CN116792654A - Security monitoring equipment and application method thereof - Google Patents

Abstract

The invention relates to the technical field of security monitoring, in particular to security monitoring equipment and a use method thereof. According to the invention, through the arrangement of the moving mechanism, the two rubber wheels are matched with the crawling wheels to squeeze and clamp the vertical rod, so that the moving mechanism clamps the vertical rod, one side of the bead pulling rope is pulled downwards, the bead pulling rope drives the bead pulling wheel to rotate, the crawling wheels roll upwards on the surface of the vertical rod, so that the moving mechanism is driven to move upwards, the climbing rope is pulled to control the moving mechanism to ascend and descend on the vertical rod, temporary control of the camera is facilitated, the vertical rod in a scene is utilized, the camera can be moved to a higher position without climbing operation, and monitoring and convenient use are realized.

Description

Security monitoring equipment and application method thereof

Technical Field

The invention relates to the technical field of security monitoring, in particular to security monitoring equipment and a using method thereof.

Background

In order to increase security protection in some places, the monitoring force needs to be temporarily monitored or increased, for example, squares of holidays or other public places and the like, monitoring equipment needs to be temporarily installed by using existing vertical rods (such as electric poles, light poles, flag poles, marker poles and the like) in the scene, the security protection force is increased, and when the existing monitoring equipment is installed at the vertical rod high position in the scene, the installation is needed by means of a climbing frame or other climbing tools, so that the installation is inconvenient, the installation and the removal are troublesome, and the temporary management and the control are inconvenient.

Disclosure of Invention

In order to overcome the technical problems, the invention aims to provide the security monitoring equipment and the use method thereof, through the arrangement of the moving mechanism, the two rubber wheels are matched with the crawling wheels to squeeze and clamp the vertical rods, so that the moving mechanism clamps the vertical rods, one side of the bead pulling rope is pulled downwards, the bead pulling rope drives the bead pulling wheel to rotate, the bead pulling wheel drives the crawling wheels to rotate reversely through the second shaft rod and the gear set, the crawling wheels roll upwards on the surface of the vertical rods, the moving mechanism is driven to move upwards, the bead pulling rope is pulled continuously, the camera is enabled to rise to a preset height, the lifting and descending of the moving mechanism on the vertical rods are controlled by pulling the bead pulling rope, temporary cloth control of the camera is facilitated, the vertical rods in a scene are utilized, the camera can be moved to a higher position without ascending operation, monitoring is carried out, and the security monitoring equipment is convenient to use.

The aim of the invention can be achieved by the following technical scheme:

the security monitoring equipment comprises a moving mechanism and a power box, wherein the moving mechanism comprises a first arc frame and a second arc frame, one ends of the first arc frame and the second arc frame are rotationally connected, the other ends of the first arc frame and the second arc frame are detachably and fixedly connected through bolts, two fixing seats are fixedly connected when the middle position of the top surface of the first arc frame is, a shaft lever II is rotationally connected between one sides of the top ends of the two fixing seats, a bead pulling wheel is fixedly sleeved on the outer side wall of the shaft lever II, a shaft lever I is rotationally connected between the other sides of the top ends of the two fixing seats, a crawling wheel is fixedly sleeved on the outer side wall of the shaft lever I, a gear set is in transmission connection between one end of the shaft lever I and one end of the shaft lever II, two extrusion wheel modules are fixedly connected on two sides of the middle position of the top surface of the second arc frame, and a synchronous driving module is arranged between the two extrusion wheel modules, the extrusion wheel module comprises rubber wheels, the synchronous driving module is used for driving the two rubber wheels to synchronously move, the bead pulling wheel is in transmission connection with a bead pulling rope, the bottom end of the arc frame II is fixedly connected with a camera, the outer side wall of the power box is fixedly connected with a rope clamping module, the arc frame I and the arc frame II are oppositely arranged to surround the pole setting by the two rubber wheels matched with the crawling wheel to extrude and clamp the pole setting, the pressure between the crawling wheel and the pole setting is increased, the crawling wheel and the pole setting are prevented from slipping, one side of the bead pulling rope is pulled downwards, the bead pulling rope drives the bead pulling wheel to rotate, the bead pulling wheel drives the crawling wheel to reversely rotate by virtue of the shaft lever II and the gear set, so that the crawling wheel rolls upwards on the surface of the pole setting, the moving mechanism is driven to move upwards, the bead pulling rope is pulled continuously, the camera is lifted to a preset height, the camera is moved to a high position, the ascending operation is avoided, convenient to use.

The method is further characterized in that: one side of drawing the pearl wheel is provided with the anticreep cover, the anticreep cover cup joints with axostylus axostyle second rotation, and the bottom of anticreep cover links firmly with the top surface of arc frame one, the top of anticreep cover is provided with the arc, and the arc is located the outside of drawing the pearl wheel, avoids drawing the pearl rope and drawing and drop between the pearl wheel.

The method is further characterized in that: the gear set comprises a first flat gear and a second flat gear, the first flat gear is fixedly sleeved with one end of the first shaft lever, the second flat gear is fixedly sleeved with one end of the second shaft lever, and the first flat gear is meshed with the second flat gear, so that the climbing wheel is in transmission connection with the bead pulling wheel.

The method is further characterized in that: the transmission ratio between the first flat gear and the second flat gear is larger than two, and the diameter of the bead pulling wheel is larger than the diameter of the crawling wheel, so that the linear speed of the bead pulling rope is more than twice of the linear speed of the outer surface of the crawling wheel, and the bead pulling rope is convenient to pull.

The method is further characterized in that: the extrusion wheel module still includes slide rail spare, the bottom surface of slide rail spare links firmly with the top surface of arc frame two, the inner wall sliding connection of slide rail spare has the slide bar, the screw hole has been seted up to the one end of slide bar, the one end rotation of slide rail spare has cup jointed the screw rod, the one end of screw rod is connected with the slide bar spin through the screw hole, the other end of screw rod has fixedly cup jointed bevel gear two, the other end top surface of slide bar has linked firmly the connecting seat, the rubber wheel rotates with the top of connecting seat to be connected, and bevel gear two drives the screw rod and rotates, promotes the slide bar through the screw rod for two rubber wheels lean on to the pole setting and remove, creep the wheel through two rubber wheels cooperation and extrude and press from both sides tightly to the pole setting, increase and creep the pressure between wheel and the pole setting, avoid follow-up wheel of crawling to skid in the pole setting.

The method is further characterized in that: the synchronous drive module comprises a rotating shaft, a bevel gear I is fixedly sleeved at two ends of the outer side wall of the rotating shaft, the bevel gear I is meshed with a bevel gear II in close proximity, two rotating seats are fixedly connected to the end face of a spiral frame II, one end of each rotating seat is rotatably sleeved with the rotating shaft, one end of the rotating shaft is fixedly connected with a hand wheel, the hand wheel is rotated to drive the rotating shaft to rotate, the rotating shaft drives the bevel gear II to rotate through the bevel gear, and accordingly synchronous movement of two rubber wheels is driven, and the spiral frame is convenient to clamp by matching with a crawling wheel to the stand column.

The method is further characterized in that: the clamping rope module comprises a clamping groove piece, one side of the clamping groove piece is fixedly connected with a side wall of a power supply box, the top surface of the power supply box is fixedly connected with two limiting plates, a loop bar is connected between the two limiting plates in a sliding mode, a screw hole is formed in one end of the loop bar, an extrusion bar is fixedly connected with the outer side wall of one end of the loop bar, the extrusion bar is matched with the clamping groove piece, the top surface of the power supply box is located at one end position of the two limiting plates, a mounting seat is fixedly connected with a threaded rod in a rotating mode, the threaded rod is connected with the loop bar in a rotating mode, the other end of the threaded rod is fixedly connected with a knob, the threaded rod is driven to rotate through the knob, the threaded rod is driven to slide along the limiting plates, accordingly the extrusion bar is controlled to move close to and deviate from the clamping groove piece, one side of the bead pulling rope is moved between the extrusion bar and the clamping groove piece, and the knob is rotated, the extrusion bar and the clamping groove piece are clamped, and the bead pulling rope is fixed.

The method is further characterized in that: the power box is internally provided with a battery and a signal receiving and transmitting module, a cable is connected between the power box and the camera, and the weight of the power box is larger than that of the moving mechanism.

The application method of the security monitoring equipment comprises the following specific application steps of:

step one: loosening bolts at the other ends of the first arc frame and the second arc frame, opening the first arc frame and the second arc frame, then enabling the first arc frame and the second arc frame to carry out cohesion on the opposite rods, fixing the other ends of the first arc frame and the second arc frame through bolts, and screwing the bolts to realize sleeving of the moving mechanism on the vertical rod;

step two: one hand holds the moving mechanism, so that the first arc frame and the second arc frame are kept horizontal, the other hand rotates the hand wheel, the hand wheel drives the rotating shaft to rotate, the rotating shaft drives the bevel gear II to rotate through the bevel gear, the slide rod is pushed by the screw rod, the two rubber wheels are moved towards the vertical rod, the two rubber wheels are matched with the crawling wheels to squeeze and clamp the vertical rod, and the crawling wheels are prevented from skidding with the vertical rod;

step three: one side of the bead pulling rope is pulled downwards, the bead pulling rope drives the bead pulling wheel to rotate, the bead pulling wheel drives the crawling wheel to rotate reversely through the shaft lever II and the gear set, so that the crawling wheel rolls upwards on the surface of the vertical rod, the moving mechanism is driven to move upwards, the bead pulling rope is pulled continuously, and the camera is lifted to a preset height;

step four: one side of the bead pulling rope is clamped into the rope clamping module, so that the bead pulling rope is pulled by the gravity of the power box, the moving mechanism is prevented from moving downwards, and temporary control of monitoring is realized;

step five: after the monitoring work is finished, the bead pulling rope is taken out of the rope clamping module, one side of the bead pulling rope is gradually released, the moving mechanism gradually moves down and descends, then bolts at the other ends of the first arc frame and the second arc frame are loosened, and the moving mechanism is taken down from the vertical rod.

The invention has the beneficial effects that:

1. through the arrangement of the moving mechanism, the arc frame I and the arc frame II surround the vertical rod, so that the two rubber wheels are matched with the crawling wheel to squeeze and clamp the vertical rod, the pressure between the crawling wheel and the vertical rod is increased, the crawling wheel and the vertical rod are prevented from skidding, one side of the bead pulling rope is pulled downwards, the bead pulling rope drives the bead pulling wheel to rotate, the bead pulling wheel drives the crawling wheel to rotate reversely through the shaft rod II and the gear set, the crawling wheel rolls upwards on the surface of the vertical rod, the moving mechanism is driven to move upwards, the bead pulling rope is pulled continuously, the camera is lifted to a preset height, the lifting and descending of the moving mechanism on the vertical rod are controlled by pulling the bead pulling rope, temporary control of the camera is facilitated, the vertical rod in a scene is utilized, the camera can be moved to a higher position without ascending operation for monitoring, and the camera is convenient to use;

2. through the setting of card rope module and gear train, make through the gear train draw the pearl wheel and creep the transmission ratio between the wheel and be greater than two, because the weight of power supply box is greater than moving mechanism's weight, will draw one side of pearl rope and pass through card rope module to be fixed on the power supply box, can fix moving mechanism height position, prevent moving mechanism to move down to spacing moving mechanism, avoid holding always and draw pearl rope and pull down, facilitate the use.

Drawings

The invention is further described below with reference to the accompanying drawings.

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

FIG. 2 is a schematic top view of the moving mechanism of the present invention;

FIG. 3 is a schematic view of a moving mechanism according to the present invention;

FIG. 4 is a schematic view of the structure of the climbing wheel and the bead pulling wheel in the invention;

FIG. 5 is a schematic view of the structure of the power box in the present invention;

FIG. 6 is a schematic view of the squeeze wheel module of the present invention;

FIG. 7 is a schematic view of a bead wheel structure according to the present invention;

FIG. 8 is a schematic diagram of a rope clamping module structure in the invention;

fig. 9 is a schematic diagram of the structure of the pull string according to the present invention.

In the figure: 100. a power supply box; 110. a rope clamping module; 111. a clamping groove piece; 112. a limiting plate; 113. an extrusion rod; 114. a threaded rod; 115. a loop bar; 116. a screw hole; 117. a mounting base; 200. a moving mechanism; 210. an arc frame I; 211. a fixing seat; 220. arc frame II; 230. a synchronous driving module; 231. a rotating shaft; 232. bevel gears I; 233. a rotating seat; 234. a hand wheel; 240. an extrusion wheel module; 241. a slide rail member; 242. bevel gears II; 243. a screw; 244. a slide bar; 245. a connecting seat; 246. a rubber wheel; 250. a crawling wheel; 251. a first shaft lever; 260. a gear set; 261. a flat gear I; 262. a flat gear II; 270. a bead pulling wheel; 271. a second shaft lever; 272. an anti-drop cover; 280. a bead pulling rope; 290. a camera is provided.

Detailed Description

The technical solutions of the embodiments of the present invention will be clearly and completely described below in conjunction with the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, 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. 1-9, a security monitoring device includes a moving mechanism 200 and a power box 100, the moving mechanism 200 includes a first arc frame 210 and a second arc frame 220, one end of the first arc frame 210 is rotatably connected with one end of the second arc frame 220, the other ends of the first arc frame 210 and the second arc frame 220 are detachably and fixedly connected through bolts, two fixing seats 211 are fixedly connected at the middle position of the top surface of the first arc frame 210, a second shaft 271 is rotatably connected between one sides of the top ends of the two fixing seats 211, a bead pulling wheel 270 is fixedly sleeved on an outer side wall of the second shaft 271, a first shaft 251 is rotatably connected between the other sides of the top ends of the two fixing seats 211, a crawling wheel 250 is fixedly sleeved on an outer side wall of the first shaft 251, a gear set 260 is connected between one end of the first shaft 251 and one end of the second shaft 271 in a transmission manner, two sides of the middle position of the top surface of the second arc frame 220 are fixedly connected with an extrusion wheel module 240, and a synchronous driving module 230 is arranged between the two extrusion wheel modules 240, the extrusion wheel modules 240 comprise rubber wheels 246, the synchronous driving module 230 is used for driving the two rubber wheels 246 to synchronously move, a bead pulling rope 280 is connected to the bead pulling wheel 270 in a transmission manner, a camera 290 is fixedly connected to the bottom end of the arc frame II 220, the outer side wall of the power box 100 is fixedly connected with a rope clamping module 110, the arc frame I210 surrounds the opposite rods of the arc frame II 220, the two rubber wheels 246 are matched with the climbing wheel 250 to squeeze and clamp the opposite rods, the pressure between the climbing wheel 250 and the vertical rods is increased, the sliding between the climbing wheel 250 and the vertical rods is avoided, one side of the bead pulling rope 280 is pulled downwards, the bead pulling rope 280 drives the bead pulling wheel 270 to rotate, the bead pulling wheel 270 drives the climbing wheel 250 to reversely rotate through a shaft rod II 271 and a gear set 260, the climbing wheel 250 rolls upwards on the surface of the vertical rods, the moving mechanism 200 is driven to move upwards, the bead pulling rope 280 is pulled continuously, thereby the camera 290 is lifted to a preset height, the camera 290 is moved to a high position, the ascending operation is avoided, and the use is convenient.

One side of the bead pulling wheel 270 is provided with an anti-drop cover 272, the anti-drop cover 272 is rotatably sleeved with a second shaft 271, the bottom end of the anti-drop cover 272 is fixedly connected with the top surface of the first arc frame 210, the top end of the anti-drop cover 272 is provided with an arc plate, the arc plate is positioned on the outer side of the bead pulling wheel 270, the bead pulling rope 280 and the bead pulling wheel 270 are prevented from falling off, the gear set 260 comprises a first flat gear 261 and a second flat gear 262, the first flat gear 261 is fixedly sleeved with one end of the first shaft 251, the second flat gear 262 is fixedly sleeved with one end of the second shaft 271, the first flat gear 261 is meshed with the second flat gear 262, the crawling wheel 250 is in transmission connection with the second bead pulling wheel 270, the transmission ratio between the first flat gear 261 and the second flat gear 262 is larger than two, and the diameter of the bead pulling wheel 270 is larger than the diameter of the crawling wheel 250, so that the linear speed of the bead pulling rope 280 is more than twice the outer surface linear speed of the crawling wheel 250, and the bead pulling rope 280 is convenient to pull.

The extrusion wheel module 240 further comprises a sliding rail piece 241, the bottom surface of the sliding rail piece 241 is fixedly connected with the top surface of the second arc frame 220, the inner wall of the sliding rail piece 241 is slidably connected with a sliding rod 244, a threaded hole is formed in one end of the sliding rod 244, one end of the sliding rod 241 is rotationally sleeved with a screw 243, one end of the screw 243 is rotationally connected with the sliding rod 244 through the threaded hole, the other end of the screw 243 is fixedly sleeved with a second bevel gear 242, the top surface of the other end of the sliding rod 244 is fixedly connected with a connecting seat 245, a rubber wheel 246 is rotationally connected with the top end of the connecting seat 245, the second bevel gear 242 drives the screw 243 to rotate, the sliding rod 244 is pushed by the screw 243, two rubber wheels 246 are enabled to move towards a vertical rod, the two rubber wheels 246 are matched with the vertical rod 250 to perform extrusion clamping, the pressure between the two climbing wheels 250 and the vertical rod is increased, the follow-up climbing wheels 250 are prevented from slipping in the vertical rod, the synchronous driving module 230 comprises a rotating shaft 231, two outer side walls of the rotating shaft 231 are fixedly sleeved with the first bevel gear 232, the other end of the first bevel gear 232 is fixedly meshed with the second bevel gear 242, the end surface of the second arc frame 220 is fixedly connected with the two rotating seats 233, one end of the rotating seat 246 is rotationally sleeved with the rotating one end of the rotating shaft 231, the rotating wheel 246 is rotationally connected with the rotating shaft 231, the rotating wheel 234 is fixedly connected with the rotating wheel 234, and the rotating wheel 234 is driven by the rotating wheel 231, and the rotating wheel 231 is synchronously, and the rotating wheel 231 is synchronously and the rotating wheel 231 is driven to rotate.

The clamping rope module 110 comprises a clamping groove part 111, one side of the clamping groove part 111 is fixedly connected with one side wall of the power box 100, two limiting plates 112 are fixedly connected with the top surface of the power box 100, a sleeve rod 115 is slidably connected between the two limiting plates 112, a screw hole 116 is formed in one end of the sleeve rod 115, an extrusion rod 113 is fixedly connected with the outer side wall of one end of the sleeve rod 115, the extrusion rod 113 is matched with the clamping groove part 111, the top surface of the power box 100 is fixedly connected with an installation seat 117 at one end position of the two limiting plates 112, the threaded rod 114 is rotatably connected with the sleeve rod 115, a knob is fixedly connected with the other end of the threaded rod 114, the threaded rod 114 is driven to rotate through the knob, the threaded rod 114 drives the sleeve rod 115 to slide along the limiting plates 112, so as to control the extrusion rod 113 to move close to and deviate from the clamping groove part 111, one side of the bead rope 280 is moved between the extrusion rod 113 and the clamping groove part 111, the knob is rotated, the extrusion rod 113 and the clamping groove part 111 clamps the bead rope 280, the bead rope 280 is clamped, the bead rope 280 is fixed, the battery 280 and the signal receiving and transmitting mechanism 200 are fixedly installed inside the power box 100, the power box 100 is connected with the power box 100, the weight of the power box 200 is convenient to realize the weight transmission mechanism, and the weight is realized, and the weight is large-down to the power box 200, and the weight is convenient to realize the weight is realized, and the weight is applied to the power and the power box 200 and is convenient to the weight and is easy to move.

The application method of the security monitoring equipment comprises the following specific application steps of:

step one: loosening bolts at the other ends of the first arc frame 210 and the second arc frame 220, opening the first arc frame 210 and the second arc frame 220, then enabling the first arc frame 210 and the second arc frame 220 to clamp a pole, fixing the other ends of the first arc frame 210 and the second arc frame 220 through bolts, and screwing the bolts to realize sleeving the moving mechanism 200 on the pole setting;

step two: one hand holds the moving mechanism 200 so that the first arc frame 210 and the second arc frame 220 are kept horizontal, the other hand rotates the hand wheel 234, the hand wheel 234 drives the rotating shaft 231 to rotate, the rotating shaft 231 drives the bevel gear II 242 to rotate through the bevel gear I232, the slide rod 244 is pushed by the screw 243 so that the two rubber wheels 246 lean against the vertical rod to move, and the two rubber wheels 246 are matched with the climbing wheel 250 to squeeze and clamp the vertical rod, so that the climbing wheels 250 and the vertical rod are prevented from slipping;

step three: one side of the bead pulling rope 280 is pulled downwards, the bead pulling rope 280 drives the bead pulling wheel 270 to rotate, the bead pulling wheel 270 drives the climbing wheel 250 to reversely rotate through the second shaft rod 271 and the gear set 260, the climbing wheel 250 rolls upwards on the surface of the vertical rod, the moving mechanism 200 is driven to move upwards, and the bead pulling rope 280 is pulled continuously, so that the camera 290 is lifted to a preset height;

step four: one side of the bead pulling rope 280 is clamped into the rope clamping module 110, so that the bead pulling rope 280 is pulled by the gravity of the power box 100, the moving mechanism 200 is prevented from moving downwards, and temporary monitoring and control are realized;

step five: after the monitoring operation is completed, the bead rope 280 is taken out from the rope clamping module 110, and one side of the bead rope 280 is gradually released, so that the moving mechanism 200 gradually descends, then the bolts at the other ends of the first arc frame 210 and the second arc frame 220 are loosened, and the moving mechanism 200 is taken down from the vertical rod.

Working principle: when the device is used, after the first arc frame 210 and the second arc frame 220 are combined with each other, the hand wheel 234 is rotated, the hand wheel 234 drives the rotating shaft 231 to rotate, the rotating shaft 231 drives the second bevel gear 242 to rotate through the first bevel gear 232, the second bevel gear 242 drives the screw 243 to rotate, the slide rod 244 is pushed by the screw 243, the two rubber wheels 246 are enabled to move towards the vertical rod, the two rubber wheels 246 are matched with the climbing wheels 250 to squeeze and clamp the vertical rod, the pressure between the climbing wheels 250 and the vertical rod is increased, and the follow-up climbing wheels 250 are prevented from slipping on the vertical rod;

one side of the pull bead rope 280 is pulled downwards, the pull bead rope 280 drives the pull bead wheel 270 to rotate, the pull bead wheel 270 drives the climbing wheel 250 to reversely rotate through the second shaft rod 271 and the gear set 260, the crawling wheel 250 rolls upwards on the surface of the vertical rod, the vertical rod generates a reverse equal friction force on the climbing wheel 250 through the arrangement that the transmission ratio between the first flat gear 261 and the second flat gear 262 is larger than two, the diameter of the pull bead wheel 270 is combined with the diameter of the pull bead wheel 270 to be larger than the diameter of the crawling wheel 250, the transmission ratio between the pull bead wheel 270 and the crawling wheel 250 is larger than two, namely, the climbing wheel 250 rotates for one circle, the pull bead wheel 270 rotates for more than two circles, when a downward pulling force F1 is applied to the pull bead rope 280, the downward pulling force F1 is generated on the surface of the crawling wheel 250, the vertical rod generates a downward friction force which is equal to more than twice F1, the vertical rod generates a reverse equal friction force on the climbing wheel 250, the moving mechanism 200 is simultaneously subjected to downward gravity and the pulling force F1 of the pull bead rope 280, and upward friction force (friction force and transmission loss between all parts in the moving mechanism 200 are relatively small, and are not independently listed any more) which is equal to more than two times of F1, obviously when the pulling force F1 on one side of the downward-pulled beading rope 280 is greater than or equal to the gravity of the moving mechanism 200, the resultant force born by the moving mechanism 200 is upward, so that the moving mechanism 200 moves upwards, further, because the weight of the power supply box 100 is greater than that of the moving mechanism 200, one side of the beading rope 280 is fixed on the power supply box 100 through the beading rope clamping module 110, the height position of the moving mechanism 200 can be fixed, the moving mechanism 200 is prevented from moving downwards, thereby realizing the temporary arrangement control of pulling the beading rope 280 to control the moving mechanism 200 to ascend and descend on the upright rods, the temporary arrangement control is convenient to monitor, the camera 290 can be moved to a higher position by utilizing the upright rods in a scene without ascending operation, monitoring is carried out, and the use is convenient;

when the moving mechanism 200 needs to be removed, one side of the beaded rope 280 is released, so that the moving mechanism 200 is gradually moved down, and the recovery of the moving mechanism 200 is realized.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing is merely illustrative and explanatory of the invention, as various modifications and additions may be made to the particular embodiments described, or in a similar manner, by those skilled in the art, without departing from the scope of the invention or exceeding the scope of the invention as defined in the claims.

Claims (9)

1. The security monitoring equipment comprises a moving mechanism (200) and a power box (100), and is characterized in that the moving mechanism (200) comprises a first arc frame (210) and a second arc frame (220), one end of the first arc frame (210) is rotatably connected with one end of the second arc frame (220), the other ends of the first arc frame (210) and the second arc frame (220) are detachably and fixedly connected through bolts, two fixing seats (211) are fixedly connected when the middle position of the top surface of the first arc frame (210) is provided, a shaft lever II (271) is rotatably connected between one side of the top surface of the two fixing seats (211), a bead pulling wheel (270) is fixedly sleeved on the outer side wall of the shaft lever II (271), a first shaft lever (251) is rotatably connected between the other side of the top end of the two fixing seats (211), a crawling wheel (250) is fixedly sleeved on the outer side wall of the shaft lever II (251), a gear set (260) is in transmission connection between one end of the shaft lever II (251), two side of the middle position of the top surface of the arc frame II (220) is fixedly connected with a shaft lever II (246), two side of the shaft lever II (246) is fixedly connected with a rubber wheel (240), two extrusion modules (230) are arranged on the two extrusion modules (230) and comprise two synchronous rubber wheel (230) and two extrusion modules (230) respectively, the bead pulling wheel (270) is in transmission connection with a bead pulling rope (280), the bottom end of the arc frame II (220) is fixedly connected with a camera (290), and the outer side wall of the power box (100) is fixedly connected with a rope clamping module (110).

2. The security monitoring device according to claim 1, wherein an anti-drop cover (272) is arranged on one side of the bead pulling wheel (270), the anti-drop cover (272) is rotatably sleeved with the second shaft rod (271), the bottom end of the anti-drop cover (272) is fixedly connected with the top surface of the first arc frame (210), an arc-shaped plate is arranged on the top end of the anti-drop cover (272), and the arc-shaped plate is located on the outer side of the bead pulling wheel (270).

3. The security monitoring device according to claim 1, wherein the gear set (260) comprises a first flat gear (261) and a second flat gear (262), the first flat gear (261) is fixedly sleeved with one end of the first shaft (251), the second flat gear (262) is fixedly sleeved with one end of the second shaft (271), and the first flat gear (261) is meshed with the second flat gear (262).

4. A security monitoring device according to claim 3, wherein the transmission ratio between the first flat gear (261) and the second flat gear (262) is greater than two, and the diameter of the bead pulling wheel (270) is greater than the diameter of the crawling wheel (250).

5. The security monitoring device according to claim 3, wherein the extrusion wheel module (240) further comprises a sliding rail piece (241), the bottom surface of the sliding rail piece (241) is fixedly connected with the top surface of the arc frame II (220), the inner wall of the sliding rail piece (241) is slidably connected with a sliding rod (244), one end of the sliding rod (244) is provided with a threaded hole, one end of the sliding rail piece (241) is rotatably sleeved with a screw rod (243), one end of the screw rod (243) is rotatably connected with the sliding rod (244) through the threaded hole, the other end of the screw rod (243) is fixedly sleeved with a bevel gear II (242), the top surface of the other end of the sliding rod (244) is fixedly connected with a connecting seat (245), and the rubber wheel (246) is rotatably connected with the top end of the connecting seat (245).

6. The security monitoring device according to claim 5, wherein the synchronous driving module (230) comprises a rotating shaft (231), two ends of an outer side wall of the rotating shaft (231) are fixedly sleeved with a first bevel gear (232), the first bevel gear (232) is meshed with a second bevel gear (242) which is closely adjacent to the first bevel gear, two rotating seats (233) are fixedly connected to an end face of the second arc frame (220), one end of each rotating seat (233) is rotatably sleeved with the rotating shaft (231), and one end of each rotating shaft (231) is fixedly connected with a hand wheel (234).

7. The security monitoring device according to claim 1, wherein the rope clamping module (110) comprises a clamping groove part (111), one side of the clamping groove part (111) is fixedly connected with a side wall of the power box (100), two limiting plates (112) are fixedly connected with the top surface of the power box (100), a sleeve rod (115) is slidably connected between the two limiting plates (112), a screw hole (116) is formed in one end of the sleeve rod (115), an extrusion rod (113) is fixedly connected with the outer side wall of one end of the sleeve rod (115), the extrusion rod (113) is matched with the clamping groove part (111), a mounting seat (117) is fixedly connected with the top surface of the power box (100) at one end position of the two limiting plates (112), a threaded rod (114) is rotatably connected with the inner wall of the mounting seat (117), and a knob is fixedly connected with the other end of the threaded rod (114).

8. The security monitoring device according to claim 1, wherein a battery and a signal transceiver module are installed in the power box (100), and a cable is connected between the power box (100) and the camera (290), and the weight of the power box (100) is greater than that of the moving mechanism (200).

9. The method for using security monitoring equipment according to claim 6, wherein the specific using steps of the security monitoring equipment are as follows:

step one: loosening bolts at the other ends of the first arc frame (210) and the second arc frame (220), opening the first arc frame (210) and the second arc frame (220), then enabling the first arc frame (210) and the second arc frame (220) to carry out cohesion on opposite poles, and fixing the other ends of the first arc frame (210) and the second arc frame (220) through bolts and screwing the bolts, so that the moving mechanism (200) is sleeved on the vertical poles;

step two: one hand holds the moving mechanism (200) so that the first arc frame (210) and the second arc frame (220) are kept horizontal, the other hand rotates the hand wheel (234), the hand wheel (234) drives the rotating shaft (231) to rotate, the rotating shaft (231) drives the bevel gear II (242) to rotate through the bevel gear I (232), the sliding rod (244) is pushed by the screw rod (243), the two rubber wheels (246) are moved towards the vertical rod, the two rubber wheels (246) are matched with the climbing wheel (250) to squeeze and clamp the vertical rod, and slipping of the climbing wheel (250) and the vertical rod is avoided;

step three: one side of the bead pulling rope (280) is pulled downwards, the bead pulling rope (280) drives the bead pulling wheel (270) to rotate, the bead pulling wheel (270) drives the climbing wheel (250) to reversely rotate through the shaft lever II (271) and the gear set (260), the climbing wheel (250) rolls upwards on the surface of the vertical rod, the moving mechanism (200) is driven to move upwards, the bead pulling rope (280) is pulled continuously, and the camera (290) is lifted to a preset height;

step four: one side of the bead pulling rope (280) is clamped into the rope clamping module (110), so that the bead pulling rope (280) is pulled by the gravity of the power box (100), the moving mechanism (200) is prevented from moving downwards, and temporary control of monitoring is realized;

step five: after the monitoring work is finished, the bead pulling rope (280) is taken out of the rope clamping module (110), one side of the bead pulling rope (280) is gradually released, the moving mechanism (200) is gradually moved downwards and is lowered, then bolts at the other ends of the first arc frame (210) and the second arc frame (220) are loosened, and the moving mechanism (200) is taken down from the vertical rod.