CN114449219A - Intelligent all-dimensional safety monitoring equipment for energizing platform of park - Google Patents

Abstract

The invention relates to the technical field of monitoring equipment and discloses intelligent all-dimensional safety monitoring equipment for a park energizing platform. This be used for all-round safety monitoring equipment of garden energizing platform intelligence, through the emergence region that utilizes the acoustic control in the sense of voice module according to the outside emergency of sound monitoring, utilize the electromagnetism piece circular telegram operation of corresponding direction in the singlechip regulation and control external member, utilize the atmospheric pressure mechanism to remove the location to the camera and provide new locking mechanism, the secondary location that deflects by oneself of fast speed regulation and control camera during, thereby the convenience of equipment emergency control has been promoted, make equipment obtain very big promotion to emergency's information acquisition ability.

Description

Intelligent all-dimensional safety monitoring equipment for energizing platform of park

Technical Field

The invention relates to the technical field of monitoring equipment, in particular to intelligent all-dimensional safety monitoring equipment for a park energizing platform.

Background

At present, in order to meet the demand of users with zero basic AL in each industry on artificial intelligence product development and avoid scientific research waste, more and more AL open platforms are gradually opened for users to use, and for daily management of energized platforms in urban parks, the system needs to be matched with corresponding all-dimensional monitoring equipment to use so as to play roles in monitoring and safety management of corresponding personnel, but monitoring equipment matched with energized platforms in conventional parks only can periodically perform low-speed panoramic monitoring or background allocation monitoring automatically when running, and when emergency of the parks occurs, the monitoring equipment is difficult to rapidly and automatically adjust the direction, so that a monitoring picture is rapidly transferred to an area where the situation occurs, and the emergency picture is recorded in time.

Disclosure of Invention

In order to solve the problems that the general intelligent omnibearing safety monitoring equipment for the energizing platform of the park is not convenient to adjust in an emergency and has poor information acquisition capability of the equipment in emergency during the use process, the aim of improving the convenience of the emergency adjustment of the equipment and greatly improving the information acquisition capability of the equipment in emergency is fulfilled, and the intelligent omnibearing safety monitoring equipment is realized by the following technical scheme: an intelligent all-dimensional safety monitoring device for a park energizing platform comprises a kit, wherein the bottom of the kit is rotatably connected with a camera, the periphery of the camera is movably connected with telescopic balls, the front end of the camera is movably connected with telescopic sliding balls, the cavity wall of the kit is movably connected with a monitoring mechanism, the monitoring mechanism comprises a sound sensing module, magnetic stripes are uniformly embedded in the sound sensing module, fluid grooves are uniformly formed in the side wall of the kit, one side of each fluid groove, which is close to the telescopic balls, is slidably connected with a plug block, both sides of the inner wall of each fluid groove are slidably connected with piston rods, telescopic columns are fixedly arranged between the fluid grooves in the cavity wall of the kit, one side of each telescopic column, which is close to the camera, is fixedly connected with an electromagnetic block, and a hinge rod is movably connected between the electromagnetic block and the piston rod, the inner wall swing joint of external member has adjustment mechanism, adjustment mechanism includes the telescopic link, the telescopic link is close to one side surface at external member center has seted up curved groove, the surperficial slip of telescopic link has cup jointed flexible cover of dialling, the inner wall of external member rotates to be connected with and cup joints awl tooth cover on the telescopic link.

Further, the inner wall of external member seted up with the electromagnetism piece reaches the spout that flexible sliding bead matches to when making the electromagnetism piece keep away the position for flexible sliding bead, flexible sliding bead can the joint to the spout in, make the camera spacing.

Furthermore, the telescopic ball and the telescopic sliding ball are positioned on different horizontal planes on the camera, so that the positioning interference between the telescopic ball and the telescopic sliding ball is avoided.

Furthermore, the fluid grooves are respectively communicated, so that when two piston rods at any position are driven to penetrate into the fluid grooves, each chock block can be just moved outwards to extrude the telescopic ball, and the positioning limitation on the camera is removed.

Furthermore, after being electrified, the electromagnetic blocks are opposite to the magnetic poles of the opposite surfaces between the adjacent magnetic strips, and the magnetic blocks and the magnetic strips are mutually attracted.

Furthermore, the lateral wall of camera seted up with the recess that the external member corresponds, the awl tooth's socket has been seted up to the inner wall of recess, the awl tooth's socket with the meshing is connected between the awl tooth cover to it deflects to drive the camera when the awl tooth cover rotates to be convenient for.

Furthermore, the lateral wall of telescopic link set up with flexible the joint groove that dials the cover and correspond to flexible to when being convenient for flexible dial the cover and move to the periphery, can utilize the joint groove to stir the movable part of telescopic link and remove.

Furthermore, the telescopic shifting sleeve is movably clamped with the electromagnetic block, so that the telescopic shifting sleeve is driven to move when the electromagnetic block moves.

Furthermore, the inner wall of the conical tooth sleeve comprises a protruding part extending into the curved groove, so that when the telescopic rod is driven to contract or recover, the conical tooth sleeve can be guided to rotate correspondingly.

Compared with the prior art, the invention has the following beneficial effects:

1. the intelligent omnibearing safety monitoring equipment for the park energizing platform is characterized in that each telescopic ball on the initial camera is clamped in the fluid groove, the camera is firmly connected with the external member to ensure stable operation, when the sound sensing module detects external abnormal sound, which then automatically resolves the sound source and controls the current to be supplied to the electromagnetic block in the corresponding direction, so that the telescopic column at the position is driven to contract, the electromagnetic block is kept away from the telescopic sliding ball and exposes a chute for clamping with the telescopic sliding ball, the synchronous hinge rod drives the piston rods at two sides to penetrate into the fluid groove, so that the chock block close to the telescopic ball in the fluid groove just moves outwards based on the air pressure action to push out the telescopic ball, and then the camera is completely and quickly removed from limitation, and the synchronization is provided with a repositioning condition, so that the design improves the convenience of emergency adjustment of the equipment.

2. The intelligent omnibearing safety monitoring equipment for the park energizing platform is driven by the electromagnetic block at the corresponding position to drive the telescopic shifting sleeve to displace, the movable part of the telescopic rod is driven by the telescopic shifting sleeve to move out of the inner cavity of the bevel gear sleeve, and the bevel gear sleeve is driven to deflect at the same time, under the guidance of the cone tooth groove in the inner wall of the camera, the camera rapidly rotates, so that the telescopic sliding ball consistent with the shooting direction is clamped in the sliding groove avoided by the electromagnetic block, because the position of the chute for clamping the telescopic sliding ball is not fixed according to the actual situation, the final moving distance of the telescopic sliding ball is different, but the displacement distance of the electromagnetic block completely meets the requirement, when the telescopic sliding ball is limited by the sliding groove, the conical tooth sleeve can stop rotating, the telescopic performance of the telescopic shifting sleeve can meet the requirement of continuous movement of the electromagnetic block, the design greatly improves the information acquisition capacity of the equipment for emergency situations.

Drawings

FIG. 1 is a top cross-sectional view of the present invention;

FIG. 2 is a front view of the present invention;

FIG. 3 is an enlarged view taken at A in FIG. 1;

FIG. 4 is a top cross-sectional view of the attachment portion of the extension pole of the present invention;

fig. 5 is a schematic diagram of an electrical control structure according to the present invention.

In the figure: 1. a kit; 2. a camera; 3. a telescopic ball; 4. a telescopic sliding ball; 5. a monitoring mechanism; 51. a sound sensing module; 52. a magnetic strip; 53. a fluid tank; 54. a chock block; 55. a piston rod; 56. a telescopic column; 57. an electromagnetic block; 58. a hinged lever; 6. an adjustment mechanism; 61. a telescopic rod; 62. a curved groove; 63. a telescopic shifting sleeve; 64. a taper gear sleeve.

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, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

This an embodiment for park enables all-round safety monitoring equipment of platform intelligence as follows:

referring to fig. 1-5, an intelligent omnibearing safety monitoring device for a park energizing platform comprises a kit 1, wherein a chute matched with an electromagnetic block 57 and a telescopic sliding ball 4 is formed in the inner wall of the kit 1, so that when the electromagnetic block 57 is kept away from the telescopic sliding ball 4, the telescopic sliding ball 4 can be clamped in the chute, and a camera 2 is limited.

The bottom of external member 1 is rotated and is connected with camera 2, and the recess that corresponds with external member 1 has been seted up to the lateral wall of camera 2, and the awl tooth's socket has been seted up to the inner wall of recess, and the meshing is connected between awl tooth's socket and the awl tooth cover 64 to it deflects to be convenient for drive camera 2 when awl tooth cover 64 rotates.

The swing joint all around of camera 2 has flexible ball 3, and flexible ball 3 is in the different horizontal planes with flexible ball 4 on camera 2 to avoid the two to appear positioning interference.

The front end swing joint of camera 2 has flexible sliding ball 4, the chamber wall swing joint of external member 1 has monitoring mechanism 5, monitoring mechanism 5 includes sound sensing module 51, sound sensing module 51 includes the acoustic control, the singlechip and be used for providing the switch SB of corresponding electromagnetism piece 57 circular telegram, magnetic stripe 52 has evenly been buried underground in sound sensing module 51's inside, fluid groove 53 has evenly been seted up to the lateral wall inside of external member 1, link up respectively between the fluid groove 53, thereby when making two piston rods 55 of arbitrary department driven go deep into fluid groove 53, can just make each chock 54 outwards remove, extrude flexible ball 3, in order to relieve the location restriction to camera 2.

One side sliding connection that fluid groove 53 is close to flexible ball 3 has chock 54, the equal sliding connection in inner wall both sides of fluid groove 53 has piston rod 55, fixed mounting has flexible post 56 between the chamber wall fluid groove 53 of external member 1, one side fixed connection that flexible post 56 is close to camera 2 has electromagnetic block 57, the magnetic pole of the face relative between the circular telegram back of electromagnetic block 57 and the adjacent magnetic stripe 52 is opposite, the two attracts each other, swing joint has hinge bar 58 between electromagnetic block 57 and the piston rod 55.

By clamping the telescopic balls 3 on the initial camera 2 in the fluid groove 53, the camera 2 is stably connected with the kit 1 to ensure stable operation, and when the sound sensing module 51 detects external abnormal sound, which in turn automatically resolves the sound source and controls the passage of current to the electromagnetic block 57 in the corresponding direction, so that the telescopic column 56 therein is driven to contract, the electromagnetic block 57 is kept away from the telescopic sliding ball 4 and exposes a chute for clamping with the telescopic sliding ball 4, the synchronous hinge rod 58 drives the piston rods 55 at two sides to go deep into the fluid groove 53, so that the stopper 54 in the fluid groove 53, which is close to the ball 3, moves outward just based on the air pressure to push the ball 3 out, at which point the camera 2 is completely and rapidly released from the restriction, and the synchronization is provided with a repositioning condition, so that the design improves the convenience of emergency adjustment of the equipment.

The inner wall swing joint of external member 1 has adjustment mechanism 6, and adjustment mechanism 6 includes telescopic link 61, and the joint groove that corresponds with flexible cover 63 of dialling is seted up to the lateral wall of telescopic link 61 to when being convenient for flexible cover 63 of dialling removes to the periphery, can utilize the joint groove to stir the movable part of telescopic link 61 and remove.

The telescopic link 61 is close to the side surface at external member 1 center and has been seted up curved groove 62, and telescopic link 61's surperficial slip has been cup jointed and has been stretched out and drawn back and dial cover 63, and flexible group cover 63 and the electromagnetism piece 57 between the activity joint of dialling to be convenient for utilize the flexible cover 63 displacement of dialling of drive when electromagnetism piece 57 removes.

The inner wall of the kit 1 is rotatably connected with a bevel gear sleeve 64 sleeved on the telescopic rod 61, the inner wall of the bevel gear sleeve 64 comprises a convex part extending into the curved groove 62, so that when the telescopic rod 61 is driven to contract or recover, the bevel gear sleeve 64 can be guided to rotate correspondingly, the electromagnetic block 57 at the corresponding position is driven to drive the telescopic shifting sleeve 63 to displace, the movable part of the telescopic rod 61 is driven by the telescopic shifting sleeve 63 to move out of an inner cavity of the bevel gear sleeve 64, the bevel gear sleeve 64 is driven to deflect at the same time, under the guidance of the bevel gear groove in the inner wall of the camera 2, the camera 2 rotates rapidly, the telescopic sliding ball 4 in the same shooting direction is clamped into a sliding groove which is kept away by the electromagnetic block 57, and the sliding groove position for clamping the telescopic sliding ball 4 is not fixed according to the actual situation, so that the final distance for moving the telescopic sliding ball 4 is different, but the displacement distance of the electromagnetic block 57 completely meets the requirement, and when the telescopic sliding ball 4 is limited by the sliding groove, the bevel gear sleeve 64 can stop rotating, and the telescopic performance of the telescopic shifting sleeve 63 can meet the requirement of continuous movement of the electromagnetic block 57, so that the information acquisition capacity of the equipment for emergency is greatly improved.

The working principle is as follows: when in use, each telescopic ball 3 on the initial camera 2 is clamped in the fluid groove 53, the camera 2 is stably connected with the kit 1 to ensure stable operation, when the sound sensing module 51 detects an external abnormal sound such as noise or the camera 2 is impacted by a foreign object to generate sound, the sound sensing module automatically analyzes the sound source and controls the electromagnetic block 57 with the best fitting degree in the corresponding direction to be electrified, so that the telescopic column 56 at the position is driven to contract, the electromagnetic block 57 is kept away from the telescopic sliding ball 4 and is opened out of the sliding groove for being clamped with the telescopic sliding ball 4, the synchronous hinge rod 58 drives the piston rods 55 at two sides to penetrate into the fluid groove 53, the plug block 54 close to the telescopic ball 3 in the fluid groove 53 is just moved outwards based on the air pressure effect to push out the telescopic ball 3, at the moment, the camera 2 is completely cancelled to be limited, and is synchronously provided with a quick re-positioning condition, the design improves the convenience of emergency adjustment of the equipment, when the electromagnetic block 57 at any position is driven to compress the telescopic column 56, the corresponding telescopic shifting sleeve 63 can be driven to displace, based on the effect of the clamping groove on the side wall of the telescopic rod 61, the movable part of the telescopic rod 61 is driven by the telescopic shifting sleeve 63 to move out of the inner cavity of the bevel sleeve 64, and because the inner wall of the bevel sleeve 64 comprises a convex part extending to the curved groove 62 on the movable part of the telescopic rod 61, the bevel sleeve 64 is driven to deflect, under the guidance of the bevel groove in the inner wall of the camera 2, the camera 2 can rapidly rotate, so that the telescopic sliding ball 4 consistent with the camera shooting direction is finally and rapidly clamped in the sliding groove kept away by the electromagnetic block 57, the camera 2 can monitor the sound source direction, and the bevel sleeves 64 at other positions reversely drive the corresponding movable parts of the telescopic rod 61 to perform displacement motion without influencing the transposition of the camera 2, because the spout position that supplies flexible ball 4 joint is according to actual conditions non-fixed, consequently the final distance that flexible ball 4 removed differs, but the displacement distance of electromagnetism piece 57 satisfies this demand completely, and when flexible ball 4 is restricted by the spout after, awl tooth cover 64 also can the stall promptly, and the flexible performance of dialling cover 63 then can satisfy the continuation removal demand of electromagnetism piece 57, thereby this design makes equipment obtain very big promotion to emergency's information acquisition ability.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides an all-round safety monitoring equipment of platform intelligence for energizing in garden, includes external member (1), its characterized in that: the bottom of the external member (1) is rotatably connected with a camera (2), the periphery of the camera (2) is movably connected with telescopic balls (3), the front end of the camera (2) is movably connected with a telescopic sliding ball (4), the cavity wall of the external member (1) is movably connected with a monitoring mechanism (5), the monitoring mechanism (5) comprises a sound sensing module (51), magnetic stripes (52) are uniformly embedded in the sound sensing module (51), fluid grooves (53) are uniformly formed in the side wall of the external member (1), one side of each fluid groove (53) close to the telescopic balls (3) is slidably connected with a plug block (54), both sides of the inner wall of each fluid groove (53) are slidably connected with piston rods (55), telescopic columns (56) are fixedly installed between the fluid grooves (53) in the cavity wall of the external member (1), and one side of each telescopic column (56) close to the camera (2) is fixedly connected with an electromagnetic block (57), electromagnetic piece (57) with swing joint has hinge bar (58) between piston rod (55), the inner wall swing joint of external member (1) has adjustment mechanism (6), adjustment mechanism (6) include telescopic link (61), telescopic link (61) are close to curved groove (62) have been seted up to one side surface at external member (1) center, the surface slip of telescopic link (61) has been cup jointed and has been stretched out and draw back cover (63), the inner wall of external member (1) rotates to be connected with and cup joints awl tooth cover (64) on telescopic link (61).

2. The intelligent all-directional safety monitoring device for park enabling platform according to claim 1, characterized in that: the inner wall of the sleeve piece (1) is provided with a sliding groove matched with the electromagnetic block (57) and the telescopic sliding ball (4).

3. The intelligent all-directional safety monitoring device for park enabling platform according to claim 1, characterized in that: the telescopic ball (3) and the telescopic sliding ball (4) are positioned on different horizontal planes on the camera (2).

4. The intelligent all-directional safety monitoring device for park enabling platform according to claim 1, characterized in that: the fluid grooves (53) are connected in a penetrating manner.

5. The intelligent all-directional safety monitoring device for park enabling platform according to claim 1, characterized in that: the electromagnet blocks (57) are electrified to be opposite to the magnetic poles of the opposite surfaces between the adjacent magnetic strips (52).

6. The intelligent all-directional safety monitoring device for park enabling platform according to claim 1, characterized in that: the lateral wall of camera (2) seted up with the recess that external member (1) corresponds, the inner wall of recess has seted up the awl tooth socket, the awl tooth socket with the meshing is connected between the awl tooth cover (64).

7. The intelligent all-directional safety monitoring device for park enabling platform according to claim 1, characterized in that: the side wall of the telescopic rod (61) is provided with a clamping groove corresponding to the telescopic shifting sleeve (63).

8. The intelligent all-directional safety monitoring device for park enabling platform according to claim 1, characterized in that: the telescopic shifting sleeve (63) is movably clamped with the electromagnetic block (57).

9. The intelligent all-directional safety monitoring device for park enabling platform according to claim 1, characterized in that: the inner wall of the bevel sleeve (64) comprises a protruding part extending into the curved groove (62).

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