CN116736049A - Hollow composite insulating sleeve detection system and process thereof - Google Patents

Abstract

The invention relates to the technical field of insulating sleeve detection and discloses a hollow composite insulating sleeve detection system and a process thereof, wherein the hollow composite insulating sleeve detection system comprises a fixed base, a movement detection mechanism is arranged at the top end of the fixed base, a plurality of adjusting clamping mechanisms are arranged at the top end of the fixed base, hollow composite insulating sleeve bodies are arranged in the middle of the adjusting clamping mechanisms, a dust removing cleaning mechanism is arranged in the middle of the top end of the fixed base, and a telescopic movement mechanism is arranged at the bottom end of the fixed base; according to the invention, the dust removing and cleaning mechanism is arranged, and the dust removing brush rod is driven to clean and remove dust adhered and accumulated on the surface of the turned hollow composite insulating sleeve body in the moving process by the back and forth movement of the limit rod, and suction force is generated by starting the fan, so that the dust is sucked into the dust collection box for centralized storage, and the purposes of automatically cleaning the dust adhered and accumulated on the surface of the hollow composite insulating sleeve body and effectively improving the accuracy of a detection result are effectively achieved.

Description

Hollow composite insulating sleeve detection system and process thereof

Technical Field

The invention belongs to the technical field of insulating sleeve detection, and particularly relates to a hollow composite insulating sleeve detection system and a hollow composite insulating sleeve detection process.

Background

The insulating sleeve is an insulating protective sleeve, is commonly used for protecting the outside of a wire and a cable, and can be divided into four types according to material properties: before the composite insulating sleeve is used, in order to ensure the insulating performance of the composite insulating sleeve, a detection system is generally used for detecting the insulating performance of the composite insulating sleeve.

When the existing detection system is used, as disclosed in publication number CN 113295927A, an insulation detection system is used for measuring insulation resistance of a high-voltage system, the high-voltage system comprises at least one high-voltage device, the high-voltage device comprises a positive end and a negative end, an insulation resistance reference point is included between the positive end and the negative end, a first resistor is included between the insulation resistance reference point and the positive end and between the negative end, and the insulation detection system comprises: a first voltage measuring section and a second voltage measuring section.

However, in the above patent, although the purpose of improving insulation detection accuracy is achieved, when the insulation pipe sleeve is detected, the surface of the pipe sleeve is easy to adhere and accumulate dust, so that the influence of the dust is caused, and the insulation performance detection of the composite insulation pipe sleeve is easy to generate errors, so that the accuracy of the detection result is influenced.

Disclosure of Invention

The invention aims to provide a hollow composite insulating sleeve detection system and a process thereof, and the hollow composite insulating sleeve detection system has the advantages that dust adhered and accumulated on the surface of a composite insulating sleeve can be automatically cleaned, removed and cleaned, and the accuracy of a detection result is prevented from being influenced by the dust.

The technical scheme adopted by the invention is as follows: the hollow composite insulating sleeve detection system comprises a fixed base, wherein a movement detection mechanism is arranged at the top end of the fixed base, a plurality of adjusting clamping mechanisms are arranged at the top end of the fixed base, hollow composite insulating sleeve bodies are arranged in the middle of the adjusting clamping mechanisms, a dust removing and cleaning mechanism is arranged in the middle of the top end of the fixed base, and a telescopic movement mechanism is arranged at the bottom end of the fixed base;

the utility model provides a dust removal cleaning mechanism, including adjusting spout, fourth electric putter, removal slider, gag lever post, movable tank, a plurality of bracing piece, first spring, a plurality of installation piece, a plurality of second expansion tank, a plurality of second spring, a plurality of dust removal brush pole, dust collection box, dust absorption groove, a plurality of ventilation hole, fan and clearance door, adjust the spout and offer in unable adjustment base's top middle part, fourth electric putter fixed mounting is in the one end of adjusting the spout, the lateral wall fixed connection of removal slider is in fourth electric putter's output, the bottom fixed connection of gag lever post is in the top of removal slider, the movable tank is offered in the top of gag lever post, a plurality of bottom sliding connection of bracing piece is in the lateral wall of movable tank, first spring fixed connection is between two bracing pieces, a plurality of one end fixed connection of installation piece is in the top of bracing piece, a plurality of second expansion tank is offered in the other end inboard of installation piece, a plurality of one end fixed connection of dust collection brush pole is in the other end of second spring, lateral wall fixed connection of dust collection box is in the dust collection box is in dust collection box, dust collection box is in dust collection box is connected with the dust collection box, a plurality of dust collection box is located in the dust collection box is connected with the dust collection box.

Optionally, the removal detection mechanism includes a plurality of support columns, a plurality of first slide bars, a plurality of first movable block, a plurality of first connecting block, a plurality of first electric putter, second slide bar, second movable block, second connecting block, second electric putter and insulation tester, a plurality of the bottom fixed connection of support column is in unable adjustment base's top, a plurality of first slide bar fixed connection is between two support columns, a plurality of first movable block sliding connection is in the lateral wall of first slide bar, a plurality of the one end fixed connection of first connecting block is in the lateral wall of first movable block, a plurality of the both ends of first electric putter are fixed connection respectively in the other end of first connecting block and the lateral wall of support column, second slide bar fixed connection is between two first movable blocks, second movable block sliding connection is in the lateral wall of second slide bar, the one end fixed connection of second connecting block is in the top of second movable block, the both ends of second electric putter are fixed connection respectively in the other end of second movable block and the top of first movable block, insulation tester fixed mounting is in the bottom of the connecting block of second movable block.

Optionally, adjust fixture includes fixed plate, through-hole, spacing slider, motor, first tooth, the second rotates tooth, spacing spout, first expansion tank, third electric putter, telescopic link, fixed pipe clamp and first slipmat, the bottom fixed connection of fixed plate is in unable adjustment base's top, the lateral wall of fixed plate is seted up to the through-hole, spacing slider fixed connection is inboard in the top of fixed plate, motor fixed mounting is in the lateral wall of fixed plate, first tooth fixed connection in the output of motor rotates, the lateral wall of second rotation tooth meshes with the lateral wall of first rotation tooth, spacing spout is seted up in the lateral wall of second rotation tooth, the middle part inboard of second rotation tooth is seted up to first expansion tank, third electric putter fixed mounting is in the one end of first expansion tank, the one end fixed connection of telescopic link is in the output of third electric putter, the one end fixed pipe clamp is fixed connection in the other end of telescopic link, first slipmat is fixed in the other end of fixed pipe clamp.

Optionally, flexible moving mechanism includes second slipmat, a plurality of groove, a plurality of lift spout, a plurality of pneumatic cylinder, a plurality of lift slider, a plurality of removal gyro wheel and a plurality of rubber leather sheath of accomodating, second slipmat fixed connection is in unable adjustment base's bottom, a plurality of accomodate the groove and offer in unable adjustment base's bottom, a plurality of the lateral wall in accomodating the groove is offered in the lift spout, a plurality of pneumatic cylinder fixed mounting is in the top of lift spout, a plurality of the top fixed connection of lift slider is in the output of pneumatic cylinder, a plurality of remove the gyro wheel and rotate and connect between two lift sliders, a plurality of rubber leather sheath fixed connection is in the lateral wall that removes the gyro wheel.

Optionally, the first anti-slip pad and the second anti-slip pad are made of rubber as raw materials.

Optionally, the movable slide block is slidably connected to the side wall of the adjusting chute by being matched with the adjusting chute.

Optionally, the limit sliding block is in fit sliding connection with the limit sliding groove and is arranged on the side wall of the limit sliding groove.

Optionally, the output of motor is through rotating through hole and first rotation tooth fixed connection.

Optionally, the hollow composite insulating sleeve body is installed between a plurality of fixed pipe clamps.

Optionally, a process of the hollow composite insulating sleeve detection system comprises the following specific steps:

s1: firstly, a telescopic rod is driven to slide and shrink into the first telescopic groove through the shrinkage of a third electric push rod, so that a fixed pipe clamp is opened in a sliding manner, a hollow composite insulating sleeve body to be detected is inserted between the fixed pipe clamps, the fixed pipe clamp is driven to fold through the extension of the third electric push rod to clamp and fix the hollow composite insulating sleeve body, the friction force of the contact surface of the fixed pipe clamp and the hollow composite insulating sleeve body is increased through a first anti-slip pad made of rubber to conduct anti-slip stabilization, meanwhile, a first rotating tooth is driven to rotate through the starting of a motor, the second rotating tooth is meshed with the first rotating tooth, and accordingly the second rotating tooth is driven to rotate at the top end of a fixed plate through the limiting sliding of a limiting sliding block, the hollow composite insulating sleeve body to be clamped and fixed is driven to rotate through the second rotating tooth, and therefore the hollow composite insulating sleeve body to be clamped and fixed is clamped, and the hollow composite insulating sleeve body is clamped, fixed and the overturning angle is adjusted are achieved;

s2: then, when the hollow composite insulating sleeve body is turned over, the fourth electric push rod is started to stretch back and forth to drive the movable sliding block to slide back and forth in the adjusting sliding groove, so that the limiting rod is driven to move back and forth at the top end of the fixed base, the movable sliding block is opened in the movable groove by sliding the supporting rod according to the size of the hollow composite insulating sleeve body, the supporting rod is made to rebound and fold by the reaction force of the first spring to drive the mounting block to fold so as to clamp and attach the hollow composite insulating sleeve body, the dust removing brush rod is made to extend out of the second telescopic groove to be tightly attached to the surface of the hollow composite insulating sleeve body by the reaction force of the second spring, the dust removing brush rod is driven to clean and remove dust accumulated on the surface of the turned hollow composite insulating sleeve body by the back and forth movement of the limiting rod, suction is generated by the fan, the cleaned dust is sucked into the dust collecting box through the dust collecting groove and the vent hole to be concentrated and stored, and the collected dust is subjected to post concentrated cleaning through the cleaning door;

s3: finally, the insulating performance of the hollow composite insulating sleeve body below is detected through the insulating tester after the surface is cleaned, the first moving block is driven to move back and forth on the side wall of the first sliding rod through the expansion of the first electric push rod, the insulating tester is driven to move longitudinally, the second moving block is driven to move back and forth on the side wall of the second sliding rod through the expansion of the second electric push rod, the insulating tester is driven to move transversely, and insulating detection is carried out on different positions of the hollow composite insulating sleeve body through the insulating tester which moves transversely or longitudinally, so that the insulating detection of the hollow composite insulating sleeve body is more complete and thorough, and the insulating detection of the hollow composite insulating sleeve body is completed.

The invention has the technical effects that:

(1) According to the scheme, the dust removing and cleaning mechanism is specifically arranged, the fourth electric push rod is started to stretch back and forth to drive the movable sliding block to slide back and forth in the adjusting sliding groove, the limiting rod is driven to move back and forth in the top end of the fixed base, the movable sliding block is opened in the movable groove through the sliding supporting rod according to the size of the hollow composite insulating sleeve body, the supporting rod is made to rebound and fold to drive the mounting block to fold so as to clamp and attach the hollow composite insulating sleeve body through the reaction force of the first spring, the dust removing brush rod is made to stretch out from the second telescopic groove to tightly attach to the surface of the hollow composite insulating sleeve body through the reaction force of the second spring, the limiting rod is further driven to clean and remove dust accumulated on the surface of the turned hollow composite insulating sleeve body through the back and forth movement of the limiting rod, suction force is generated through the fan, the cleaned dust is sucked into the dust collecting box through the dust collecting groove and the vent hole to be intensively stored, and the collected dust is intensively cleaned through the cleaning door in a later period, so that the dust accumulated on the surface of the hollow composite insulating sleeve body is effectively and conveniently cleaned, the dust accumulated on the surface of the hollow composite insulating sleeve body is effectively and easily influenced by dust, the dust is prevented from easily causing error in detection, and the accuracy is effectively improved;

(2) Through setting up regulation fixture, specific through the inside that the shrink of third electric putter drive telescopic link was slided and is contracted into first expansion tank, thereby make fixed pipe clamp slide open, insert the hollow composite insulation sleeve body that will wait to detect between the fixed pipe clamp, stretch out through the third electric putter and drive fixed pipe clamp and fold and carry out the centre gripping fixed to hollow composite insulation sleeve body, and carry out anti-skidding firm through the frictional force that adopts the first slipmat that rubber made to increase fixed pipe clamp and hollow composite insulation sleeve body contact surface, simultaneously, drive first rotation tooth through the motor start and rotate, mesh with first rotation tooth through the second rotation tooth, thereby drive the second rotation tooth through spacing slider in spacing spout spacing slip at the top of fixed plate and rotate, thereby drive the hollow composite insulation sleeve body rotation of centre gripping fixed through the rotation of second rotation tooth and overturn angle regulation, thereby the purpose that is convenient for overturn angle regulation to hollow composite insulation sleeve body when reaching the centre gripping steadiness of effective improvement hollow composite insulation sleeve body;

(3) Through setting up the movement detection mechanism, specific insulating performance to the hollow composite insulation sleeve body of below through insulating tester detects, and drive the back and forth movement of first movable block on the lateral wall of first slide bar through first electric putter is flexible, thereby drive insulating tester and carry out longitudinal movement, and drive the back and forth movement of second movable block on the lateral wall of second slide bar through the flexible of second electric putter, drive insulating tester and carry out lateral shifting, thereby insulating test is carried out to the different positions of hollow composite insulation sleeve body through insulating tester that horizontal or longitudinal moved, reach effectively make the insulating test to hollow composite insulation sleeve body more fully thoroughly, further improve the purpose of detection accuracy, accomplish the insulating test to hollow composite insulation sleeve body;

(4) Through setting up flexible moving mechanism, specific drive lifting slide block through the pneumatic cylinder extension and slide down move on lifting slide groove, drive to remove the gyro wheel and move down and stretch out with the ground laminating back with whole device jack-up from accomodating the groove, thereby drive through promoting unable adjustment base and remove the gyro wheel and rotate and carry out portable removal, and through the rubber leather sheath to the vibrations that the in-process that removes the gyro wheel rotation produced buffering shock attenuation, remove to the service area after, make through the pneumatic cylinder shrink remove the gyro wheel shrink and accomodate in the groove and make fixed base land, increase unable adjustment base through the second slipmat that adopts rubber to make and ground contact surface's frictional force and carry out antiskid firm, and then when reaching the portable travelling performance of effective providing device, improve its support steadiness's when using purpose.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed for the description of the embodiments will be briefly described below, it will be apparent that the drawings in the following description are only some embodiments of the present invention, and other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic diagram of a motion detection mechanism according to the present invention;

FIG. 3 is a schematic view of a fixing plate structure according to the present invention;

FIG. 4 is a partial structural cross-sectional view of the adjustment clamping mechanism of the present invention;

FIG. 5 is a cross-sectional view of a second rotary tooth according to the present invention;

FIG. 6 is a partial structural cross-sectional view of the dust removing cleaning mechanism of the present invention;

FIG. 7 is a rear sectional view of a partial structure of the dust removing cleaning mechanism of the present invention;

fig. 8 is a bottom cross-sectional view of the stationary base structure of the present invention.

In the drawings, the list of components represented by the various numbers is as follows:

1. a fixed base; 2. a movement detection mechanism; 201. a support column; 202. a first slide bar; 203. a first moving block; 204. a first connection block; 205. a first electric push rod; 206. a second slide bar; 207. a second moving block; 208. a second connection block; 209. a second electric push rod; 210. an insulation tester; 3. adjusting the clamping mechanism; 301. a fixing plate; 302. a through hole; 303. a limit sliding block; 304. a motor; 305. a first rotating tooth; 306. a second rotating tooth; 307. limiting sliding grooves; 308. a first expansion tank; 309. a third electric push rod; 310. a telescopic rod; 311. fixing the pipe clamp; 312. a first cleat; 4. a hollow composite insulating sleeve body; 5. a dust removal cleaning mechanism; 501. adjusting the chute; 502. a fourth electric push rod; 503. moving the slide block; 504. a limit rod; 505. a moving groove; 506. a support rod; 507. a first spring; 508. a mounting block; 509. a second expansion tank; 510. a second spring; 511. a dust removal brush bar; 512. a dust collection box; 513. a dust collection groove; 514. a vent hole; 515. a blower; 516. cleaning a door; 6. a telescopic moving mechanism; 601. a second cleat; 602. a storage groove; 603. lifting sliding grooves; 604. a hydraulic cylinder; 605. a lifting slide block; 606. moving the roller; 607. rubber leather sheath.

Description of the embodiments

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. 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.

Example 1

Referring to fig. 1, 6 and 7, the invention provides a hollow composite insulation sleeve detection system, which comprises a fixed base 1, wherein a movement detection mechanism 2 is arranged at the top end of the fixed base 1, a plurality of adjusting clamping mechanisms 3 are arranged at the top end of the fixed base 1, a hollow composite insulation sleeve body 4 is arranged in the middle of the plurality of adjusting clamping mechanisms 3, a dust removal cleaning mechanism 5 is arranged in the middle of the top end of the fixed base 1, and a telescopic movement mechanism 6 is arranged at the bottom end of the fixed base 1;

the dust removing and cleaning mechanism 5 comprises an adjusting chute 501, a fourth electric push rod 502, a moving slide block 503, a limiting rod 504, a moving groove 505, a plurality of supporting rods 506, a first spring 507, a plurality of mounting blocks 508, a plurality of second telescopic grooves 509, a plurality of second springs 510, a plurality of dust removing brush rods 511, a dust collecting box 512, a dust collecting groove 513, a plurality of ventilation holes 514, a fan 515 and a cleaning door 516, wherein the adjusting chute 501 is arranged in the middle of the top end of the fixed base 1, the fourth electric push rod 502 is fixedly arranged at one end of the adjusting chute 501, the side wall of the moving slide block 503 is fixedly connected with the output end of the fourth electric push rod 502, the moving slide block 503 is fixedly connected with the top end of the moving slide block 503 by being matched with the adjusting chute 501, the bottom end of the moving slide block 505 is fixedly connected with the top end of the moving slide block 503, the moving groove 505 is arranged at the top end of the limiting rod 504, the bottom ends of the plurality of the supporting rods 506 are fixedly connected with the side wall of the moving groove 505, one end of the first springs 507 is fixedly connected between the two supporting rods 506, one end of the plurality of the mounting blocks 508 is fixedly connected with the top ends of the supporting rods 506, the second telescopic grooves 509 are arranged in the other end of the fixing groove 512, the other end of the mounting block 508 is fixedly connected with the dust collecting box 512, one end of the other end of the dust collecting box 512 is fixedly arranged at the side of the dust collecting box 512, and is fixedly connected with the other end of the dust collecting box 512; the dust accumulated on the surface of the hollow composite insulating sleeve body 4 is cleaned through the dust removing cleaning mechanism 5, the movable sliding block 503 is driven to move back and forth through the adjusting sliding groove 501, the movable sliding block 503 is driven to move back and forth through the fourth electric push rod 502, the limiting rod 504 is driven to move back and forth through the movable sliding block 503 while the limiting rod 504 is moved in a limiting mode, the supporting rod 506 is limited in a sliding mode through the moving groove 505, the mounting block 508 is connected and supported through the supporting rod 506, the supporting rod 506 is reset and folded through the first spring 507, the mounting block 508 is used for mounting and supporting the dust removing brush rod 511, the second telescopic groove 509 is used for sliding and limiting the dust removing brush rod 511, the second spring 510 is used for providing the acting force to enable the dust removing brush rod 511 to reset and extend to be tightly attached to the surface of the hollow composite insulating sleeve body 4, the dust accumulated on the surface of the hollow composite insulating sleeve body 4 is cleaned through the dust removing brush rod 511, the dust removed through the dust collecting box 512 is stored in a concentrated mode, the dust collecting groove and the vent hole 514 are used for adsorbing and guiding the dust, the dust is provided through the dust collecting groove 515, the dust is cleaned through the fan 515, and the acting force is used for cleaning the dust is convenient to clean in later stage.

In some embodiments, referring to fig. 1 and 2, the movement detection mechanism 2 includes a plurality of support columns 201, a plurality of first slide bars 202, a plurality of first moving blocks 203, a plurality of first connecting blocks 204, a plurality of first electric pushrods 205, a second slide bar 206, a second moving block 207, a second connecting block 208, a second electric pushrods 209, and an insulation tester 210, wherein the bottom ends of the plurality of support columns 201 are fixedly connected to the top end of the fixed base 1, the support columns 201 are used for supporting and fixing, the plurality of first slide bars 202 are fixedly connected between the two support columns 201, the first moving blocks 203 are slidably supported by the first slide bars 202, the plurality of first moving blocks 203 are slidably connected to the side walls of the first slide bars 202, the first connecting blocks 203 are longitudinally moved by the first moving blocks 203, one end of each first connecting block 204 is fixedly connected to the side wall of the first moving block 203, the first connecting block 204 is in transmission connection with the first electric pushrods 205, the two ends of each first electric pushrods 205 are fixedly connected to the other end of the side walls of the first connecting block 204, the first electric pushrods 205 are provided with the acting force by the first electric pushrods 205, the second slide bars 206 are fixedly connected to the two ends of the second connecting blocks 203, the top ends of each second connecting block 203 are transversely moved by the second connecting block 207, the second end of each second connecting block 207 is transversely moved by the second connecting block 208, the second end of the second connecting block is fixedly connected to the second end of the second connecting block 208, the insulation tester 210 is fixedly installed at the bottom end of the second moving block 207, and insulation detection is performed on the hollow composite insulation sleeve body 4 through the insulation tester 210.

In some embodiments, referring to fig. 1, 3, 4 and 5, the adjusting and clamping mechanism 3 includes a fixing plate 301, a through hole 302, a limit slider 303, a motor 304, a first rotating tooth 305, a second rotating tooth 306, a limit chute 307, a first telescopic slot 308, a third electric push rod 309, a telescopic rod 310, a fixing pipe clamp 311 and a first anti-slip pad 312, wherein the bottom end of the fixing plate 301 is fixedly connected to the top end of the fixing base 1, the fixing plate 301 is fixedly supported, the through hole 302 is opened on the side wall of the fixing plate 301, the limit slider 303 is fixedly connected to the inner side of the top end of the fixing plate 301, the limit slider 303 is used for rotationally supporting the second rotating tooth 306, the motor 304 is fixedly mounted on the side wall of the fixing plate 301, the motor 304 is used for providing acting force to rotate, the first rotating tooth 305 is fixedly connected to the output end of the motor 304, through the rotary transmission of the first rotary teeth 305, the output end of the motor 304 is fixedly connected with the first rotary teeth 305 through the rotary through holes 302, the side wall of the second rotary teeth 306 is meshed with the side wall of the first rotary teeth 305, the hollow composite insulation sleeve body 4 clamped by the rotation of the second rotary teeth 306 is driven to rotate and turn over an adjusting angle, the limit sliding chute 307 is arranged on the side wall of the second rotary teeth 306, the limit sliding block 303 is limited in a sliding manner through the limit sliding chute 307, the limit sliding block 303 is connected with the side wall of the limit sliding chute 307 in a sliding manner through being matched with the limit sliding chute 307, the first telescopic slot 308 is arranged on the inner side of the middle part of the second rotary teeth 306, the telescopic rod 310 is limited in a sliding manner through the first telescopic slot 308, the third electric push rod 309 is fixedly arranged at one end of the first telescopic slot 308, the telescopic rod 310 is driven to be adjusted in a telescopic manner through acting force provided by the third electric push rod 309, one end of the telescopic rod 310 is fixedly connected to the output end of the third electric push rod 309, the telescopic rod 310 stretches to drive the fixed pipe clamp 311 to open or close, one end of the fixed pipe clamp 311 is fixedly connected to the other end of the telescopic rod 310, the hollow composite insulating sleeve body 4 is clamped and fixed through the folding of the fixed pipe clamp 311, the first anti-slip pad 312 is fixedly connected to the other end of the fixed pipe clamp 311, the friction force of the contact surface between the fixed pipe clamp 311 and the hollow composite insulating sleeve body 4 is increased through the first anti-slip pad 312, and the hollow composite insulating sleeve body 4 is firmly and anti-slip, and is arranged between the fixed pipe clamps 311.

In some embodiments, referring to fig. 1 and 8, the telescopic moving mechanism 6 includes a second anti-slip pad 601, a plurality of storage slots 602, a plurality of lifting sliding slots 603, a plurality of hydraulic cylinders 604, a plurality of lifting sliding blocks 605, a plurality of moving rollers 606 and a plurality of rubber sleeves 607, the second anti-slip pad 601 is fixedly connected to the bottom end of the fixed base 1, the friction force between the fixed base 1 and the ground contact surface is increased through the second anti-slip pad 601, the first anti-slip pad 312 and the second anti-slip pad 601 are made of rubber, the plurality of storage slots 602 are formed in the bottom end of the fixed base 1, the moving rollers 606 are stored in the storage slots 602, the plurality of lifting sliding slots 603 are formed in the side walls of the storage slots 602, the lifting sliding blocks 605 are limited in a sliding manner through the lifting sliding slots 603, the plurality of hydraulic cylinders 604 are fixedly mounted on the top ends of the lifting sliding slots 603, the moving rollers 606 are driven to stretch and move through acting force provided by the hydraulic cylinders 604, the moving rollers 606 are driven to move in a sliding manner through the lifting sliding, the top ends of the lifting sliding blocks 605 are rotationally connected to the output ends of the hydraulic cylinders 604, the moving rollers 606 are made of the friction force on the ground contact surface, the first anti-slip pads 312 are rotationally connected to the two lifting sliding blocks 607, the moving rollers 606 are made of rubber, the moving rollers 607 are rotationally, the moving and the moving rollers 606 are connected to the side walls 607 through the rubber sleeves are integrally and the rubber sleeves are driven to move through the rubber sleeves through the whole structure and move through the rubber sleeves.

The working flow and principle of the invention are as follows: when in use, firstly, the lifting slide block 605 is driven to slide and move downwards on the lifting slide groove 603 by the extension of the hydraulic cylinder 604, the movable roller 606 is driven to move downwards from the storage groove 602 and be propped up against the ground, the movable roller 606 is driven to rotate by pushing the fixed base 1 so as to carry out portable movement, vibration generated in the rotating and moving process of the movable roller 606 is buffered and damped by the rubber leather sheath 607, after the movable roller 606 is moved to a using area, the movable roller 606 is contracted by the hydraulic cylinder 604 so as to be retracted into the storage groove 602 and enable the fixed base 1 to fall to the ground, the friction force of the contact surface of the fixed base 1 and the ground is increased by adopting the second anti-slip pad 601 made of rubber so as to carry out anti-slip stability, the purpose of effectively providing the portable moving performance of the device and improving the supporting stability of the device when in use is achieved, then, the telescopic rod 310 is contracted by the third electric push rod 309 to drive the telescopic rod 310 to slide and retract into the inside of the first telescopic groove 308, thereby the fixed pipe clamps 311 are slid and opened, the hollow composite insulating sleeve body 4 to be detected is inserted between the fixed pipe clamps 311, the fixed pipe clamps 311 are driven to fold by the extension of the third electric push rod 309 to clamp and fix the hollow composite insulating sleeve body 4, the friction force of the contact surface of the fixed pipe clamps 311 and the hollow composite insulating sleeve body 4 is increased by the first anti-slip pad 312 made of rubber to carry out anti-slip stabilization, meanwhile, the motor 304 is started to drive the first rotating teeth 305 to rotate, the second rotating teeth 306 are meshed with the first rotating teeth 305, thereby the second rotating teeth 306 are driven to carry out limit sliding in the limit sliding grooves 307 through the limit sliding blocks 303 so as to rotate at the top ends of the fixed plates 301, the second rotating teeth 306 are rotated so as to drive the hollow composite insulating sleeve body 4 to be clamped and fixed to rotate to carry out overturning adjustment angles, the aim of effectively improving the clamping stability of the hollow composite insulating sleeve body 4 and simultaneously facilitating the overturning and adjusting of the angle of the hollow composite insulating sleeve body 4 is further achieved, secondly, the hollow composite insulating sleeve body 4 is overturned and simultaneously starts to stretch back and forth through the fourth electric push rod 502 to drive the movable slide block 503 to slide back and forth in the adjusting chute 501, and then the limit rod 504 is driven to move back and forth at the top end of the fixed base 1, the hollow composite insulating sleeve body 4 is enabled to slide and open in the moving chute 505 through the sliding support rod 506 according to the size of the hollow composite insulating sleeve body 4, the support rod 506 is enabled to rebound and fold through the reaction force of the first spring 507 to drive the installation block 508 to fold and clamp the hollow composite insulating sleeve body 4, the dust removing brush rod 511 is enabled to extend out of the second telescopic slot 509 to be tightly attached to the surface of the hollow composite insulating sleeve body 4 through the reaction force of the second spring 510, the dust collection brush rod 511 is driven by the back and forth movement of the limit rod 504 to clean and remove dust accumulated on the surface of the turned hollow composite insulating sleeve body 4 in the moving process, the fan 515 is started to generate suction force, the cleaned dust is sucked into the dust collection box 512 through the dust collection groove 513 and the vent hole 514 to be stored in a concentrated mode, and the collected dust is cleaned in a concentrated mode at a later stage through the cleaning door 516, so that the purposes of effectively and conveniently cleaning the accumulated dust on the surface of the hollow composite insulating sleeve body 4 automatically, avoiding error easily caused by the influence of the dust, effectively improving the accuracy of the detection result are achieved, finally, the hollow composite insulating sleeve body 4 after surface cleaning detects the insulation performance of the hollow composite insulating sleeve body 4 below through the insulation tester 210, and drive first movable block 203 back and forth movement on the lateral wall of first slide bar 202 through first electric putter 205 is flexible to drive insulation tester 210 and carry out longitudinal movement, and drive second movable block 207 back and forth movement on the lateral wall of second slide bar 206 through the flexible of second electric putter 209, drive insulation tester 210 and carry out lateral shifting, thereby carry out insulation detection to the different positions of hollow composite insulation sleeve body 4 through insulation tester 210 of lateral or longitudinal movement, reach effectively so that the insulation detection to hollow composite insulation sleeve body 4 is more abundant thoroughly, further improve the purpose of detection accuracy, accomplish the insulation detection to hollow composite insulation sleeve body 4.

The preferred embodiments of the invention disclosed above are intended only to assist in the explanation of the invention. The preferred embodiments are not exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.

Claims (10)

1. The hollow composite insulating sleeve detection system is characterized by comprising a fixed base (1), wherein a movement detection mechanism (2) is arranged at the top end of the fixed base (1), a plurality of adjusting clamping mechanisms (3) are arranged at the top end of the fixed base (1), hollow composite insulating sleeve bodies (4) are arranged in the middle of the adjusting clamping mechanisms (3), a dust removing and cleaning mechanism (5) is arranged in the middle of the top end of the fixed base (1), and a telescopic movement mechanism (6) is arranged at the bottom end of the fixed base (1);

the dust removal cleaning mechanism (5) comprises an adjusting chute (501), a fourth electric push rod (502), a movable sliding block (503), a limiting rod (504), a movable groove (505), a plurality of supporting rods (506), a first spring (507), a plurality of installation blocks (508), a plurality of second telescopic grooves (509), a plurality of second springs (510), a plurality of dust removal brush rods (511), a dust collection box (512), a dust collection groove (513), a plurality of ventilation holes (514), a fan (515) and a cleaning door (516), wherein the adjusting chute (501) is arranged in the middle of the top end of the fixed base (1), the fourth electric push rod (502) is fixedly arranged at one end of the adjusting chute (501), the side wall of the movable sliding block (503) is fixedly connected with the output end of the fourth electric push rod (502), the bottom end of the limiting rod (504) is fixedly connected with the top end of the movable sliding block (503), the movable groove (505) is arranged at the top end of the limiting rod (504), the bottom ends of the supporting rods (506) are slidably connected with the side walls of the movable groove (505), the first springs (507) are fixedly connected with the supporting rods (506) at the top ends of the two ends of the limiting rods (508), the supporting rods (508) are fixedly connected with the other ends of the second telescopic blocks (508), one end fixed connection of a plurality of second spring (510) is in the one end of second flexible groove (509), and a plurality of one end fixed connection of dust removal brush pole (511) is in the other end of second spring (510), the lateral wall fixed connection of dust collection box (512) is in the lateral wall of gag lever post (504), dust absorption groove (513) is seted up in the opposite side of dust collection box (512), a plurality of ventilation hole (514) are seted up in the one end of dust absorption groove (513) and are linked together with dust collection box (512), fan (515) fixed mounting is in the top of dust collection box (512), clearance door (516) are installed in the one end of dust collection box (512).

2. A hollow composite insulation sleeve detection system according to claim 1, wherein: the movement detection mechanism (2) comprises a plurality of support columns (201), a plurality of first slide bars (202), a plurality of first moving blocks (203), a plurality of first connecting blocks (204), a plurality of first electric push rods (205), a second slide bar (206), a second moving block (207), a second connecting block (208), a second electric push rod (209) and an insulation tester (210), wherein the bottom ends of the support columns (201) are fixedly connected with the top ends of the fixed base (1), the plurality of first slide bars (202) are fixedly connected between the two support columns (201), the plurality of first moving blocks (203) are in sliding connection with the side walls of the first slide bars (202), one ends of the plurality of first connecting blocks (204) are fixedly connected with the side walls of the first connecting blocks (203), two ends of the first electric push rods (205) are respectively and fixedly connected with the other ends of the first connecting blocks (204) and the side walls of the support columns (201), the second moving block (207) are in sliding connection with the top ends of the second connecting blocks (208) which are fixedly connected with the second connecting blocks (208), the insulation tester (210) is fixedly arranged at the bottom end of the second moving block (207).

3. A hollow composite insulation sleeve detection system according to claim 1, wherein: the adjusting and clamping mechanism (3) comprises a fixed plate (301), a through hole (302), a limit sliding block (303), a motor (304), a first rotating tooth (305), a second rotating tooth (306), a limit sliding groove (307), a first telescopic groove (308), a third electric push rod (309), a telescopic rod (310), a fixed pipe clamp (311) and a first anti-slip pad (312), wherein the bottom end of the fixed plate (301) is fixedly connected to the top end of a fixed base (1), the through hole (302) is formed in the side wall of the fixed plate (301), the limit sliding block (303) is fixedly connected to the inner side of the top end of the fixed plate (301), the motor (304) is fixedly arranged on the side wall of the fixed plate (301), the first rotating tooth (305) is fixedly connected to the output end of the motor (304), the side wall of the second rotating tooth (306) is meshed with the side wall of the first rotating tooth (305), the limit sliding groove (307) is formed in the side wall of the second rotating tooth (306), the first telescopic groove (308) is formed in the middle of the side of the second rotating tooth (306), the first telescopic groove (308) is formed in the middle of the second rotating tooth (306), the first end of the first telescopic groove (309) is fixedly connected to the first end of the first telescopic groove (309), one end of the fixed pipe clamp (311) is fixedly connected to the other end of the telescopic rod (310), and the first anti-slip pad (312) is fixedly connected to the other end of the fixed pipe clamp (311).

4. A hollow composite insulation sleeve detection system according to claim 3, wherein: the telescopic moving mechanism (6) comprises a second anti-slip pad (601), a plurality of storage grooves (602), a plurality of lifting sliding grooves (603), a plurality of hydraulic cylinders (604), a plurality of lifting sliding blocks (605), a plurality of moving rollers (606) and a plurality of rubber leather sleeves (607), wherein the second anti-slip pad (601) is fixedly connected to the bottom end of the fixed base (1), the storage grooves (602) are formed in the bottom end of the fixed base (1), the lifting sliding grooves (603) are formed in the side walls of the storage grooves (602), the hydraulic cylinders (604) are fixedly mounted on the top ends of the lifting sliding grooves (603), the top ends of the lifting sliding blocks (605) are fixedly connected to the output ends of the hydraulic cylinders (604), and the moving rollers (606) are rotatably connected between the two lifting sliding blocks (605), and the rubber leather sleeves (607) are fixedly connected to the side walls of the moving rollers (606).

5. A hollow composite insulation sleeve detection system according to claim 4, wherein: the first anti-slip pad (312) and the second anti-slip pad (601) are made of rubber as raw materials.

6. A hollow composite insulation sleeve detection system according to claim 1, wherein: the movable slide block (503) is connected to the side wall of the adjusting slide groove (501) in a sliding way by being matched with the adjusting slide groove (501).

7. A hollow composite insulation sleeve detection system according to claim 3, wherein: the limiting sliding block (303) is in sliding connection with the side wall of the limiting sliding groove (307) through matching with the limiting sliding groove (307).

8. A hollow composite insulation sleeve detection system according to claim 3, wherein: the output end of the motor (304) is fixedly connected with the first rotating teeth (305) through the rotating through holes (302).

9. A hollow composite insulation sleeve detection system according to claim 3, wherein: the hollow composite insulating sleeve body (4) is arranged among the fixed pipe clamps (311).

10. A process for a hollow composite insulation sleeve inspection system according to any one of claims 1-9, wherein: the method comprises the following specific steps:

s1: firstly, a telescopic rod (310) is driven to slide and shrink into the first telescopic groove (308) through the contraction of a third electric push rod (309), so that a fixed pipe clamp (311) is opened in a sliding manner, a hollow composite insulating sleeve body (4) to be detected is inserted between the fixed pipe clamps (311), the fixed pipe clamp (311) is driven to fold through the extension of the third electric push rod (309), the hollow composite insulating sleeve body (4) is clamped and fixed, the friction force of the contact surface of the fixed pipe clamp (311) and the hollow composite insulating sleeve body (4) is increased through a first anti-slip pad (312) made of rubber, anti-slip stability is carried out, meanwhile, a motor (304) is used for starting to drive a first rotating tooth (305) to rotate, and the second rotating tooth (306) is meshed with the first rotating tooth (305) through a second rotating tooth (306), so that the second rotating tooth (306) is driven to rotate at the top end of a limiting sliding groove (307) through a limiting slider (303), the fixed hollow composite insulating sleeve body (4) is driven to rotate through the rotation of the second rotating tooth (306), and the fixed hollow composite insulating sleeve body (4) is driven to rotate, and the overturning angle is regulated, and the hollow composite insulating sleeve body (4) is fixed, so that the hollow insulating sleeve is fixed and the hollow insulating sleeve is fixed, and the insulating sleeve is fixed;

s2: then, the hollow composite insulating sleeve body (4) is turned over and simultaneously drives the movable sliding block (503) to slide back and forth in the adjusting chute (501) through the fourth electric push rod (502) in a back and forth manner, so as to drive the limit rod (504) to move back and forth at the top end of the fixed base (1), the hollow composite insulating sleeve body (4) is enabled to slide and open in the movable groove (505) through the sliding support rod (506) according to the size of the hollow composite insulating sleeve body, the support rod (506) is enabled to rebound by the reaction force of the first spring (507) to drive the mounting block (508) to fold so as to clamp and attach the hollow composite insulating sleeve body (4), the dust brush rod (511) is enabled to extend out of the second telescopic groove (509) to be tightly attached to the surface of the hollow composite insulating sleeve body (4) through the reaction force of the second spring (510), and then the limit rod (504) is driven to clean and remove accumulated dust adhered to the surface of the hollow composite insulating sleeve body (4) in the moving process, suction force is generated through the fan (507), and the cleaned dust is enabled to pass through the dust collection groove (513) and the dust collection door (516) to be collected in a dust collection period after the dust collection door (516) is cleared;

s3: finally, the hollow composite insulating sleeve body (4) after surface cleaning detects the insulating property of the hollow composite insulating sleeve body (4) below through the insulating tester (210), and drives the first moving block (203) to move back and forth on the side wall of the first sliding rod (202) through the expansion of the first electric push rod (205), so as to drive the insulating tester (210) to move longitudinally, and drive the second moving block (207) to move back and forth on the side wall of the second sliding rod (206) through the expansion of the second electric push rod (209), so as to drive the insulating tester (210) to move transversely, thereby insulating detection is carried out on different positions of the hollow composite insulating sleeve body (4) through the insulating tester (210) moving transversely or longitudinally, and the insulating detection on the hollow composite insulating sleeve body (4) is more complete and thorough, and the insulating detection on the hollow composite insulating sleeve body (4) is completed.