CN115539790A

CN115539790A - Large-area monitoring video high-definition monitoring equipment based on artificial intelligence

Info

Publication number: CN115539790A
Application number: CN202211046596.XA
Authority: CN
Inventors: 索志芳; 孙诚斌; 范发家
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-08-30
Filing date: 2022-08-30
Publication date: 2022-12-30

Abstract

The invention provides a large-area monitoring video high-definition monitoring device based on artificial intelligence, wherein a swinging assembly comprises a bevel gear, a first disc, a first push rod, a first sliding block, a second disc, a second push rod and a second sliding block, the bevel gear rotates at one end of a three-phase motor close to a rack, the first disc and the second disc swing at two sides of one end of a base close to a cylinder, the first push rod and the second push rod swing at one ends of the first disc and the second disc respectively, a cross rod can drive a clamping ring of a rotating sphere close to one side of the first disc to swing in a friction mode, the clamping ring can drive the rotating sphere to swing in a reverse mode, the rotating sphere can drive the rack and the camera to swing in a reverse mode through the cylinder, the swinging assembly can drive the camera to swing in a 360-degree mode through the arrangement of a single motor, the situation that the existing monitoring device needs to be provided with two motors to drive 360-degree steering is avoided, and meanwhile the situation that the arrangement of a single motor is easily limited to 180-degree steering is avoided.

Description

Large-area monitoring video high-definition monitoring equipment based on artificial intelligence

Technical Field

The invention relates to the technical field of intelligent monitoring, in particular to high-definition monitoring equipment for large-area monitoring videos based on artificial intelligence.

Background

The intelligent monitoring equipment is generally integrated with an intelligent behavior recognition algorithm in an embedded video server, can recognize and judge the behaviors of people or vehicles in a picture scene, generates an alarm to prompt a user under a proper condition, and is monitoring equipment with an intelligent recognition mobile detection technology;

at present, CN202110774289.2 in the prior art is an artificial intelligence wide-range monitoring device and method, which disclose a monitoring device, the invention can make a bearing platform drive a monitoring machine body to rotate, tilt forward or tilt backward through the arrangement of a reversing component, adjust the camera angle of a camera in the monitoring machine body, automatically control each angle of a lens to flexibly rotate, a holder mechanism is not easy to damage, the monitoring quality is good, the monitoring safety is high, through the arrangement of a lifting component, the bearing platform can drive the monitoring machine body to ascend or descend, the camera in the monitoring machine body can monitor a larger range, a control signal received by a decoder is strong, the camera and the holder can be remotely controlled through the decoder, and the security monitoring range is improved;

the comparison file and the prior art are combined to know that the comparison file needs to drive the gear to rotate through two or more than two motors, so that the direction of the monitoring machine body is adjusted through the reversing assembly, and meanwhile, after the existing monitoring equipment is provided with a single motor, the single motor can only drive the monitoring equipment to swing in a plane of 180 degrees generally, and the monitoring equipment cannot be driven by the single motor to rotate in multiple directions for monitoring;

the invention mainly solves the problem that the monitoring equipment cannot realize multi-directional rotation monitoring through a single motor.

Disclosure of Invention

In order to solve the above technical problems, the present invention provides a high-definition monitoring device for large-area monitoring video based on artificial intelligence, so as to solve the above described problems in the background art.

The invention relates to a purpose and an effect of a high-definition monitoring device of a large-area monitoring video based on artificial intelligence, which are achieved by the following specific technical means: the utility model provides a high definition supervisory equipment of big regional surveillance video based on artificial intelligence, includes the frame, and the tip of this frame is run through there is the drum, the one end swing that the frame was kept away from to the drum is connected with the base, the inside of frame is equipped with camera and wireless communication module, signal connection between camera and the wireless communication module.

Furthermore, the inside of frame is equipped with the battery, and the inside of base is equipped with three-phase motor and control circuit board, and the inside one end that is close to the drum of base is equipped with the swing subassembly of stable control.

Furthermore, the camera is connected with the external power supply and the storage battery through power lines in a loop mode, the wireless communication module is connected with the analysis server through wireless signals, and the camera is connected with the analysis server through the wireless communication module through wireless signals.

Further, the three-phase motor is connected with the control circuit board loop through an electric wire, a coaxial position sensor is arranged inside the three-phase motor and connected with the control circuit board loop through an electric wire, and the single-time swing angle of the three-phase motor is 90 degrees.

Furthermore, control circuit board passes through the electric wire and is connected with the camera return circuit, and control circuit board adjusts three-phase motor's direction of rotation and turned angle, and control circuit board passes through wireless communication module and external control end wireless signal connection.

Furthermore, the swing assembly comprises a bevel gear, a first disc, a first push rod, a first slider, a second disc, a second push rod and a second slider, the bevel gear rotates at one end of the three-phase motor close to the rack, the first disc and the second disc swing at two sides of one end of the base close to the cylinder, the first push rod and the second push rod swing at one end of the first disc and one end of the second disc respectively, and the first slider and the second slider slide at one side of the first disc and one side of the second disc close to the bevel gear respectively.

Furthermore, two sides of the bevel gear correspond to the first sliding block and the second sliding block in the same level, the rotating direction of the bevel gear is the same as that of the output end of the three-phase motor, and the number of tooth grooves on the outer side of the bevel gear is less than 6.

Furthermore, a track is arranged at one end, close to the first sliding block, of the first disc, the track is arranged in a semicircular arc shape, the angle of the semicircular arc is 180 degrees, the first disc and the second disc are evenly distributed on two sides of the bevel gear, and the first sliding block is located on one side inside the track.

Furthermore, the first sliding block is arranged in a semicircular arc shape, the angle of the semicircular arc is 90 degrees, and when the bevel gear is in a static state, the first sliding block and the second sliding block are in the same horizontal plane.

Furthermore, a track is arranged on one side of the second disc close to the second sliding block, the track is the same as the track on the side face of the first disc in shape, and the second sliding block slides in the track.

Furthermore, when the bevel gear swings clockwise, the outer side of the bevel gear is extruded to one end of the second sliding block, at the moment, the side face of the second sliding block is attached to and extruded with the inner wall of the track of the second disc, and the second disc can swing in an angle mode.

Furthermore, the first push rod and the second push rod are both arranged in an inclined manner at an angle of 25-45 degrees, the first push rod and the first slide block are respectively arranged at two ends of the first disc, and the first push rod and the second slide block are respectively arranged at two ends of the second disc.

Furthermore, the swing assembly further comprises a cross rod, a cushion block, a clamping ring and a rotary ball body, the rotary ball body is rotatably sleeved between the cylinder and the base, the clamping ring is sleeved on two sides of the rotary ball body, the cross rod is located on one side, far away from the rotary ball body, of the clamping ring, and the cushion block is located at one end, far away from the clamping ring, of the cross rod.

Furthermore, the cushion blocks are located on two sides of the inner portion of the base, the cushion blocks are respectively connected and extruded with the first push rod and the second push rod, the cushion blocks are in a trapezoidal arrangement, and the cushion blocks, the cross rods and the clamping rings are arranged in a matched mode.

Furthermore, the cross rod on one side of the rotary sphere is connected with the first push rod through the cushion block, the cross rod on the other side of the rotary sphere is connected with the second push rod through the cushion block, and the clamping rings are located on two sides of the inner portion of the base.

Furthermore, the rotary sphere swings 360 degrees at one end of the base, and the rotary sphere is rotatably connected with the rack by 360 degrees through the cylinder.

Has the advantages that:

1. when the external power supply is powered off, the storage battery can supply power to the inside of the camera, the camera can form continuous-flight monitoring, the camera transmits a monitoring picture to the inside of the wireless communication module, the wireless communication module transmits the monitoring picture to the inside of the analysis server, and the intelligent monitoring effect is achieved;

2. the control circuit board can change the rotation direction of the three-phase motor by changing any two-phase power supply input, when the three-phase motor rotates clockwise, the bevel gear synchronously rotates clockwise, the outer side of the bevel gear is extruded to one end of the second sliding block, the side surface of the second sliding block is attached to and extruded with the inner wall of the track of the second disc at the moment, and as the single swing angle of the three-phase motor is 90 degrees, the second disc can swing 90 degrees in an angle manner, and a second push rod at one end of the second disc synchronously swings in an angle inclined manner;

3. when the three-phase motor rotates anticlockwise, the outer side of the bevel gear is extruded to one end of the first sliding block, the side face of the first sliding block is attached to and extruded with the inner wall of the track of the first disc, the first disc can swing at an anticlockwise angle, and the outer side of the bevel gear is surrounded with a tooth groove, so that the second sliding block slides in the track of the side face of the second disc, and meanwhile, after the second sliding block slides in the second disc for 90 degrees at a single swing angle of the three-phase motor, the three-phase motor cannot drive the second sliding block to slide in the track of the second disc again through the bevel gear, so that the second disc is in a static state at the moment;

4. when the second disc obliquely swings, the second push rod synchronously obliquely swings at an angle, the cushion blocks are arranged in a trapezoid manner, the second push rod can be obliquely extruded to one end of the cushion blocks, the cushion block, close to one side of the second push rod, of the rotary sphere is extruded to one side of the clamping ring through the cross rod, the clamping ring frictionally swings outside the rotary sphere, the rotary sphere can drive the cylinder and the camera to angularly swing, the clamping ring, far away from one side of the second push rod, of the rotary sphere is in sliding fit with the rotary sphere, and the rotary sphere can drive the rack and the camera to integrally stably and slowly swing through the cylinder through sliding friction between the clamping ring and the outer side of the rotary sphere;

5. and first disc can be the anticlockwise swing, first push rod is the anticlockwise swing in step, because the rotatory spheroid side cushion is the linkage relation with first push rod, first push rod can be when the slope is swung through the tensile one end to the horizontal pole of cushion, and the horizontal pole can drive the snap ring that the rotary sphere is close to first disc one side and be the friction swing, and the snap ring can drive the rotary sphere and be the reverse swing, the rotary sphere can drive the frame through the drum and the camera is the reverse swing, make this kind of swing subassembly can drive the camera through setting up single motor and be 360 swings, avoided current supervisory equipment to need set up the condition that two motors drive 360 and turn to, avoid setting up the condition that single motor easily confines to 180 turns to simultaneously.

Drawings

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

FIG. 2 is a schematic diagram of the intelligent monitoring system of the present invention.

Fig. 3 is a schematic cross-sectional structure of the rack of the present invention.

FIG. 4 is a schematic view of a partial cross-sectional structure of the base of the present invention.

Fig. 5 is a schematic view of the bevel gear structure of the present invention.

FIG. 6 is a schematic view of a first disc assembly of the present invention.

Figure 7 is a schematic view of a second disc assembly in accordance with the present invention.

FIG. 8 is a schematic view of a snap ring assembly of the present invention.

In fig. 1 to 8, the correspondence between the component names and the reference numbers is:

1-a frame, 101-a base, 102-a camera, 103-a cylinder, 2-a wireless communication module, 201-a storage battery, 3-a three-phase motor, 301-a control circuit board, 302-a bevel gear, 4-a first disc, 401-a first push rod, 402-a first sliding block, 5-a second disc, 501-a second push rod, 502-a second sliding block, 6-a cross rod, 601-a cushion block, 602-a snap ring, 603-a rotating sphere.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, rather than all embodiments, and based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without making creative efforts belong to the protection scope of the present invention.

The embodiment is as follows:

as shown in figures 1 to 8:

example 1: a high-definition monitoring device for large-area monitoring videos based on artificial intelligence comprises a rack 1, wherein a cylinder 103 penetrates through the end of the rack 1, one end, far away from the rack 1, of the cylinder 103 is connected with a base 101 in a swinging mode, a camera 102 and a wireless communication module 2 are arranged inside the rack 1, and the camera 102 is in signal connection with the wireless communication module 2;

wherein: the device comprises a rack 1 and a base 101, wherein a storage battery 201 is arranged inside the rack 1, a three-phase motor 3 and a control circuit board 301 are arranged inside the base 101, and a stable monitoring swing assembly is arranged at one end, close to a cylinder 103, inside the base 101;

the camera 102 is connected with an external power supply and a storage battery 201 through power lines in a loop mode, the wireless communication module 2 is in wireless signal connection with the analysis server, and the camera 102 is in wireless signal connection with the analysis server through the wireless communication module 2;

the analysis server is an external monitoring end and is connected with the display, and the analysis server can analyze the camera shooting picture and display the camera shooting picture through the display;

the three-phase motor 3 is connected with the control circuit board 301 through an electric wire, a coaxial position sensor is arranged inside the three-phase motor 3 and connected with the control circuit board 301 through an electric wire, and the single-time swinging angle of the three-phase motor 3 is 90 degrees;

a coaxial position sensor is arranged in the three-phase motor 3, and a position closed loop can be formed on the three-phase motor 3 through the coaxial position sensor, so that the single-time swing angle of the three-phase motor 3 can be limited;

the control circuit board 301 is connected with the camera 102 through a loop, the control circuit board 301 adjusts the rotation direction and the rotation angle of the three-phase motor 3, and the control circuit board 301 is in wireless signal connection with an external control end through the wireless communication module 2;

the control circuit board 301 can change the rotation direction of the three-phase motor 3 by exchanging any two-phase power input;

the external control end is a wireless controller;

when the external power supply is powered off, the storage battery 201 can supply power to the inside of the camera 102, the camera 102 can form endurance monitoring, the camera 102 transmits a monitoring picture to the inside of the wireless communication module 2, the wireless communication module 2 transmits the monitoring picture to the inside of the analysis server, and an intelligent monitoring effect is achieved;

example 2: as can be understood by referring to fig. 3-7 in the specification, the embodiment 2 is different from the embodiment 1 in that the swing assembly includes a bevel gear 302, a first disk 4, a first push rod 401, a first slider 402, a second disk 5, a second push rod 501 and a second slider 502, the bevel gear 302 rotates at one end of the three-phase motor 3 close to the frame 1, the first disk 4 and the second disk 5 swing at both sides of one end of the base 101 close to the cylinder 103, the first push rod 401 and the second push rod 501 swing at one end of the first disk 4 and the second disk 5, respectively, and the first slider 402 and the second slider 502 slide at one side of the first disk 4 and the second disk 5 close to the bevel gear 302, respectively;

wherein: the two sides of the bevel gear 302 correspond to the first sliding block 402 and the second sliding block 502 in the same horizontal direction, the rotating direction of the bevel gear 302 is the same as that of the output end of the three-phase motor 3, and the number of tooth grooves on the outer side of the bevel gear 302 is less than 6;

when the bevel gear 302 rotates, the number of the outer side tooth grooves of the bevel gear 302 is less than 6, so that continuous extrusion of the outer side of the bevel gear 302 on the first sliding block 402 and the second sliding block 502 due to more outer side tooth grooves of the bevel gear 302 is avoided;

a track is arranged at one end, close to the first sliding block 402, of the first disc 4, the track is arranged in a semicircular arc shape, the angle of the semicircular arc is 180 degrees, the first disc 4 and the second disc 5 are distributed on two sides of the bevel gear 302, and the first sliding block 402 is positioned on one side inside the track;

the first sliding block 402 is arranged in a semicircular arc shape, the semicircular arc angle is 90 degrees, and when the bevel gear 302 is in a static state, the first sliding block 402 corresponds to the second sliding block 502 in the same horizontal plane;

when the bevel gear 302 swings anticlockwise, the outer side of the bevel gear 302 is extruded to one end of the first sliding block 402, at this time, the side surface of the first sliding block 402 is attached and extruded with the inner wall of the track of the first disk 4, and the first disk 4 can swing angularly, as shown in the attached figure 6 of the specification, the second sliding block 502 slides in the track of the side surface of the second disk 5, and the second disk 5 is in a static state;

a track is arranged on one side of the second disc 5 close to the second sliding block 502, the shape of the track is the same as that of the track on the side surface of the first disc 4, and the second sliding block 502 slides in the track;

when the bevel gear 302 swings clockwise, the outer side of the bevel gear 302 is extruded to one end of the second slider 502, at this time, the side surface of the second slider 502 is attached to and extruded with the inner wall of the track of the second disc 5, and the second disc 5 can swing at an angle, which can be referred to as the description and shown in fig. 7;

the first push rod 401 and the second push rod 501, the first push rod 401 and the second push rod 501 are both arranged in an inclined manner at an angle of 25-45 degrees, the first push rod 401 and the first sliding block 402 are respectively arranged at two ends of the first disc 4, and the first push rod 501 and the second sliding block 502 are respectively arranged at two ends of the second disc 5;

wherein: the control circuit board 301 can change the rotation direction of the three-phase motor 3 by exchanging any two-phase power input, when the three-phase motor 3 rotates clockwise, the bevel gear 302 synchronously rotates clockwise, the outer side of the bevel gear 302 is extruded to one end of the second slider 502, at this time, the side surface of the second slider 502 is attached and extruded with the inner wall of the track of the second disc 5, because the single swing angle of the three-phase motor 3 is 90 degrees, the second disc 5 can swing 90 degrees at an angle, and the second push rod 501 at one end of the second disc 5 synchronously swings obliquely at an angle;

when the three-phase motor 3 rotates counterclockwise, the outer side of the bevel gear 302 is extruded to one end of the first slider 402, at this time, the side surface of the first slider 402 is attached to and extruded with the inner wall of the track of the first disc 4, and the first disc 4 can swing counterclockwise, because the outer side of the bevel gear 302 is surrounded by the tooth grooves, the second slider 502 slides inside the track of the side surface of the second disc 5, and simultaneously, because the single swing angle of the three-phase motor 3 is 90 °, after the second slider 502 slides inside the second disc 5 by 90 °, the three-phase motor 3 cannot drive the second slider 502 to slide inside the track of the second disc 5 again through the bevel gear 302, and thus the second disc 5 is in a static state at this time;

example 3: as can be seen from fig. 4 and 8 in the specification, the embodiment 3 is different from the embodiments 1 and 2 in that the swing assembly further includes a cross bar 6, a cushion block 601, a snap ring 602, and a rotary sphere 603, the rotary sphere 603 is rotatably sleeved between the cylinder 103 and the base 101, the snap ring 602 is sleeved on both sides of the rotary sphere 603, the cross bar 6 is located on one side of the snap ring 602 away from the rotary sphere 603, and the cushion block 601 is located on one end of the cross bar 6 away from the snap ring 602;

wherein: the cushion blocks 601 are positioned on two sides inside the base 101, the cushion blocks 601 are respectively connected and extruded with the first push rod 401 and the second push rod 502, the cushion blocks 601 are arranged in a trapezoidal shape, and the cushion blocks 601, the cross rod 6 and the clamp ring 602 are arranged in a matched manner;

the cushion blocks 601 at two sides of the rotating sphere 603 are in linkage relation with the first push rod 401 and the second push rod 502 respectively;

the cross bar 6 on one side of the rotary sphere 603 is connected with the first push rod 401 through a cushion block 601, the cross bar 6 on the other side of the rotary sphere 603 is connected with the second push rod 501 through the cushion block 601, and the snap rings 602 are positioned on two sides of the inner part of the base 101;

the rotating sphere 603, the rotating sphere 603 swings 360 degrees at one end of the base 101, the rotating sphere 603 is rotatably connected with the frame 1 by 360 degrees through the cylinder 103, and the rotating sphere 603 is a sphere;

wherein: when the second disc 5 obliquely swings, the second push rod 501 synchronously obliquely swings at an angle, because the cushion block 601 is in a trapezoid shape, the second push rod 501 can be obliquely extruded to one end of the cushion block 601, at this time, the cushion block 601, which is close to one side of the second push rod 501, is extruded to one side of the snap ring 602 through the cross rod 6, the snap ring 602 frictionally swings outside the rotary ball 603, the rotary ball 603 can drive the cylinder 103 and the camera 102 to angularly swing, the snap ring 602, which is far away from one side of the second push rod 603, is slidably attached to the rotary ball 603, and through the outside sliding friction of the snap ring 602 and the rotary ball 603, the rotary ball 603 can drive the frame 1 and the camera 102 to integrally and stably and slowly swing through the cylinder 103;

and first disc 4 can be anticlockwise swing, first push rod 401 is anticlockwise swing in step, because rotary sphere 603 side cushion 601 is the linkage relation with first push rod 401, first push rod 401 can be when the slope swings through the tensile one end to horizontal pole 6 of cushion 601, and horizontal pole 6 can drive rotary sphere 603 and be the friction swing near snap ring 602 of first disc 4 one side, and snap ring 602 can drive rotary sphere 603 and be the reverse swing, rotary sphere 603 can drive frame 1 and camera 102 through drum 103 and be the reverse swing, make this kind of swing subassembly can drive camera 102 through setting up single motor and be 360 swings, avoided current supervisory equipment to need set up the condition that two motors drive 360 and turn to, avoid setting up the condition that single motor easily confines to 180 turns to simultaneously.

Claims

1. The utility model provides a high definition supervisory equipment of big regional surveillance video based on artificial intelligence, includes frame (1), its characterized in that: a cylinder (103) penetrates through the end of the rack (1), one end, far away from the rack (1), of the cylinder (103) is connected with a base (101) in a swinging mode, a camera (102) and a wireless communication module (2) are arranged inside the rack (1), and the camera (102) is in signal connection with the wireless communication module (2).

2. The large-area monitoring video high-definition monitoring device based on artificial intelligence of claim 1, wherein: a storage battery (201) is arranged in the rack (1), a three-phase motor (3) and a control circuit board (301) are arranged in the base (101), and a stably-monitored swing assembly is arranged at one end, close to the cylinder (103), in the base (101);

the analysis server comprises a camera (102) and a wireless communication module (2), wherein the camera (102) is connected with an external power supply and a storage battery (201) through power lines in a loop mode, the wireless communication module (2) is connected with an analysis server through wireless signals, and the camera (102) is connected with the analysis server through the wireless communication module (2) through wireless signals.

3. The large-area monitoring video high-definition monitoring device based on artificial intelligence of claim 2, wherein: the three-phase motor (3) is connected with a loop of the control circuit board (301) through an electric wire, a coaxial position sensor is arranged inside the three-phase motor (3) and connected with the loop of the control circuit board (301) through the electric wire, and the single-time swinging angle of the three-phase motor (3) is 90 degrees;

the control circuit board (301), control circuit board (301) pass through electric wire and camera (102) return circuit connection, and control circuit board (301) are adjusted the direction of rotation and the turned angle of three-phase motor (3), and control circuit board (301) pass through wireless communication module (2) and are connected with external control end radio signal.

4. The large-area monitoring video high-definition monitoring device based on artificial intelligence of claim 2, wherein: the swing assembly comprises a bevel gear (302), a first disc (4), a first push rod (401), a first sliding block (402), a second disc (5), a second push rod (501) and a second sliding block (502), wherein the bevel gear (302) rotates at one end, close to the rack (1), of the three-phase motor (3), the first disc (4) and the second disc (5) swing at two sides, close to one end of the cylinder (103), in the base (101), the first push rod (401) and the second push rod (501) swing at one ends of the first disc (4) and the second disc (5) respectively, and the first sliding block (402) and the second sliding block (502) slide at one sides, close to the bevel gear (302), of the first disc (4) and the second disc (5) respectively.

5. The large-area monitoring video high-definition monitoring device based on artificial intelligence of claim 4, wherein: the two sides of the bevel gear (302) correspond to the first sliding block (402) and the second sliding block (502) in the same horizontal direction, the rotating direction of the bevel gear (302) is the same as that of the output end of the three-phase motor (3), and the number of tooth grooves on the outer side of the bevel gear (302) is less than 6;

the bevel gear wheel comprises a first disc (4), a track is arranged at one end, close to a first sliding block (402), of the first disc (4), the track is arranged in a semicircular arc shape, the angle of the semicircular arc is 180 degrees, the first disc (4) and a second disc (5) are uniformly distributed on two sides of a bevel gear (302), and the first sliding block (402) is located on one side inside the track.

6. The artificial intelligence based high-definition monitoring device for large-area monitoring videos as claimed in claim 4, wherein: a track is arranged on one side, close to the second sliding block (502), of the second disc (5), the track is the same as the track on the side face of the first disc (4), and the second sliding block (502) slides in the track;

when the bevel gear (302) swings clockwise, the outer side of the bevel gear (302) is extruded to one end of the second slider (502), at the moment, the side surface of the second slider (502) is attached to and extruded with the inner wall of the track of the second disc (5), and the second disc (5) can swing in an angle.

7. The large-area monitoring video high-definition monitoring device based on artificial intelligence of claim 4, wherein: the first push rod (401) and the second push rod (501) are arranged in an inclined manner at an angle of 25-45 degrees, the first push rod (401) and the first sliding block (402) are respectively arranged at two ends of the first disc (4), and the first push rod (501) and the second sliding block (502) are respectively arranged at two ends of the second disc (5).

8. The artificial intelligence based high-definition monitoring device for large-area monitoring videos as claimed in claim 2, wherein: the swing assembly further comprises a cross rod (6), a cushion block (601), a clamping ring (602) and a rotary sphere (603), the rotary sphere (603) is rotatably sleeved between the cylinder (103) and the base (101), the clamping ring (602) is sleeved on two sides of the rotary sphere (603), the cross rod (6) is located on one side, away from the rotary sphere (603), of the clamping ring (602), and the cushion block (601) is located at one end, away from the clamping ring (602), of the cross rod (6).

9. The large area surveillance video high definition monitoring device based on artificial intelligence of claim 8, characterized in that: cushion blocks (601) are located on two sides of the inner portion of the base (101), the cushion blocks (601) are respectively connected and extruded with the first push rod (401) and the second push rod (502), the cushion blocks (601) are arranged in a trapezoid mode, and the cushion blocks (601), the cross rods (6) and the clamping rings (602) are arranged in a matched mode.

10. The artificial intelligence based high-definition monitoring device for large-area monitoring videos as claimed in claim 8, wherein: the cross bar (6) on one side of the rotary sphere (603) is connected with the first push rod (401) through the cushion block (601), the cross bar (6) on the other side of the rotary sphere (603) is connected with the second push rod (501) through the cushion block (601), and the clamping rings (602) are positioned on two sides of the interior of the base (101);

the rotary sphere (603) swings at 360 degrees at one end of the base (101), and the rotary sphere (603) is rotatably connected with the rack (1) at 360 degrees through the cylinder (103).