CN111472569A

CN111472569A - Supplementary device of maintaining of communication base station

Info

Publication number: CN111472569A
Application number: CN202010334723.0A
Authority: CN
Inventors: 孙瑞阳
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-04-24
Filing date: 2020-04-24
Publication date: 2020-07-31

Abstract

The invention discloses an auxiliary maintenance device for a communication base station, which comprises L-shaped shells arranged at four sides of a communication tower, wherein a communication system for communication operation is arranged on the outer wall of the L-shaped shell, a telescopic rod is arranged between the adjacent L-shaped shells, a flaw detection sliding block is arranged on the outer wall of the telescopic rod in a sliding manner, and an ultrasonic flaw detection block for detecting material damage of the communication base station iron tower is arranged on the outer wall of the flaw detection sliding block.

Description

Supplementary device of maintaining of communication base station

Technical Field

The invention relates to the field of equipment maintenance, in particular to an auxiliary maintenance device for a communication base station.

Background

With the continuous progress of science and technology, the social basic communication is also greatly improved, but the construction of a communication base station is not separated from a transmission structure, namely, a communication iron tower is built to ensure the communication range, but in the subsequent maintenance process, maintenance personnel need to ascend and perform tightening and stabilizing on a connecting bolt of the iron tower, so that the communication base station is high in danger coefficient, high in labor intensity, long in idle time and extremely low in efficiency, and physical strength of the working personnel is easily overdrawn, so that the physical health of the working personnel is further harmed, and the conventional maintenance mode is extremely low.

Disclosure of Invention

The invention aims to provide a communication base station auxiliary maintenance device which can overcome the defects in the prior art.

The communication base station auxiliary maintenance device comprises L type shells arranged at four sides of a communication tower, a communication system for communication operation is arranged on the outer wall of the L type shell, a telescopic rod is arranged between the adjacent L type shells, a flaw detection slide block is arranged on the outer wall of the telescopic rod in a sliding mode, an ultrasonic flaw detection block for detecting material damage of the communication base station iron tower is arranged on the outer wall of the flaw detection slide block, two groups of identical structures are vertically arranged in the L type shell, a power cavity is arranged in the L type shell, a traveling cavity is arranged in the top end wall of the power cavity, a sinking device for driving the L type shell to slide downwards is arranged in the traveling cavity, a synchronous cavity is arranged in the bottom end wall of the power cavity, a redundant cavity is arranged in the bottom end wall of the synchronous cavity, a redundant device for containing wires used for connecting the communication system is arranged in the redundant cavity, a sliding cavity is arranged in the right side end wall of the power cavity, a damage detection device for sliding the sliding slide block is arranged in the sliding cavity, a reversing mechanism for controlling the sliding direction of the slide block, a sleeve shaft is arranged in the rear end wall of the power cavity, a communication bolt for sliding detection and fastening a communication detection device for detecting the iron tower, and a communication system for detecting the automatic communication system.

Preferably, the power device comprises a power motor arranged in the power cavity, a power bevel gear in power connection with the power motor is arranged in the power cavity, a transmission shaft is arranged in the power cavity, a transmission bevel gear meshed with the power bevel gear is arranged on the outer wall of the transmission shaft, a traveling worm is arranged in the traveling cavity at the top end of the transmission shaft and used for driving the sinking device to rotate so as to drive the L type shell to slide downwards, a redundant worm is arranged in the synchronous cavity at the top end of the transmission shaft and used for driving the redundant device to rotate, and then extra electric wires are stored in the redundant cavity in the descending process.

Preferably, the sinking device comprises a travelling shaft arranged in the travelling cavity, a travelling turbine meshed with the travelling worm is arranged on the outer wall of the travelling shaft, four groups of travelling grooves are uniformly formed in the L type shell, driving wheels are arranged in the travelling grooves, two groups of driven wheels are arranged in the travelling grooves, the driven wheels are connected with the driving wheels through travelling belts, the driving wheel on the upper side in the L type shell is fixedly connected with the travelling shaft, and the travelling shaft drives the travelling belts to rotate through the driving wheels, so that the L type shell is driven to move downwards.

Preferably, redundant device is including locating redundant axle in the redundant intracavity, be equipped with the redundant wheel that is used for twining the electric wire on the redundant off-axial wall, redundant axle right-hand member is equipped with and is located the driven pulleys in synchronous intracavity, synchronous intracavity is equipped with the axis of rotation, be equipped with driving pulley in the axis of rotation right-hand member, driving pulley with connect through driving belt between the driven pulleys, the axis of rotation left end be equipped with redundant worm meshing's redundant turbine, and then redundant turbine drives redundant wheel through the transmission and rotates, withdraws the electric wire and avoids causing the influence to the operation of equipment.

Preferably, the damage detection device comprises two groups of winding shafts arranged in the sliding cavity, power transmission is carried out between the two groups of winding shafts through a belt group, a winding reel is arranged on the outer wall of each winding shaft, the winding reel is connected with the flaw detection sliding block through a connecting wire, a driven gear is arranged on the outer wall of the winding shaft at the upper side, a driven shaft is arranged in the sliding cavity, a driving gear is arranged at the bottom end of the driven shaft, the driving gear is meshed with the driven gear through an idler, a driven bevel gear is arranged at the top end of the driven shaft, a driving shaft is arranged in the sliding cavity, a driving bevel gear meshed with the driven bevel gear is arranged at the right end of the driving shaft, a connecting bevel gear positioned in the power cavity is arranged at the left end of the driving shaft, the reversing mechanism, the rotatable rotor plate that is equipped with on the driven shaft outer wall, the idler rotate set up in on the rotor plate, be equipped with on the rotor plate with idler meshing's reversing gear, the pivoted dwang that is equipped with on the slip chamber roof, the dwang bottom slides and locates on the rotor plate outer wall, the pivoted is equipped with the pushing ram on the switching-over slider outer wall, the pushing ram bottom with the dwang is articulated, and then through the change the driving gear with meshing state control between the driven gear the slip direction of slider of detecting a flaw.

Preferably, the fastening monitoring device includes six sets of retightening sleeves arranged in the retightening plate, a sleeve shaft is rotatably arranged in the retightening plate, the sleeve shaft is in power connection with the retightening sleeves through a gear set to further drive the retightening sleeves to rotate in the same direction, a mandrel matched with the sleeve shaft is arranged in the power cavity, a retightening bevel gear is arranged at the front end of the mandrel, a sliding block is arranged in the power cavity in a sliding manner, the power motor is fixedly arranged in the sliding block, a sliding screw for driving the sliding block to slide downwards is arranged in the power cavity, a sliding motor is in power connection with the top end of the sliding screw, a sliding rod is arranged in the power cavity in a sliding manner, the sliding rod is fixedly connected with the retightening plate, and a measurer for controlling the sliding motor to work is arranged in the end wall of.

Preferably, an electromagnetic adsorption block used for adsorbing the L type shell to a tower body of a communication iron tower is arranged in the travelling groove, so that the equipment is attached to the iron tower in the travelling process, and stable descending of the equipment is kept.

Preferably, be equipped with the elastic component in the slider of detecting a flaw, the elastic component is including evenly locating four group's elastic grooves in the slider of detecting a flaw, the gliding elasticity kicking block that is equipped with in the elastic groove, the elasticity kicking block is kept away from telescopic link one end with elasticity is equipped with the spring between the elastic groove end wall, the elasticity kicking block is close to telescopic link one end be equipped with telescopic link complex pulley, and then the telescopic link arouses because of length changes the vertical thickness of telescopic link changes the back, keeps the slider level of detecting a flaw, and then avoids detecting error.

The invention has the beneficial effects that: the device has a simple structure, is convenient to operate and maintain, can automatically sink from the top end of the iron tower to the bottom end of the iron tower when a worker needs to perform maintenance operation, performs re-tightening operation on the connecting bolt at the joint of the iron tower in the descending process, and simultaneously detects whether the material of the iron tower is damaged or not, so that the ascending operation of the worker is avoided, the life safety of the worker is ensured, the working efficiency of the worker is greatly improved, and the maintenance cost is reduced, therefore, the device has higher use and popularization values.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a schematic overall structure diagram of a communication base station auxiliary maintenance device according to the present invention;

FIG. 2 is an enlarged schematic view of A in FIG. 1;

FIG. 3 is an enlarged schematic view of B of FIG. 2;

FIG. 4 is a schematic diagram of the structure of C-C in FIG. 2;

FIG. 5 is a schematic diagram of D-D of FIG. 2;

FIG. 6 is a schematic diagram of the structure of E-E in FIG. 2;

FIG. 7 is a schematic view of the structure of F-F in FIG. 1;

fig. 8 is an enlarged schematic view of the structure G in fig. 2.

Detailed Description

The present invention will be described in detail with reference to the drawings, and for the sake of convenience, the following orientations are defined as follows: the front, rear, left, and right described below correspond to the up-down direction of the projection relationship of fig. 1 itself.

As shown in fig. 1 to 8, the communication base station auxiliary maintenance device of the present invention includes L-shaped housings 11 disposed at four sides of a communication tower, a communication system 12 for communication operation is disposed on an outer wall of the L-shaped housing 11, an expansion link 70 is disposed between adjacent L-shaped housings 11, a flaw detection slider 38 is slidably disposed on an outer wall of the expansion link 70, an ultrasonic flaw detection block 69 for detecting material damage of a communication base station iron tower is disposed on an outer wall of the flaw detection slider 38, two sets of identical structures are vertically disposed in the L-shaped housing 11, a power cavity 14 is disposed in the L-shaped housing 11, a traveling cavity 18 is disposed in a top end wall of the power cavity 14, a sinking device 101 for driving the L-shaped housing 11 to slide downward is disposed in the traveling cavity 18, a synchronous cavity 30 is disposed in a bottom end wall of the power cavity 14, a redundant cavity 31 is disposed in a bottom end wall of the synchronous cavity 30, a redundant device 102 for receiving wires used for connecting the communication system 12 is disposed in the redundant cavity 31, a sliding cavity 37 is disposed in a right end wall of the power cavity 14, a damage detection device 104 is disposed in the sliding cavity 37, a communication system for detecting a communication link of a power shaft 64, and a communication link mechanism for detecting a communication link of a communication tower 12, a power detection mechanism is disposed in a power shaft 64, and a power detection mechanism for detecting tower 12, and a power shaft 64, and a power shaft for detecting mechanism for detecting a.

Advantageously, the power device 103 includes a power motor 23 disposed in the power chamber 14, a power bevel gear 24 disposed in the power chamber 14 and in power connection with the power motor 23, a transmission shaft 26 disposed in the power chamber 14, a transmission bevel gear 19 disposed on an outer wall of the transmission shaft 26 and engaged with the power bevel gear 24, a traveling worm 17 disposed in the traveling chamber 18 at a top end of the transmission shaft 26 and used for driving the sinking device 101 to rotate and further driving the L type shell 11 to slide downward, and a redundant worm 28 disposed in the synchronizing chamber 30 at a top end of the transmission shaft 26 and used for driving the redundant device 102 to rotate and further accommodating extra wires into the redundant chamber 31 during the descending process.

Advantageously, the sinking device 101 includes a traveling shaft 60 disposed in the traveling cavity 18, a traveling worm wheel 16 engaged with the traveling worm 17 is disposed on an outer wall of the traveling shaft 60, four groups of traveling grooves 71 are uniformly disposed in the L type housing 11, a driving wheel 45 is disposed in the traveling groove 71, two groups of driven wheels 44 are disposed in the traveling groove 71, wherein the driven wheels 44 are connected with the driving wheel 45 through a traveling belt 46, the driving wheel 45 on an upper side in the L type housing 11 is fixedly connected with the traveling shaft 60, and the traveling shaft 60 drives the traveling belt 46 to rotate through the driving wheel 45, so as to drive the L type housing 11 to move downward.

Beneficially, the redundant device 102 includes a redundant shaft 32 disposed in the redundant cavity 31, a redundant wheel 15 for winding the electric wire is disposed on an outer wall of the redundant shaft 32, a driven pulley 33 disposed in the synchronous cavity 30 is disposed at a right end of the redundant shaft 32, a rotating shaft 29 is disposed in the synchronous cavity 30, a driving pulley 35 is disposed at a right end of the rotating shaft 29, the driving pulley 35 is connected to the driven pulley 33 through a transmission belt 34, a redundant turbine 27 engaged with the redundant worm 28 is disposed at a left end of the rotating shaft 29, and the redundant turbine 27 drives the redundant wheel 15 to rotate through transmission, so that the electric wire is retracted to avoid affecting operation of the device.

Advantageously, the damage detection device 104 comprises two groups of winding shafts 54 arranged in the sliding cavity 37, power transmission is performed between the two groups of winding shafts 54 through a belt group 39, a winding wheel 55 is arranged on the outer wall of each winding shaft 54, the winding wheel 55 is connected with the flaw detection slider 38 through a connecting wire 56, a driven gear 53 is arranged on the outer wall of the winding shaft 54 at the upper side, a driven shaft 51 is arranged in the sliding cavity 37, a driving gear 49 is arranged at the bottom end of the driven shaft 51, the driving gear 49 is meshed with the driven gear 53 through an idler gear 52, a driven bevel gear 50 is arranged at the top end of the driven shaft 51, a driving shaft 42 is arranged in the sliding cavity 37, a driving bevel gear 41 meshed with the driven bevel gear 50 is arranged at the right end of the driving shaft 42, a connecting bevel gear 43 positioned in the power cavity 14, reversing mechanism 105 is including locating sliding guide 59, sliding guide 59 bottom slides and is equipped with switching-over slider 58, the rotatable rotor plate 40 that is equipped with on the driven shaft 51 outer wall, idler 52 rotate set up in on the rotor plate 40, be equipped with on the rotor plate 40 with idler 52 meshed reversing gear 57, the pivoted is equipped with dwang 47 on the sliding chamber 37 roof, the sliding of dwang 47 bottom is located on the rotor plate 40 outer wall, the pivoted is equipped with push ram 48 on the switching-over slider 58 outer wall, push ram 48 bottom with dwang 47 is articulated, and then through changing driving gear 49 with meshing state control between the driven gear 53 the slip direction of slider 38 of detecting a flaw.

Advantageously, the tightening monitoring device 106 comprises six sets of tightening sleeves 63 arranged inside the tightening plate 61, a sleeve shaft 64 is arranged in the tightening plate 61 in a rotating manner, the sleeve shaft 64 is in power connection with the tightening sleeve 63 through a gear set 62, thereby driving the tightening sleeve 63 to rotate in the same direction, a mandrel 65 matched with the sleeve shaft 64 is arranged in the power cavity 14, the front end of the mandrel 65 is provided with a re-tightening bevel gear 25, the power cavity 14 is internally provided with a sliding block 22 in a sliding way, the power motor 23 is fixedly arranged in the sliding block 22, a sliding screw 21 for driving the sliding block 22 to slide downwards is arranged in the power cavity 14, the top end of the sliding screw 21 is connected with a sliding motor 20 in a power mode, a sliding rod 67 is arranged in the power cavity 14 in a sliding mode, the slide rod 67 is fixedly connected with the tightening plate 61, and a measurer 13 for controlling the operation of the slide motor 20 is arranged in the left end wall of the power cavity 14.

Advantageously, an electromagnetic adsorption block 68 for adsorbing the L-shaped shell 11 to a tower body of a communication iron tower is arranged in the travelling groove 71, so that the equipment is ensured to be attached to the iron tower in the travelling process, and the stable descending of the equipment is kept.

Advantageously, an elastic assembly 107 is arranged in the flaw detection slider 38, the elastic assembly 107 comprises four groups of elastic grooves 75 uniformly arranged in the flaw detection slider 38, an elastic top block 73 is arranged in the elastic grooves 75 in a sliding manner, a spring 74 is elastically arranged between one end of the elastic top block 73, which is far away from the telescopic rod 70, and the end wall of the elastic groove 75, the elastic top block 73 is close to one end of the telescopic rod 70 and is provided with a pulley 72 matched with the telescopic rod 70, and therefore after the longitudinal thickness of the telescopic rod 70 changes due to the change of the length of the telescopic rod 70, the flaw detection slider 38 is kept horizontal, and further detection errors are avoided.

In the initial state, the slide block 22 is positioned at the topmost end of the power cavity 14, the power bevel gear 24 is meshed with the transmission bevel gear 19, and the slide block 22 is disengaged from the slide rod 67.

When the device is used, the power motor 23 starts to work, the power bevel gear 24, the transmission bevel gear 19 and the transmission shaft 26 drive the traveling worm 17 and the redundant worm 28 to rotate, the traveling worm 17 drives the traveling belt 46 to rotate through the traveling worm wheel 16, the traveling shaft 60 and the driving wheel 45, and further drives the L-type shell 11 to slide downwards, meanwhile, the redundant worm 28 drives the redundant wheel 15 to rotate through the redundant worm wheel 27, the rotating shaft 29, the driving belt wheel 35, the transmission belt 34, the driven belt wheel 33 and the redundant shaft 32, and further stores electric wires into the redundant cavity 31, when the flaw detection slide block 38 is close to the L-type shell 11, the slide guide rail 59 drives the reversing slide block 58 to slide to one side close to the driving shaft 42, and further drives the rotating plate 40 to rotate around the driven shaft 51 through the propelling rod 48 and the rotating rod 47, and further drives the reversing gear 57 to be meshed with the driven gear 53, the reversing slide block 58 in the other side L-type shell 11 to one side far away from the driving shaft 42, further drives the idler 52 to be meshed with the driven gear 53, and simultaneously, the transmission bevel gear 19 drives the left bevel gear 43, the driving shaft 42, the right bevel gear 41, the right bevel gear 50, the;

when the measurer 13 detects that the L-shaped shell 11 slides to the connection position of the two sections of iron towers, the sliding motor 20 starts to work, the sliding rod 22 is driven by the sliding screw 21 to slide downwards, the power bevel gear 24 is driven by the power motor 23 to slide downwards and be meshed with the retightening bevel gear 25, meanwhile, the sliding rod 22 drives the retightening sleeve 63 to slide downwards through the sliding rod 67 and the retightening plate 61 and be matched with the connecting bolt, the power bevel gear 24 drives the retightening sleeve 63 to rotate through the retightening bevel gear 25, the mandrel 65, the sleeve shaft 64 and the gear set 62, and the connecting bolt is retightened, and after retightening is finished, the sliding motor 20 rotates reversely and drives the power bevel gear 24 to slide upwards through the sliding rod 22 and the power motor 23, and then is meshed with.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims

1. The invention discloses an auxiliary maintenance device for a communication base station, which comprises L type shells arranged at four sides of a communication tower, and is characterized in that a communication system for communication operation is arranged on the outer wall of the L type shell, a telescopic rod is arranged between the adjacent L type shells, a flaw detection slide block is arranged on the outer wall of the telescopic rod in a sliding manner, an ultrasonic flaw detection block for detecting material damage of the communication base station iron tower is arranged on the outer wall of the flaw detection slide block, two groups of identical structures are vertically arranged in the L type shell, a power cavity is arranged in the L type shell, a traveling cavity is arranged in the top end wall of the power cavity, a sinking device for driving the L type shell to slide downwards is arranged in the traveling cavity, a synchronous cavity is arranged in the bottom end wall of the power cavity, a redundant cavity is arranged in the bottom end wall of the synchronous cavity, a redundant device for accommodating and connecting electric wires used for the communication system is arranged in the redundant cavity, a sliding cavity is arranged in the right end wall of the power cavity, a damage detection device for sliding the sliding slide block is arranged in the sliding cavity, a reversing mechanism for controlling the sliding direction of the slide block is arranged in the power cavity, a telescopic shaft is arranged in the rear end wall of the power cavity, a communication system, and a communication bolt for detecting and a fastening device for detecting the iron tower, and for automatically connecting the iron.

2. The auxiliary maintenance device for the communication base station as claimed in claim 1, wherein the power device comprises a power motor disposed in the power chamber, a power bevel gear in power connection with the power motor is disposed in the power chamber, a transmission shaft is disposed in the power chamber, a transmission bevel gear engaged with the power bevel gear is disposed on an outer wall of the transmission shaft, a traveling worm is disposed in the traveling chamber at a top end of the transmission shaft for driving the sinking device to rotate and further driving the L type shell to slide downward, a redundant worm is disposed in the synchronous chamber at a top end of the transmission shaft for driving the redundant device to rotate, and further extra wires are received in the redundant chamber during a descending process.

3. The auxiliary maintenance device for the communication base station as claimed in claim 1, wherein the sinking device comprises a traveling shaft disposed in the traveling cavity, a traveling worm wheel engaged with the traveling worm is disposed on an outer wall of the traveling shaft, four groups of traveling grooves are uniformly disposed in the L-type housing, driving wheels are disposed in the traveling grooves, two groups of driven wheels are disposed in the traveling grooves, wherein the driven wheels are connected with the driving wheels through traveling belts, the driving wheel on an upper side in the L-type housing is fixedly connected with the traveling shaft, and the traveling shaft drives the traveling belts to rotate through the driving wheels, so as to drive the L-type housing to move downward.

4. A communication base station maintenance aid according to claim 1, characterized by: redundant device is including locating redundant axle in the redundant intracavity, be equipped with the redundant wheel that is used for twining the electric wire on the redundant off-axial wall, redundant axle right-hand member is equipped with and is located the driven pulleys of synchronous intracavity, synchronous intracavity is equipped with the axis of rotation, be equipped with driving pulley in the axis of rotation right-hand member, driving pulley with connect through driving belt between the driven pulleys, the axis of rotation left end be equipped with redundant worm meshing's redundant turbine, and then redundant turbine drives redundant wheel through the transmission and rotates, withdraws the electric wire and avoids causing the influence to the operation of equipment.

5. A communication base station maintenance aid according to claim 1, characterized by: the damage detection device comprises two groups of winding shafts arranged in the sliding cavity, power transmission is carried out between the two groups of winding shafts through a belt group, reels are arranged on the outer walls of the winding shafts, the reels are connected with the flaw detection sliding blocks through connecting wires, driven gears are arranged on the outer walls of the winding shafts on the upper side, driven shafts are arranged in the sliding cavity, driving gears are arranged at the bottom ends of the driven shafts, the driving gears are meshed with the driven gears through idler gears, driven bevel gears are arranged at the top ends of the driven shafts, a driving shaft is arranged in the sliding cavity, a driving bevel gear meshed with the driven bevel gears is arranged at the right end of the driving shaft, a connecting bevel gear positioned in the power cavity is arranged at the left end of the driving shaft, the reversing mechanism comprises a sliding guide rail, and, the rotatable rotor plate that is equipped with on the driven shaft outer wall, the idler rotate set up in on the rotor plate, be equipped with on the rotor plate with idler meshing's reversing gear, the pivoted dwang that is equipped with on the slip chamber roof, the dwang bottom slides and locates on the rotor plate outer wall, the pivoted is equipped with the pushing ram on the switching-over slider outer wall, the pushing ram bottom with the dwang is articulated, and then through the change the driving gear with meshing state control between the driven gear the slip direction of slider of detecting a flaw.

6. A communication base station maintenance aid according to claim 1, characterized by: the fastening monitoring device comprises six groups of retightening sleeves arranged in the retightening plate, a sleeve shaft is arranged in the retightening plate in a rotating mode, the sleeve shaft is in power connection with the retightening sleeves through a gear set so as to drive the retightening sleeves to rotate in the same direction, a mandrel matched with the sleeve shaft is arranged in a power cavity, a retightening bevel gear is arranged at the front end of the mandrel, a sliding block is arranged in the power cavity in a sliding mode, a power motor is fixedly arranged in the sliding block, a sliding screw driving the sliding block to slide downwards is arranged in the power cavity, a sliding motor is in power connection with the top end of the sliding screw, a sliding rod is arranged in the power cavity in a sliding mode, the sliding rod is fixedly connected with the retightening plate, and a measurer for controlling the sliding motor to work is arranged in.

7. The auxiliary maintenance device for the communication base station as claimed in claim 1, wherein an electromagnetic adsorption block for adsorbing the L-shaped shell to the tower body of the communication iron tower is arranged in the travelling groove, so that the equipment is ensured to be attached to the iron tower in the travelling process, and the stable descending of the equipment is maintained.

8. A communication base station maintenance aid according to claim 1, characterized by: be equipped with the elastic component in the slider of detecting a flaw, the elastic component is including evenly locating four group's elastic grooves in the slider of detecting a flaw, the gliding elasticity kicking block that is equipped with in the elastic groove, the elasticity kicking block is kept away from telescopic link one end with elasticity is equipped with the spring between the elastic groove end wall, the elasticity kicking block is close to telescopic link one end be equipped with telescopic link complex pulley, and then the telescopic link arouses because of length changes the longitudinal thickness of telescopic link changes the back, keeps the slider level of detecting a flaw, and then avoids detecting the error.