CN114966468A

CN114966468A - Automatic intelligent safety detection equipment for circuit maintenance

Info

Publication number: CN114966468A
Application number: CN202210571181.8A
Authority: CN
Inventors: 王爱军; 彭明生; 吴廷勇; 朱良林; 郭林
Original assignee: Shenyang Electric Industry Co ltd; Sheyang Power Supply Branch State Grid Jiangsu Electric Power Co ltd; Yancheng Power Supply Co of State Grid Jiangsu Electric Power Co Ltd
Current assignee: Shenyang Electric Industry Co ltd; Sheyang Power Supply Branch State Grid Jiangsu Electric Power Co ltd; Yancheng Power Supply Co of State Grid Jiangsu Electric Power Co Ltd
Priority date: 2022-05-24
Filing date: 2022-05-24
Publication date: 2022-08-30
Anticipated expiration: 2042-05-24
Also published as: CN114966468B

Abstract

The invention discloses automatic intelligent safety detection equipment for circuit maintenance, which relates to the technical field of circuit maintenance and comprises an electrical appliance body and a safety detection assembly, wherein the right side of the electrical appliance body is connected with a power line, the safety detection assembly is arranged on the outer surface of the power line, threaded ports are formed in the top and the bottom of a first storage battery, an air bag pipe is connected to the right end of a dual-purpose pump, a second storage battery is connected to the right end of a corrugated pipe, a driving motor is connected to the left side of a transmission gear, and torsion springs are arranged at the top and the bottom of the inner wall of a toothed ring. The safety detection device can automatically detect the leakage of the power line of the household appliance at regular time, wrap the power line to prevent human body from being touched by mistake during leakage, send an alarm to prompt people to process the leakage part in time, intelligently position the leakage part when a worker arrives so that the worker can quickly find the leakage part, and the safety detection device is convenient to disassemble and assemble so as to be convenient for people to use.

Description

Automatic intelligent safety detection equipment for circuit maintenance

Technical Field

The invention relates to the technical field of circuit maintenance, in particular to automatic intelligent safety detection equipment for circuit maintenance.

Background

The power cord of household electrical appliance is connected with the socket because of the need for the power cord of household electrical appliance exposes, and when the power cord exposes and the insulating layer on the surface of the power cord is damaged but can't be found in time, in case human body and the damaged position of insulating layer take place to contact, will form and threaten the electric leakage, thereby cause the threat to human safety, need staff to detect the power cord with the electric leakage detector when the electric leakage takes place for the power cord and maintain.

The existing leakage detector is characterized in that after a power line generates a leakage phenomenon, an electric appliance cannot operate or is powered off, at the moment, the leakage detector is operated by a worker to detect leakage, whether the power line leaks electricity or not can not be detected in real time in the mode, and further leakage alarm cannot be sent to people in time.

Disclosure of Invention

The invention aims to provide automatic intelligent safety detection equipment for circuit maintenance, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: an automatic intelligent safety detection device for circuit maintenance comprises an electric appliance body and a safety detection assembly, wherein the right side of the electric appliance body is connected with a power line, the right end of the power line is connected with a plug, the safety detection assembly is arranged on the outer surface of the power line, the safety detection assembly comprises a first storage battery, a threaded opening, a threaded clamp, a corrugated pipe, a dual-purpose pump, an air bag pipe, a second storage battery, a bearing, a toothed ring, a transmission gear, a driving motor, a torsion spring, a spring rod and a probe, the top and the bottom of the first storage battery are both provided with the threaded opening, the threaded clamp is arranged inside the threaded opening in a penetrating mode, the right side of the first storage battery is connected with the corrugated pipe, the surface of the first storage battery is fixed with the dual-purpose pump, the right end of the dual-purpose pump is connected with the air bag pipe, the right end of the corrugated pipe is connected with the second storage battery, and the right side of the second storage battery is provided with the bearing, the outer loop right side of bearing is fixed with the ring gear, and the outer wall top meshing of ring gear is connected with drive gear, drive gear's left side is connected with driving motor, the inner wall top and the bottom of ring gear all are provided with the torsional spring, and the internal connection of torsional spring has the spring beam, the inside of spring beam is provided with the probe, the inside embedding of ring gear has unlimited transmission module.

Furthermore, the gasbag pipe is provided with two altogether, and gasbag pipe right-hand member and second battery left side fixed connection.

Furthermore, the bottom of the driving motor is fixedly connected with the top of the outer wall of the second storage battery, and the gear ring is in transmission connection with the driving motor through a transmission gear.

Furthermore, the inside of second battery is provided with the laminating pulley, and the laminating pulley keeps away from the one end surface and the power cord surface laminating of second battery mutually.

Furthermore, gaps are formed in the side faces of the second storage battery, the corrugated pipe and the first storage battery, and the inner diameter of each gap is larger than the outer diameter of the power line.

Furthermore, a slot is formed in the right side face of the second storage battery, and an insertion column is inserted into the slot.

Furthermore, the right end of the inserting column is fixedly connected with the left side of the inner ring of the bearing, and the bearing is connected with the second storage battery in an inserting mode through the inserting column and the inserting groove.

Furthermore, the spring rod is of a T-shaped structure, and the interior of the spring rod is of a rhombic hollow shape.

Furthermore, the surface of the toothed ring is provided with rhombic holes, and rhombic columns penetrate through the rhombic holes.

Furthermore, the diamond-shaped hole is communicated with the inside of the spring rod, the outer opening structure of the diamond-shaped column is matched with the inner structure of the diamond-shaped hole, and two ends of the diamond-shaped column are in an annular shape.

The invention provides automatic intelligent safety detection equipment for circuit maintenance, which has the following beneficial effects:

this circuit is maintained with automatic intelligent safety inspection equipment can regularly automatic carry out leakage detection to domestic appliance's power cord to wrap up the power cord when the electric leakage and prevent human error and touch, and send out the police dispatch newspaper and in time handle the electric leakage position with suggestion people, and can carry out intelligent location so that the staff discovers the electric leakage position fast to the electric leakage position when the staff reachs to this safety inspection equipment makes things convenient for the dismouting so that people use.

1. The invention relates to an automatic intelligent safety detection device for circuit maintenance, which is characterized in that a dual-purpose pump is started at regular time to inject air into an air bag pipe to extend the air bag pipe, so that a corrugated pipe is extended, a gear ring carries a probe to be attached to the surface of a power line to slide, the dual-purpose pump can also pump out the air in the air bag pipe, so that the probe can be attached to the surface of the power line to slide in a reciprocating mode, data collected when the probe slides are sent to a leakage detector through an infinite transmission module to be processed, whether the power line has a leakage phenomenon or not is detected and judged, an alarm is sent to people when the leakage phenomenon occurs, an alarm is sent to the people through an external alarm of the leakage detector, automatic leakage detection of the power line is realized by starting the dual-purpose pump at regular time, the continuous development of leakage threat is avoided, and workers can maintain and overhaul in time.

2. According to the automatic intelligent safety detection equipment for circuit maintenance, the probe has elasticity due to the spring in the spring rod, so that one end of the probe can well cling to the surface of the power line to slide, and meanwhile, the power line can be limited in the middle of the corrugated pipe, namely the middle of the toothed ring by the arrangement of the joint pulley, so that the probe is prevented from being separated from the surface of the power line.

3. According to the automatic intelligent safety detection device for circuit maintenance, the probe is attached to the surface of the power line to slide, the driving motor drives the transmission gear to enable the gear ring to rotate, so that the probe rotates by taking the center of the power line as a circle center while being attached to the surface of the power line to slide, the rotating speed of the probe is higher than the sliding speed of the probe, and therefore comprehensive electric leakage detection of the power line is facilitated.

4. When the power line is judged to have the electric leakage phenomenon, the air bag pipe is fully inflated to enable the corrugated pipe to be fully extended to wrap the power line, so that the power line is prevented from being exposed, the corrugated pipe is made of insulating rubber to prevent a human body from touching the electric leakage power line, after a worker determines the electric leakage through the electric leakage detector, the air bag pipe is contracted due to air pumped out by the dual-purpose pump, so that the probe slides back until the probe reaches the electric leakage position again, at the moment, the corrugated pipe stops contracting, and at the moment, the probe is just positioned at the electric leakage position to realize the positioning of the electric leakage position, so that the worker can quickly determine the electric leakage position to maintain and repair.

5. The invention relates to automatic intelligent safety detection equipment for circuit maintenance, wherein notches are formed in the side surfaces of a second storage battery, a corrugated pipe and a first storage battery, the second storage battery, the corrugated pipe and the first storage battery can be taken down from the outer surface of a power line through the notches after the corrugated pipe is contracted, a bearing is in plug connection with the second storage battery through a plug post and a slot, a gear ring can be separated from the second storage battery by pulling out the plug post, then a diamond-shaped post is taken out, a probe is rotated through a torsion spring at the moment to be parallel to the power line, the diameter of an inner opening of the gear ring is larger than that of an outer opening of a plug at the moment, so that the gear ring can penetrate through the outer part of the plug and be taken down, and the safety detection equipment can be conveniently disassembled and assembled.

Drawings

FIG. 1 is a schematic cross-sectional structural diagram of a bellows of an automatic intelligent safety inspection apparatus for circuit maintenance according to the present invention;

FIG. 2 is a schematic diagram of an external structure of a bellows of an automatic intelligent safety inspection device for circuit maintenance according to the present invention;

FIG. 3 is a schematic diagram of a side view of a first battery of the automatic intelligent safety inspection apparatus for circuit maintenance according to the present invention;

FIG. 4 is an enlarged schematic structural view of the position A in FIG. 1 of the automatic intelligent safety inspection apparatus for circuit maintenance according to the present invention;

FIG. 5 is an enlarged schematic structural diagram of a circuit maintenance device according to the present invention, shown at B in FIG. 1;

FIG. 6 is a schematic diagram of a side view of an internal structure of a ring gear of the automatic intelligent safety inspection apparatus for circuit maintenance according to the present invention;

fig. 7 is an enlarged schematic structural diagram of a circuit maintenance automatic intelligent safety detection device at the position C in fig. 1.

In the figure: 1. an appliance body; 2. a power line; 3. a plug; 4. a safety detection component; 401. a first storage battery; 402. a threaded opening; 403. a threaded clamp; 404. a bellows; 405. a dual-purpose pump; 406. a balloon tube; 407. a second battery; 408. a bearing; 409. a toothed ring; 410. a transmission gear; 411. a drive motor; 412. a torsion spring; 413. a spring lever; 414. a probe; 5. fitting a pulley; 6. a notch; 7. inserting slots; 8. inserting a column; 9. rhombic holes; 10. a diamond-shaped column.

Detailed Description

Referring to fig. 1-7, the present invention provides the following technical solutions: an automatic intelligent safety detection device for circuit maintenance comprises an electrical appliance body 1 and a safety detection assembly 4, wherein the right side of the electrical appliance body 1 is connected with a power line 2, the right end of the power line 2 is connected with a plug 3, the safety detection assembly 4 is arranged on the outer surface of the power line 2, the safety detection assembly 4 comprises a first storage battery 401, a threaded opening 402, a threaded clamp 403, a corrugated pipe 404, a dual-purpose pump 405, an air bag pipe 406, a second storage battery 407, a bearing 408, a toothed ring 409, a transmission gear 410, a driving motor 411, a torsion spring 412, a spring rod 413 and a probe 414, the threaded opening 402 is formed in the top and the bottom of the first storage battery 401, the threaded clamp 403 penetrates through the threaded opening 402, the corrugated pipe 404 is connected to the right side of the first storage battery 401, the dual-purpose pump 405 is fixed on the surface of the first storage battery 401, the air bag pipe 406 is connected to the right end of the dual-purpose pump 405, the second storage battery 407 is connected to the right end of the corrugated pipe 404, a bearing 408 is arranged on the right side of the second storage battery 407, a toothed ring 409 is fixed on the right side of the outer ring of the bearing 408, the top of the outer wall of the toothed ring 409 is connected with a transmission gear 410 in a meshed manner, the left side of the transmission gear 410 is connected with a driving motor 411, torsion springs 412 are arranged on the top and the bottom of the inner wall of the toothed ring 409, a spring rod 413 is connected inside the torsion springs 412, probes 414 are arranged inside the spring rod 413, two infinite transmission module air bag pipes 406 are embedded inside the toothed ring 409, the right end of the air bag pipe 406 is fixedly connected with the left side of the second storage battery 407, the bottom of the driving motor 411 is fixedly connected with the top of the outer wall of the second storage battery 407, and the toothed ring 409 is in transmission connection with the driving motor 411 through the transmission gear 410;

the specific operation is as follows, firstly, the screw clamp 403 is rotated to enable the screw clamp to approach the end surface of the power line 2 along the screw hole 402 and tighten the power line 2, so that the first storage battery 401 is positioned at one end of the power line 2 to be fixed, then, safety detection of electric leakage is carried out, namely, the first storage battery 401 periodically supplies power to the dual-purpose pump 405 to enable the dual-purpose pump to operate, so that outside air is injected into the air bag pipe 406 to enable the air bag pipe 406 to expand, so that the corrugated pipe 404 is expanded, at the moment, the gear ring 409 is pushed to enable the probe 414 inside to be attached to the surface of the power line 2 to slide, the dual-purpose pump 405 can also pump out air inside the air bag pipe 406 to enable the probe 414 to be attached to the surface of the power line 2 to slide in a reciprocating manner, data collected when the probe 414 slides is sent to the electric leakage detector through the infinite transmission module to be processed, so as to detect and judge whether the electric leakage phenomenon occurs on the power line 2, and give an alarm to people from the external alarm of the electric leakage detector, the automatic leakage detection of the power line 2 is realized by starting the dual-purpose pump 405 at regular time, and an alarm can be given in time when leakage occurs, so that the leakage threat is prevented from developing continuously, and a worker can maintain and repair in time, the probe 414 has elasticity due to the spring in the spring rod 413, so that one end of the probe 414 can be well attached to the surface of the power line 2 to slide, the probe 414 is attached to the surface of the power line 2 to slide, the second storage battery 407 supplies power to the driving motor 411 to drive the transmission gear 410 to rotate the toothed ring 409 while the probe 414 is attached to the surface of the power line 2 to slide, the center of the power line 2 is used as the center of the circle to rotate, the rotating speed of the probe 414 is greater than the sliding speed, so that the comprehensive leakage detection of the power line 2 is favorably realized, wherein the inner ring of the bearing 408 is inserted with the second storage battery 407, and the outer ring of the bearing 408 is fixedly connected with the toothed ring 409, make ring gear 409 can smoothly rotate, and when judging that power cord 2 takes place the electric leakage phenomenon, the electric leakage detector sends the signal to dual-purpose pump 405, make gasbag pipe 406 inflate completely, make bellows 404 extend the parcel power cord 2 completely, thereby prevent that power cord 2 from exposing, bellows 404 adopts insulating rubber to make, in order to prevent that the human body from touching the power cord 2 that leaks by mistake, and after the staff arrived the scene and confirm the electric leakage through the electric leakage detector, dual-purpose pump 405 takes out gasbag pipe 406 inside air and makes its shrink, make probe 414 slide again, reach the electric leakage position again until probe 414, bellows 404 stopped the shrink this moment, probe 414 just in time is located the electric leakage position in order to realize the location to the electric leakage position, so that the staff can confirm the electric leakage position fast and maintain and repair.

Referring to fig. 1, a bonding pulley 5 is disposed inside the second battery 407, and a surface of one end of the bonding pulley 5 away from the second battery 407 is bonded to a surface of the power line 2;

the operation is as follows, the probe 414 has elasticity due to the spring inside the spring rod 413, so that one end of the probe can slide against the surface of the power line 2, and the arrangement of the joint pulley 5 can limit the power line 2 in the middle of the corrugated pipe 404, namely in the middle of the toothed ring 409, so as to avoid the probe 414 from being separated from the surface of the power line 2.

Referring to fig. 1, 3 and 7, a notch 6 is formed in each of the side surfaces of the second storage battery 407, the corrugated tube 404 and the first storage battery 401, the inner diameter of the notch 6 is greater than the outer diameter of the power cord 2, a slot 7 is formed in the right side surface of the second storage battery 407, an insert post 8 is inserted into the slot 7, the right end of the insert post 8 is fixedly connected with the left side of the inner ring of the bearing 408, and the bearing 408 is connected with the second storage battery 407 through the insert post 8 and the slot 7 in an inserting manner;

in operation, the power cord 2 passes through the second battery 407, the bellows 404 and the notch 6 on the side of the first battery 401 to be located inside the three, the probe 414 rotates by the torsion spring 412 to a state parallel to the power line 2, at this time, the diameters of the inner openings of the bearing 408 and the gear ring 409 are larger than the diameter of the outer opening of the plug 3, so that the bearing 408 and the ring gear 409 pass through the plug 3 to be located outside the power cord 2, and the inserting column 8 at the side of the bearing 408 is inserted into the inserting groove 7 at the side of the second storage battery 407, at this time, the toothed ring 409 is meshed with the transmission gear 410, and then the screw clamp 403 is rotated to tighten the power cord 2, so that the installation of the automatic intelligent safety detection device for circuit maintenance can be completed, and carry out above-mentioned operation in reverse and can take off this circuit maintenance with automatic intelligent safety inspection equipment from power cord 2, this setting can conveniently carry out the dismouting so that people use to this safety inspection equipment.

Referring to fig. 1 and 5-6, the spring rod 413 is of a T-shaped structure, the interior of the spring rod 413 is of a rhombic hollow shape, the surface of the toothed ring 409 is provided with a rhombic hole 9, a rhombic column 10 penetrates through the interior of the rhombic hole 9, the rhombic hole 9 is communicated with the interior of the spring rod 413, the outer opening structure of the rhombic column 10 is matched with the interior structure of the rhombic hole 9, and two ends of the rhombic column 10 are of a ring shape;

the specific operation is as follows, the probe 414 needs to be manually pushed to rotate before operation to enable the probe to be vertically distributed with the power line 2, after the rotation, the diamond-shaped column 10 is inserted into the diamond-shaped hole 9 and the spring rod 413 to fix the angle of the probe 414, and when the toothed ring 409 needs to pass through the outside of the plug 3, the diamond-shaped column 10 needs to be pulled out to enable the probe 414 to rotate through the torsion spring 412, so that the probe 414 is parallel to the power line 2, and at the moment, the diameter of the inner opening of the toothed ring 409 is larger than that of the outer opening of the plug 3, so that the toothed ring 409 can pass through the outside of the plug 3 to be taken down.

In summary, referring to fig. 1-7, when the automatic intelligent safety inspection device for circuit maintenance is used, firstly, the power line 2 passes through the second storage battery 407, the corrugated tube 404 and the notch 6 on the side surface of the first storage battery 401 to be located inside the three, the probe 414 rotates due to the torsion spring 412 to be in a state where the power line 2 is parallel, at this time, the diameters of the inner openings of the bearing 408 and the gear ring 409 are larger than the diameter of the outer opening of the plug 3, so that the bearing 408 and the gear ring 409 pass through the plug 3 to be located outside the power line 2, the plug 8 on the side surface of the bearing 408 is inserted into the slot 7 on the side surface of the second storage battery 407, at this time, the gear ring 409 is engaged with the transmission gear 410, and then the screw clamp 403 is rotated to tighten the power line 2, so that the installation of the automatic intelligent safety inspection device for circuit maintenance can be completed;

then, the first storage battery 401 periodically supplies power to the dual-purpose pump 405 to operate, so that the external air is injected into the air bag tube 406 to expand the air bag tube, and the corrugated tube 404 is expanded, and at the moment, the toothed ring 409 is pushed to enable the probe 414 in the toothed ring 409 to be attached to the surface of the power line 2 to slide;

the probe 414 needs to be manually pushed to rotate before operation so as to be vertically distributed with the power line 2, the rhombic column 10 is inserted into the rhombic hole 9 and the spring rod 413 after rotation so as to fix the angle of the probe 414, the probe 414 has elasticity due to the spring in the spring rod 413, so that one end of the probe 414 can be well attached to the surface of the power line 2 to slide, and meanwhile, the attachment pulley 5 can limit the power line 2 in the middle of the corrugated pipe 404, namely the middle of the toothed ring 409, so that the probe 414 is prevented from being separated from the surface of the power line 2;

the dual-purpose pump 405 can also pump out air in the air bag tube 406 to enable the probe 414 to be attached to the surface of the power cord 2 to slide in a reciprocating manner, and when the probe 414 is attached to the surface of the power cord 2 to slide, the second storage battery 407 supplies power to the driving motor 411 to enable the driving motor to drive the transmission gear 410 to enable the toothed ring 409 to rotate, so that the probe 414 is attached to the surface of the power cord 2 to slide and simultaneously rotates around the center of the power cord 2, and the rotating speed of the probe 414 is greater than the sliding speed of the probe, thereby being beneficial to realizing the overall leakage detection of the power cord 2, wherein the inner ring of the bearing 408 is plugged with the second storage battery 407, while the outer ring of the bearing 408 is fixedly connected with the toothed ring 409, so that the toothed ring 409 can rotate smoothly, data collected when the probe 414 slides is sent to a leakage detector through the infinite transmission module to be processed, thereby detecting and determining whether the leakage phenomenon occurs on the power cord 2, and an alarm is externally connected with the leakage detector to send an alarm to people when the leakage phenomenon occurs;

when the electric leakage phenomenon of the power line 2 is judged, the electric leakage detector sends a signal to the dual-purpose pump 405 to enable the air bag tube 406 to be fully inflated, the corrugated tube 404 is fully extended to wrap the power line 2, so that the power line 2 is prevented from being exposed, the corrugated tube 404 is made of insulating rubber to prevent a human body from mistakenly touching the electric leakage power line 2, after a worker arrives at the site and determines electric leakage through the electric leakage detector, the dual-purpose pump 405 pumps air in the air bag tube 406 out to enable the air bag tube 406 to shrink, so that the probe 414 slides back until the probe 414 arrives at the electric leakage position again, at the moment, the corrugated tube 404 stops shrinking, and at the moment, the probe 414 is just located at the electric leakage position to realize the positioning of the electric leakage position, so that the worker can quickly determine the electric leakage position to perform maintenance and overhaul;

finally, second battery 407, breach 6 has all been seted up to the side of bellows 404 and first battery 401, second battery 407 after bellows 404 shrink, bellows 404 and first battery 401 can take off from power cord 2 surface through breach 6, and bearing 408 is through inserting post 8, slot 7 and second battery 407 plug connection, can make ring gear 409 and second battery 407 separate through extracting inserting post 8, take out rhombus post 10 again, probe 414 passes through the torsional spring 412 rotation this moment, make probe 414 parallel with power cord 2, ring gear 409 internal orifice diameter is greater than the outer mouthful diameter of plug 3 this moment, so that ring gear 409 passes and takes off from plug 3 outside, this setting can conveniently carry out the dismouting to this safety inspection equipment.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention, and the scope of the present invention is not limited thereto, and any person skilled in the art can substitute or change the technical solution of the present invention and its inventive concept within the technical scope of the present invention.

Claims

1. An automatic intelligent safety detection device for circuit maintenance comprises an electric appliance body (1) and a safety detection assembly (4), and is characterized in that the right side of the electric appliance body (1) is connected with a power line (2), the right end of the power line (2) is connected with a plug (3), the safety detection assembly (4) is arranged on the outer surface of the power line (2), the safety detection assembly (4) comprises a first storage battery (401), a threaded opening (402), a threaded clamp (403), a corrugated pipe (404), a dual-purpose pump (405), an air bag pipe (406), a second storage battery (407), a bearing (408), a toothed ring (409), a transmission gear (410), a driving motor (411), a torsion spring (412), a spring rod (413) and a probe (414), the top and the bottom of the first storage battery (401) are both provided with a threaded opening (402), and the threaded clamp (403) is arranged inside the threaded opening (402) in a penetrating manner, the right side of the first storage battery (401) is connected with a corrugated pipe (404), a dual-purpose pump (405) is fixed on the surface of the first storage battery (401), the right end of the dual-purpose pump (405) is connected with an air bag pipe (406), the right end of the corrugated pipe (404) is connected with a second storage battery (407), a bearing (408) is arranged on the right side of the second storage battery (407), a toothed ring (409) is fixed on the right side of the outer ring of the bearing (408), the top of the outer wall of the gear ring (409) is connected with a transmission gear (410) in a meshing way, the left side of the transmission gear (410) is connected with a driving motor (411), torsion springs (412) are arranged at the top and the bottom of the inner wall of the gear ring (409), and the internal connection of torsional spring (412) has spring beam (413), the inside of spring beam (413) is provided with probe (414), ring gear (409) inside embedding has infinite transmission module.

2. The automatic intelligent safety detection device for circuit maintenance according to claim 1, wherein there are two air bag tubes (406), and the right end of the air bag tube (406) is fixedly connected with the left side of the second storage battery (407).

3. The automatic intelligent safety detection device for circuit maintenance according to claim 1, wherein the bottom of the driving motor (411) is fixedly connected with the top of the outer wall of the second storage battery (407), and the gear ring (409) is in transmission connection with the driving motor (411) through the transmission gear (410).

4. The automatic intelligent safety detection device for circuit maintenance according to claim 1, wherein an attaching pulley (5) is disposed inside the second storage battery (407), and a surface of one end of the attaching pulley (5) far away from the second storage battery (407) is attached to a surface of the power line (2).

5. The automatic intelligent safety detection device for circuit maintenance according to claim 1, wherein gaps (6) are formed in the side surfaces of the second storage battery (407), the corrugated pipe (404) and the first storage battery (401), and the inner diameter of each gap (6) is larger than the outer diameter of the power line (2).

6. The automatic intelligent safety detection device for circuit maintenance according to claim 1, wherein a slot (7) is formed in a right side surface of the second storage battery (407), and an insertion column (8) is inserted into the slot (7).

7. The automatic intelligent safety detection device for circuit maintenance according to claim 6, wherein the right end of the insertion column (8) is fixedly connected with the left side of the inner ring of the bearing (408), and the bearing (408) is connected with the second storage battery (407) through the insertion column (8) and the insertion slot (7) in an insertion manner.

8. The automatic intelligent safety detection device for circuit maintenance according to claim 1, wherein the spring rod (413) is of a T-shaped structure, and the inside of the spring rod (413) is of a diamond hollow shape.

9. The automatic intelligent safety detection device for circuit maintenance according to claim 1, wherein a diamond-shaped hole (9) is formed on the surface of the toothed ring (409), and a diamond-shaped column (10) penetrates through the diamond-shaped hole (9).

10. The automatic intelligent safety detection device for circuit maintenance according to claim 9, wherein the diamond-shaped hole (9) is communicated with the inside of the spring rod (413), the outer opening structure of the diamond-shaped column (10) is matched with the inner structure of the diamond-shaped hole (9), and two ends of the diamond-shaped column (10) are in a ring shape.