CN117979134A

CN117979134A - On-line monitoring device for power supply and distribution system equipment

Info

Publication number: CN117979134A
Application number: CN202410384275.3A
Authority: CN
Inventors: 姚成; 郭杰; 刘宇
Original assignee: Heilongjiang Gangdao Technology Co ltd
Current assignee: Heilongjiang Gangdao Technology Co ltd
Priority date: 2024-04-01
Filing date: 2024-04-01
Publication date: 2024-05-03
Anticipated expiration: 2044-04-01
Also published as: CN117979134B

Abstract

The invention relates to the technical field of monitoring devices, in particular to an on-line monitoring device for electric power supply and distribution system equipment, which comprises a hoop, an adjusting structure, a protection structure, a telescopic structure, a rotating structure, an installing structure and a camera.

Description

On-line monitoring device for power supply and distribution system equipment

Technical Field

The invention relates to the technical field of monitoring devices, in particular to an on-line monitoring device for electric power supply and distribution system equipment.

Background

The power supply and distribution system is a power network system which is composed of various power distribution equipment and power distribution facilities, converts voltage and directly distributes electric energy to terminal users, monitors the power equipment through a monitoring camera in the inspection process, transmits monitoring signals through the connection of the monitoring camera with an external application server and a monitoring terminal, and achieves on-line monitoring of the power distribution equipment.

However, in the conventional camera mounting process, the support frame is usually fixed on the telegraph pole by using the anchor ear, and the camera is mounted on the support frame by using the bolt, when the mounting direction of the camera needs to be adjusted, the anchor ear needs to be repeatedly dismounted and mounted, so that the mounting efficiency is low, and the flexibility is poor;

the camera is usually directly arranged on the support frame, but because the length of the support frame is fixed, when the view angle of the bottom end of the camera is shielded by other electrical components, the monitoring range of the camera can be directly influenced, and the flexibility is poor;

In the process of installing the camera, the camera is usually fixed on the support frame by using the bolts, however, the bolt connection part is directly exposed to the outside, the sealing effect is poor, the bolts are easy to rust, the stability is influenced, and the disassembly is inconvenient.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides an on-line monitoring device for electric power supply and distribution system equipment.

The technical scheme adopted for solving the technical problems is as follows: an on-line monitoring device for electric power supply and distribution system equipment comprises a hoop, an adjusting structure arranged on the hoop, a protection structure connected with the hoop, a telescopic structure arranged on the adjusting structure, a rotating structure arranged on the telescopic structure, a mounting structure arranged on the rotating structure and a camera connected with the mounting structure;

The adjusting structure comprises a guide rail and a first limit groove formed in the guide rail, the guide rail is fixedly connected to the anchor ear, a sliding block is connected to the guide rail in a sliding mode, a first bolt is connected to the sliding block in a threaded mode, a connecting clamp is connected to the first bolt in a rotating mode, the connecting clamp is abutted to the guide rail, a first screw rod is connected to the sliding block in a threaded mode, a first rubber pad is connected to the bottom end of the first screw rod in a rotating mode, the first rubber pad is connected to the sliding block in a sliding mode, and the first rubber pad is abutted to the first limit groove.

Specifically, fixedly connected with guide bar on the slider, sliding connection has the joining clip on the guide bar, the cross-section of slider is "protruding" font structure, the cross-section of guide rail is trapezium structure.

Specifically, the protective structure comprises a protective sleeve and a connecting rod sliding on the protective sleeve, the protective sleeve is connected to the anchor ear in a sliding mode, the opening of the left end of the anchor ear is fixed through a second bolt, a first stop block is fixedly connected to the connecting rod, a first spring is fixedly connected between the first stop block and the protective sleeve, the connecting rod is of an L-shaped structure, the first stop block is clamped to the second bolt, and the side wall of the protective sleeve is abutted to the second bolt.

Specifically, the extending structure comprises a first supporting rod and a second limiting groove formed in the first supporting rod, the first supporting rod is fixedly connected to the sliding block, the second supporting rod is connected to the first supporting rod in a sliding mode, a second screw rod is connected to the second supporting rod in a threaded mode, a second rubber pad is connected to the second screw rod in a rotating mode, and the second rubber pad abuts against the second limiting groove.

Specifically, fixedly connected with sealing block on the second bracing piece, sealing block sliding connection is in the second spacing groove, the drive hole has been seted up on the second lead screw, be connected with sealed lid on the second bracing piece.

Specifically, the rotating structure comprises a first rotating shaft and a supporting frame fixed on the first rotating shaft, the second supporting rod is rotationally connected with the first rotating shaft, a first limiting block is slidably connected to the first rotating shaft and is clamped to the second supporting rod, a first sliding rod is fixedly connected to the first limiting block, the first sliding rod is slidably connected to the first rotating shaft, and a second spring is fixedly connected between the first limiting block and the first rotating shaft.

Specifically, fixedly connected with two second pivots on the support frame, one sliding connection has the second stopper in the second pivot, the second stopper block is in the rotating block, the rotating block rotates to be connected in the second pivot, fixedly connected with second slide bar on the second stopper, second slide bar sliding connection is in the second pivot, fixedly connected with third spring between second stopper and the second pivot.

Specifically, first connecting hole and second connecting hole have been seted up respectively on first slide bar and the second slide bar, first stopper and second stopper are the gear-type structure, be equipped with mounting structure on the turning block.

Specifically, mounting structure includes the mount pad and is fixed in the installation pole on the mount pad, fixedly connected with mount pad on the rotating block, the top fixedly connected with second dog of mount pole, mutual block between the fixed slot of seting up on mount pad and the spliced pole, the butt joint hole has been seted up on the spliced pole, the butt joint hole communicates in the fixed slot, sliding connection has spacing on the spliced pole, fixedly connected with third stopper on the spacing, third stopper sliding connection is in the spliced pole, fixedly connected with fourth spring between third stopper and the spliced pole.

Specifically, the mount pad is the hexagon structure, the second dog is round platform shape structure, the third stopper is trapezium structure, install the camera on the spliced pole.

The beneficial effects of the invention are as follows:

(1) According to the on-line monitoring device for the electric power supply and distribution system equipment, the adjusting structure is arranged on the anchor ear, the installation direction of the camera is convenient to freely adjust, repeated disassembly and installation of the anchor ear during adjustment of the installation direction of the camera are avoided, the operation efficiency is improved, and the flexibility is high.

(2) According to the on-line monitoring device for the electric power supply and distribution system equipment, the hoop is matched with the protection structure, the protection structure can effectively solve the problem that the bolts rust due to exposure to the outside, the service life of the bolts is prolonged, and the stability is improved.

(3) According to the on-line monitoring device for the electric power supply and distribution system equipment, the telescopic structure is arranged on the adjusting structure, the position of the camera can be freely adjusted through the arrangement of the telescopic structure, the problem that the monitoring range is affected due to the fact that the bottom of the camera is shielded is avoided, and the flexibility is high.

(4) According to the on-line monitoring device for the electric power supply and distribution system equipment, the rotating structure is arranged on the telescopic structure, the arrangement of the rotating structure is convenient for adjusting the monitoring visual angle of the camera, and the problem that the monitoring visual angle of the camera is limited due to the fact that the direction of the mounting frame is constant is solved.

(5) According to the on-line monitoring device for the electric power supply and distribution system equipment, the installation structure is arranged on the rotating structure and is matched with the camera, the camera is convenient to detach due to the arrangement of the installation structure, and the dismounting efficiency of the camera is improved.

Drawings

The invention will be further described with reference to the drawings and examples.

FIG. 1 is a schematic diagram of an on-line monitoring device for an electric power supply and distribution system according to an embodiment of the present invention;

FIG. 2 is an enlarged schematic view of the portion A shown in FIG. 1;

FIG. 3 is a schematic structural view of the protective structure of the present invention;

FIG. 4 is a schematic view of a connection structure between a rotating structure and a mounting structure according to the present invention;

FIG. 5 is a schematic view of a connection structure between a support frame and a first shaft according to the present invention;

FIG. 6 is a schematic diagram of a connection structure of a connection post and a limit bar according to the present invention;

FIG. 7 is a schematic view of the telescopic structure of the present invention;

FIG. 8 is an enlarged schematic view of the structure of the portion B shown in FIG. 7;

FIG. 9 is an enlarged schematic view of the structure of the portion C shown in FIG. 7;

FIG. 10 is a schematic structural view of an adjustment structure of the present invention;

Fig. 11 is a schematic diagram of a connection structure between the anchor ear and the guide rail according to the present invention.

In the figure: 1. a hoop; 2. an adjustment structure; 201. a guide rail; 202. a first limit groove; 203. a slide block; 204. a connecting clip; 205. a first bolt; 206. a guide rod; 207. a first screw rod; 208. a first rubber pad; 3. a protective structure; 301. a protective sleeve; 302. a connecting rod; 303. a first stopper; 304. a first spring; 305. a second bolt; 4. a telescopic structure; 401. a first support bar; 402. the second limit groove; 403. a second support bar; 404. a sealing block; 405. a second screw rod; 406. a second rubber pad; 407. a drive hole; 408. sealing cover; 5. a rotating structure; 501. a first rotating shaft; 502. a support frame; 503. a first slide bar; 504. a first limiting block; 505. a second spring; 506. a first connection hole; 507. a second rotating shaft; 508. a second slide bar; 509. a second limiting block; 510. a third spring; 511. a second connection hole; 512. a rotating block; 6. a mounting structure; 601. a mounting base; 602. a mounting rod; 603. a second stopper; 604. a connecting column; 605. a butt joint hole; 606. a fixing groove; 607. a limit bar; 608. a third limiting block; 609. a fourth spring; 7. a camera is provided.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

As shown in fig. 1 to 11, the on-line monitoring device for electric power supply and distribution system equipment according to the present invention includes a hoop 1, an adjusting structure 2 provided on the hoop 1, a protecting structure 3 connected to the hoop 1, a telescopic structure 4 mounted on the adjusting structure 2, a rotating structure 5 provided on the telescopic structure 4, a mounting structure 6 mounted on the rotating structure 5, and a camera 7 connected to the mounting structure 6; the adjusting structure 2 comprises a guide rail 201 and a first limit groove 202 formed in the guide rail 201, the guide rail 201 is fixedly connected to the anchor ear 1, a sliding block 203 is connected to the guide rail 201 in a sliding mode, a first bolt 205 is connected to the sliding block 203 in a threaded mode, a connecting clamp 204 is connected to the first bolt 205 in a rotating mode, the connecting clamp 204 abuts against the guide rail 201, a first screw rod 207 is connected to the sliding block 203 in a threaded mode, a first rubber pad 208 is connected to the bottom end of the first screw rod 207 in a rotating mode, the first rubber pad 208 is connected to the sliding block 203 in a sliding mode, the first rubber pad 208 abuts against the first limit groove 202, a guide rod 206 is fixedly connected to the sliding block 203, the connecting clamp 204 is connected to the guide rod 206 in a sliding mode, the section of the sliding block 203 is of a convex structure, and the section of the guide rail 201 is of a trapezoid structure; the distance between the connecting clamp 204 and the sliding block 203 is adjusted by rotating the first bolt 205, the guide rail 201 is placed in a gap between the sliding block 203 and the connecting clamp 204, the connecting clamp 204 is driven to clamp the guide rail 201 by reversely rotating the first bolt 205, the guide rod 206 is arranged to improve stability of the connecting clamp 204 in the moving process, the sliding block 203 is further effectively installed on the guide rail 201, when the installation direction of the camera 7 needs to be adjusted, the sliding block 203 is slid to a proper position along the guide rail 201, the first lead screw 207 is rotated, the first lead screw 207 drives the first rubber pad 208 to slide downwards until the first rubber pad 208 is mutually abutted against the inner wall of the first limiting groove 202, so that fixation of the sliding block 203 is realized, stability is high, meanwhile, different installation directions of the camera 7 can be freely adjusted, repeated disassembly of the hoop 1 is avoided, installation efficiency is improved, and flexibility is high.

Specifically, the protection structure 3 includes a protection sleeve 301 and a connecting rod 302 sliding on the protection sleeve 301, the protection sleeve 301 is slidably connected on the anchor ear 1, the opening at the left end of the anchor ear 1 is fixed by a second bolt 305, a first stop block 303 is fixedly connected on the connecting rod 302, a first spring 304 is fixedly connected between the first stop block 303 and the protection sleeve 301, the connecting rod 302 is in an L-shaped structure, the first stop block 303 is clamped on the second bolt 305, and the side wall of the protection sleeve 301 is abutted against the second bolt 305; install staple bolt 1's left end opening part on the wire pole through second bolt 305, outwards pulling connecting rod 302 again, and then connecting rod 302 drives first dog 303 compression first spring 304, cup joint lag 301 on second bolt 305 again, and loosen connecting rod 302, drive first dog 303 and remove until cup jointing on second bolt 305 under the reset action of first spring 304, and the other end of second bolt 305 is contradicted in lag 301's lateral wall, thereby effectually fix lag 301, avoid second bolt 305 to rust the damage because of exposing in the external world for a long time.

Specifically, the telescopic structure 4 includes a first support rod 401 and a second limit groove 402 formed in the first support rod 401, the first support rod 401 is fixedly connected to the slider 203, a second support rod 403 is slidably connected to the first support rod 401, a second screw rod 405 is threadably connected to the second support rod 403, a second rubber pad 406 is rotatably connected to the second screw rod 405, the second rubber pad 406 abuts against the second limit groove 402, a sealing block 404 is fixedly connected to the second support rod 403, the sealing block 404 is slidably connected to the second limit groove 402, a driving hole 407 is formed in the second screw rod 405, and a sealing cover 408 is connected to the second support rod 403; if there is the shelter from the thing in the visual field of camera 7 bottom, aim at drive hole 407 with interior hexagonal spanner, rotate second lead screw 405, because threaded connection between second lead screw 405 and the second bracing piece 403, the sealed lid 408 that second bracing piece 403 bottom set up can play waterproof effect, and then drive second rubber pad 406 and outwards remove, this moment second rubber pad 406 no longer contradicts with second spacing groove 402, alright pulling second bracing piece 403, the leakproofness inside second spacing groove 402 can be guaranteed to the fixed sealing block 404 of second bracing piece 403 end, avoid influencing second bracing piece 403 and slide because of second spacing groove 402 takes place to block up, after second bracing piece 403 slides to suitable position, the fixed to second bracing piece 403 can be realized to the second lead screw 405 of reverse rotation again, and stability is strong, and the position of camera 7 is convenient for adjust, the flexibility is strong.

Specifically, the rotating structure 5 includes a first rotating shaft 501 and a supporting frame 502 fixed on the first rotating shaft 501, the second supporting rod 403 is rotatably connected with the first rotating shaft 501, the first rotating shaft 501 is slidably connected with a first limiting block 504, the first limiting block 504 is clamped on the second supporting rod 403, the first limiting block 504 is fixedly connected with a first sliding rod 503, the first sliding rod 503 is slidably connected with the first rotating shaft 501, a second spring 505 is fixedly connected between the first limiting block 504 and the first rotating shaft 501, two second rotating shafts 507 are fixedly connected on the supporting frame 502, a second limiting block 509 is slidably connected on one second rotating shaft 507, the second limiting block 509 is clamped on a rotating block 512, the rotating block 512 is rotatably connected with the second rotating shaft 507, a second sliding rod 508 is fixedly connected on the second limiting block 509, a third spring 510 is fixedly connected between the second limiting block 509 and the second rotating shaft 507, the first sliding rod 503 and the second sliding rod 508 are respectively provided with a first connecting hole 506 and a second connecting hole 512, and the first connecting hole 511 are respectively formed in the first rotating structure; the installation angle can be adjusted through the first rotating shaft 501 when the camera 7 is installed, and further, the monitoring visual angle of the camera 7 is prevented from being limited due to the fact that the direction of the first supporting rod 401 is constant, a screwdriver is only required to be inserted into the first connecting hole 506 on the first sliding rod 503, the first sliding rod 503 is lifted upwards again, the first sliding rod 503 drives the gear-shaped first limiting block 504 to slide upwards, the second spring 505 is compressed, then the supporting frame 502 is rotated, after the first sliding rod 503 is rotated to a proper position, the first sliding rod 503 is loosened again, then the first limiting block 504 of the gear shape is driven to be clamped with the grooves formed in the second supporting rod 403 again, the angle adjusting range is enlarged due to the fact that the first limiting block 504 and the grooves are gear-shaped, the screwdriver is inserted into the second connecting hole 511 to adjust the vertical angle of the camera 7, the second sliding rod 508 is pulled outwards, the second limiting block 509 is driven to slide outwards until the second limiting block 509 is no longer clamped with the gear-shaped grooves formed in the rotating block 512, the rotating block 512 is driven to rotate with the second rotating shaft 507, the rotating block 502 can be further rotated, the first limiting block 512 can be adjusted through the rotating block 512, the angle of the rotating block 7 can be reset, the angle of the camera can be adjusted again, and the camera can be adjusted, and the camera 7 can be reset after the angle of the rotating block is reset, and the rotating block 510 can be adjusted.

Specifically, the mounting structure 6 includes a mounting seat 601 and a mounting rod 602 fixed on the mounting seat 601, the mounting seat 601 is fixedly connected to the rotating block 512, a second stop block 603 is fixedly connected to the top end of the mounting rod 602, the mounting seat 601 is mutually clamped with a fixing groove 606 formed in a connecting column 604, a butt joint hole 605 is formed in the connecting column 604, the butt joint hole 605 is communicated with the fixing groove 606, a limit bar 607 is slidably connected to the connecting column 604, a third limit block 608 is fixedly connected to the limit bar 607, a third limit block 608 is slidably connected to the connecting column 604, a fourth spring 609 is fixedly connected between the third limit block 608 and the connecting column 604, the mounting seat 601 is of a hexagonal structure, the second stop block 603 is of a truncated cone structure, the third limit block 608 is of a trapezoid structure, and a camera 7 is mounted on the connecting column 604; when the camera 7 is damaged and needs to be disassembled and maintained, only the two limiting strips 607 are pulled outwards, the limiting strips 607 further drive the third limiting block 608 to slide inwards and compress the fourth spring 609, at the moment, the third limiting block 608 does not contact the second limiting block 603 any more, the camera 7 is lifted upwards, the mounting rod 602 and the second limiting block 603 are separated from the inside of the butt joint hole 605, at the moment, the camera 7 can be disassembled from the rotating block 512 and maintained, after the maintenance is completed, the second limiting block 603 is aligned with the butt joint hole 605, the second limiting block 603 contacts the inclined surface of the third limiting block 608 and drives the third limiting block 608 to slide inwards, and when the fixing groove 606 at the bottom end of the connecting column 604 is completely clamped between the mounting seat 601 and the fixing groove 606, the third limiting block 608 slides outwards under the reset action of the fourth spring 609 and contacts the bottom end of the second limiting block 603, the disassembly and the installation of the camera 7 are completed, repeated disassembly bolts are avoided, and the disassembly and assembly efficiency is improved.

When the electric pole protection sleeve is used, the opening at the left end of the anchor ear 1 is arranged on the electric pole through the second bolt 305, the connecting rod 302 is pulled outwards, the connecting rod 302 drives the first stop block 303 to compress the first spring 304, the protection sleeve 301 is sleeved on the second bolt 305, the connecting rod 302 is loosened, the first stop block 303 is driven to move until being sleeved on the second bolt 305 under the reset action of the first spring 304, and the other end of the second bolt 305 is abutted against the side wall of the protection sleeve 301, so that the protection sleeve 301 is effectively fixed, and the protection sleeve 305 is prevented from being rusted and damaged due to long-time exposure to the outside;

The distance between the connecting clamp 204 and the sliding block 203 is adjusted by rotating the first bolt 205, the guide rail 201 is placed in a gap between the sliding block 203 and the connecting clamp 204, the connecting clamp 204 is driven to clamp the guide rail 201 by reversely rotating the first bolt 205, the guide rod 206 is arranged to improve stability of the connecting clamp 204 in the moving process, the sliding block 203 is effectively arranged on the guide rail 201, when the installation direction of the camera 7 needs to be adjusted, the sliding block 203 is slid to a proper position along the guide rail 201, the first lead screw 207 is rotated, the first lead screw 207 drives the first rubber pad 208 to slide downwards until the first rubber pad 208 is mutually abutted against the inner wall of the first limiting groove 202, so that fixation of the sliding block 203 is realized, stability is strong, meanwhile, different installation directions of the camera 7 can be freely adjusted, repeated disassembly of the hoop 1 is avoided, installation efficiency is improved, and flexibility is strong;

If a shielding object exists in the visual field range of the bottom end of the camera 7, the inner hexagonal wrench is aligned to the driving hole 407, the second screw rod 405 is rotated, as the second screw rod 405 is in threaded connection with the second supporting rod 403, the sealing cover 408 arranged at the bottom end of the second supporting rod 403 can play a waterproof role, so that the second rubber pad 406 is driven to move outwards, at the moment, the second rubber pad 406 does not collide with the second limiting groove 402 any more, the second supporting rod 403 can be pulled, the sealing property inside the second limiting groove 402 can be ensured by the sealing block 404 fixed at the tail end of the second supporting rod 403, the second supporting rod 403 is prevented from being influenced to slide due to the blocking of the second limiting groove 402, after the second supporting rod 403 slides to a proper position, the second screw rod 405 is reversely rotated, the second supporting rod 403 can be fixed, the stability is strong, the position of the camera 7 is convenient to adjust, and the flexibility is strong;

When the camera 7 is installed, the installation angle can be adjusted through the first rotating shaft 501, the monitoring view angle of the camera 7 is prevented from being limited because the direction of the first supporting rod 401 is constant, the first connecting hole 506 on the first sliding rod 503 is inserted by using a screwdriver, the first sliding rod 503 is lifted upwards, the first sliding rod 503 drives the gear-shaped first limiting block 504 to slide upwards, the second spring 505 is compressed, the supporting frame 502 is rotated, the first sliding rod 503 is loosened after the supporting frame 502 is rotated to a proper position, the first limiting block 504 and the grooves formed in the gear-shaped first limiting block 504 and the second supporting rod 403 are further clamped again, the angle adjusting range is enlarged because the first limiting block 504 and the grooves are in a gear shape, the vertical angle of the camera 7 is adjusted by inserting the screwdriver into the second connecting hole 511, the second sliding rod 508 is pulled outwards, the second limiting block 509 is driven to slide outwards until the second limiting block 509 is no longer clamped with the gear-shaped grooves in the rotating block 512, the rotating block 512 is driven to rotate with the second rotating shaft 507, the angle of the first limiting block 504 and the second rotating block 507 can be further clamped with the second limiting block 512 through the rotating block 512 in a vertical direction, the angle adjusting function of the camera 7 is reset, and the angle of the camera 7 can be adjusted;

When the camera 7 is damaged and needs to be disassembled and maintained, only the two limiting strips 607 are pulled outwards, the limiting strips 607 further drive the third limiting block 608 to slide inwards and compress the fourth spring 609, at the moment, the third limiting block 608 does not contact the second limiting block 603 any more, the camera 7 is lifted upwards, the mounting rod 602 and the second limiting block 603 are separated from the inside of the butt joint hole 605, at the moment, the camera 7 can be disassembled from the rotating block 512 and maintained, after the maintenance is completed, the second limiting block 603 is aligned with the butt joint hole 605, the second limiting block 603 contacts the inclined surface of the third limiting block 608 and drives the third limiting block 608 to slide inwards, and when the fixing groove 606 at the bottom end of the connecting column 604 is completely clamped between the mounting seat 601 and the fixing groove 606, the third limiting block 608 slides outwards under the reset action of the fourth spring 609 and contacts the bottom end of the second limiting block 603, the disassembly and the installation of the camera 7 are completed, repeated disassembly bolts are avoided, and the disassembly and assembly efficiency is improved.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims

1. The on-line monitoring device for the electric power supply and distribution system equipment is characterized by comprising a hoop (1), an adjusting structure (2) arranged on the hoop (1), a protection structure (3) connected with the hoop (1), a telescopic structure (4) arranged on the adjusting structure (2), a rotating structure (5) arranged on the telescopic structure (4), a mounting structure (6) arranged on the rotating structure (5) and a camera (7) connected with the mounting structure (6);

The adjusting structure (2) comprises a guide rail (201) and a first limit groove (202) formed in the guide rail (201), the guide rail (201) is fixedly connected to the anchor ear (1), a sliding block (203) is connected to the guide rail (201) in a sliding mode, a first bolt (205) is connected to the sliding block (203) in a threaded mode, a connecting clamp (204) is connected to the first bolt (205) in a rotating mode, the connecting clamp (204) is abutted to the guide rail (201), a first screw rod (207) is connected to the sliding block (203) in a threaded mode, a first rubber pad (208) is connected to the bottom end of the first screw rod (207) in a rotating mode, and the first rubber pad (208) is connected to the sliding block (203) in a sliding mode and is abutted to the first limit groove (202).

2. An on-line monitoring device for an electrical power supply and distribution system apparatus as recited in claim 1, wherein: the guide rod (206) is fixedly connected to the sliding block (203), the connecting clamp (204) is connected to the guide rod (206) in a sliding mode, the section of the sliding block (203) is of a convex structure, and the section of the guide rail (201) is of a trapezoid structure.

3. An on-line monitoring device for an electrical power supply and distribution system apparatus as recited in claim 1, wherein: the protection structure (3) comprises a protection sleeve (301) and a connecting rod (302) which slides on the protection sleeve (301), the protection sleeve (301) is connected to the anchor ear (1) in a sliding mode, the left end opening of the anchor ear (1) is fixed through a second bolt (305), a first stop block (303) is fixedly connected to the connecting rod (302), a first spring (304) is fixedly connected between the first stop block (303) and the protection sleeve (301), the connecting rod (302) is of an L-shaped structure, the first stop block (303) is clamped to the second bolt (305), and the side wall of the protection sleeve (301) is abutted to the second bolt (305).

4. An on-line monitoring device for an electrical power supply and distribution system apparatus as recited in claim 1, wherein: the telescopic structure (4) comprises a first supporting rod (401) and a second limiting groove (402) formed in the first supporting rod (401), the first supporting rod (401) is fixedly connected to the sliding block (203), the second supporting rod (403) is connected to the first supporting rod (401) in a sliding mode, a second screw rod (405) is connected to the second supporting rod (403) in a threaded mode, a second rubber pad (406) is connected to the second screw rod (405) in a rotating mode, and the second rubber pad (406) abuts against the second limiting groove (402).

5. An on-line monitoring device for an electrical power supply and distribution system apparatus as recited in claim 4, wherein: the sealing block (404) is fixedly connected to the second supporting rod (403), the sealing block (404) is slidably connected to the second limiting groove (402), a driving hole (407) is formed in the second screw rod (405), and a sealing cover (408) is connected to the second supporting rod (403).

6. An on-line monitoring device for an electrical power supply and distribution system apparatus as recited in claim 5, wherein: the rotating structure (5) comprises a first rotating shaft (501) and a supporting frame (502) fixed on the first rotating shaft (501), the first rotating shaft (501) is rotationally connected to the second supporting rod (403), a first limiting block (504) is slidably connected to the first rotating shaft (501), the first limiting block (504) is clamped to the second supporting rod (403), a first sliding rod (503) is fixedly connected to the first limiting block (504), the first sliding rod (503) is slidably connected to the first rotating shaft (501), and a second spring (505) is fixedly connected between the first limiting block (504) and the first rotating shaft (501).

7. An on-line monitoring device for an electrical power supply and distribution system apparatus as recited in claim 6, wherein: two second pivots (507) are fixedly connected to the support frame (502), one second pivot (507) is provided with a second limiting block (509) in a sliding mode, the second limiting block (509) is clamped to a rotating block (512), the rotating block (512) is rotationally connected to the second pivots (507), a second sliding rod (508) is fixedly connected to the second limiting block (509), the second sliding rod (508) is connected to the second pivots (507) in a sliding mode, and a third spring (510) is fixedly connected between the second limiting block (509) and the second pivots (507).

8. An on-line monitoring device for an electrical power supply and distribution system apparatus as recited in claim 7, wherein: the first sliding rod (503) and the second sliding rod (508) are respectively provided with a first connecting hole (506) and a second connecting hole (511), the first limiting block (504) and the second limiting block (509) are both in gear-shaped structures, and the rotating block (512) is provided with a mounting structure (6).

9. An on-line monitoring device for an electrical power supply and distribution system apparatus as recited in claim 8, wherein: mounting structure (6) include mount pad (601) and be fixed in installation pole (602) on mount pad (601), fixedly connected with mount pad (601) on rotating block (512), top fixedly connected with second dog (603) of installation pole (602), mutual block between fixed slot (606) of seting up on mount pad (601) and spliced pole (604), butt joint hole (605) have been seted up on spliced pole (604), butt joint hole (605) communicate in fixed slot (606), sliding connection has spacing (607) on spliced pole (604), fixedly connected with third stopper (608) on spacing (607), third stopper (608) sliding connection is in spliced pole (604), fixedly connected with fourth spring (609) between third stopper (608) and spliced pole (604).

10. An on-line monitoring device for electrical power supply and distribution system equipment as claimed in claim 9, wherein: the mounting seat (601) is of a hexagonal structure, the second stop block (603) is of a round table-shaped structure, the third stop block (608) is of a trapezoid structure, and the connecting column (604) is provided with a camera (7).