connected with a plurality of uniformly distributed infrared emission pipes, and the positions of the infrared emission pipes are respectively corresponding to the positions of a plurality of infrared receiving pipes.

Through lightning rod and reflector lens for be located the monitoring devices of high altitude and avoid receiving the thunderbolt, reflector lens slope installation makes sunlight reflection to solar energy electric power storage board on, when increasing sunlight heat absorption intensity, when sunlight reflection, can dispel the light to birds around, prevent that birds from being close to or standing on.

Preferably, the electric power storage structure comprises a mounting rack, the lower extreme fixedly connected with silica gel pad of mounting rack, the front end middle part of mounting rack is opened there is the lift groove of front and back break-through, the equal fixedly connected with of internal surface upper portion and internal surface lower part of mounting rack is a set of No. four springs, two sets of the relative face of No. four springs is fixedly connected with lifter plate jointly, the front end and the rear end of lifter plate are all rotated and are connected with the ball, the upper end fixedly connected with support frame of mounting rack, the equal fixedly connected with spring column of left end and right-hand member of support frame, the front end middle part of support frame runs through and swing joint has the movable tube, the front portion of the surface of movable tube and the common fixedly connected with solar energy electric power storage board in surface rear portion.

Solar energy is absorbed through the solar energy power storage plate and converted into electric energy to carry out power supply operation, so that the monitoring device can be normally used when faults occur or short circuits are suddenly powered off, and maintenance personnel on the ground can check the condition of the base station through the camera in time.

Preferably, the mounting bracket is detachably connected with the baffle through the mounting groove, two the balls are respectively connected with the baffle in a sliding way through two sliding grooves, two groups of spring columns are obliquely arranged, and one ends, far away from the support frame, of the two groups of spring columns are fixedly connected with the solar energy power storage plate.

The ball is located the spout through the spring of connecting on the lifter plate and inclines to rotate for solar power generation equipment can realize the altitude mixture control when being convenient for install and dismantle, makes solar power generation equipment no longer fixed through the spring post, when receiving the rainwater to hit, can receive gravity slope, makes the rainwater slide fast, resumes steadily fast after breaking away from.

In summary, due to the adoption of the technical scheme, the beneficial effects of the invention are as follows:

1. According to the invention, when the wireless communication base station for weak signal processing monitors, solar energy is converted into electric energy through the solar panel to start the driver, and the driver controls the connecting rod to rotate, so that the device pipe drives the first limiting block and the second limiting block to be respectively positioned in the first limiting groove and the second limiting groove to rotate through the fixing rod, 360-degree adjustment of a monitoring angle of the camera is realized, and the first pulley and the second pulley are respectively connected with the monitoring main body in a rotating way through the first limiting groove and the second limiting groove, so that stability and flexibility in the process of adjusting the monitoring angle of the monitoring device are enhanced, and abrasion of the device is reduced.

2. According to the invention, when the camera adjusts the shooting angle, the camera on the first limiting block shoots the surface of the signal detector, so that ground personnel can observe the abnormal condition of the signal detector in time, the fan dissipates heat of the signal detector, the cleaning brush can clean the outer surface of the signal detector through the extension and contraction of the first spring, the signal detector is convenient to remove dust, when the camera is shielded by foreign matters, the camera is cleaned in time through the brush plate when the camera is rotated at an angle, when the infrared wire net is isolated, the foreign matters appear on the monitoring device, the toothed plate is controlled by the electric telescopic rod to extend and retract so as to push the foreign matters to drop, the foreign matters on the device are convenient to clean, and the device is safe, reliable and convenient to operate.

3. According to the invention, the dismounting structure is arranged, when the signal detector is mounted on the monitoring device, the clamping plate is firstly mounted in the circular tube through the first clamping groove and the second clamping groove, and then the supporting tube is rotated after being mounted at the bottommost position, so that the clamping plate is positioned in the second circular groove, and the clamping plate can rotate reversely during dismounting, so that the signal detector is convenient to mount and dismount quickly, the clamping plate contacts with the upper groove wall and the lower groove wall of the second circular groove through the expansion and contraction of the third spring, the elasticity between the second spring and the circular tube is combined, the stability of the signal detector after being mounted is ensured, and when the device tube rotates, the third pulley on the circular tube is rotationally connected with the device tube through the first circular groove, so that the signal detector can realize shock absorption in a small amplitude through the second spring during stable mounting, and the protection effect of the signal detector is enhanced.

4. According to the invention, through arranging the electric storage structure, sunlight is absorbed through the solar energy electric storage plate and converted into electric energy for power supply operation, so that the monitoring device can be normally used when faults occur or short circuits are suddenly cut off, maintenance personnel on the ground can check the condition of a base station through a camera in time, the mounting frame is detachably connected to the baffle through the mounting groove, the ball is positioned in the chute through the fourth spring connected to the lifting plate and obliquely rotates, the solar power generation equipment can be conveniently mounted and dismounted and can be adjusted in height, the solar power generation equipment is not fixed through the spring column, when the monitoring device is hit by rainwater, the monitoring device can be inclined by gravity, the rainwater can quickly slide down, and the solar power generation equipment can be quickly restored to be stable after the monitoring device is separated.

5. According to the invention, the lightning rod and the reflecting lens are arranged, so that the monitoring device positioned at high altitude is prevented from being struck by lightning, the reflecting lens is obliquely arranged, so that sunlight is reflected to the solar energy power storage plate, the sunlight heat absorption intensity is increased, and meanwhile, when the sunlight is reflected, the surrounding birds can be driven, the birds are prevented from approaching or standing, and the practicability of the monitoring device is improved.

Drawings

Fig. 1 is a schematic diagram of the overall structure of a wireless communication base station monitoring device based on weak signal processing according to the present invention;

fig. 2 is a schematic cross-sectional structure of a monitoring body of a wireless communication base station monitoring device based on weak signal processing according to the present invention;

fig. 3 is a schematic structural diagram of a rotation structure of a wireless communication base station monitoring device based on weak signal processing according to the present invention;

fig. 4 is a schematic left-view structure diagram of a second limiting block of the wireless communication base station monitoring device based on weak signal processing;

fig. 5 is a schematic structural diagram of a disassembly structure of a wireless communication base station monitoring device based on weak signal processing according to the present invention;

FIG. 6 is an enlarged schematic diagram of a card board of a wireless communication base station monitoring device based on weak signal processing;

Fig. 7 is a schematic structural diagram of a baffle of a wireless communication base station monitoring device based on weak signal processing according to the present invention;

Fig. 8 is a schematic structural diagram of an electricity storage structure of a wireless communication base station monitoring device based on weak signal processing according to the present invention.

Legend description:

1. Monitoring a subject; 2. a device slot; 3. a driver; 4. a rotating structure; 5. disassembling the structure; 6. a signal detector; 7. a support plate; 8. brushing a plate; 9. a baffle; 10. an infrared sensor; 11. a mounting groove; 12. an electricity storage structure; 13. a mounting leg; 21. a first limit groove; 22. a second limit groove; 23. a connecting groove; 24. an infrared ray receiving tube; 41. a connecting rod; 42. an apparatus tube; 43. a fixed rod; 44. a first limiting block; 45. a second limiting block; 46. a first pulley; 47. a camera; 48. a blower; 49. an L-shaped plate; 411. a moving groove; 412. a first spring; 413. a moving plate; 414. a cleaning brush; 415. a first clamping groove; 416. a first circular groove; 417. a second pulley; 418. a groove; 419. an electric telescopic rod; 4101. a toothed plate; 51. a circular tube; 52. a third pulley; 53. a second clamping groove; 54. a second spring; 55. a support tube; 56. a clamping plate; 57. a third spring; 58. a second circular groove; 61. brushing a tube; 91. an anti-deviation groove; 92. a chute; 93. a support rod; 94. a reflective lens; 95. a lightning rod; 96. an infrared emission tube; 121. a mounting frame; 122. a silica gel pad; 123. a lifting groove; 124. a spring IV; 125. a lifting plate; 126. a ball; 127. a support frame; 128. a spring post; 129. a movable tube; 1201. solar energy storage plate.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-8, the present invention provides a technical solution: the utility model provides a wireless communication base station monitoring devices based on weak signal processing, including monitor main part 1, monitor main part 1 upper end is opened there is device groove 2, monitor main part 1's lower extreme middle part fixedly connected with driver 3, the output of driver 3 runs through monitor main part 1 and fixedly connected with revolution mechanic 4, the upper end middle part swing joint of revolution mechanic 4 has dismantlement structure 5, dismantle the upper end fixedly connected with signal detector 6 of structure 5, monitor main part 1's surface right part fixedly connected with backup pad 7, the one end fixedly connected with brush board 8 that backup pad 7 is close to monitor main part 1, the upper end fixedly connected with baffle 9 of backup pad 7, infrared inductor 10 is installed to the upper end of baffle 9, install mounting groove 11 is opened on the upper end right part of baffle 9, the upper end right part of baffle 9 can be dismantled through mounting groove 11 and be connected with electric power storage structure 12, monitor main part 1's lower extreme can be dismantled through the screw and be connected with four evenly distributed's mounting leg 13. When monitoring main part 1 uses, realize nimble adjustment camera 47 control angle through driver 3 control revolution mechanic 4, make monitoring device adjustment control angle in-process stability and flexibility reinforcing, reduce the device wearing and tearing, dismantle the installation and dismantle of structure 5 be convenient for signal detector 6, make signal detector 6 can realize the shock attenuation through No. two springs 54 by a small margin when stable installation, make monitoring device generate infrared wire net through infrared inductor 10, the foreign matter response of device surface of being convenient for, the electric power storage structure 12 makes monitoring main part 1 in time electric power storage, avoid the device short circuit to appear the outage condition, baffle 9 makes signal detector 6 possess the weather and guard action, and make the condition that is located overhead supervisory equipment lightning protection and birds are stationed, the practicality is strong.

The upper end of monitoring main part 1 is opened and is had a spacing groove 21, no. two spacing grooves 22 and spread groove 23, and a spacing groove 21 and No. two spacing grooves 22 all are located spread groove 23, and a spacing groove 21 is located No. two spacing grooves 22, and the lower cell wall fixedly connected with a plurality of evenly distributed's of spread groove 23 infrared ray receiver tube 24 makes stability and flexibility increase when the adjustment monitoring angle through a spacing groove 21 and No. two spacing grooves 22.

The rotating structure 4 comprises a connecting rod 41, the upper end of the connecting rod 41 is fixedly connected with a device pipe 42, the left part of the outer surface of the device pipe 42 is fixedly connected with a fixing rod 43, one end of the fixing rod 43, which is far away from the device pipe 42, is fixedly connected with a first limiting block 44 and a second limiting block 45, one end lower part of the second limiting block 45, which is close to the device pipe 42, is movably connected with a group of first pulleys 46, the upper ends of the first limiting block 44 and the second limiting block 45 are respectively provided with a camera 47 through conductive slip rings, the lower end of the connecting rod 41 is fixedly connected with the output end of a driver 3, the two cameras 47 are installed in opposite directions, the driver 3 controls the connecting rod 41 to rotate, the device pipe 42 is respectively located in the first limiting groove 21 and the second limiting groove 22 through the fixing rod 43, 360-degree adjustment of the monitoring angle of the camera 47 is realized, the first pulleys 46 and the second pulleys 417 are respectively connected with the monitoring body 1 through the first limiting groove 21 and the second limiting groove 22 in a rotating way, stability and flexibility in the monitoring angle adjustment process of the monitoring device are improved, and abrasion of the device is reduced.

The fan 48 is installed to the one end that is close to device pipe 42 of stopper 44, the front end upper portion fixedly connected with L template 49 of stopper 44, the one end that L template 49 is close to device pipe 42 is opened there is the removal groove 411, the left cell wall fixedly connected with two spring 412 of removal groove 411, the common fixedly connected with movable plate 413 of right-hand member of two spring 412, the right-hand member rotation of movable plate 413 is connected with cleaning brush 414, the upper end of device pipe 42 is opened there are two draw-in grooves 415, the inside of device pipe 42 is opened there is circular groove 416, when camera 47 adjustment shooting angle, camera 47 on the stopper 44 carries out surface shooting to signal detector 6, make ground personnel in time observe signal detector 6's abnormal conditions, the fan 48 dispels the heat to signal detector 6.

The lower part of the left end of the first limiting block 44 is rotationally connected with a group of second pulleys 417, the left end of the second limiting block 45 is provided with a groove 418, the right groove wall of the groove 418 is fixedly connected with an electric telescopic rod 419, the output end of the electric telescopic rod 419 is fixedly connected with a toothed plate 4101, the first limiting block 44 and the second limiting block 45 are respectively positioned in the first limiting groove 21 and the second limiting groove 22, the first pulleys 46 and the second pulleys 417 are respectively rotationally connected with the monitoring main body 1 through the first limiting groove 21 and the second limiting groove 22, the cleaning brush 414 can clean the outer surface of the signal detector 6 through the expansion and contraction of the first springs 412, the signal detector 6 is convenient to remove dust, when the camera 47 is shielded by foreign matters, the camera 47 is cleaned in time through the brush plate 8 when the rotating angle is shielded by the foreign matters, infrared wire nets are generated between the infrared receiving tube 24 and the infrared transmitting tube 96, the foreign matters appear on the monitoring device are illustrated, the foreign matters on the monitoring device are controlled by the electric telescopic rod 419, the foreign matters on the device are conveniently and the foreign matters on the device are conveniently and safely and reliably pushed.

The dismounting structure 5 comprises a round pipe 51 and a supporting pipe 55, wherein a plurality of uniformly distributed third pulleys 52 are rotationally connected to the outer surface of the round pipe 51, two second clamping grooves 53 are formed in the upper end of the round pipe 51, second round grooves 58 are formed in the round pipe 51, two clamping plates 56 are rotationally connected to the left part of the outer surface and the right part of the outer surface of the supporting pipe 55 through bearings, third springs 57 are fixedly connected to the opposite surfaces of each two clamping plates 56, a plurality of uniformly distributed second springs 54 are fixedly connected to the lower end of the supporting pipe 55, brush pipes 61 are fixedly connected to the upper end of the signal detector 6, the positions of the brush pipes 61 correspond to the positions of cameras 47 located on the right part, the clamping plates 56 are installed in the round pipe 51 through first clamping grooves 415 and second clamping grooves 53, the clamping plates 55 are rotated after being installed to the bottommost positions, the clamping plates 56 are located in the second round grooves 58, and the signal detector 6 can be installed and dismounted in a reverse rotation mode.

Circular tube 51 passes through circular slot 416 and device pipe 42 sliding connection, a plurality of No. three pulleys 52 all pass through circular slot 416 and device pipe 42 sliding connection, the lower extreme of a plurality of No. two springs 54 all contacts with circular tube 51, the position of four cardboard 56 all corresponds with the position of No. two circular slots 58, the upper end and the signal detector 6 fixed connection of stay tube 55, cardboard 56 passes through the flexible of No. three springs 57 and the upper groove wall and the lower cell wall contact of No. two circular slots 58, combine the elasticity between No. two springs 54 and the circular tube 51, guarantee the steadiness after the signal detector 6 installs, and when the device pipe 42 rotates, no. three pulleys 52 on the circular tube 51 rotate with device pipe 42 through circular slot 416 and are connected, make signal detector 6 can realize the shock attenuation through No. two springs 54 by a small margin when stable installation, the protective effect of signal detector 6 is strengthened.

The right part of the outer surface of the baffle 9 is provided with two anti-deflection grooves 91 and a sliding groove 92, the two anti-deflection grooves 91 are respectively communicated with the inside of the two sliding grooves 92, the two anti-deflection grooves 91 and the sliding groove 92 are obliquely arranged, the front part of the outer surface of the baffle 9 and the rear part of the outer surface are fixedly connected with a group of supporting rods 93, the opposite surfaces of the two groups of supporting rods 93 are fixedly connected with reflecting lenses 94, the two groups of supporting rods 93 are provided with lightning rods 95, the lower end of the baffle 9 is fixedly connected with a plurality of uniformly distributed infrared emission tubes 96, the positions of the plurality of infrared emission tubes 96 respectively correspond to the positions of the plurality of infrared receiving tubes 24, the lightning rods 95 and the reflecting lenses 94 are used for enabling a monitoring device located at high altitude to avoid being struck by lightning, the reflecting lenses 94 are obliquely arranged, so that sunlight is reflected onto the solar energy storage plates 1201, when sunlight heat absorption intensity is increased, surrounding birds can be driven, the birds can be prevented from approaching or standing on the feet, and practicability of the monitoring device is improved.

The electric power storage structure 12 includes mounting bracket 121, mounting bracket 121's lower extreme fixedly connected with silica gel pad 122, mounting bracket 121's front end middle part is opened around the lift groove 123 of punching through, mounting bracket 121's internal surface upper portion and the equal fixedly connected with of internal surface lower part a set of spring No. four 124, the relative face of two sets of spring No. four 124 is fixedly connected with lifter plate 125 jointly, lifter plate 125's front end and rear end all rotate and are connected with ball 126, mounting bracket 121's upper end fixedly connected with support frame 127, support frame 127's the equal fixedly connected with of left end and right-hand member a set of spring post 128, support frame 127's front end middle part runs through and swing joint has movable tube 129, movable tube 129's the front portion of outward surface and the outer surface rear portion are fixedly connected with solar energy storage plate 1201 jointly, solar energy storage plate 1201 absorbs the sunlight and converts into electric energy and carries out the power supply operation for can normal use when monitoring devices breaks down or short circuit outage suddenly, the maintenance personal on the ground of being convenient for in time looks over the base station condition through camera 47.

The mounting bracket 121 can dismantle with baffle 9 through mounting groove 11 and be connected, two balls 126 pass through two spouts 92 respectively with baffle 9 sliding connection, two sets of spring post 128 all set up to slope installation, and the one end that support frame 127 was kept away from to two sets of spring post 128 all with solar cell panel 1201 fixed connection, the mounting bracket 121 can dismantle through mounting groove 11 and connect on baffle 9, the ball 126 is located the spout 92 through the spring 124 of No. four that is connected on the lifter plate 125 and inclines to rotate, can realize high regulation when making solar power equipment be convenient for install and dismantle, make solar power equipment no longer fixed through spring post 128, when receiving the rainwater to hit, can receive gravity slope, make the rainwater quick landing, resume steadily after breaking away from fast.

In the present invention, the power storage device of the solar power storage plate 1201 is electrically connected with the driver 3, the signal detector 6 and the infrared sensor 10 through wires, when the monitoring main body 1 is used, the power storage structure 12 converts solar energy into electric energy and then supplies power to the driver 3, the signal detector 6 and the infrared sensor 10, when the wireless communication base station for weak signal processing monitors, the driver 3 is started by converting solar energy into electric energy through the solar panel, the driver 3 controls the connecting rod 41 to rotate, so that the device tube 42 drives the first limit block 44 and the second limit block 45 to rotate in the first limit groove 21 and the second limit groove 22 respectively through the fixing rod 43, realize 360 DEG adjustment of the monitoring angle of the camera 47, the first pulley 46 and the second pulley 417 are respectively connected with the monitoring main body 1 in a rotating way through the first limit groove 21 and the second limit groove 22, so that the stability and flexibility of the monitoring device in the process of adjusting the monitoring angle are enhanced, the abrasion of the device is reduced, when the camera 47 adjusts the shooting angle, the camera 47 on the first limit block 44 shoots the surface of the signal detector 6, so that ground personnel can observe the abnormal condition of the signal detector 6 in time, the fan 48 dissipates heat of the signal detector 6, and the cleaning brush 414 can clear the outer surface of the signal detector 6 through the expansion and contraction of the first spring 412, the dust removal of the signal detector 6 is convenient, when the camera 47 is shielded by foreign matters, the camera 47 is cleaned timely through the brush plate 8 when the rotation angle is reached, an infrared wire net is generated between the infrared receiving tube 24 and the infrared transmitting tube 96, when the infrared wire net is cut off, the foreign matters appear on the monitoring device, the toothed plate 4101 is controlled by the electric telescopic rod 419 to stretch and push the foreign matters to fall, so that the foreign matters on the device are cleaned, and the device is safe, reliable and convenient to operate; when the signal detector 6 is installed in the monitoring device, the clamping plate 56 is firstly installed in the circular tube 51 through the first clamping groove 415 and the second clamping groove 53, the supporting tube 55 is rotated after being installed at the bottommost position, the clamping plate 56 is positioned in the second circular groove 58, and the clamping plate is reversely rotated during disassembly, so that the signal detector 6 is convenient to be quickly installed and disassembled, the clamping plate 56 is contacted with the upper groove wall and the lower groove wall of the second circular groove 58 through the expansion and contraction of the third spring 57, the elasticity between the second spring 54 and the circular tube 51 is combined, the stability of the signal detector 6 after being installed is ensured, and when the device tube 42 is rotated, the third pulley 52 on the circular tube 51 is rotationally connected with the device tube 42 through the first circular groove 416, the signal detector 6 can realize shock absorption in a small amplitude through the second spring 54 during stable installation, and the protection effect of the signal detector 6 is enhanced; solar energy is absorbed by the solar energy storage plate 1201 and converted into electric energy for power supply operation, so that the monitoring device can be normally used when faults or short circuits are suddenly cut off, maintenance personnel on the ground can check the condition of a base station through the camera 47 in time, the mounting frame 121 is detachably connected to the baffle 9 through the mounting groove 11, the ball 126 is obliquely rotated in the chute 92 through the fourth spring 124 connected to the lifting plate 125, the solar power generation equipment can be conveniently mounted and dismounted, the height adjustment can be realized, the solar power generation equipment is not fixed any more through the spring column 128, and can be inclined by gravity when being hit by rainwater, make the rainwater quick landing, resume steadily fast after breaking away from, and through lightning rod 95 and reflector 94 for be located high altitude monitoring devices and avoid receiving the thunderbolt, reflector 94 slope installation makes sunlight reflection to solar energy power storage plate 1201 on, when increasing sunlight heat absorption intensity, when sunlight reflection, can dispel light to birds around, prevent that birds from being close to or standing on, improve monitoring devices's practicality. High efficiency and reliability, and can be popularized and used.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (10)

1. The utility model provides a wireless communication base station monitoring devices based on weak signal processing, includes monitoring main part (1), its characterized in that: device groove (2) are opened to monitoring main part (1) upper end, the lower extreme middle part fixedly connected with driver (3) of monitoring main part (1), the output of driver (3) runs through monitoring main part (1) and fixedly connected with revolution mechanic (4), the upper end middle part swing joint of revolution mechanic (4) has dismantlement structure (5), the upper end fixedly connected with signal detector (6) of dismantlement structure (5), the surface right part fixedly connected with backup pad (7) of monitoring main part (1), the one end fixedly connected with brush board (8) that backup pad (7) are close to monitoring main part (1), the upper end fixedly connected with baffle (9) of backup pad (7), infrared inductor (10) are installed to the upper end of baffle (9), install mounting groove (11) are opened on the upper end right part of baffle (9), but the upper end right part of baffle (9) is dismantled through mounting groove (11) and is connected with electric power storage structure (12), the lower extreme of monitoring main part (1) is through four evenly distributed of screw dismantlement connection leg (13).

2. The wireless communication base station monitoring device based on weak signal processing according to claim 1, wherein a first limit groove (21), a second limit groove (22) and a connecting groove (23) are formed in the upper end of the monitoring main body (1), the first limit groove (21) and the second limit groove (22) are both located in the connecting groove (23), the first limit groove (21) is located in the second limit groove (22), and a plurality of evenly distributed infrared receiving pipes (24) are fixedly connected to the lower groove wall of the connecting groove (23).

3. The wireless communication base station monitoring device based on weak signal processing according to claim 2, wherein the rotating structure (4) comprises a connecting rod (41), the upper end of the connecting rod (41) is fixedly connected with a device pipe (42), the left part of the outer surface of the device pipe (42) is fixedly connected with a fixing rod (43), one end of the fixing rod (43) away from the device pipe (42) is fixedly connected with a first limiting block (44) and a second limiting block (45), one end lower part of the second limiting block (45) close to the device pipe (42) is movably connected with a group of first pulleys (46), the upper ends of the first limiting block (44) and the second limiting block (45) are respectively provided with a camera (47) through conductive slip rings, the lower end of the connecting rod (41) is fixedly connected with the output end of the driver (3), and the two cameras (47) are mutually installed in opposite directions.

4. The wireless communication base station monitoring device based on weak signal processing according to claim 3, wherein a fan (48) is installed at one end of the first limiting block (44) close to the device pipe (42), an L-shaped plate (49) is fixedly connected to the upper portion of the front end of the first limiting block (44), a movable groove (411) is formed in one end of the L-shaped plate (49) close to the device pipe (42), two first springs (412) are fixedly connected to the left groove wall of the movable groove (411), a movable plate (413) is fixedly connected to the right ends of the two first springs (412) together, a cleaning brush (414) is rotatably connected to the right end of the movable plate (413), two first clamping grooves (415) are formed in the upper end of the device pipe (42), and a first circular groove (416) is formed in the device pipe (42).

5. The wireless communication base station monitoring device based on weak signal processing according to claim 4, wherein a group of second pulleys (417) are rotatably connected to the lower portion of the left end of the first limiting block (44), a groove (418) is formed in the left end of the second limiting block (45), an electric telescopic rod (419) is fixedly connected to the right groove wall of the groove (418), a toothed plate (4101) is fixedly connected to the output end of the electric telescopic rod (419), the first limiting block (44) and the second limiting block (45) are respectively located in the first limiting groove (21) and the second limiting groove (22), and the first pulleys (46) and the second pulleys (417) are respectively rotatably connected with the monitoring main body (1) through the first limiting groove (21) and the second limiting groove (22).

6. The wireless communication base station monitoring device based on weak signal processing according to claim 1, wherein the dismounting structure (5) comprises a round tube (51) and a supporting tube (55), a plurality of uniformly distributed No. three pulleys (52) are rotationally connected to the outer surface of the round tube (51), two No. two clamping grooves (53) are formed in the upper end of the round tube (51), no. two round grooves (58) are formed in the inner portion of the round tube (51), two clamping plates (56) are rotationally connected to the left portion of the outer surface of the supporting tube (55) and the right portion of the outer surface of the supporting tube (55) through bearings, no. three springs (57) are fixedly connected to the opposite surfaces of each two clamping plates (56), a plurality of uniformly distributed No. two springs (54) are fixedly connected to the lower end of the supporting tube (55), a brushing tube (61) is fixedly connected to the upper end of the signal detector (6), and the position of the brushing tube (61) corresponds to the position of a camera (47) located on the right portion.

7. The wireless communication base station monitoring device based on weak signal processing according to claim 6, wherein the circular tube (51) is slidably connected with the device tube (42) through a first circular groove (416), the plurality of third pulleys (52) are slidably connected with the device tube (42) through the first circular groove (416), the lower ends of the plurality of second springs (54) are in contact with the circular tube (51), the positions of the four clamping plates (56) are corresponding to the positions of the second circular groove (58), and the upper ends of the supporting tubes (55) are fixedly connected with the signal detector (6).

8. The wireless communication base station monitoring device based on weak signal processing according to claim 1, wherein two anti-deflection grooves (91) and sliding grooves (92) are formed in the right portion of the outer surface of the baffle plate (9), the two anti-deflection grooves (91) are respectively communicated with the inner portions of the two sliding grooves (92), the two anti-deflection grooves (91) and the sliding grooves (92) are obliquely installed, a group of supporting rods (93) are fixedly connected to the front portion and the rear portion of the outer surface of the baffle plate (9), reflecting lenses (94) are fixedly connected to the opposite surfaces of the two groups of supporting rods (93), lightning rods (95) are respectively installed on the two groups of supporting rods (93), a plurality of uniformly distributed infrared transmitting tubes (96) are fixedly connected to the lower end of the baffle plate (9), and the positions of the infrared transmitting tubes (96) are respectively corresponding to the positions of the infrared receiving tubes (24).

9. The wireless communication base station monitoring device based on weak signal processing according to claim 1, wherein the electricity storage structure (12) comprises a mounting frame (121), a silica gel pad (122) is fixedly connected to the lower end of the mounting frame (121), a lifting groove (123) penetrating through the front end of the mounting frame (121) in the middle is formed, a group of fourth springs (124) are fixedly connected to the upper portion of the inner surface and the lower portion of the inner surface of the mounting frame (121), lifting plates (125) are fixedly connected to the opposite surfaces of the two groups of fourth springs (124) together, balls (126) are rotatably connected to the front end and the rear end of the lifting plates (125), a supporting frame (127) is fixedly connected to the upper end of the mounting frame (121), a group of spring columns (128) are fixedly connected to the left end and the right end of the supporting frame (127), a movable tube (129) penetrates through the middle of the front end of the supporting frame (127), and the front surface of the movable tube (129) is movably connected to the solar electricity storage plate (1201) is fixedly connected to the outer surface of the front portion and the rear portion of the outer surface together.

10. The wireless communication base station monitoring device based on weak signal processing according to claim 9, wherein the mounting frame (121) is detachably connected with the baffle plate (9) through the mounting groove (11), the two balls (126) are respectively connected with the baffle plate (9) in a sliding manner through the two sliding grooves (92), the two groups of spring columns (128) are obliquely installed, and one ends, far away from the supporting frame (127), of the two groups of spring columns (128) are fixedly connected with the solar energy storage plate (1201).