CN116736057A - High security power equipment live detection device - Google Patents

High security power equipment live detection device Download PDF

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Publication number
CN116736057A
CN116736057A CN202310859798.4A CN202310859798A CN116736057A CN 116736057 A CN116736057 A CN 116736057A CN 202310859798 A CN202310859798 A CN 202310859798A CN 116736057 A CN116736057 A CN 116736057A
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CN
China
Prior art keywords
clamping box
cable
bearing seat
move
rod
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Granted
Application number
CN202310859798.4A
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Chinese (zh)
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CN116736057B (en
Inventor
胡文裕
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Jiangsu Hengrun Electric Power Design Institute Co ltd
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Jiangsu Hengrun Electric Power Design Institute Co ltd
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Application filed by Jiangsu Hengrun Electric Power Design Institute Co ltd filed Critical Jiangsu Hengrun Electric Power Design Institute Co ltd
Priority to CN202310859798.4A priority Critical patent/CN116736057B/en
Publication of CN116736057A publication Critical patent/CN116736057A/en
Application granted granted Critical
Publication of CN116736057B publication Critical patent/CN116736057B/en
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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01RMEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
    • G01R31/00Arrangements for testing electric properties; Arrangements for locating electric faults; Arrangements for electrical testing characterised by what is being tested not provided for elsewhere
    • G01R31/12Testing dielectric strength or breakdown voltage ; Testing or monitoring effectiveness or level of insulation, e.g. of a cable or of an apparatus, for example using partial discharge measurements; Electrostatic testing
    • G01R31/1227Testing dielectric strength or breakdown voltage ; Testing or monitoring effectiveness or level of insulation, e.g. of a cable or of an apparatus, for example using partial discharge measurements; Electrostatic testing of components, parts or materials
    • G01R31/1263Testing dielectric strength or breakdown voltage ; Testing or monitoring effectiveness or level of insulation, e.g. of a cable or of an apparatus, for example using partial discharge measurements; Electrostatic testing of components, parts or materials of solid or fluid materials, e.g. insulation films, bulk material; of semiconductors or LV electronic components or parts; of cable, line or wire insulation
    • G01R31/1272Testing dielectric strength or breakdown voltage ; Testing or monitoring effectiveness or level of insulation, e.g. of a cable or of an apparatus, for example using partial discharge measurements; Electrostatic testing of components, parts or materials of solid or fluid materials, e.g. insulation films, bulk material; of semiconductors or LV electronic components or parts; of cable, line or wire insulation of cable, line or wire insulation, e.g. using partial discharge measurements
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01RMEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
    • G01R1/00Details of instruments or arrangements of the types included in groups G01R5/00 - G01R13/00 and G01R31/00
    • G01R1/02General constructional details
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01RMEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
    • G01R1/00Details of instruments or arrangements of the types included in groups G01R5/00 - G01R13/00 and G01R31/00
    • G01R1/02General constructional details
    • G01R1/04Housings; Supporting members; Arrangements of terminals

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Testing Of Devices, Machine Parts, Or Other Structures Thereof (AREA)

Abstract

The invention relates to the technical field of live detection, in particular to a high-safety live detection device for electric equipment, which comprises a movable frame, wherein a clamping mechanism for clamping and fixing a cable is arranged on the movable frame; the clamping mechanism comprises a clamping box A and a clamping box B, wherein a bracket rod is arranged on the clamping box B, a measuring plate is arranged on the bracket rod, and a toothed plate A and a toothed plate B are arranged on the measuring plate; the invention aims to provide a high-safety power equipment electrified detection device which can avoid manual high-altitude detection, avoid the falling condition of personnel, avoid potential safety hazards caused by electricity leakage and realize mechanized detection, and has high use safety.

Description

High security power equipment live detection device
Technical Field
The invention relates to the technical field of live detection, in particular to a high-safety live detection device for power equipment.
Background
The power equipment detection device is an instrument for detecting test, verification, detection and acceptance equipment for power production and power grid operation, and provides reliable guarantee for the safety and reliability of power operation, and when a circuit network breaks down, people use the power equipment detection device to perform field detection to ensure the normal operation of the power grid;
in the prior art, in the use, to hanging the cable for the electric wire netting in the sky, when taking live detection, will detect joint and inspection crew and send to the sky generally to carry out live detection at the cable that hangs, nevertheless the manual work that needs in the aerial operation in the actual detection process, receive the business ability water and the safety equipment fault probability influence of detection workman, the detection workman that is in aerial detection exists and removes the risk of falling, in addition, when manual control carries out the cable live detection, receive the cable leakage influence, there is the electric shock risk in the detection process likewise in the reality, actual detection security is relatively poor, the result of use is not good.
Disclosure of Invention
The invention aims to provide a high-safety power equipment live detection device which can avoid manual high-altitude detection, avoid falling situations of personnel, finish mechanized detection, avoid potential safety hazards caused by electricity leakage and has high use safety.
In order to achieve the above purpose, the present invention provides the following technical solutions: the high-safety power equipment live detection device comprises a movable frame, wherein a clamping mechanism for clamping and fixing a cable is arranged on the movable frame, a cleaning mechanism A for cleaning the cable and detecting the cable in a live mode in cooperation with the clamping mechanism is arranged on the movable frame, and a cleaning mechanism B for fixing the cable in cooperation with the clamping mechanism is arranged on the movable frame; the clamping mechanism comprises a clamping box A and a clamping box B, wherein a bracket rod is arranged on the clamping box B, a measuring plate is arranged on the bracket rod, and a toothed plate A and a toothed plate B are arranged on the measuring plate; the cleaning mechanism A comprises a motor, a reciprocating screw rod is arranged at the output end of the motor, a bearing seat is arranged on the reciprocating screw rod, the bearing seat is movably connected with the measuring plate, and the output end of the motor is movably connected with the toothed plate A and the toothed plate B; the telescopic rod is arranged on the bearing seat, the base is arranged on the telescopic rod, and the fixing clamp and the cleaning clamp are arranged on the base; the cleaning mechanism B comprises a sealing cylinder, a sealing rod is arranged in the sealing cylinder and connected with the bearing seat, a blowing pipe and an exhaust pipe are arranged on the sealing cylinder, a one-way valve is arranged on the exhaust pipe, and the one-way valve is movably connected with the cleaning clamp; the movable frame is moved to a proper position, the clamping box A is placed below the cable, then the motor is started, the motor drives the measuring plate and the support rod to move through the toothed plate B, the support rod drives the clamping box B to move, the clamping box B drives the base to move through the telescopic rod, the cleaning clamp is in contact with the cable, meanwhile, the output end of the motor drives the bearing seat to move, the bearing seat drives the base to move through the telescopic rod, and the base drives the cleaning clamp to move to clean the cable; then after the bearing frame moved certain position, the bearing frame drive measurement board moved, and then made the output of motor cancel and be connected with pinion rack B simultaneously and make its output be connected with pinion rack A, and motor output drives clamping box B again and removes cooperation clamping box A and fix the cable centre gripping this moment, and clamping box B passes through the telescopic link and drives the base simultaneously and remove, and the base drives the fixation clamp and removes and centre gripping vibration sensor to the cable on to through the position record inspection position of bearing frame and measurement board.
Optionally, a mobile base is arranged at the bottom of the mobile frame.
Optionally, cable grooves are formed in the clamping box A and the clamping box B, the clamping box A is inserted into the clamping box B, a sliding groove for moving the telescopic rod is formed in the clamping box B, and the clamping box B slides on the moving frame.
Optionally, support pole and centre gripping case B fixed connection, measure board and support pole fixed connection, the scale has been seted up on the measurement board, install the ejector pad on the measurement board, fixture is still including installing the push pedal on the bearing frame, push pedal and ejector pad swing joint.
Optionally, the fixture further includes a gear installed on the output end of the motor, and the toothed plate a and the toothed plate B are movably connected with the gear.
Optionally, the motor is installed on the movable frame, and the reciprocating screw rod is connected with the bearing seat through a ball nut pair.
Optionally, the telescopic link is telescopic connection's two parts, part and the horizontal sliding connection of centre gripping case B of telescopic link, another part and the bearing frame fixed connection of telescopic link.
Optionally, the base is gone up and is run through and have the removal axle, the clearance is pressed from both sides and is connected with the removal axle, install the extension spring on the removal axle, the extension spring is connected with the base, vibration sensor installs on the fixation clamp.
Optionally, the inside of the sealing cylinder is provided with a one-way valve, the blowing pipe is communicated with the sealing cylinder, and the communicating position of the blowing pipe and the sealing cylinder is positioned at one side of the one-way valve.
Optionally, the exhaust pipe is communicated with the sealing cylinder, and the communication position of the exhaust pipe and the sealing cylinder is positioned at the other side of the one-way valve, and the one-way valve is movably connected with the exhaust pipe.
Compared with the prior art, the invention has the beneficial effects that:
1. according to the invention, the clamping box B moves downwards to be spliced with the clamping box A, and at the moment, the base drives the fixing clamp to clamp the cable and clamps the vibration sensor on the cable, so that the cable in the area to be tested and the closed environment are fixed, high-quality detection conditions can be provided for the vibration sensor to work, and the detection result of the cable is improved; in addition, after the bearing seat drives the push plate to push the push block, the bearing seat moves reversely along the reciprocating screw rod, when the cable is clamped by the fixing clamp, the position relation of the bearing seat on the measuring plate is observed, and the position of the vibration sensor positioned on the cable in the area to be measured can be measured and the distance between the vibration sensor and the two ends of the cable in the area to be measured can be measured through measuring the cables in the area to be measured at a plurality of positions, and the detection quality of the cable can be improved by comparing the position data; from this avoid adopting manpower high altitude to detect, avoided the condition that personnel fall, when accomplishing mechanized detection, avoid the potential safety hazard that the electric leakage brought, the safety in utilization is high.
2. According to the invention, the cable is clamped through the cable grooves on the clamping box B and the clamping box A, and the cable in the region to be tested can be sealed through the box designs of the clamping box A and the clamping box B, so that on one hand, the two ends of the cable in the region to be tested can be clamped and fixed, and meanwhile, the cable in the region to be tested is in a sealed environment, when the cable is detected through the vibration sensor, the stability of the cable is prevented from being influenced by external wind or factors thereof, and the detection quality of the cable is greatly improved.
3. According to the invention, when the bearing seat moves, the bearing seat drives the sealing rod to move, the sealing rod moves in the sealing cylinder, and the sealing rod extrudes gas in the sealing cylinder to be discharged through the blowing pipe, and as the air outlet of the blowing pipe is positioned at one side of the cleaning clamp, the cleaning clamp moves to clean the cable, and meanwhile, the air discharged by the blowing pipe also plays a role in cleaning impurities, and the cleaning effect of the cable can be improved by two cleaning means.
Drawings
FIG. 1 is a schematic diagram of the overall structure of the present invention;
FIG. 2 is a schematic view of a partial structure of the present invention;
FIG. 3 is a cross-sectional view of one of the clamping mechanisms of the present invention;
FIG. 4 is a cross-sectional view of a clamping mechanism according to the present invention;
FIG. 5 is a schematic view of a part of a clamping mechanism according to the present invention;
FIG. 6 is a schematic view of a cleaning mechanism A according to one embodiment of the present invention;
FIG. 7 is a schematic diagram of a cleaning mechanism A according to the second embodiment of the present invention;
fig. 8 is a cross-sectional view of a cleaning mechanism B of the present invention.
In the figure: 1. a moving rack; 2. a clamping mechanism; 21. a clamping box A; 22. a clamping box B; 23. a bracket rod; 24. a measuring plate; 25. a push plate; 26. a pushing block; 27. a gear; 28. a toothed plate A; 29. a toothed plate B; 3. a cleaning mechanism A; 31. a motor; 32. a reciprocating screw rod; 33. a bearing seat; 34. a telescopic rod; 35. a base; 36. a movable shaft; 37. cleaning the clamp; 38. a telescopic spring; 39. a fixing clamp; 4. a cleaning mechanism B; 41. a sealing cylinder; 42. a blowing pipe; 43. an exhaust pipe; 44. a one-way valve; 45. and a sealing rod.
Detailed Description
In order to make the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.
Referring to fig. 1 to 8, the present invention provides a high security power equipment live detection device, which comprises a moving frame 1, wherein a clamping mechanism 2 for clamping and fixing a cable is arranged on the moving frame 1, a cleaning mechanism A3 for cleaning the cable and detecting the cable in a live manner in cooperation with the clamping mechanism 2 is arranged on the moving frame 1, and a cleaning mechanism B4 for fixing the cable in cooperation with the clamping mechanism 2 is arranged on the moving frame 1;
the clamping mechanism 2 comprises a clamping box A21 and a clamping box B22, a bracket rod 23 is arranged on the clamping box B22, a measuring plate 24 is arranged on the bracket rod 23, and a toothed plate A28 and a toothed plate B29 are arranged on the measuring plate 24; when the cable is required to be detected in a live manner, the movable base at the bottom of the movable frame 1 is moved to a proper position, then the motor 31 is started to work, the gear 27 firstly drives the toothed plate B29 to rotate due to the fact that the output end of the motor 31 drives the gear 27, the toothed plate B29 drives the measuring plate 24 to move, the measuring plate 24 drives the bracket rod 23 to move, the bracket rod 23 drives the clamping box B22 to move, the telescopic rod 34 is driven to move when the clamping box B22 moves vertically because part of the telescopic rod 34 and the clamping box B22 can only slide horizontally, the telescopic rod 34 drives the base 35 to move, the base 35 drives the movable shaft 36 to move, the movable shaft 36 drives the cleaning clamp 37 to move and the movable shaft 36 presses the telescopic spring 38, the cleaning clamp 37 is in contact with the cable, and meanwhile, the gear 27 does not drive the toothed plate B29 to rotate after the clamping box B22 moves a part below the clamping box B22, and the clamping box B22 is not moved at the moment, and the clamping box B22 is positioned in the clamping box A21 to be spliced; in addition, at the moment, the output end of the motor 31 drives the reciprocating screw rod 32 to rotate, the bearing seat 33 moves on the reciprocating screw rod 32, the bearing seat 33 drives the telescopic rod 34 to move, the telescopic rod 34 drives the base 35 to horizontally move, the base 35 drives the cleaning clamp 37 to move through the moving shaft 36, and impurities such as fallen leaves, snow and the like on the cleaning clamp 37 can be cleaned due to the fact that the cleaning clamp 37 is in contact with a cable, so that the influence of the impurities on the cleaning clamp 37 on vibration sensing work is avoided; in addition, the cleaning clamp 37 adopts a C-shaped design, so that impurities on the surface of the cable can be cleaned as much as possible; the mode of cleaning the surface of the cable before fixing and clamping the cable can enable the cable to move by a certain extent while cleaning, so that the falling of impurities can be promoted to a certain extent, and the cable is convenient to clean by being matched with the cleaning clamp 37;
in addition, when the bearing seat 33 moves, the bearing seat 33 drives the push plate 25 to move, after the push plate 25 moves to a certain position, the base 35 extrudes the push block 26 to move, the push block 26 drives the measuring plate 24 to move, the measuring plate 24 moves to drive the toothed plate A28 and the toothed plate B29 to move, so that the gear 27 is disconnected with the toothed plate B29 and is connected with the toothed plate A28, when the gear 27 continuously rotates, the gear 27 drives the toothed plate A28 to work, the toothed plate A28 drives the clamping box B22 to continuously move downwards, so that the clamping box B22 is spliced with the clamping box A21, cables are clamped through cable grooves on the clamping box B22 and the clamping box A21, and the cables in a region to be detected can be closed through the box-type design of the clamping box A21 and the clamping box B22, on one hand, the two ends of the cables in the region to be detected can be clamped and fixed, and meanwhile, when the cables in the region to be detected are detected through the vibration sensor, the stability of the cables is prevented from being influenced by external wind or factors, and the detection quality of the cables is greatly improved;
in addition, the clamping box B22 moves downwards to be spliced with the clamping box A21, at the moment, the base 35 drives the fixing clamp 39 to clamp the cable and clamp the vibration sensor on the cable, so that the cable and the closed environment in the area to be tested are fixed, high-quality detection conditions can be provided for the vibration sensor to work, and the detection result of the cable is improved; in addition, after the bearing seat 33 drives the push plate 25 to push the push block 26, the bearing seat 33 moves reversely along the reciprocating screw rod 32, when the cable is clamped by the fixing clamp 39, the position relation of the bearing seat 33 on the measuring plate 24 is observed, and the position of the vibration sensor positioned on the cable in the area to be measured can be calculated through the scales on the measuring plate 24, and the distance between the vibration sensor and the two ends of the cable in the area to be measured can be calculated, and the detection quality of the cable can be improved by detecting the cables in the area to be measured at a plurality of positions and comparing the position data; the manual high-altitude detection is avoided, the condition that personnel are drunk down is avoided, the potential safety hazard caused by electricity leakage is avoided while the mechanized detection is completed, and the use safety is high;
the cleaning mechanism A3 comprises a motor 31, a reciprocating screw rod 32 is arranged at the output end of the motor 31, a bearing seat 33 is arranged on the reciprocating screw rod 32, the bearing seat 33 is movably connected with the measuring plate 24, and the output end of the motor 31 is movably connected with the toothed plate A28 and the toothed plate B29; the telescopic rod 34 is arranged on the bearing seat 33, the base 35 is arranged on the telescopic rod 34, and the fixing clamp 39 and the cleaning clamp 37 are arranged on the base 35;
the cleaning mechanism B4 comprises a sealing cylinder 41, a sealing rod 45 is arranged in the sealing cylinder 41, the sealing rod 45 is connected with the bearing seat 33, a blowing pipe 42 and an exhaust pipe 43 are arranged on the sealing cylinder 41, a one-way valve 44 is arranged on the exhaust pipe 43, and the one-way valve 44 is movably connected with the cleaning clamp 37; in addition, when the bearing seat 33 moves, the bearing seat 33 drives the sealing rod 45 to move, the sealing rod 45 moves in the sealing cylinder 41, and the sealing rod 45 extrudes gas in the sealing cylinder 41 to be discharged through the blowing pipe 42, and as the air outlet of the blowing pipe 42 is positioned at one side of the cleaning clamp 37, the effect of cleaning impurities is achieved when the cleaning clamp 37 moves to clean a cable, and the effect of cleaning the cable can be improved by simultaneously carrying out two cleaning means;
in addition, when the bearing seat 33 moves reversely, as the one-way valve 44 is arranged in the sealing cylinder 41, when the sealing rod 45 moves reversely, air cannot be pumped through the blowing pipe 42, only air can be pumped through the exhaust pipe 43, when the exhaust pipe 43 pumps air, the one-way valve 44 moves, and as the one-way valve 44 is positioned on one side of the cleaning clamp 37, the cleaning clamp 37 can be extruded when the one-way valve 44 moves, so that the cable is clamped and fixed by the cleaning clamp 37, two ends of the cable in the area to be tested are clamped by the clamping box A21 and the clamping box B22, and the middle part of the cable in the area to be tested is fixedly clamped by the gear 27, so that the stability of the cable is greatly improved by fixing a plurality of positions of the cable;
the movable frame 1 is moved to a proper position, the clamping box A21 is placed below a cable, then the motor 31 is started, the motor 31 drives the measuring plate 24 and the bracket rod 23 to move through the toothed plate B29, the bracket rod 23 drives the clamping box B22 to move, the clamping box B22 drives the base 35 to move through the telescopic rod 34 to enable the cleaning clamp 37 to be in contact with the cable, meanwhile, the output end of the motor 31 drives the bearing seat 33 to move, the bearing seat 33 drives the base 35 to move through the telescopic rod 34, and the base 35 drives the cleaning clamp 37 to move to clean the cable; then after the bearing seat 33 moves for a certain position, the bearing seat 33 drives the measuring plate 24 to move, so that the output end of the motor 31 is disconnected with the toothed plate B29 and is connected with the toothed plate A28, at the moment, the output end of the motor 31 drives the clamping box B22 to move to be matched with the clamping box A21 to clamp and fix the cable, meanwhile, the clamping box B22 drives the base 35 to move through the telescopic rod 34, the base 35 drives the fixing clamp 39 to move and clamps the vibration sensor onto the cable, and the position of the bearing seat 33 and the measuring plate 24 is used for recording the checking position;
through installing vibration sensor on the cable to collect the vibration signal that the cable produced, can judge whether the cable is inside to have the wire breakage, not hard up, contact failure scheduling problem, accomplish the electrified detection of cable.
Further, the bottom of the movable frame 1 is provided with a movable base, and in order to improve practicality, the movable base can adopt a lifting type.
Further, cable grooves are formed in the clamping box A21 and the clamping box B22, the clamping box A21 is inserted into the clamping box B22, a sliding groove for moving the telescopic rod 34 is formed in the clamping box B22, the clamping box B22 slides on the moving frame 1, the support rod 23 is fixedly connected with the clamping box B22, the measuring plate 24 is fixedly connected with the support rod 23, scales are formed in the measuring plate 24, the pushing block 26 is mounted on the measuring plate 24, the clamping mechanism 2 further comprises a pushing plate 25 mounted on the bearing seat 33, the pushing plate 25 is movably connected with the pushing block 26, the clamping mechanism 2 further comprises a gear 27 mounted on the output end of the motor 31, and the toothed plate A28 and the toothed plate B29 are movably connected with the gear 27.
Further, the motor 31 is mounted on the movable frame 1, the reciprocating screw rod 32 is connected with the bearing seat 33 through a ball nut pair, the telescopic rod 34 is in telescopic connection with two parts, one part of the telescopic rod 34 is horizontally and slidably connected with the clamping box B22, the other part of the telescopic rod 34 is fixedly connected with the bearing seat 33, the movable shaft 36 penetrates through the base 35, the cleaning clamp 37 is connected with the movable shaft 36, the telescopic spring 38 is mounted on the movable shaft 36, the telescopic spring 38 is connected with the base 35, and the vibration sensor is mounted on the fixing clamp 39.
Further, a one-way valve 44 is installed inside the sealing cylinder 41, the blowing pipe 42 is communicated with the sealing cylinder 41, the communicating position of the blowing pipe 42 and the sealing cylinder 41 is located on one side of the one-way valve 44, the exhaust pipe 43 is communicated with the sealing cylinder 41, the communicating position of the exhaust pipe 43 and the sealing cylinder 41 is located on the other side of the one-way valve 44, and the one-way valve 44 is movably connected with the exhaust pipe 43.
Working principle: when the cable is required to be detected in a live manner, the movable base at the bottom of the movable frame 1 is moved to a proper position, then the motor 31 is started to work, the gear 27 firstly drives the toothed plate B29 to rotate due to the fact that the output end of the motor 31 drives the gear 27, the toothed plate B29 drives the measuring plate 24 to move, the measuring plate 24 drives the bracket rod 23 to move, the bracket rod 23 drives the clamping box B22 to move, the telescopic rod 34 is driven to move when the clamping box B22 moves vertically because part of the telescopic rod 34 and the clamping box B22 can only slide horizontally, the telescopic rod 34 drives the base 35 to move, the base 35 drives the movable shaft 36 to move, the movable shaft 36 drives the cleaning clamp 37 to move and the movable shaft 36 presses the telescopic spring 38, the cleaning clamp 37 is in contact with the cable, and meanwhile, the gear 27 does not drive the toothed plate B29 to rotate after the clamping box B22 moves a part below the clamping box B22, and the clamping box B22 is not moved at the moment, and the clamping box B22 is positioned in the clamping box A21 to be spliced; in addition, at the moment, the output end of the motor 31 drives the reciprocating screw rod 32 to rotate, the bearing seat 33 moves on the reciprocating screw rod 32, the bearing seat 33 drives the telescopic rod 34 to move, the telescopic rod 34 drives the base 35 to horizontally move, the base 35 drives the cleaning clamp 37 to move through the moving shaft 36, and impurities such as fallen leaves, snow and the like on the cleaning clamp 37 can be cleaned due to the fact that the cleaning clamp 37 is in contact with a cable, so that the influence of the impurities on the cleaning clamp 37 on vibration sensing work is avoided; in addition, the cleaning clamp 37 adopts a C-shaped design, so that impurities on the surface of the cable can be cleaned as much as possible; the mode of cleaning the surface of the cable before fixing and clamping the cable can enable the cable to move by a certain extent while cleaning, so that the falling of impurities can be promoted to a certain extent, and the cable is convenient to clean by being matched with the cleaning clamp 37;
in addition, when the bearing seat 33 moves, the bearing seat 33 drives the push plate 25 to move, after the push plate 25 moves to a certain position, the base 35 extrudes the push block 26 to move, the push block 26 drives the measuring plate 24 to move, the measuring plate 24 moves to drive the toothed plate A28 and the toothed plate B29 to move, so that the gear 27 is disconnected with the toothed plate B29 and is connected with the toothed plate A28, when the gear 27 continuously rotates, the gear 27 drives the toothed plate A28 to work, the toothed plate A28 drives the clamping box B22 to continuously move downwards, so that the clamping box B22 is spliced with the clamping box A21, cables are clamped through cable grooves on the clamping box B22 and the clamping box A21, and the cables in a region to be detected can be closed through the box-type design of the clamping box A21 and the clamping box B22, on one hand, the two ends of the cables in the region to be detected can be clamped and fixed, and meanwhile, when the cables in the region to be detected are detected through the vibration sensor, the stability of the cables is prevented from being influenced by external wind or factors, and the detection quality of the cables is greatly improved;
in addition, the clamping box B22 moves downwards to be spliced with the clamping box A21, at the moment, the base 35 drives the fixing clamp 39 to clamp the cable and clamp the vibration sensor on the cable, so that the cable and the closed environment in the area to be tested are fixed, high-quality detection conditions can be provided for the vibration sensor to work, and the detection result of the cable is improved; in addition, after the bearing seat 33 drives the push plate 25 to push the push block 26, the bearing seat 33 moves reversely along the reciprocating screw rod 32, when the cable is clamped by the fixing clamp 39, the position relation of the bearing seat 33 on the measuring plate 24 is observed, and the position of the vibration sensor positioned on the cable in the area to be measured can be calculated through the scales on the measuring plate 24, and the distance between the vibration sensor and the two ends of the cable in the area to be measured can be calculated, and the detection quality of the cable can be improved by detecting the cables in the area to be measured at a plurality of positions and comparing the position data;
in addition, when the bearing seat 33 moves, the bearing seat 33 drives the sealing rod 45 to move, the sealing rod 45 moves in the sealing cylinder 41, and the sealing rod 45 extrudes gas in the sealing cylinder 41 to be discharged through the blowing pipe 42, and as the air outlet of the blowing pipe 42 is positioned at one side of the cleaning clamp 37, the effect of cleaning impurities is achieved when the cleaning clamp 37 moves to clean a cable, and the effect of cleaning the cable can be improved by simultaneously carrying out two cleaning means;
in addition, when the bearing seat 33 moves reversely, the one-way valve 44 is arranged in the sealing cylinder 41, when the sealing rod 45 moves reversely, air cannot be pumped through the blowing pipe 42, only air can be pumped through the exhaust pipe 43, when the exhaust pipe 43 pumps air, the one-way valve 44 moves, and because the one-way valve 44 is positioned on one side of the cleaning clamp 37, the cleaning clamp 37 can be extruded when the one-way valve 44 moves, so that the cable is clamped by the cleaning clamp 37 and fixed, two ends of the cable in the area to be tested are clamped through the clamping box A21 and the clamping box B22, and the middle part of the cable in the area to be tested is fixedly clamped through the gear 27, so that the stability of the cable is greatly improved through fixing a plurality of places of the cable.
Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a high security power equipment live detection device, includes removes frame (1), its characterized in that, remove and be provided with fixture (2) fixed to cable centre gripping on frame (1), remove and be provided with on frame (1) to the clearance mechanism A (3) of cable clearance and cooperation fixture (2) live detection, remove and be provided with on frame (1) clearance mechanism B (4) of cooperation fixture (2) fixed cable;
the clamping mechanism (2) comprises a clamping box A (21) and a clamping box B (22), wherein a bracket rod (23) is arranged on the clamping box B (22), a measuring plate (24) is arranged on the bracket rod (23), and a toothed plate A (28) and a toothed plate B (29) are arranged on the measuring plate (24);
the cleaning mechanism A (3) comprises a motor (31), a reciprocating screw rod (32) is arranged at the output end of the motor (31), a bearing seat (33) is arranged on the reciprocating screw rod (32), the bearing seat (33) is movably connected with the measuring plate (24), and the output end of the motor (31) is movably connected with the toothed plate A (28) and the toothed plate B (29);
a telescopic rod (34) is arranged on the bearing seat (33), a base (35) is arranged on the telescopic rod (34), and a fixing clamp (39) and a cleaning clamp (37) are arranged on the base (35);
the cleaning mechanism B (4) comprises a sealing cylinder (41), a sealing rod (45) is arranged in the sealing cylinder (41), the sealing rod (45) is connected with a bearing seat (33), a blowing pipe (42) and an exhaust pipe (43) are arranged on the sealing cylinder (41), a one-way valve (44) is arranged on the exhaust pipe (43), and the one-way valve (44) is movably connected with a cleaning clamp (37);
moving the movable frame (1) to a proper position, placing the clamping box A (21) below the cable, then starting the motor (31), driving the measuring plate (24) and the support rod (23) to move by the motor (31) through the toothed plate B (29), driving the clamping box B (22) to move by the support rod (23), driving the base (35) to move by the clamping box B (22) through the telescopic rod (34), enabling the cleaning clamp (37) to be in contact with the cable, driving the bearing seat (33) to move by the output end of the motor (31), driving the base (35) to move by the bearing seat (33) through the telescopic rod (34), and driving the cleaning clamp (37) to move to clean the cable by the base (35); then after the bearing seat (33) moves a certain position, the bearing seat (33) drives the measuring plate (24) to move, so that the output end of the motor (31) is canceled to be connected with the toothed plate B (29) and simultaneously connected with the toothed plate A (28), at the moment, the output end of the motor (31) drives the clamping box B (22) to move to be matched with the clamping box A (21) to clamp and fix the cable, meanwhile, the clamping box B (22) drives the base (35) to move through the telescopic rod (34), and the base (35) drives the fixing clamp (39) to move and clamp the vibration sensor onto the cable, and the position of the bearing seat (33) and the measuring plate (24) is recorded and checked.
2. The high-safety power equipment live detection device according to claim 1, wherein a movable base is arranged at the bottom of the movable frame (1).
3. The high-safety power equipment live detection device according to claim 1, wherein cable grooves are formed in the clamping box A (21) and the clamping box B (22), the clamping box A (21) is inserted into the clamping box B (22), a sliding groove for moving the telescopic rod (34) is formed in the clamping box B (22), and the clamping box B (22) slides on the moving frame (1).
4. The high-safety power equipment live detection device according to claim 1, wherein the support rod (23) is fixedly connected with the clamping box B (22), the measuring plate (24) is fixedly connected with the support rod (23), scales are arranged on the measuring plate (24), the pushing block (26) is arranged on the measuring plate (24), the clamping mechanism (2) further comprises a pushing plate (25) arranged on the bearing seat (33), and the pushing plate (25) is movably connected with the pushing block (26).
5. The high-safety power equipment live detection device according to claim 1, wherein the clamping mechanism (2) further comprises a gear (27) arranged on the output end of the motor (31), and the toothed plate A (28) and the toothed plate B (29) are movably connected with the gear (27).
6. The high-safety power equipment live detection device according to claim 1, wherein the motor (31) is mounted on the movable frame (1), and the reciprocating screw (32) is connected with the bearing seat (33) through a ball nut pair.
7. The high-safety power equipment live detection device according to claim 1, wherein the telescopic rod (34) is in telescopic connection in two parts, one part of the telescopic rod (34) is horizontally and slidably connected with the clamping box B (22), and the other part of the telescopic rod (34) is fixedly connected with the bearing seat (33).
8. The high-safety power equipment live detection device according to claim 1, wherein a moving shaft (36) penetrates through the base (35), the cleaning clamp (37) is connected with the moving shaft (36), a telescopic spring (38) is mounted on the moving shaft (36), the telescopic spring (38) is connected with the base (35), and the vibration sensor is mounted on the fixing clamp (39).
9. The high-safety power equipment live detection device according to claim 1, wherein a one-way valve (44) is installed inside the sealing cylinder (41), the blowing pipe (42) is communicated with the sealing cylinder (41), and a communication position of the blowing pipe (42) and the sealing cylinder (41) is located on one side of the one-way valve (44).
10. The high-safety power equipment live detection device according to claim 4, wherein the exhaust pipe (43) is communicated with the sealing cylinder (41), the communication position of the exhaust pipe (43) and the sealing cylinder (41) is located at the other side of the one-way valve (44), and the one-way valve (44) is movably connected with the exhaust pipe (43).
CN202310859798.4A 2023-07-13 2023-07-13 High security power equipment live detection device Active CN116736057B (en)

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