CN117792521A - Communication fault quick detection device - Google Patents
Communication fault quick detection device Download PDFInfo
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- CN117792521A CN117792521A CN202311768195.XA CN202311768195A CN117792521A CN 117792521 A CN117792521 A CN 117792521A CN 202311768195 A CN202311768195 A CN 202311768195A CN 117792521 A CN117792521 A CN 117792521A
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- 238000004891 communication Methods 0.000 title claims abstract description 57
- 238000001514 detection method Methods 0.000 title claims abstract description 32
- 210000001503 joint Anatomy 0.000 claims abstract description 12
- 238000004804 winding Methods 0.000 claims description 43
- 230000008054 signal transmission Effects 0.000 claims description 10
- 238000003032 molecular docking Methods 0.000 claims description 3
- 238000001179 sorption measurement Methods 0.000 claims description 3
- 230000009194 climbing Effects 0.000 abstract description 19
- 238000000034 method Methods 0.000 abstract description 13
- 238000013461 design Methods 0.000 description 5
- 238000010586 diagram Methods 0.000 description 4
- 238000005286 illumination Methods 0.000 description 3
- 230000003287 optical effect Effects 0.000 description 3
- 230000000149 penetrating effect Effects 0.000 description 3
- 238000012423 maintenance Methods 0.000 description 2
- 238000012986 modification Methods 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 238000011084 recovery Methods 0.000 description 2
- 230000005236 sound signal Effects 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000010276 construction Methods 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 238000011160 research Methods 0.000 description 1
- 239000007787 solid Substances 0.000 description 1
- 238000012360 testing method Methods 0.000 description 1
Abstract
The invention discloses a communication fault rapid detection device, which relates to the technical field of network communication and comprises a fixed component, a layout component and a power box, wherein a rotating sleeve is arranged at the outer end of the fixed component, balls are arranged on the inner side of the rotating sleeve, the layout component is arranged on two sides of the outer part of the rotating sleeve, and the outer end of the layout component is connected with a first butt joint component. According to the invention, the equipment is fixed on the arm of the staff, so that interference between the equipment and the tower body when the staff climbs the communication tower can be greatly reduced, in addition, before the staff climbs the communication tower, the staff can pull the layout box to fold the layout box through the longitudinal rotating shaft, so that the volume of the equipment can be reduced, interference between the equipment and the tower body in the climbing process is further reduced, and in the climbing process, the staff can rotate the rotating sleeve to drive the layout assembly to transversely position, so that the position of the layout assembly can be further adjusted, and interference and burden in the climbing process are reduced.
Description
Technical Field
The invention relates to the technical field of network communication, in particular to a communication fault rapid detection device.
Background
Communication equipment generally refers to network communication equipment for transmitting signals through an antenna, and outdoor communication equipment is arranged on a communication tower for ensuring the distance between signals, so that when the communication equipment is damaged, workers are generally required to climb to the communication tower to overhaul the communication equipment.
Because the communication tower is higher because of the height that is located, and the staff need climb to the communication tower top and just can detect communication equipment, but communication equipment's maintenance is comparatively loaded down with trivial details, and the common communication fault detection device in market is great, and the maintenance flow is comparatively loaded down with trivial details, this results in the staff high altitude construction to overhaul very inconvenient, this leads to communication equipment speed slower and danger higher.
Accordingly, in view of the above, research and improvement are made on the existing structure and the existing defects, and a communication failure rapid detection device is proposed.
Disclosure of Invention
The invention aims to provide a communication fault rapid detection device 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 a quick detection device of communication trouble, includes fixed subassembly, lays subassembly and power box, fixed subassembly's outer end is provided with rotates the cover, and rotates the inboard of cover and be provided with the ball, rotate the outside both sides of cover and be provided with and lay the subassembly, and lay the outer end of subassembly and be connected with first butt joint subassembly, the top outer end of rotating the cover is connected with the power box, and the outer end of power box is connected with the second butt joint subassembly, the inside of first butt joint subassembly is fixed with the electric signal line, and the outer end of electric signal line is connected with the circular telegram seat, the top of circular telegram seat is connected with the antenna, and the inboard of antenna is provided with the signal transmission line.
Further, fixed subassembly includes solid fixed ring, inflation inlet, inflation gasbag, motor and cam, the inflation inlet has been seted up to gu fixed ring's outer end, and gu fixed ring's inside both sides are provided with inflation gasbag, gu fixed ring's inboard middle-end is provided with the motor, and the output of motor is connected with the cam.
Further, the inflation inlet is communicated with the inflatable air bag, and the inflatable air bag is annular.
Further, the motor is annularly distributed with four groups inside the fixed ring, and the motor drives the cam to rotate.
Further, the rotating sleeve is connected with the fixed ring in a sleeved mode, and the rotating sleeve rotates at the outer end of the fixed ring through the balls.
Further, lay the subassembly and include horizontal pivot, vertical pivot, lay case, spring pivot, winding roller and electric wire, the outer end of horizontal pivot is connected with vertical pivot, and the outer end of vertical pivot is connected with and lays the case, the inside both sides of laying the case are provided with the spring pivot, and the outer end of spring pivot is connected with the winding roller, the outer end winding of winding roller has the electric wire.
Further, the winding roller drives the spring rotating shaft to rotate, and the conducting wire is electrically connected with the motor.
Further, first butt joint subassembly includes cassette, magnet, reset spring, pull ring, connecting rod and fixture block, the left portion inboard of cassette is provided with magnet, and the right part outer end of cassette is provided with reset spring, reset spring's outer end is connected with the pull ring, and the outer end of pull ring is connected with the connecting rod, the end-to-end connection of connecting rod has the fixture block.
Further, the magnet is connected with the clamping block in an adsorption mode, and the magnet is clamped and fixed with the electric signal wire when the magnet is adsorbed with the clamping block.
Further, the return spring is elastically connected with the pull ring, and the pull ring and the connecting rod are integrated.
The invention provides a communication fault rapid detection device, which has the following beneficial effects:
1. according to the invention, after hands of a worker pass through the fixing ring, the inflatable air bag can be inflated through inflating the inflatable port, so that the equipment can be stably fixed on the hands of the worker through the clamping of the fixing ring and the arms of the worker, the communicator is usually arranged on a higher communication tower, interference between the equipment and the tower body when the worker climbs the communication tower can be greatly reduced through fixing the equipment on the arms of the worker, in addition, before the worker climbs the communication tower, the layout box can be pulled to fold through the longitudinal rotating shaft, so that the volume of the equipment can be reduced, interference between the equipment and the tower body in the climbing process is further reduced, and in the climbing process, the worker can drive the layout assembly to transversely adjust the position through rotating the rotating sleeve, so that the position of the layout assembly can be further adjusted, and the burden on normal climbing of the worker in the climbing process can be greatly reduced through the operation.
2. After the staff climbs to the tower body position where the communicator is located, the staff continuously holds the climbing frame, the free hand adjusts the positions of the rotating sleeve, the transverse rotating shaft and the longitudinal rotating shaft, the laying box can be adjusted to a position suitable for the operation of the staff, after the position adjustment of the laying box is completed, the staff holds the clamping seat and pulls the clamping seat outwards, the stretching force can drive the winding roller to rotate at the outer end of the spring rotating shaft, the conducting wire inside the laying box can wind out from the winding roller when the winding roller rotates, the clamping seat can be close to the antenna position of the fault communicator and is close to the electric signal wire of the antenna, after the clamping seat is close to the electric signal wire, the staff can draw the pull ring through the pull ring, the pull ring can stretch the reset spring, the clamping block is separated from the magnet, the staff can loosen the pull ring after the electric signal wire penetrates into the inner side of the clamping seat, the clamping block is adsorbed with the magnet again due to the reset spring, the clamping block can clamp the clamping block is clamped and fixed on the outer end of the electric signal wire penetrating into the inner side of the clamping seat, the clamping seat can be wound out from the winding roller through the winding roller when the winding roller rotates, the winding roller is capable of rotating, the winding roller can be separated from the electric signal wire can be realized through the clamping seat through the design, the clamping seat can be quickly, the winding device can be recovered through the winding device can be automatically, and the winding device can be conveniently and can be realized through the winding device after the winding device is automatically, and can be conveniently recovered through the winding device.
3. When the antenna is not damaged in the test, the power supply box supplies power to the signal transmission line, the signal transmission line can transmit electric energy to the conducting wire through the electric signal line, the conducting wire is electrically connected with the motor, the motor can drive the cam to rotate after the motor is electrified, the cam is positioned in the fixed ring, when the cam rotates, the arm of a worker positioned in the fixed ring can clearly sense, the traditional fault-free signal usually adopts an optical signal or an acoustic signal, and when the traditional fault-free signal is positioned on the communication tower, the worker cannot clearly judge the fault-free signal because of strong illumination and strong wind sound, and the worker can accurately sense the fault-free signal by adopting the operation of extruding the arm by adopting the cam, so that the worker can quickly and accurately determine whether the antenna has faults.
Drawings
FIG. 1 is a schematic diagram of the whole structure of a communication fault rapid detection device according to the present invention;
FIG. 2 is an enlarged schematic view of the communication fault rapid detection device of FIG. 1A according to the present invention;
FIG. 3 is a schematic diagram of an antenna structure of a communication fault rapid detection device according to the present invention;
FIG. 4 is a schematic diagram of the overall folding structure of a communication failure rapid detection device according to the present invention;
FIG. 5 is a schematic view of a vertical section of a fixing ring of the communication fault rapid detection device of the present invention;
FIG. 6 is a schematic cross-sectional view of a retaining ring of a communication failure rapid detection device according to the present invention;
fig. 7 is a schematic diagram of a cam structure of a communication fault rapid detection device according to the present invention.
In the figure: 1. a fixing assembly; 101. a fixing ring; 102. an inflation inlet; 103. inflating the balloon; 104. a motor; 105. a cam; 2. a rotating sleeve; 3. a ball; 4. laying out components; 401. a transverse rotating shaft; 402. a longitudinal rotation shaft; 403. laying a box; 404. a spring rotating shaft; 405. a wire winding roller; 406. a conductive wire; 5. a first docking assembly; 501. a clamping seat; 502. a magnet; 503. a return spring; 504. a pull ring; 505. a connecting rod; 506. a clamping block; 6. a power box; 7. a second docking assembly; 8. an antenna; 9. a power-on seat; 10. an electric signal line; 11. a signal transmission line.
Detailed Description
Referring to fig. 1 to 7, the present invention provides the following technical solutions: the utility model provides a quick detection device of communication trouble, including fixed subassembly 1, lay subassembly 4 and power box 6, the outer end of fixed subassembly 1 is provided with and rotates cover 2, and the inboard that rotates cover 2 is provided with ball 3, the outside both sides that rotate cover 2 are provided with and lay subassembly 4, and the outer end that lays subassembly 4 is connected with first butt joint subassembly 5, the top outer end that rotates cover 2 is connected with power box 6, and the outer end of power box 6 is connected with second butt joint subassembly 7, the inside of first butt joint subassembly 5 is fixed with electric signal line 10, and the outer end of electric signal line 10 is connected with circular telegram seat 9, the top of circular telegram seat 9 is connected with antenna 8, and the inboard of antenna 8 is provided with signal transmission line 11.
Referring to fig. 1 to 7, a fixing assembly 1 comprises a fixing ring 101, an inflation port 102, an inflation air bag 103, a motor 104 and a cam 105, wherein the outer end of the fixing ring 101 is provided with the inflation port 102, the inflation air bags 103 are arranged on two sides of the inside of the fixing ring 101, the motor 104 is arranged at the middle end of the inside of the fixing ring 101, the output end of the motor 104 is connected with the cam 105, the inflation port 102 is communicated with the inflation air bag 103, the inflation air bag 103 is in a ring shape, the motor 104 is in a ring shape, four groups are annularly distributed in the fixing ring 101, the motor 104 drives the cam 105 to rotate, a rotating sleeve 2 is connected with the fixing ring 101 in a sleeved mode, the rotating sleeve 2 rotates at the outer end of the fixing ring 101 through a ball 3, the arrangement assembly 4 comprises a transverse rotating shaft 401, a longitudinal rotating shaft 402, an arrangement box 403, a spring rotating shaft 404, a winding roller 405 and a conductive wire 406, the outer end of the transverse rotating shaft 401 is connected with the longitudinal rotating shaft 402, the outer end of the longitudinal rotating shaft 402 is connected with a layout box 403, the two sides of the inside of the layout box 403 are provided with spring rotating shafts 404, the outer ends of the spring rotating shafts 404 are connected with winding rollers 405, the outer ends of the winding rollers 405 are wound with conducting wires 406, the winding rollers 405 drive the spring rotating shafts 404 to rotate, the conducting wires 406 are electrically connected with a motor 104, the first butt joint assembly 5 comprises a clamping seat 501, a magnet 502, a reset spring 503, a pull ring 504, a connecting rod 505 and a clamping block 506, the inner side of the left part of the clamping seat 501 is provided with a magnet 502, the outer end of the right part of the clamping seat 501 is provided with a reset spring 503, the outer end of the reset spring 503 is connected with the pull ring 504, the outer end of the pull ring 504 is connected with a connecting rod 505, the tail end of the connecting rod 505 is connected with a clamping block 506, the magnet 502 is in adsorption connection with the clamping block 506, and the magnet 502 is fixedly clamped with the electric signal wire 10 when the clamping block 506 is adsorbed, and the pull ring 504 is integrated with the connecting rod 505;
the specific operation is as follows: after a worker passes hands through the fixing ring 101, the inflatable air bag 103 can be inflated by inflating the inflatable air bag 102, so that the equipment can be stably fixed on the hands of the worker through the clamping of the fixing ring 101 and the arms of the worker, the communicator is usually arranged on a higher communication tower, interference between the equipment and the tower body when the worker climbs the communication tower can be greatly reduced by fixing the equipment on the arms of the worker, in addition, before the worker climbs the communication tower, the worker can pull the layout box 403 to fold the layout box 403 through the longitudinal rotating shaft 402, the volume of the equipment can be reduced, the interference between the equipment and the tower body in the climbing process is further reduced, the worker can drive the layout assembly 4 to transversely adjust the position by rotating the rotating sleeve 2 in the climbing process, the position of the layout assembly 4 can be further adjusted, through the operation, the burden of normal climbing of equipment to staff in the climbing process can be greatly reduced, after the staff climbs to the tower body position where the communicator is located, the staff enables the arm of the fixed equipment to continuously hold the climbing frame, the positions of the rotating sleeve 2, the transverse rotating shaft 401 and the longitudinal rotating shaft 402 are adjusted by the free hand, the layout box 403 can be adjusted to the position suitable for the operation of the staff, after the position adjustment of the layout box 403 is completed, the staff holds the clamping seat 501 and pulls the clamping seat 501 outwards, the stretching force can drive the winding roller 405 to rotate at the outer end of the spring rotating shaft 404, and when the winding roller 405 rotates, the conducting wire 406 inside the layout box 403 can wind out from the winding roller 405, so that the clamping seat 501 can be close to the antenna 8 position of the fault communicator and close to the electric signal wire 10 of the antenna 8, and after the clamping seat 501 is close to the electric signal wire 10, the staff passes the pull ring 504 with fingers and pulls the pull ring 504 outwards, the pull ring 504 can stretch the reset spring 503, and can make the fixture block 506 separate from the magnet 502, after the staff penetrates the electric signal wire 10 to the inside of the clamping seat 501, the staff releases the pull ring 504, the fixture block 506 can be adsorbed again with the magnet 502 due to the reset of the reset spring 503, and when the fixture block 506 is adsorbed with the magnet 502, the electric signal wire 10 penetrating to the inside of the clamping seat 501 can be clamped and fixed, through the above design, the staff can quickly and conveniently operate only by one hand when carrying out fault detection, and the other hand can hold the climbing frame to prevent dropping, through the design, the speed of equipment layout can be ensured, and the safety in the operation process of the staff can be ensured, in addition, after the detection is finished, the staff only needs to pull the pull ring 504 outwards to make the clamping seat 501 separate from the electric signal wire 10, and through releasing the clamping seat 501, the clamping seat 501 and the wound electric wire 406 can also realize automatic operation due to the fact that the spring rotating shaft 404 drives the wire winding roller 405, so that after the operation is finished, the equipment can quickly and conveniently operate, when the electric signal wire winding box 6 is connected with the electric signal wire winding roller 405, the electric power supply wire 11 is also can be fixed to the electric power supply box 11, the electric signal wire 11 is connected to the electric power supply box 11, the electric power supply box 11 is connected to the electric power supply box 10, the electric power supply box 11 is connected to the electric wire winding assembly, the electric power box 11 is fixed to the electric wire 11, and the electric wire 11 is connected to the electric wire winding assembly, when the electric power box 11 is connected to the electric wire winding assembly 11, and the electric wire winding assembly is fixed to the electric wire box 11 is fixed to the electric wire assembly, and the electric wire box 11 is fixed to the electric wire assembly 11, and the electric wire assembly 11 is fixed when the electric wire is connected to the electric wire assembly 11, the motor 104 can drive the cam 105 to rotate, the cam 105 is located inside the fixed ring 101, when the cam 105 rotates, the arm of a worker located inside the fixed ring 101 can clearly sense, a traditional fault-free signal usually adopts an optical signal or a sound signal, when the traditional fault-free signal is located on a communication tower, the worker cannot clearly judge the fault-free signal because of strong illumination and strong wind sound, and the worker can accurately sense the fault-free signal by adopting the cam 105 to squeeze the arm, so that the worker can quickly and accurately determine whether the antenna 8 has faults.
In summary, when the communication fault rapid detection device is used, firstly, after a worker passes through the fixing ring 101, the worker inflates the inflation port 102 to enable the inflation air bag 103 to inflate, the equipment can be stably fixed on the hand of the worker through the clamping of the fixing ring 101 and the arm of the worker, because the communicator is usually arranged on a higher communication tower, the interference between the equipment and the tower body when the worker climbs the communication tower can be greatly reduced through the fact that the equipment is fixed on the arm of the worker, in addition, before the worker climbs the communication tower, the worker can pull the layout box 403 to fold the layout box 403 through the longitudinal rotating shaft 402, the volume of the equipment can be reduced, interference between the equipment and the tower body in the climbing process is further reduced, in the climbing process, the worker can rotate the rotating sleeve 2 to enable the layout assembly 4 to be transversely adjusted, the position of the layout assembly 4 can be further adjusted, and the burden on normal climbing of the worker can be greatly reduced through the operation of the above steps;
after the staff climbs to the tower body position where the communicator is located, the staff keeps holding the climbing frame by the arm of the fixing device, the position of the rotating sleeve 2, the transverse rotating shaft 401 and the longitudinal rotating shaft 402 is adjusted by the free hand, the layout box 403 can be adjusted to a position suitable for the operation of the staff, after the position adjustment of the layout box 403 is finished, the staff holds the clamping seat 501 and pulls the clamping seat 501 outwards, the stretching force can drive the winding roller 405 to rotate at the outer end of the spring rotating shaft 404, when the winding roller 405 rotates, the conducting wire 406 in the layout box 403 can be wound out from the winding roller 405, the clamping seat 501 can be close to the position of the antenna 8 of the fault communicator and is close to the electric signal wire 10 of the antenna 8, after the clamping seat 501 is close to the electric signal wire 10, the staff passes through the pull ring 504 with fingers and pulls the pull ring 504 outwards, the pull ring 504 can stretch the reset spring 503 and can separate the clamping block 506 from the magnet 502, after the staff penetrates the electric signal wire 10 into the inner side of the clamping seat 501, the staff releases the pull ring 504, the clamping block 506 and the magnet 502 are adsorbed again by the reset of the reset spring 503, and when the clamping block 506 is adsorbed with the magnet 502, the electric signal wire 10 penetrating into the inner side of the clamping seat 501 can be clamped and fixed, through the design, the staff can quickly and conveniently operate by only one hand when performing fault detection, and the other hand can hold the climbing frame to prevent falling, through the design, the equipment layout speed can be ensured, and the safety in the operation process of the staff can be ensured;
then, the power supply box 6 is internally provided with a winding roller 405 and a rotating shaft of the spring rotating shaft 404, and the structure of the second butting component 7 is consistent with that of the first butting component 5, so that a power supply line at the outer end of the power supply box 6 can be quickly butted and fixed with the signal transmission line 11, and the power supply line is fixed with the signal transmission line 11 and the conductive line 406 is fixed with the electric signal line 10;
then if the antenna 8 is not damaged, when the power supply box 6 supplies power to the signal transmission line 11, the signal transmission line 11 can transmit electric energy to the conducting wire 406 through the electric signal line 10, and the conducting wire 406 is electrically connected with the motor 104, when the motor 104 is electrified, the motor 104 can drive the cam 105 to rotate, the cam 105 is positioned in the fixed ring 101, when the cam 105 rotates, the arm of a worker positioned in the fixed ring 101 can clearly sense, the traditional fault-free signal usually adopts an optical signal or a sound signal, when the traditional fault-free signal is positioned on a communication tower, the worker cannot clearly judge the fault-free signal because of strong illumination and strong wind sound, and the worker can accurately sense the fault-free signal by adopting the operation of extruding the arm by adopting the cam 105, so that the worker can quickly and accurately determine whether the antenna 8 has faults or not;
finally, after the detection is completed, the worker only needs to pull the pull ring 504 outwards to separate the card holder 501 from the electric signal wire 10, and by loosening the card holder 501, the card holder 501 and the wound electric wire 406 can rotate around the winding roller 405 due to the rotation of the spring rotating shaft 404 to realize automatic recovery, so that the equipment can also perform quick and convenient equipment recovery operation after the operation is completed.
The embodiments of the invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.
Claims (10)
1. The utility model provides a quick detection device of communication trouble, its characterized in that, including fixed subassembly (1), lay subassembly (4) and power box (6), the outer end of fixed subassembly (1) is provided with rotation cover (2), and the inboard of rotation cover (2) is provided with ball (3), the outside both sides of rotation cover (2) are provided with and lay subassembly (4), and the outer end of laying subassembly (4) is connected with first butt joint subassembly (5), the top outer end of rotation cover (2) is connected with power box (6), and the outer end of power box (6) is connected with second butt joint subassembly (7), the inside of first butt joint subassembly (5) is fixed with electric signal line (10), and the outer end of electric signal line (10) is connected with circular telegram seat (9), the top of circular telegram seat (9) is connected with antenna (8), and the inboard of antenna (8) is provided with signal transmission line (11).
2. The rapid communication fault detection device according to claim 1, wherein the fixing assembly (1) comprises a fixing ring (101), an inflation inlet (102), an inflation air bag (103), a motor (104) and a cam (105), the outer end of the fixing ring (101) is provided with the inflation inlet (102), the two inner sides of the fixing ring (101) are provided with the inflation air bag (103), the middle end of the inner side of the fixing ring (101) is provided with the motor (104), and the output end of the motor (104) is connected with the cam (105).
3. The rapid communication failure detection device according to claim 2, wherein the inflation port (102) is in communication with the inflation bladder (103), and the inflation bladder (103) is annular.
4. The rapid communication failure detection device according to claim 2, wherein the motor (104) is annularly distributed with four groups inside the fixed ring (101), and the motor (104) drives the cam (105) to rotate.
5. The rapid communication failure detection device according to claim 2, wherein the rotating sleeve (2) is connected with the fixed ring (101) in a sleeved mode, and the rotating sleeve (2) rotates at the outer end of the fixed ring (101) through the balls (3).
6. The rapid communication fault detection device according to claim 2, wherein the arrangement component (4) comprises a transverse rotating shaft (401), a longitudinal rotating shaft (402), an arrangement box (403), a spring rotating shaft (404), a winding roller (405) and a conductive wire (406), the outer end of the transverse rotating shaft (401) is connected with the longitudinal rotating shaft (402), the outer end of the longitudinal rotating shaft (402) is connected with the arrangement box (403), the spring rotating shafts (404) are arranged on two sides of the inner portion of the arrangement box (403), the outer end of the spring rotating shaft (404) is connected with the winding roller (405), and the conductive wire (406) is wound on the outer end of the winding roller (405).
7. The rapid communication failure detection apparatus according to claim 6, wherein the winding roller (405) drives the spring shaft (404) to rotate, and the conductive wire (406) is electrically connected to the motor (104).
8. The rapid communication fault detection device according to claim 1, wherein the first docking assembly (5) comprises a clamping seat (501), a magnet (502), a return spring (503), a pull ring (504), a connecting rod (505) and a clamping block (506), the magnet (502) is arranged on the inner side of the left part of the clamping seat (501), the return spring (503) is arranged at the outer end of the right part of the clamping seat (501), the pull ring (504) is connected with the outer end of the return spring (503), the connecting rod (505) is connected with the outer end of the pull ring (504), and the clamping block (506) is connected with the end of the connecting rod (505).
9. The rapid communication failure detection device according to claim 8, wherein the magnet (502) is in adsorption connection with the fixture block (506), and the magnet (502) is clamped and fixed to the electric signal wire (10) when the magnet is adsorbed to the fixture block (506).
10. The rapid communication failure detection apparatus according to claim 8, wherein the return spring (503) is elastically connected to the pull ring (504), and the pull ring (504) is integrated with the link (505).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202311768195.XA CN117792521A (en) | 2023-12-20 | 2023-12-20 | Communication fault quick detection device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202311768195.XA CN117792521A (en) | 2023-12-20 | 2023-12-20 | Communication fault quick detection device |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN117792521A true CN117792521A (en) | 2024-03-29 |
Family
ID=90401155
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202311768195.XA Pending CN117792521A (en) | 2023-12-20 | 2023-12-20 | Communication fault quick detection device |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN117792521A (en) |
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2023
- 2023-12-20 CN CN202311768195.XA patent/CN117792521A/en active Pending
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