CN114966468B - Automatic intelligent safety detection equipment for circuit maintenance - Google Patents

Abstract

The invention discloses automatic intelligent safety detection equipment for circuit maintenance, which relates to the technical field of circuit maintenance and 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 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, the right end of a dual-purpose pump is connected with an air bag pipe, the right end of the corrugated pipe is connected with a second storage battery, the left side of a transmission gear is connected with a driving motor, and torsion springs are arranged at the top and the bottom of the inner wall of a toothed ring. The invention can automatically detect the electric leakage of the power line of the household appliance at regular time, wrap the power line when in electric leakage to prevent human body from touching by mistake, send out an alarm to prompt people to process the electric leakage part in time, and can intelligently position the electric leakage part when the staff arrives so as to enable the staff to quickly find the electric leakage part, and the safety detection equipment is convenient to disassemble and assemble so as to be used by people.

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 line of the household appliance is connected with the socket because the power line of the household appliance is exposed, and when the power line is exposed and the insulating layer on the surface of the power line is damaged but can not be timely found, once a human body contacts with the damaged part of the insulating layer, the threat to electric leakage is formed, so that the threat to the safety of the human body is caused, and when the power line is leaked, a worker is required to detect and maintain the power line by using the electric leakage detector.

The current leakage detector is that after the power line generates the leakage phenomenon, the electric appliance cannot operate or power off, at the moment, a worker operates the leakage detector to perform leakage detection, whether the power line is leaked or not cannot be detected in real time in this way, and further leakage alarm cannot be sent to people timely.

Disclosure of Invention

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

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an automatic intelligent safety inspection equipment for circuit maintenance, includes electrical apparatus body and safety inspection subassembly, the right side of electrical apparatus body is connected with the power cord, and the right-hand member of power cord is connected with the plug, safety inspection subassembly sets up in the surface of power cord, safety inspection subassembly includes first battery, screw thread mouth, screw thread clamp, bellows, dual-purpose pump, gasbag pipe, second battery, bearing, ring gear, drive gear, driving motor, torsional spring, spring rod and probe, the screw thread mouth has all been seted up to the top and the bottom of first battery, and screw thread mouth's inside wears to be equipped with the screw thread clamp, the right side of first battery is connected with the bellows, and the fixed surface of first battery has dual-purpose pump, the right-hand member of dual-purpose pump is connected with the gasbag pipe, the right-hand member of bellows is connected with the second battery, and the right side of second 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, the left side of drive gear is connected with driving motor, the inner wall and the bottom of ring gear is provided with the torsional spring rod, the inside is provided with the spring rod, the inside is connected with the spring rod, wireless transmission module.

Further, two airbag tubes are arranged in total, and the right end of each airbag tube is fixedly connected with the left side of the second storage battery.

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

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

Further, 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 the gaps is larger than the outer diameter of the power line.

Further, a slot is formed in the right side face of the second storage battery, and a plug post is inserted into the slot.

Further, the right end of the inserted post 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 inserted post and the inserting groove.

Further, the spring rod is of a T-shaped structure, and the inside of the spring rod is of a diamond hollow shape.

Further, diamond holes are formed in the surface of the toothed ring, and diamond columns penetrate through the inner portions of the diamond holes.

Further, the diamond holes are communicated with the inside of the spring rod, the outer opening structure of the diamond column is matched with the inner structure of the diamond holes, and the two ends of the diamond column are annular.

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

this automatic intelligent safety inspection equipment for circuit maintenance can regularly automize and carry out electric leakage detection to domestic appliance's power cord to wrap up the power cord when the electric leakage and prevent human mistake and touch, and send out the alarm in order to prompt people in time to handle electric leakage position, and can carry out intelligent location in order to the staff to discover electric leakage position fast to electric leakage position when the staff arrives, and this safety inspection equipment makes things convenient for the dismouting so that people use.

1. According to the automatic intelligent safety detection equipment for circuit maintenance, the dual-purpose pump is started at fixed time to inject air into the air bag tube to enable the air bag tube to extend, so that the corrugated tube extends, the toothed ring carries the probe to be attached to the surface of the power line to slide, the dual-purpose pump can also pump the air in the air bag tube to enable the probe to be attached to the surface of the power line to slide back and forth, data collected during sliding of the probe are sent to the electric leakage detector through the wireless transmission module to be processed, so that whether the electric leakage phenomenon occurs in the power line is detected and judged, an alarm is sent to people when the electric leakage phenomenon occurs, automatic electric leakage detection of the power line is achieved through the timing starting of the dual-purpose pump, and the alarm can be sent timely when the electric leakage occurs, so that the electric leakage threat continues to develop, and workers can maintain and overhaul timely.

2. According to the automatic intelligent safety detection device for circuit maintenance, one end of the probe can slide against the surface of the power line well due to the elasticity of the spring in the spring rod, and meanwhile, the power line can be limited in the middle of the corrugated pipe, namely in the middle of the toothed ring, due to the arrangement of the attaching 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, and meanwhile, the driving motor drives the transmission gear to enable the toothed ring to rotate, so that the probe is attached to the surface of the power line to slide and simultaneously rotates by taking the center of the power line as the center of a circle, and 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. According to the automatic intelligent safety detection equipment for circuit maintenance, when the leakage phenomenon of a power line is judged, the air bag pipe is fully inflated, so that the corrugated pipe is fully stretched to wrap the power line, the power line is prevented from being exposed, the corrugated pipe is made of insulating rubber, so that a human body is prevented from touching the leaked power line by mistake, after a worker confirms that the leakage occurs through the leakage detector, the air bag pipe is contracted due to the fact that the dual-purpose pump pumps air, so that the probe slides back until the probe reaches the leakage position again, the corrugated pipe stops contracting at the moment, and the probe is exactly located at the leakage position at the moment to achieve positioning of the leakage position, so that the worker can quickly determine the leakage position to maintain.

5. According to the automatic intelligent safety detection equipment for circuit maintenance, the second storage battery, the corrugated pipe and the first storage battery are provided with the gaps on the side surfaces, 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 gaps after the corrugated pipe is contracted, the bearing is connected with the second storage battery in an inserting mode through the inserting posts and the inserting grooves, the toothed ring can be separated from the second storage battery through pulling out the inserting posts, the diamond-shaped posts are taken out, at the moment, the probe is rotated through the torsion spring, so that the probe is parallel to the power line, at the moment, the diameter of the inner opening of the toothed ring is larger than the diameter of the outer opening of the plug, so that the toothed ring can be taken down through the outer portion of the plug, and the safety detection equipment can be conveniently disassembled.

Drawings

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

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

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

FIG. 4 is an enlarged schematic view of the structure of the automatic intelligent safety inspection device for circuit maintenance of FIG. 1 according to the present invention;

FIG. 5 is an enlarged schematic view of the structure of the automatic intelligent safety inspection apparatus for circuit maintenance of the present invention at B in FIG. 1;

FIG. 6 is a schematic diagram showing the side view of the inner structure of the toothed ring of the automatic intelligent safety detection device for circuit maintenance;

fig. 7 is an enlarged schematic view of the structure of the automatic intelligent safety inspection device for circuit maintenance of fig. 1 at C.

In the figure: 1. an electric appliance body; 2. a power line; 3. a plug; 4. a security detection assembly; 401. a first storage battery; 402. a threaded port; 403. a thread clamp; 404. a bellows; 405. a dual-purpose pump; 406. an air bag tube; 407. a second storage battery; 408. a bearing; 409. a toothed ring; 410. a transmission gear; 411. a driving motor; 412. a torsion spring; 413. a spring rod; 414. a probe; 5. a fitting pulley; 6. a notch; 7. a slot; 8. inserting a column; 9. diamond holes; 10. diamond shaped columns.

Detailed Description

Referring to fig. 1-7, the present invention provides the following technical solutions: an automatic intelligent safety detection device for circuit maintenance is used for detecting electric leakage of a power line of a household appliance, and comprises an electric appliance body 1 and a safety detection component 4, wherein the right side of the electric appliance body 1 is connected with the power line 2, the right end of the power line 2 is connected with a plug 3, the safety detection component 4 is arranged on the outer surface of the power line 2, the safety detection component 4 comprises a first storage battery 401, a threaded port 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, threaded ports 402 are formed in the top and the bottom of the first storage battery 401, the threaded port 402 is internally provided with the threaded clamp 403, the right side of the first storage battery 401 is connected with the corrugated pipe 404, the right end of the corrugated pipe 404 is connected with a second storage battery 407, the right side of the second storage battery 405 is provided with a bearing 408, the right side of the bearing 408 is fixedly provided with a toothed ring 409, the right side of the bearing 408 is fixedly connected with the toothed ring 409, the left side of the right side of the bearing 411 is fixedly connected with the inner wall of the transmission gear 409 of the transmission gear 411 is connected with the inner wall of the transmission gear 411, the right side of the transmission gear is fixedly connected with the inner wall of the top of the air bag 410, the top of the transmission gear is connected with the transmission gear 411 is in a wireless transmission gear 410, the transmission gear is connected with the inner wall of the transmission gear 409, and the transmission gear is connected with the inner wall of the transmission gear is connected with the inner wall of the transmission gear, and the transmission gear, which is connected with the transmission gear, and the transmission gear is connected with the transmission gear, and the transmission gear is provided with the transmission gear and the transmission gear is the transmission has and the transmission gear is the transmission and the transmission has and the transmission and the control device and the control;

the specific operation is that the screw clip 403 is rotated to make the screw clip be close to the end surface of the power line 2 along the screw opening 402 and tighten the power line 2, so that the first storage battery 401 is fixed at one end of the power line 2, and then the safety detection of electric leakage is performed, that is, 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, so that the corrugated tube 404 stretches, at the moment, the toothed ring 409 can be pushed to enable the probe 414 in the air bag tube 406 to be capable of being attached to the surface of the power line 2 for sliding, the dual-purpose pump 405 can also extract the air in the air bag tube 406 to enable the probe 414 to be capable of being attached to the surface of the power line 2 for reciprocating sliding, the data collected during the sliding of the probe 414 is sent to the electric leakage detector through the wireless transmission module for processing, so as to detect and determine whether the electric leakage phenomenon occurs in the power line 2, and when the leakage phenomenon is detected by the external alarm of the leakage detector, the automatic leakage detection of the power line 2 is realized by starting the dual-purpose pump 405 at regular time, and the alarm can be timely sent out when the leakage occurs, so that the leakage threat continues to develop, the staff can maintain and overhaul in time, one end of the probe 414 can be well stuck to the surface of the power line 2 due to the elasticity of the spring in the spring rod 413, the probe 414 is stuck to the surface of the power line 2 while sliding, the second storage battery 407 supplies power to the driving motor 411 to drive the transmission gear 410 to rotate the toothed ring 409, so that the probe 414 is stuck to the surface of the power line 2 while rotating by taking the center of the power line 2 as the center of a circle, and the rotating speed of the probe 414 is larger than the sliding speed of the probe, thereby being beneficial to realizing the comprehensive leakage detection of the power line 2, the inner ring of the bearing 408 is inserted into the second storage battery 407, and the outer ring of the bearing 408 is fixedly connected with the toothed ring 409, so that the toothed ring 409 can smoothly rotate, when the leakage phenomenon of the power line 2 is determined, the leakage detector sends a signal to the dual-purpose pump 405, so that the air bag tube 406 is completely inflated, the corrugated tube 404 is completely stretched to wrap the power line 2, thereby preventing the power line 2 from being exposed, the corrugated tube 404 is made of insulating rubber, so that a human body is prevented from touching the leaked power line 2 by mistake, after a worker arrives at a site and determines leakage through the leakage detector, the dual-purpose pump 405 pumps out air inside the air bag tube 406 to enable the air bag tube to shrink, so that the probe 414 slides back until the probe 414 arrives at a leakage position again, and the probe 414 is positioned at the leakage position exactly at the moment, so that the worker can quickly determine the leakage position for maintenance.

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

the specific 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 well slide against the surface of the power cord 2, and meanwhile, the power cord 2 can be limited in the middle of the corrugated tube 404, namely in the middle of the toothed ring 409, by the arrangement of the attaching pulley 5, so as to avoid the probe 414 from being separated from the surface of the power cord 2.

Referring to fig. 1, 3 and 7, the second storage battery 407, the bellows 404 and the side surface of the first storage battery 401 are provided with a notch 6, the inner diameter of the notch 6 is larger than the outer diameter of the power line 2, the right side surface of the second storage battery 407 is provided with a slot 7, a plug post 8 is inserted into the slot 7, the right end of the plug post 8 is fixedly connected with the left side of the inner ring of the bearing 408, and the bearing 408 is in plug connection with the second storage battery 407 through the plug post 8 and the slot 7;

the operation is that 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 positioned in the second storage battery 407, the probe 414 is rotated by the torsion spring 412 to be in a parallel state with the power line 2, the inner diameters of the bearing 408 and the toothed ring 409 are larger than the outer diameter of the plug 3, so that the bearing 408 and the toothed ring 409 pass through the plug 3 to be positioned outside the power line 2, the inserting post 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, the toothed ring 409 is meshed with the transmission gear 410, the threaded clamp 403 is rotated to tighten the power line 2, and the automatic intelligent safety detection device for circuit maintenance can be removed from the power line 2 by reversely performing the operation.

Referring to fig. 1 and fig. 5-6, the spring rod 413 has a T-shaped structure, the inside of the spring rod 413 is in a diamond hollow shape, a diamond hole 9 is formed on the surface of the toothed ring 409, a diamond column 10 is penetrated in the diamond hole 9, the diamond hole 9 is communicated with the inside of the spring rod 413, the outer opening structure of the diamond column 10 is identical with the inner structure of the diamond hole 9, and two ends of the diamond column 10 are in a ring shape;

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

To sum up, referring to fig. 1-7, when the automatic intelligent safety inspection device for circuit maintenance is used, firstly, the power cord 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 second storage battery 407, the probe 414 is rotated to be in a state parallel to the power cord 2 by the torsion spring 412, at this time, the inner diameters of the bearing 408 and the toothed ring 409 are larger than the outer diameter of the plug 3, so that the bearing 408 and the toothed ring 409 pass through the plug 3 to be located outside the power cord 2, and the inserting post 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 toothed ring 409 is meshed with the transmission gear 410, and then the threaded clip 403 is rotated to tighten the power cord 2, thereby completing the installation of the automatic intelligent safety inspection device for circuit maintenance;

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

the probe 414 is required to be manually pushed to rotate before operation so as to be vertically distributed with the power line 2, the diamond-shaped column 10 is inserted into the diamond-shaped hole 9 and the spring rod 413 after rotation so as to fix the angle of the probe 414, one end of the probe 414 can be well adhered to the surface of the power line 2 to slide due to the elasticity of the spring in the spring rod 413, and meanwhile, the power line 2 can be limited in the middle of the corrugated tube 404, namely in the middle of the toothed ring 409 due to the arrangement of the adhering pulley 5 so as to avoid the probe 414 from being separated from the surface of the power line 2;

the dual-purpose pump 405 can also draw out the air inside the air bag tube 406 so that the probe 414 can be attached to the surface of the power line 2 for sliding in a reciprocating manner, and the second storage battery 407 supplies power to the driving motor 411 to drive the transmission gear 410 so as to enable the toothed ring 409 to rotate while the probe 414 is attached to the surface of the power line 2 for sliding, and simultaneously rotates by taking the center of the power line 2 as the center of a circle, and the rotating speed of the probe 414 is higher than the sliding speed of the probe 414, so that the comprehensive electric leakage detection of the power line 2 is facilitated, wherein the inner ring of the bearing 408 is inserted with the second storage battery 407, the outer ring of the bearing 408 is fixedly connected with the toothed ring 409, so that the toothed ring 409 can rotate smoothly, and data acquired during the sliding of the probe 414 are transmitted to the electric leakage detector through the wireless transmission module for processing, so that whether the electric leakage phenomenon occurs in the power line 2 is detected and judged, and an alarm is sent to people by the electric leakage detector;

when it is determined that the power line 2 is leaked, the leakage detector sends a signal to the dual-purpose pump 405, so that the air bag tube 406 is fully inflated, the corrugated tube 404 is fully stretched to wrap the power line 2, thereby preventing the power line 2 from being exposed, the corrugated tube 404 is made of insulating rubber, so as to prevent a human body from touching the leaked power line 2 by mistake, and after a worker arrives at a site and the leakage detector determines that the leakage occurs, the dual-purpose pump 405 pumps out air in the air bag tube 406 to shrink the air bag tube, so that the probe 414 slides back until the probe 414 reaches the leakage position again, at this time, the corrugated tube 404 stops shrinking, and at this time, the probe 414 is just positioned at the leakage position to realize positioning of the leakage position, so that the worker can quickly determine the leakage position for maintenance and repair;

finally, the second storage battery 407, the corrugated pipe 404 and the side surface of the first storage battery 401 are provided with notches 6, after the corrugated pipe 404 is contracted, the second storage battery 407, the corrugated pipe 404 and the first storage battery 401 can be taken down from the outer surface of the power line 2 through the notches 6, the bearing 408 is in plug-in connection with the second storage battery 407 through the plug post 8 and the slot 7, the toothed ring 409 can be separated from the second storage battery 407 through pulling out the plug post 8, the diamond-shaped column 10 is taken out, the probe 414 rotates through the torsion spring 412, the probe 414 is parallel to the power line 2, and at the moment, the inner opening diameter of the toothed ring 409 is larger than the outer opening diameter of the plug 3, so that the toothed ring 409 can be conveniently taken down through the plug 3.

Claims (8)

1. The automatic intelligent safety detection equipment for circuit maintenance is used for carrying out electric leakage detection on a power line of a household appliance and 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 the 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 port (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 respectively provided with a threaded port (402), the inside of the threaded port (402) is provided with a threaded clamp (403), the right side of the first storage battery (401) is connected with the corrugated pipe (405), the dual-purpose pump (405) is fixedly connected with the surface of the dual-purpose pump (405), the right-hand member of bellows (404) is connected with second battery (407), and the right side of second battery (407) is provided with bearing (408), the outer loop right side of bearing (408) is fixed with ring gear (409), and the outer wall top meshing of ring gear (409) is connected with drive gear (410), the left side of drive gear (410) is connected with driving motor (411), the inner wall top and the bottom of ring gear (409) all are provided with torsional spring (412), and the internal connection of torsional spring (412) has spring rod (413), the inside of spring rod (413) is provided with probe (414), the inside embedding of ring gear (409) has wireless transmission module, gasbag pipe (406) are provided with two altogether, and gasbag pipe (406) right-hand member and second battery (407) left side fixed connection, driving motor (411) bottom and second battery (407) outer wall top fixed connection, and ring gear (409) are connected with driving motor (411) transmission through drive gear (410).

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

3. The automatic intelligent safety detection device for circuit maintenance according to claim 1, wherein the second storage battery (407), the corrugated pipe (404) and the side surface of the first storage battery (401) are provided with notches (6), and the inner diameter size of the notches (6) is larger than the outer diameter size of the power line (2).

4. The automatic intelligent safety detection device for circuit maintenance according to claim 1, wherein the right side surface of the second storage battery (407) is provided with a slot (7), and a plug (8) is inserted into the slot (7).

5. The automatic intelligent safety detection device for circuit maintenance according to claim 4, wherein the right end of the plug post (8) is fixedly connected with the left side of the inner ring of the bearing (408), and the bearing (408) is in plug connection with the second storage battery (407) through the plug post (8) and the slot (7).

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

7. The automatic intelligent safety detection device for circuit maintenance according to claim 1, wherein diamond-shaped holes (9) are formed in the surface of the toothed ring (409), and diamond-shaped columns (10) are arranged inside the diamond-shaped holes (9) in a penetrating manner.

8. The automatic intelligent safety detection device for circuit maintenance according to claim 7, 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 the two ends of the diamond-shaped column (10) are in a ring shape.