CN220528137U - High-altitude parabolic monitoring device - Google Patents

Abstract

The utility model belongs to the field of security protection, in particular to a high-altitude parabolic monitoring device, which comprises a fixed plate, wherein the bottom of the fixed plate is provided with supporting legs, one end of the fixed plate and one end of each supporting leg are fixedly provided with supporting plates, and the left side and the right side of the top of the fixed plate are respectively provided with a through hole; and the monitoring assembly is arranged on the fixed plate. The utility model has reasonable design, can realize the telescopic movement of the monitoring probe and simultaneously has the angle adjustment in two directions, so that the monitoring probe has larger visual angle and wider monitoring range compared with the common monitoring device, can randomly adjust the angle and the distance of the monitoring probe according to the position of the high-altitude parabolic object, improves the bearing capacity of the device through the fixed plate, the supporting leg, the supporting plate and the balancing weight, ensures the stable fixation of the device and realizes the normal movement operation of the monitoring probe.

Description

High-altitude parabolic monitoring device

Technical Field

The utility model relates to the technical field of security protection, in particular to a high-altitude parabolic monitoring device.

Background

The phenomenon of high-altitude throwing is called as 'pain suspended in the upper air of a city', is an unclean behavior, and can bring great social hazard, high buildings in communities and other high-altitude throwing cigarette ends, flowerpots, clothes hangers and the like have certain killing power, and monitoring equipment aiming at the high-altitude throwing needs to be installed in communities for determining high-altitude throwing related personnel;

most of the existing monitoring devices are fixed on an external structure, so that the angle of the existing monitoring devices is difficult to adjust, and a few of the adjustable monitoring devices only have angle adjustment in a single direction, so that the monitoring range is limited, the monitoring visual angle is relatively small, and a large perfect space still exists in the aspect of functionality, so that a high-altitude parabolic monitoring device is provided.

Disclosure of Invention

The utility model aims to solve the defects in the prior art and provides a high-altitude parabolic monitoring device.

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

a high altitude parabolic monitoring apparatus comprising:

the support legs are arranged at the bottom of the fixing plate, the supporting plates are fixedly arranged at one ends of the fixing plate and the support legs, and through holes are formed in the left side and the right side of the top of the fixing plate;

and the monitoring assembly is arranged on the fixed plate.

Preferably, the monitoring assembly comprises a first motor, a driving shaft, an adjusting shaft, a belt wheel, a belt, a swivel base, a sliding groove, a second motor, a screw rod, a sliding seat, a support, a balancing weight, a monitoring probe and a protection frame, wherein the first motor is fixedly installed at the top of a fixed plate, the driving shaft is rotatably installed at the inner side of a left Fang Tongkong side, one end of the driving shaft is fixedly connected with the output end of the first motor, the adjusting shaft is rotatably installed at the inner side of a right through hole, the belt wheel is respectively fixedly installed at the outer lower sides of the driving shaft and the adjusting shaft, the belt is tensioned and arranged at the outer side of the belt wheel, the swivel base is fixedly installed at the top of the adjusting shaft, the sliding groove is formed in the top of the swivel base, the second motor is fixedly installed at one side of the swivel base, the screw rod is rotatably installed between the left side and the right side of the sliding groove, one end of the screw rod is fixedly connected with the output end of the second motor through an optical axis, the sliding seat is installed at the inner side of the sliding groove, the sliding seat is arranged at the outer side of the screw rod, the support is fixedly installed at the top of the sliding seat, the monitoring probe is rotatably installed at the front of the rear of the support through the optical axis, and is fixedly installed at the top of the support.

Preferably, the outer diameter and the width of the belt wheel are the same, and the outer diameter of the belt wheel is larger than the width of the supporting leg.

Preferably, the shape of the sliding seat is T-shaped, and the top inner wall of the sliding seat is attached to the top plane of the rotating seat.

Preferably, a threaded hole is formed in one side of the sliding seat, and the screw rod is in threaded connection with the inner side of the threaded hole.

Preferably, the shape of the bracket is U-shaped, and shaft sleeves are fixedly arranged on the inner walls of the front side and the rear side of the bracket.

Preferably, a motor is arranged on the inner side of the protective frame, and the output end of the motor is fixedly connected with the adjacent fixed optical axis.

Compared with the prior art, the utility model has the beneficial effects that:

(1) The high-altitude parabolic monitoring device can realize the telescopic movement of the monitoring probe and simultaneously has the angle adjustment in two directions, so that compared with a common monitoring device, the high-altitude parabolic monitoring device has a larger visual angle and a wider monitoring range, and can randomly adjust the angle and the distance of the monitoring probe according to the position of the high-altitude parabolic.

(2) According to the high-altitude parabolic monitoring device, through the fixed plate, the supporting legs, the supporting plate and the balancing weight, the bearing capacity of the device is improved, the device can be stably fixed, and normal movement operation of the monitoring probe is realized.

Drawings

Fig. 1 is a schematic perspective view of a high-altitude parabolic monitoring device according to the present utility model;

fig. 2 is a schematic top view of a high-altitude parabolic monitoring device according to the present utility model;

fig. 3 is a schematic diagram illustrating a lower view structure of a high-altitude parabolic monitoring device according to the present utility model;

fig. 4 is an enlarged schematic view of a portion a in fig. 2.

In the figure: 1. a fixing plate; 2. a support leg; 3. a support plate; 4. a first motor; 5. a driving shaft; 6. an adjusting shaft; 7. a belt wheel; 8. a belt; 9. rotating base; 10. a chute; 11. a second motor; 12. a screw rod; 13. a slide; 14. a bracket; 15. balancing weight; 16. monitoring a probe; 17. and a protective frame.

Detailed Description

Examples

Referring to fig. 1-4, a high-altitude parabolic monitoring device comprises a fixed plate 1, wherein a supporting leg 2 is arranged at the bottom of the fixed plate 1, the supporting leg 2 is used for providing a stress point, the support stability of the fixed plate 1 is ensured, a supporting plate 3 is fixedly arranged at one end of the fixed plate 1 and one end of the supporting leg 2, and through holes are formed in the left side and the right side of the top of the fixed plate 1; the monitoring component is arranged on the fixed plate 1.

In this embodiment, first motor 4 fixed mounting is at the top of fixed plate 1, driving shaft 5 rotates the inboard of installing at left Fang Tongkong, the one end of driving shaft 5 and the output fixed connection of first motor 4, regulating spindle 6 rotates the inboard of installing at right through-hole, band pulley 7 fixed mounting is in the outside downside of driving shaft 5 and regulating spindle 6 respectively, belt 8 tensioning sets up in the outside of band pulley 7, the angle that belt 8 and band pulley 7 cooperation can realize regulating spindle 6 changes, swivel mount 9 fixed mounting is at the top of regulating spindle 6, spout 10 is seted up at the top of swivel mount 9, spout 10 is used for leading and spacing slide 13, one side at swivel mount 9 is fixed mounting to second motor 11, lead screw 12 rotates and installs between the left and right sides of spout 10, one end of lead screw 12 passes through optical axis and the output fixed connection of second motor 11, slide 13 slidable mounting is in the inboard of spout 10, slide 13 sets up the outside of lead screw 12, support 14 fixed mounting is at the top of slide 13, monitor probe 16 passes through optical axis rotation and installs between the front and back both sides of support 14, 15 fixed mounting is in one side of 9, 15 is used for leading to carry out the top of swivel mount 9, 15 is used for protecting the frame 17, it is fixed to protect against the focus after the swivel mount 17.

In this embodiment, the outer diameter and the width of the belt wheel 7 are the same, the outer diameter of the belt wheel 7 is larger than the width of the supporting leg 2, and the belt 8 and the supporting leg 2 can be prevented from interfering by limiting the outer diameter of the belt wheel 7.

In this embodiment, the sliding seat 13 is T-shaped, the top inner wall of the sliding seat 13 is attached to the top plane of the rotating seat 9, and the height of the sliding seat 13 is limited to reduce the material consumption.

In this embodiment, a threaded hole is formed in one side of the sliding seat 13, the screw rod 12 is in threaded connection with the inner side of the threaded hole, and the sliding seat 13 is driven to move when the screw rod 12 rotates through threaded fit.

In this embodiment, the bracket 14 is U-shaped, and the inner walls of the front and rear sides of the bracket 14 are fixedly provided with shaft sleeves, which can guide and support the optical axis.

In this embodiment, a motor is disposed at the inner side of the protective frame 17, and the output end of the motor is fixedly connected with the adjacent fixed optical axis, and the motor can drive the optical axis to further realize another angle rotation of the monitoring probe 16.

Through the structure, the high-altitude parabolic monitoring device provided by the utility model can realize telescopic movement of the monitoring probe 16, and simultaneously has angle adjustment in two directions, so that compared with a common monitoring device, the high-altitude parabolic monitoring device has larger visual angle and wider monitoring range, the angle and the distance of the monitoring probe 16 can be randomly adjusted according to the position of the high-altitude parabolic, the bearing capacity of the device is improved through the fixed plate 1, the supporting leg 2, the supporting plate 3 and the balancing weight 15, the device is ensured to be stably fixed and normal movement operation of the monitoring probe 16 is realized, the device is particularly operated to be connected with an external power supply and a controller firstly, when the position of the monitoring probe 16 needs to be adjusted, the first motor 4 is controlled to work through the controller, the angle change of the adjusting shaft 6 is realized through the cooperation of the belt pulley 7 and the belt 8, the position change of the monitoring probe 16 is further driven through the swivel seat 9, the position change of the monitoring probe 16 is realized through the screw thread cooperation of the screw rod 12 and the sliding seat 13, the position change of the monitoring probe 16 is further realized, the angle change of the monitoring probe 16 is realized through the controller, and the monitoring probe 16 is further realized through the operation of the motor.

Claims (6)

1. A high altitude parabolic monitoring apparatus, comprising:

the fixing plate (1), the bottom of fixing plate (1) is provided with landing leg (2), backup pad (3) are all fixed mounting to one end of fixing plate (1) and landing leg (2), the through-hole has all been seted up to the top left and right sides of fixing plate (1);

the monitoring assembly is arranged on the fixed plate (1), the monitoring assembly comprises a first motor (4), a driving shaft (5), an adjusting shaft (6), a belt wheel (7), a belt (8), a rotating seat (9), a sliding groove (10), a second motor (11), a screw rod (12), a sliding seat (13), a support (14), a balancing weight (15), a monitoring probe (16) and a protection frame (17), the first motor (4) is fixedly arranged at the top of the fixed plate (1), the driving shaft (5) is rotatably arranged at the inner side of a left Fang Tongkong, one end of the driving shaft (5) is fixedly connected with the output end of the first motor (4), the adjusting shaft (6) is rotatably arranged at the inner side of a right through hole, the belt wheel (7) is fixedly arranged at the outer lower sides of the driving shaft (5) and the adjusting shaft (6) respectively, the belt (8) is tightly arranged at the outer sides of the belt wheel (7), the top of the adjusting shaft (6) is fixedly arranged at the rotating seat (9), the sliding groove (10) is arranged at the top of the motor (9), one end of the second motor (11) is fixedly arranged at the two sides of the rotating seat (12), one end of lead screw (12) is through the output fixed connection of optical axis and second motor (11), slide (13) slidable mounting is in the inboard of spout (10), slide (13) set up in the outside of lead screw (12), support (14) fixed mounting is at the top of slide (13), monitor probe (16) are installed between the front and back both sides of support (14) through the optical axis rotation, balancing weight (15) fixed mounting is in top one side of swivel mount (9), protection frame (17) fixed mounting is in the rear side of support (14).

2. A high altitude parabolic monitoring apparatus according to claim 1, wherein the outer diameter and the width of the pulley (7) are the same, and the outer diameter of the pulley (7) is larger than the width of the leg (2).

3. The overhead parabolic monitoring device according to claim 1, wherein the slide (13) is T-shaped, and the top inner wall of the slide (13) is attached to the top plane of the swivel mount (9).

4. The high-altitude parabolic monitoring device according to claim 1, wherein a threaded hole is formed in one side of the sliding seat (13), and the screw rod (12) is in threaded connection with the inner side of the threaded hole.

5. The high-altitude parabolic monitoring device according to claim 1, wherein the bracket (14) is in a U shape, and shaft sleeves are fixedly installed on inner walls of front and rear sides of the bracket (14).

6. The high-altitude parabolic monitoring device according to claim 1, wherein a motor is arranged on the inner side of the protective frame (17), and the output end of the motor is fixedly connected with the adjacent fixed optical axis.