CN112319271A

CN112319271A - Fill electric pile insulation monitoring device

Info

Publication number: CN112319271A
Application number: CN202011138653.8A
Authority: CN
Inventors: 吴斌鹏
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-10-22
Filing date: 2020-10-22
Publication date: 2021-02-05

Abstract

The invention discloses a charging pile insulation monitoring device which comprises a charging pile, a display screen arranged on the upper side of the middle of the charging pile, a fixed wheel arranged below the charging pile, an anti-tilting device arranged below the charging pile, a position fixing device arranged at the middle position below the charging pile, and an electrifying control device arranged at the middle position inside the charging pile, wherein the display screen is arranged on the lower side of the middle of the charging pile; the anti-tilting device can keep the charging pile to be stable horizontally on uneven ground during insulation monitoring; through having set up position fixing device and having solved current insulating monitoring device that fills electric pile because the problem of pulley with ground contact poor stability, this insulating monitoring device that fills electric pile possesses stable effectual, ground of any scene on probation, the advantage that can not take place the slope, has strengthened this insulating monitoring device's that fills electric pile security.

Description

Fill electric pile insulation monitoring device

Technical Field

The invention belongs to the field of insulation monitoring of charging piles, and particularly relates to an insulation monitoring device for a charging pile.

Background

Fill its function of electric pile and be similar to the tanker aircraft of the inside of filling station, can fix on ground or wall, can realize timing, the meter electric degree, the meter amount of money charges, can regard as citizen's electricity purchase terminal, and for improving public electric pile's of filling efficiency and practicality, will increase a stake from now on more and fill and for the function that electric bicycle charges, and fill electric pile and have comparatively strict requirement when the installation is used, say: the vertical inclination is not more than 5%, and the requirement of the shock resistance is that the horizontal acceleration of the ground is less than 0.3g and the vertical acceleration of the ground is less than 0.15 g.

Need be used to the insulation monitoring device who fills electric pile when monitoring charging pile, current insulation monitoring device who fills electric pile all relies on the pulley to remove, but current insulation monitoring device who fills electric pile is because pulley and ground contact, the stabilizing effect is poor, the position that can fix good charging pile is lifted to having used power device and foot cup messenger to fill electric pile to carry out insulation detection, can not keep vertical gradient not to exceed 5% requirement in special scene, and fill electric pile and use the requirement that hydraulic power source can not be fine assurance ground vertical acceleration be less than 0.15g in the process of lifting, be not enough to satisfy the requirement of filling electric pile self safety in the security of filling electric pile insulation detection.

In order to overcome the defects of the prior art, the invention provides the charging pile insulation monitoring device which can keep the vertical inclination of the charging pile not to exceed 5 percent and the ground vertical acceleration to be less than 0.15g and can be fixed at a better position.

In order to achieve the purpose, the invention adopts the following technical scheme: a charging pile insulation monitoring device comprises a charging pile, a display screen arranged on the upper middle of the charging pile, a fixed wheel arranged below the charging pile, an anti-tilting device arranged below the charging pile, a position fixing device arranged at the middle position below the charging pile, and an electrifying control device arranged at the middle position inside the charging pile; the method is characterized in that: the position fixing device comprises a first power component, a pressure component matched with the first power component, a sucker component matched with the pressure component, a second power component matched with the sucker component, a gear transmission component matched with the second power component, a third power component matched with the gear transmission component and a dust cleaning component matched with the gear transmission component and the third power component; the dust cleaning component comprises a shell, a vertical plate fixedly connected to the shell, a roller matched with the vertical plate, a rear plate fixedly connected to the shell, a dust cleaning box body fixedly connected to the rear plate, a first guide plate and a second guide plate, wherein the first guide plate and the second guide plate are matched with the shell; when the charging pile is inclined, the power-on control device can control according to the inclined condition, when the inclined condition is less than 5%, no control is performed, when the inclined condition is more than 5%, the power-on control device powers the anti-inclination device, the anti-inclination device performs action, when the charging pile is subjected to insulation monitoring and fixing position, the power component drives the pressure component, the pressure component drives the sucker component, the sucker component drives the power component II, the power component II drives the gear transmission component, the gear transmission component drives the power component III, the power component II drives the shell to move towards two sides, the gear transmission component drives the roller to rotate, the power component III drives the guide plate I and the guide plate II to vibrate, and the air suction module in the dust cleaning box body operates; guarantee that the gradient is less than 5% and can improve the security of filling electric pile, sucking disc subassembly cooperation pressure subassembly makes and fills electric pile fixed position, the cylinder is rotatory can clean the subaerial dust that the cylinder passed through, make the dust leave ground along the rotatory direction of cylinder under the effect of centrifugal force when the rotation of cylinder can be swept the dust, later cooperate the better messenger's dust suction dust box of the module of induced drafting of dust box in, the area that the module need act on is induced drafted in the direction reduction through the guide plate, the increase effect of induced drafting and then increase the effect of dust removal, the less ground of dust can be favorable to the sucking disc subassembly to filling electric pile fixed position's effect.

Further, the anti-tilting device comprises a connecting rod assembly and a lifting assembly; the connecting rod assembly comprises a motor fixedly connected to the charging pile, a first rotating shaft fixedly connected to the output end of the motor, a first belt wheel fixedly connected to the first rotating shaft, a first flat belt wound around the first belt wheel, a second belt wheel wound around the other end of the first flat belt, a second rotating shaft fixedly connected to the second belt wheel, a first connecting rod fixedly connected to the second rotating shaft, a third rotating shaft rotatably connected to the first connecting rod, and a second connecting rod fixedly connected to the third rotating shaft; the lifting assembly comprises a fourth rotating shaft fixedly connected to the second connecting rod, a right-angle seat rotatably connected to the fourth rotating shaft, a first pressing plate fixedly connected to the right-angle seat, a first pressing rod fixedly connected to the first pressing plate, a first fixed block fixedly connected to the first pressing rod, a fifth rotating shaft rotatably connected to the first fixed block, a caster fixedly connected to the fifth rotating shaft, and a guide sleeve slidably connected to the pressing rod; the guide sleeve is fixedly connected to the charging pile; the first rotating shaft and the second rotating shaft are rotatably connected to the charging pile; the trundles and the fixed wheels are symmetrically arranged around the central plane of the charging pile; the motor rotates to drive the first rotating shaft to drive the first belt wheel, the first flat belt drives the second belt wheel, the second belt wheel drives the second rotating shaft to drive the first connecting rod, the third rotating shaft drives the second connecting rod, the fourth rotating shaft drives the right-angle seat, the right-angle seat drives the first pressing plate, the first pressing plate drives the first pressing rod to move up and down in the guide sleeve, the fifth rotating shaft on the first fixing block and the trundles are driven to move up and down in the same manner, namely the motor can enable the position of the trundles to be lifted up clockwise, and the anticlockwise rotation is opposite; when filling the electric pile slope, the position height of both sides wheel leads to not highly differs, the position of tight pulley is unchangeable, at this moment, the position of truckle is raised or descend and to make the wheel on both sides keep horizontal position horizontal support, avoid the slope, the security of filling electric pile has been improved, lead when sliding first depression bar through the uide bushing, it rocks to appear when can preventing that first depression bar from sliding, the right angle seat atress is stable when can making the second depression bar to its effort, the diameter of first band pulley is less than the diameter of second band pulley, provide and slow down, fill the slow level that resumes when electric pile slope resumes the level, reduce the acceleration of handling, further improve the security of filling electric pile.

Furthermore, the power-on control device comprises a fixed rod fixedly connected to the charging pile, a cylindrical box fixedly connected to the fixed rod, a lead connected to the cylindrical box, a power-on joint arranged in the cylindrical box, a first buffer unit arranged in the cylindrical box, a second buffer unit arranged in the cylindrical box, a plurality of square grooves arranged on the first buffer unit, a plurality of first cylindrical rods arranged in the square grooves, a plurality of wide grooves arranged on the second buffer unit, a resistance-free control component arranged on the second buffer unit, and a micro-buffer component matched with the resistance-free control component; fill electric pile slope and can make the cylinder case slope, contain the fine liquid of guidance quality in the cylinder case, through the position control of this liquid the turning to of motor is two kinds of modes when using:

mode A: when the inclination angle of the charging pile is larger than 5%, when the charging pile inclines to one side of the fixed wheel, the cylindrical box inclines, the liquid with good conductivity can flow to one side of the fixed wheel of the cylindrical box, the larger the inclination angle is, the higher the gravitational potential energy of the liquid with good conductivity is, the larger the kinetic energy in flowing is, the liquid passes through the first buffer unit and the second buffer unit, the larger the kinetic potential energy can enable the unimpeded control assembly to act, then the liquid level on the side of the fixed wheel of the cylindrical box can be increased, the electrifying connectors of the positive electrode and the negative electrode are covered, the current is switched on, the current is transmitted to the motor through the lead wire to enable the motor to rotate clockwise, and then the position of the; the charging pile deflects to the other side of the fixed wheel and can move reversely, the movement mode is the same as that of the charging pile, the direction is opposite, and the detailed description is omitted;

mode B: when the inclination angle of the charging pile is smaller than 5%, the kinetic energy of the liquid with good conductivity is small and smaller than the kinetic energy required by the action of the unimpeded control assembly, then the liquid is processed by the slow assembly, and the liquid level of the liquid cannot cover the power-on joint;

the liquid level position of the liquid with good conductivity can be timely adjusted according to the inclination degree of the charging pile, the safety of the charging pile and the use convenience are improved, but the liquid with good conductivity has mutual effects, the liquid can receive the same acting force to splash waves when impacting the round bottom of the cylindrical box, and repeatedly splash waves in the cylindrical box, the kinetic energy of the liquid is completely eliminated, so that the control on the liquid level position when the waves are generated is inaccurate, then the liquid can cover the power-on connector when the inclination angle is smaller than 3 percent, and the control on the inclination angle can not be realized due to the repeated splashing waves of the liquid, the resistance on the liquid is increased through the square groove of the first buffer unit and the plurality of first cylindrical rods, the size of the excited waves is reduced, the first buffer units are symmetrically arranged relative to the second buffer unit, the two first buffer units which are placed on the same side are staggered at 90 degrees, so that the longitudinal flow velocity of water can be further weakened, the transverse flow velocity can be weakened, the water flow velocity can be reduced, and the generation of waves can be reduced.

Furthermore, the unobstructed control component comprises an elastic element fixedly connected to the wide groove, a channel iron block fixedly connected to a second cylindrical rod of the elastic element and fixedly connected to the second cylindrical rod, a baffle fixedly connected to the channel iron block, a first rack arranged in the channel iron, a first gear meshed with the first rack, a sixth rotating shaft fixedly connected to the first gear, a buffer plate rotatably connected to the sixth rotating shaft, a first groove body arranged in the buffer plate, an oblique angle arranged on the buffer plate, and a rotating plate fixedly connected to the sixth rotating shaft; the rotating plate is arranged in the first groove body. When the liquid with good conductivity is in the state of the mode A, the liquid can enable the oblique angle of the buffer plate to be subjected to a large force, then the acting force can be decomposed, the decomposed force enables the buffer plate to have a movement trend, the movement trend of the buffer plate towards two sides and the movement trend of the buffer plate towards the second buffer unit can be applied to the channel block when the buffer plate moves towards the second buffer unit, the channel block is applied to the elastic element, the first gear moves towards two sides and is meshed with the first rack to rotate when the buffer plate moves towards two sides, and the sixth rotating shaft is rotated to enable the rotating plate to rotate; the oblique angle on the buffer plate can make the buffer plate judge according to the water flow speed to move so as to assist the electrification control, the elastic element can perform elastic buffer conversion on the liquid kinetic energy when the inclination angle of the charging pile is less than 3 percent, that is, the kinetic energy of the liquid is converted into the elastic potential energy of the spring, the elastic potential energy of the spring acts on the water to make the water obtain the kinetic energy in the direction opposite to the flow velocity, the flow velocity of liquid can be reduced, the condition of generating waves is reduced, when the water flow velocity is very high, the inclination angle of the charging pile is more than 3 percent, the rotating plate rotates, the area of the buffer plate for blocking water is reduced, can make the quick buffer board that passes through of water, in time make the motor get the electricity, go to put the slope, because the motor moves the action not rapidly when having avoided the slope to take place, lead to the problem of deflection angle crescent, further improvement fill electric pile's security.

Furthermore, the slight buffering assembly comprises a first spring fixedly connected to the baffle, a first moving plate fixedly connected to the other end of the first spring, a first fixed plate fixedly connected to the first moving plate, a third cylindrical rod fixedly connected to the first fixed plate, a second spring arranged on the third cylindrical rod, a second moving plate fixedly connected to the second spring, a seventh rotating shaft rotatably connected to the second moving plate, and a guide wheel fixedly connected to the seventh rotating shaft; the other end of the second spring is fixedly connected to the first fixing plate, the guide wheel abuts against the groove body block, and the first moving plate is rotatably connected to the sixth rotating shaft. The first spring enables the buffer plate to reset after action, in the mode B, the buffer plate is stressed, the flow velocity of water is slowed down under the buffer of the elastic element, meanwhile, the elastic element acts on the channel iron block and buffers the movement of the channel body, the movement of the channel body comes from the force applied to the buffer plate, the buffer plate is acted by the force and acts on the moving plate through the sixth rotating shaft, the moving plate is acted by the force vertical to the buffer plate, then, the first fixing plate is acted by the same force to generate movement and can slide on the third cylindrical rod, the second spring is compressed, and when the buffer plate moves towards two sides, the guide wheels and the channel iron block are in rolling friction; the leading wheel in the channel iron piece can make the buffer board reduce the frictional force that receives when removing, realizes removing fast, and second spring and elastic element all carry out the conversion of elastic potential energy and the good liquid kinetic energy of electric conductivity to the buffer board, and the elastic coefficient of second spring is less than elastic element, can make the buffer board carry out the microseismic, the slow liquid of further buffering velocity of flow.

Furthermore, the position fixing device also comprises an air cylinder, a shell and a second fixing block fixedly connected to the shell; the first power assembly comprises a second pressing plate fixedly connected to the pushing end of the air cylinder, a hollow rod fixedly connected to the second pressing plate, a fourth cylindrical rod slidably connected to the hollow rod, a third spring arranged on the fourth cylindrical rod, a third pressing plate fixedly connected to the fourth cylindrical rod, and a power block fixedly connected to the second pressing plate; the pressure intensity component comprises an eighth rotating shaft which is rotatably connected to the shell, a third connecting rod which is fixedly connected to the eighth rotating shaft, a ninth rotating shaft which is rotatably connected to the third connecting rod, a pressure receiving plate which is fixedly connected to the ninth rotating shaft, a tenth rotating shaft which is rotatably connected to the third connecting rod, a connecting block which is fixedly connected to the tenth rotating shaft and a fourth spring which is fixedly connected to the shell; the sucker assembly comprises a fifth cylindrical rod fixedly connected to the connecting block, a sucker body slidably connected to the fifth cylindrical rod, a disc fixedly connected to the fifth cylindrical rod, a first flexible sleeve fixedly connected to the disc, an annular sleeve arranged on the sucker body, a first cavity arranged above the first flexible sleeve and a second cavity arranged below the first flexible sleeve; the second pressing plate is slidably connected to the shell, two ends of the third spring are fixedly connected to the hollow rod and the third pressing plate respectively, the sucker body is fixedly connected to the third pressing plate, and the connecting block is slidably connected to a groove on the sucker body; the cylinder pushes the second pressing plate to move downwards to drive the hollow rod to move downwards, the fourth cylindrical rod moves downwards through the third spring, the third pressing plate moves downwards to enable the sucker body to move downwards, the shell moves downwards along with the position of the second pressing plate due to the gravity of the shell, then the shell is in contact with the ground and does not continue to move downwards, then the sucker body is in contact with the ground, the annular sleeve is in contact with the ground and is pressed, the second pressing plate does not move downwards, the third spring and the fourth spring are compressed, then the power block presses the stress plate downwards, the stress plate moves downwards, the connecting block moves upwards through the third connecting rod and the tenth rotating shaft, then the fifth cylindrical rod moves upwards and slides in the sucker body, so that the disc drives the first flexible sleeve to move upwards, the pressure of the first cavity is unchanged, and the atmospheric pressure in the second cavity is low; make the casing downwards under the effect of gravity through the second fixed block to upwards through the second fixed block, the annular cover makes the air in the second cavity be in encapsulated situation, the atmospheric pressure of second cavity is less than external atmospheric pressure in the sucking disc body, inhale subaerial, later the casing continues to push down with ground contact back second clamp plate, atmospheric pressure in making the casing is higher than external atmospheric pressure, make the pressure difference increase, further increase the suction disc body and inhale subaerial stationary force, make fixed effect better.

Further, the second power assembly comprises a third fixed block fixedly connected to the sucker body, an eleventh rotating shaft rotatably connected to the third fixed block, a fourth connecting rod fixedly connected to the eleventh rotating shaft, a twelfth rotating shaft fixedly connected to the fourth connecting rod, a fourth fixed block rotatably connected to the twelfth rotating shaft, a sixth cylindrical rod slidably connected to the third fixed block, a fifth fixed block fixedly connected to the sixth cylindrical rod, a second rack fixedly connected to the fifth fixed block, and a fifth spring abutted between the third fixed block and the fifth fixed block; the sucker body is downward to enable the third fixed block to be downward, the second rack is pressed through a fifth spring, the sixth cylindrical rod slides in the third fixed block, the fourth connecting rod rotates on the third fixed block through the eleventh rotating shaft, and the fourth fixed block moves towards two sides through the twelfth rotating shaft; and the fifth spring presses the second rack to keep the position of the second rack unchanged.

Furthermore, the gear transmission assembly comprises a second gear meshed with the second rack, a thirteenth rotating shaft fixedly connected to the second gear, a third gear fixedly connected to the thirteenth rotating shaft, a fourth gear meshed with the third gear, a fourteenth rotating shaft fixedly connected to the fourth gear, two fourth gears arranged on the fourteenth rotating shaft, a fifth gear meshed with another fourth gear, a fifteenth rotating shaft fixedly connected to the fifth gear, a first helical gear fixedly connected to the fifteenth rotating shaft, and a second helical gear meshed with the first helical gear; the third power component comprises a sixteenth rotating shaft fixedly connected with the second helical gear, a third belt wheel fixedly connected with the sixteenth rotating shaft, a second flat belt wound on the third belt wheel, a fourth belt wheel wound on the other end of the second flat belt, a seventeenth rotating shaft fixedly connected with the fourth belt wheel, a power plate fixedly connected with the seventeenth rotating shaft, a swinging plate matched with the power plate, an eighteenth rotating shaft fixedly connected with the swinging plate and a torsion spring arranged on the eighteenth rotating shaft; the fourth fixed block drives the shell to move towards two sides, so that the second gear box moves towards two sides, the second gear is meshed with the second rack to rotate, the second gear drives the thirteenth rotating shaft to rotate, the third gear drives the third gear to rotate, the third gear drives the fourth gear to rotate, the fourteenth rotating shaft is driven to rotate, the fourth gear positioned at the other side of the shell drives the fifth gear to rotate, the fifteenth rotating shaft is driven to rotate, the first helical gear is driven to rotate, the second helical gear is driven to rotate, the sixteenth rotating shaft is driven to rotate, and the third belt wheel is driven to rotate, the fourth belt wheel is driven to rotate through the second flat belt, the seventeenth rotating shaft is driven to rotate, the power plate is contacted with the swinging plate in the rotating process, the swinging plate rotates around the eighteenth rotating shaft, the power plate is separated from the swinging plate after rotating for a certain angle, and the eighteenth rotating shaft is reset through a torsion spring; the power plate is provided with a fillet, so that the swinging plate can be better separated from the power plate when being separated from contact with the power plate, the two plates cannot be damaged, the diameter of the third gear is larger than that of the fourth gear, the rotating speed of the fourth gear is increased, and the rotating speed of the fourteenth rotating shaft is increased.

Further, the housing is fixedly connected to the third fixed block, the thirteenth rotating shaft, the fourteenth rotating shaft, the fifteenth rotating shaft, the sixteenth rotating shaft, the seventeenth rotating shaft, the eighteenth rotating shaft is rotatably connected to the housing, the first guide plate and the second guide plate are fixedly connected to the eighteenth rotating shaft, the housing is provided with a second flexible sleeve, the vertical plate is toothed, and the roller is provided with a plurality of cylindrical blocks; the fourteenth rotating shaft has high rotating speed, so that the rotating speed of the roller is high, the rotating speed of the roller can enable the roller to have a better cleaning effect on the centrifugal force on dust on the ground, the plurality of cylindrical blocks arranged on the roller can enable the cylindrical blocks to be in contact with the ground under pressure and deform, extrusion force exists between the cylindrical blocks and the ground, so that dirt stuck on the ground can be cleaned under the action of the extrusion force, the vertical plate is in a tooth shape and can be in contact with the cylindrical blocks when the roller rotates, the dust on the roller and the cylindrical blocks can be cleaned, the clean roller can be better cleaned when the roller is used for cleaning the ground, the second flexible sleeve enables the shell to be in a closed state in front of the shell when the shell moves towards two sides, the upper and lower surfaces are in a closed state, the dust cannot fly out to influence the tight suction effect of the sucker, the dust can be discharged only at the back, the eighteenth rotating shaft can enable the first guide plate and the second guide plate to rotate by the same small amplitude, shake, because the dust has some dust adhesion when first guide plate and second guide plate are inhaled into the dust removal box on it, if do not do the clearance can be more and more, the vibrations of two guide plates can avoid the dust to pile up too much, the sucking disc body will absorbent place when the shell was walked between the interval, reduce the dust when can make the sucking disc adsorb with the clean of this piece interval clearance, improve the adsorption affinity and adsorb the effect of success, it is more stable when making to fill electric pile fixed position.

In conclusion, the unobstructed control assembly is arranged, so that the control effect of the power-on control device is more stable, and the anti-tilting device can quickly perform the action of placing and tilting during operation; cleaning subassembly and sucking disc subassembly through having set up the position, making to fill electric pile increase the stationary force when fixed position, make this insulating monitoring device who fills electric pile possess stable effectual, the ground of any scene on probation, can not take place the advantage of slope, strengthened this insulating monitoring device's that fills electric pile security.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a two-dimensional view of the interior of the charging post of the present invention;

FIG. 3 is a schematic view of the internal structure of the charging pile of the present invention;

FIG. 4 is a schematic structural diagram of the energization control device of the present invention;

FIG. 5 is a schematic view showing the inside structure of the cylinder case according to the present invention;

FIG. 6 is a schematic structural diagram of a second buffer unit according to the present invention;

FIG. 7 is a schematic structural diagram of a non-resistance control assembly according to the present invention;

FIG. 8 is an enlarged view of A of FIG. 7 in accordance with the present invention;

FIG. 9 is a first schematic view of a position fixing device according to the present invention;

FIG. 10 is an enlarged view of B of FIG. 9 in accordance with the present invention;

FIG. 11 is a schematic view of a chuck assembly according to the present invention;

FIG. 12 is a second schematic view of the position fixing device according to the present invention;

FIG. 13 is a schematic illustration of the results of the dust cleaning assembly of the present invention.

Detailed Description

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.

As shown in fig. 1-12, an insulation monitoring device for a charging pile 1 comprises a charging pile 1, a display screen 2 disposed on the upper side of the middle of the charging pile 1, a fixed wheel 3 disposed below the charging pile 1, an anti-tilt device 4 disposed below the charging pile 1, a position fixing device 5 disposed at the middle position below the charging pile 1, and an energization control device 6 disposed at the middle position inside the charging pile 1; the method is characterized in that: the position fixing device comprises a first power component 53, a pressure component 54 matched with the first power component 53, a sucker component 55 matched with the pressure component 54, a second power component 56 matched with the sucker component 55, a gear transmission component 57 matched with the second power component 56, a third power component 58 matched with the gear transmission component 57, and a dust cleaning component 59 matched with the gear transmission component 57 and the third power component 58; the dust removing assembly 59 comprises a shell 591, a vertical plate 592 fixedly connected to the shell 591, a roller 593 matched with the vertical plate 592, a rear plate 594 fixedly connected to the shell 591, a dust removing box 595 fixedly connected to the rear plate 594, a first flow guide plate 596 and a second flow guide plate 597 matched with the shell 591; when the charging pile 1 is inclined in use, the electrifying control device 6 can be controlled according to the inclined condition, when the inclined condition is less than 5%, no control is performed, when the inclined condition is more than 5%, the electrifying control device 6 is the anti-inclination device electrifying 4, the anti-inclination device 4 executes action, when the charging pile 1 is subjected to insulation monitoring at a fixed position, the power component 53 drives the pressure component 54, the pressure component 54 drives the sucker component 55, the sucker component 555 drives the power component two 6, the power component two 56 drives the gear transmission component 57, the gear transmission component 57 drives the power component three 58, the power component two 58 drives the shell 561 to move towards two sides, the gear transmission component 57 drives the roller 593 to rotate, the power component three 58 drives the guide plate one 596 and the guide plate two 597 to vibrate, and the air suction module in the dust cleaning box body 595 operates.

Specifically, the anti-tilting device comprises a motor 411, a first rotating shaft 412, a first belt pulley 413, a first flat belt 414, a second belt pulley 415, a second rotating shaft 416, a first connecting rod 417, a third rotating shaft 418, a second connecting rod 419, a fourth rotating shaft 421, a right-angle seat 422, a first pressing plate 423, a first pressing rod 424, a guide sleeve 425, a first fixing block 426, a fifth rotating shaft 427 and a caster 428; the connection relationship of the anti-tilting device comprises the matching of a connecting rod assembly 41 and a lifting assembly 42; the link assembly 41 includes a motor 411 fixedly connected to the charging pile 1, a first rotating shaft 412 fixedly connected to an output end of the motor 411, a first belt wheel 413 fixedly connected to the first rotating shaft 412, a first flat belt 414 wound around the first belt wheel 413, a second belt wheel 415 wound around the other end of the first flat belt 414, a second rotating shaft 416 fixedly connected to the second belt wheel 415, a first connecting rod 417 fixedly connected to the second rotating shaft 416, a third rotating shaft 418 rotatably connected to the first connecting rod 417, and a second connecting rod 419 fixedly connected to the third rotating shaft 418; the lifting assembly 42 includes a fourth rotating shaft 421 fixedly connected to the second connecting rod 419, a right-angle seat 422 rotatably connected to the fourth rotating shaft 421, a first pressing plate 423 fixedly connected to the right-angle seat 422, a first pressing rod 424 fixedly connected to the first pressing plate 423, a first fixing block 426 fixedly connected to the first pressing rod 424, a fifth rotating shaft 427 rotatably connected to the first fixing block 426, a caster 428 fixedly connected to the fifth rotating shaft 427, and a guide sleeve 425 slidably connected to the pressing rod 424; the guide sleeve 425 is fixedly connected to the charging pile 1; the first rotating shaft 412 and the second rotating shaft 416 are rotatably connected to the charging pile 1; the casters 428 and the fixed wheels 3 are symmetrically arranged about the central plane of the charging pile 1, the number of the casters 428 and the fixed wheels 3 is two, the number of the first pressing rods 424 and the guide sleeves 425 is three, the first pressing rods 424 connected with the two casters 428 are arranged on two sides, the first pressing rods 424 are arranged in the middle, and the three first pressing rods 424 conform to the common design knowledge; the motor 411 rotates to drive the first rotating shaft 412, to drive the first belt wheel 413, to drive the second belt wheel 415 through the first flat belt 414, the second belt wheel 415 to drive the second rotating shaft 416, to drive the first link 417, the second connecting rod 419 is driven by the third rotating shaft 418 to drive the fourth rotating shaft 421, the right angle seat 422 is driven by the fourth rotating shaft 421, the first pressing plate 423 drives the first pressing rod 424 to move up and down in the guiding sleeve by the right angle seat 422, the fifth rotating shaft 427 and the caster 428 on the first fixing block 426 are driven to move up and down similarly, that is, motor 411 would raise the position of caster 428 upward clockwise, and vice versa for counterclockwise rotation, when the charging pile 1 inclines, the positions and heights of the wheels at the two sides are different, the position of the fixed wheel 3 is unchanged, the position of the casters 428 can then be raised or lowered to maintain the wheels on either side horizontally supported to avoid tilting.

Specifically, the energization control device 6 comprises a fixed rod 61, a cylindrical box 62, a lead 63, an energization connector 64, a first buffer unit 65, a second buffer unit 66, a square groove 651, a first cylindrical rod 652, a wide groove 661, an unobstructed control component 67 and a slight buffer component 68; the connection relationship of the electrification control device 6 is that the fixing rod 61 is fixedly connected with the charging pile 1, the cylinder box 62 is fixedly connected with the fixing rod 61, the lead 63 is connected with the cylinder box 62, the electrification joint 64 is arranged in the cylinder box 62, the first buffer unit 65 is arranged in the cylinder box 62, the second buffer unit 66 is arranged in the cylinder box 62, a plurality of square grooves 651 are arranged on the first buffer unit 65, a plurality of first cylinder rods 652 are arranged in the square grooves 651, a plurality of wide grooves 661 are arranged in the second buffer unit 66, the resistance-free control component 67 is arranged in the second buffer unit 66, a plurality of groups of the micro-buffer component 68, the resistance-free buffer group 67 and the micro-buffer component 68 are matched with the resistance-free control component 66, each group is four, two are arranged at the outer positions of two sides of the second buffer unit 66, the other two are arranged at the other ends which are vertically symmetrical with the two groups of the electrification joint 64, two groups of first buffer units 65 are respectively arranged on two sides and a round bottom side of the cylindrical water tank 62, one side close to the fixed wheel 3 enables the motor 411 to rotate clockwise, the other side enables the motor 411 to rotate anticlockwise, the four first buffer units 65 are symmetrically arranged around the second buffer unit 66, and the two first buffer units 65 arranged on the same side are staggered in 90 degrees; fill electric pile 1 slope and can make cylinder case 62 slope, contain the fine liquid of guidance quality in cylinder case 62, this kind of liquid is mercury, through the position control of mercury motor 411's the turn to, be two kinds of modes when using:

mode A: when the inclination angle of the charging pile 1 is larger than 5%, when the charging pile 1 inclines to one side of the fixed wheel 3, the cylindrical box 62 inclines, mercury can flow to one side of the fixed wheel 3 of the cylindrical box 62, the larger the inclination angle is, the higher the gravitational potential energy of the mercury is, the higher the density of the mercury is, the gravity can be larger, the larger the kinetic energy during flowing is, the larger the kinetic energy is, the mercury passes through the first buffer unit 65 and the second buffer unit 66, the resistance-free control component 67 can be moved due to the larger dynamic potential energy, then the liquid level of the side of the fixed wheel 3 of the cylindrical box 62 can be raised, the positive and negative electrified joints 64 are covered, the current is switched on, the current is transmitted to the motor through the lead, the motor rotates clockwise, then the truckles are raised; the charging pile 1 deflects to the other side of the fixed wheel 3 and moves reversely, the movement mode is the same as that of the charging pile, the direction is opposite, and the detailed description is omitted;

mode B: when the inclination angle of the charging pile 1 is smaller than 5%, the kinetic energy of mercury is small and smaller than the kinetic energy required for the unobstructed control component 67 to act, then the liquid is processed by the slow-releasing component, and the liquid level of the liquid cannot cover the power-on connector 64;

specifically, the non-resistance control assembly 67 includes an elastic element 671, a second cylindrical rod 672, a channel iron block 673, a baffle 674, a buffer plate 675, a first channel 6751, an oblique angle 6752, a sixth rotating shaft 676, a rotating plate 677, a first gear 678 and a first rack 679; the connection relationship of the resistance-free control component 67 is an elastic element 671 fixedly connected to the wide slot 661, a channel iron block 673 fixedly connected to the second cylindrical rod 672 of the elastic element 671, a baffle 674 fixedly connected to the channel iron block 673, a first rack 679 arranged in the channel iron 673, a first gear 678 meshed with the first rack 679, a sixth rotating shaft 676 fixedly connected to the first gear 678, a buffer plate 675 rotatably connected to the sixth rotating shaft 676, a first slot body 6751 arranged in the buffer plate 675, an oblique angle 6752 arranged on the buffer plate 675, and a rotating plate 677 fixedly connected to the sixth rotating shaft 676; the rotating plate 677 is disposed in the first groove 6751, and both surfaces of each of the buffer plates 675 have a bevel 6752, and the bevel 6752 is an obtuse angle of less than 45 degrees. When mercury is in the state of the mode A, mercury can enable the oblique angle 6752 of the buffer plate 675 to be subjected to a large force, then the acting force can be decomposed, the buffer plate 675 has a movement trend due to the decomposed force, the movement trend of the buffer plate 675 towards two sides and towards the second buffer unit direction 66 is subjected to the action of the channel iron block 673 when the buffer plate 675 moves towards the second buffer unit direction 66, the channel iron block 673 is applied to the elastic element 671, then the channel iron block moves back and forth, the first gear 678 moves towards two sides when the buffer plate moves towards two sides and is meshed with the first rack 679 to rotate, the sixth rotating shaft 676 rotates, the rotating plate 677 rotates, resistance cannot be applied when the mercury flows through, and the electric connector 64 is quickly connected to enable the motor 411 to be powered on.

Specifically, the bradyseis assembly 68 comprises a first spring 681, a first moving plate 682, a first fixing plate 683, a third cylindrical rod 684, a second spring 685, a second moving plate 686, a seventh rotating shaft 687 and a guide wheel 688; the connection relationship of the damping component 68 is a first spring 681 fixedly connected to the baffle 674, a first moving plate 682 fixedly connected to the other end of the first spring 681, a first fixing plate 683 fixedly connected to the first moving plate 682, a third cylindrical rod 684 fixedly connected to the first fixing plate 683, a second spring 685 arranged on the third cylindrical rod 684, a second moving plate 686 fixedly connected to the second spring 685, a seventh rotating shaft 687 rotatably connected to the second moving plate 686, and a guide wheel 688 fixedly connected to the seventh rotating shaft 687; the other end of the second spring 685 is fixedly connected to the first fixing plate 683, the guide wheels 688 abut against the trough body block 673, the first moving plate 682 is rotatably connected to the sixth rotating shaft 676, and four guide wheels 688 are arranged above and below the first moving plate 682, so that the movement is more stable, and the elastic coefficient of the second spring 685 is smaller than that of the elastic element 671; the first spring 681 resets the buffer plate 675 after the action, in the mode B, the buffer plate 675 is stressed to slow down the flow rate of water under the buffer of the elastic element 671, meanwhile, the elastic element 671 acts on the channel iron block 673 to buffer the movement of the channel iron block 673, the movement of the channel iron block 673 comes from the force applied to the buffer plate 675, the buffer plate 675 is acted by the force to act on the moving plate 682 through the sixth rotating shaft 676, the moving plate is acted by the force of the vertical buffer plate 675, then the first fixing plate 683 is acted by the same force to generate movement and can slide on the third cylindrical rod 684, the second spring 685 is compressed, and when the buffer plate 675 moves to the two sides, the guide wheel 688 and the channel iron block 673 are in rolling friction.

Specifically, the position fixing device 5 further includes a cylinder 51, a housing 52, and a second fixing block 521; the first power assembly 53 comprises a second pressure plate 531, a hollow rod 532, a fourth cylindrical rod 533, a third spring 534, a third pressure plate 535 and a power block 536; the pressure assembly 54 includes an eighth rotating shaft 544, a third connecting rod 543, a ninth rotating shaft 542, a pressure receiving plate 541, a tenth rotating shaft 545, a connecting block 546, and a fourth spring 547; the sucker assembly 55 comprises a fifth cylindrical rod 552, a sucker body 551, a circular disc 553, a first flexible sleeve 554, an annular sleeve 555, a first cavity 556 and a second cavity 557; the connection relationship of the position fixing device 5 further includes a cylinder 51, a housing 52, and a second fixing block 521 fixedly connected to the housing 52; the first power assembly 53 comprises a second pressing plate 531 fixedly connected to the pushing end of the cylinder 51, a hollow rod 532 fixedly connected to the second pressing plate 531, a fourth cylindrical rod 533 slidably connected to the hollow rod 532, a third spring 534 disposed on the fourth cylindrical rod 533, a third pressing plate 535 fixedly connected to the fourth cylindrical rod 533, and a power block 536 fixedly connected to the second pressing plate 535; the pressure assembly 54 includes an eighth rotating shaft 544 rotatably connected to the housing 52, a third connecting rod 543 fixedly connected to the eighth rotating shaft 544, a ninth rotating shaft 542 rotatably connected to the third connecting rod 543, a pressure receiving plate 541 fixedly connected to the ninth rotating shaft 542, a tenth rotating shaft 545 rotatably connected to the third connecting rod 543, a connecting block 546 fixedly connected to the tenth rotating shaft 545, and a fourth spring 547 fixedly connected to the housing 2; the suction cup assembly 55 comprises a fifth cylindrical rod 552 fixedly connected to the connecting block 546, a suction cup body 551 slidably connected to the fifth cylindrical rod 552, a circular disc 553 fixedly connected to the fifth cylindrical rod 552, a first flexible sleeve 554 fixedly connected to the circular disc 553, an annular sleeve 555 fixedly connected to the suction cup body 551, a first cavity 556 above the first flexible sleeve 554, and a second cavity 557 below the first flexible sleeve 554; the second pressing plate 531 is slidably connected to the housing 2, two ends of the third spring 534 are respectively and fixedly connected to the hollow bar 532 and the third pressing plate 535, the suction cup body 551 is fixedly connected to the third pressing plate 535, and the connecting block 546 is slidably connected to a groove on the suction cup body 551; the cylinder 51 pushes the second pressing plate 531 downwards to drive the hollow rod 532 downwards, the fourth cylinder 533 is driven downwards by the third spring 534, the third pressing plate 535 is driven downwards, the suction cup body 551 is driven downwards, the housing 52 is driven downwards by the self gravity along with the position of the second pressing plate 531, then the housing 52 is contacted with the ground and does not continue downwards, then the suction cup body 551 is contacted with the ground, the annular sleeve 5511 is pressed and does not continue downwards, the second pressing plate 531 slides in the housing 52 and continues downwards, the third spring 534 and the fourth spring 547 are compressed, then the power block presses the stress plate 541 downwards, the stress plate 541 faces downwards, the third connecting rod 543 is used as a lever to drive the connecting block 546 to upwards, then the fifth cylinder 552 faces upwards, slides in the suction cup body 551 to drive the first flexible sleeve 554 upwards, the first cavity 556 is not sealed, so the pressure is not changed, the second cavity 557 is sealed so that the internal pressure becomes lower than the normal external pressure, and when the housing 52 is no longer pressed, the second pressing plate 531 continues to move downward, the second pressing plate 531 and the housing 52 are connected in a sealing and sliding manner, and the straw leans against the piston of the needle tube, so that the internal pressure of the housing 52 is increased, and the pressure received by the suction cup body 551 is increased above the external atmospheric pressure.

Specifically, the second power assembly 56 includes a third fixed block 561, an eleventh rotating shaft 562, a fourth link 563, a twelfth rotating shaft 564, a fourth fixed block 565, a sixth cylindrical rod 566, a fifth spring 567, a fifth fixed block 568, and a second rack 569; the second power assembly 56 is connected to a third fixed block 561 fixedly connected to the suction cup body 551, an eleventh rotating shaft 562 rotatably connected to the third fixed block 561, a fourth link 563 fixedly connected to the eleventh rotating shaft 562, a twelfth rotating shaft 564 fixedly connected to the fourth link 563, a fourth fixed block 565 rotatably connected to the twelfth rotating shaft 564, a sixth cylindrical rod 566 slidably connected to the third fixed block 561, a fifth fixed block 568 fixedly connected to the sixth cylindrical rod 566, a second rack 569 fixedly connected to the fifth fixed block 568, and a fifth spring 567 abutting between the third fixed block 561 and the fifth fixed block 568; the suction cup body 551 moves the third fixing block 561 downward, presses the second rack 569 by the fifth spring 567, the sixth cylindrical rod 566 slides in the third fixing block 561, the fourth link 563 rotates on the third fixing block 561 by the eleventh rotation shaft 562, and the fourth fixing block 565 moves to both sides by the twelfth rotation shaft 564.

Specifically, the gear assembly 57 includes a second gear 571, a thirteenth rotating shaft 572, a third gear 573, a fourth gear 574, a fourteenth rotating shaft 575, a fifth gear 576, a fifteenth rotating shaft 577, a first helical gear 578, and a second helical gear 579; the third power assembly 58 comprises a sixteenth rotating shaft 581, a third belt wheel 582, a second flat belt 583, a fourth belt wheel 584, a seventeenth rotating shaft 585, a power plate 586, an eighteenth rotating shaft 587, a swinging plate 588 and a torsion spring 589; the gear transmission assembly 57 includes a second gear 571 engaged with the second rack 569, a thirteenth rotating shaft 572 fixed to the second gear 571, a third gear 573 fixed to the thirteenth rotating shaft 572, a fourth gear 574 engaged with the third gear 573, a fourteenth rotating shaft 575 fixed to the fourth gear 574, two fourth gears 574 on the fourteenth rotating shaft 575, a fifth gear 576 engaged with another fourth gear 574, a fifteenth rotating shaft 577 fixed to the fifth gear 576, a first helical gear 578 fixed to the fifteenth rotating shaft 577, and a second helical gear 579 engaged with the first helical gear 578; the third power assembly 58 comprises a sixteenth rotating shaft 581 fixedly connected to the second helical gear 579, a third pulley 582 fixedly connected to the sixteenth rotating shaft 581, a second flat belt 583 wound around the third pulley 582, a fourth pulley 584 wound around the other end of the second flat belt 583, a seventeenth rotating shaft 585 fixedly connected to the fourth pulley 584, a power plate 586 fixedly connected to the seventeenth rotating shaft 585, a swinging plate 588 fitted to the power plate 586, an eighteenth rotating shaft 587 fixedly connected to the swinging plate 588, and a torsion spring 589 arranged on the eighteenth rotating shaft 587; the fourth fixing block 565 drives the case 591 to move towards two sides, so that the second gear 571 moves towards two sides, the second gear 571 is meshed with the second rack 569 and rotates, the second gear 571 drives the thirteenth rotating shaft 572 to rotate, so as to drive the third gear 573 to rotate, the third gear 573 drives the fourth gear 574 to rotate, so as to drive the fourteenth rotating shaft 575 to rotate, the fourth gear 574 located at the other side of the case 591 drives the fifth gear 576 to rotate, so as to drive the fifteenth rotating shaft 577 to rotate, so as to drive the first helical gear 578 to rotate, so as to drive the second helical gear 579 to rotate, so as to drive the sixteenth rotating shaft 581 to rotate, so as to drive the third belt wheel 582 to rotate, the fourth belt 584 is driven by the second flat belt 583 to rotate, so as to drive the seventeenth rotating shaft 585 to rotate, so as to drive the power plate 586 to rotate, so as to contact with the swinging plate 588, so as to rotate the swinging plate 588 around the eighteenth rotating shaft 587, so that, the eighteenth rotating shaft 587 is reset through the torsion spring 589, the power plate 586 is provided with a round angle, so that the swinging plate 587 can be better separated from the power plate 586 when being separated from contact, the two plates cannot be damaged, the diameter of the third gear 573 is larger than that of the fourth gear 574, the rotating speed of the fourth gear 574 is increased, and the rotating speed of the fourteenth rotating shaft 575 is increased.

Specifically, the housing 591 is fixedly connected to the third fixed block 565, the thirteenth rotating shaft 572, the fourteenth rotating shaft 575, the fifteenth rotating shaft 577, the sixteenth rotating shaft 581, the seventeenth rotating shaft 585 and the eighteenth rotating shaft 587, and the eighteenth rotating shaft 587 is rotatably connected to the housing 591, the first flow guide plate 596 and the second flow guide plate 597 and is fixedly connected to the eighteenth rotating shaft 587, the housing 591 is provided with a second flexible sleeve 5911, the vertical plate 592 is toothed, and the roller 593 is provided with a plurality of cylindrical blocks; the fourteenth rotating shaft 575 has a high rotating speed, so that the rotating speed of the roller 593 is high, the vertical plate 592 is in a tooth shape, the tooth shape can be in contact with a cylindrical block when the roller rotates, dust on the roller and the cylindrical block can be cleaned, the second flexible sleeve 5911 enables the shell 591 to move towards two sides, the front, the left and the right surfaces and the upper and lower surfaces are in a closed state, the first guide plate 596 and the second guide plate 597 can rotate in the same small amplitude due to the rotation of the eighteenth rotating shaft 587, vibration is carried out, the sucking disc body is sucked in a section where the shell passes, and the cleaning of the section can enable the sucking disc to suck dust in a reduced mode.

The specific working process of the invention is as follows: fill electric pile 11 and have inclination often working condition as follows with the wheel removal:

operation of mode a: when the inclination angle of the charging pile 1 is larger than 5%, when the charging pile 1 inclines to one side of the fixed wheel 3, the cylindrical box 62 inclines, mercury can flow to one side of the fixed wheel 3 of the cylindrical box 62, the larger the inclination angle is, the higher the gravitational potential energy of mercury is, the higher the density of mercury is, gravity can be larger, the larger the kinetic energy during flowing is, the flow speed of mercury is reduced through the first buffer unit 65, the flow speed of mercury is controlled in the controllable range of the second buffer unit, the situation that the energization is out of control due to fast flow speed is avoided, the mercury flows through the second buffer unit 66, the buffer plate bears force, the buffer plate 675 bears force, the flow speed of water is reduced under the buffer of the elastic element 671, meanwhile, the elastic element 671 acts on the channel iron block 673 to buffer the movement of the channel iron block 673, the movement of the channel iron block 673 comes from the force borne by the buffer plate 675, the action of the force borne by the buffer plate 675, the movable plate, the moving plate is forced by the vertical buffer plate 675, then the first fixing plate 683 is forced by the same force to move and slide on the rod of the third cylinder 684, the second spring 685 is compressed, the sixth spring 658 does not return due to the large force of mercury but can absorb a part of the kinetic energy of mercury to reduce the flow rate of mercury, the mercury can make the oblique angle 6752 of the buffer plate 675 subject to a large force, then the acting force can be decomposed, the decomposed force makes the buffer plate 675 have a moving trend, the moving trend of the buffer plate 675 moving towards both sides and the second buffer unit direction 66 can be forced to the channel iron block 673 when moving towards the second buffer unit direction 66, the channel iron block 673 acts on the elastic element 671 and then reciprocates back and forth, when the buffer plate 675 moves towards both sides, the guide wheel 688 and the channel iron block 673 roll and rub, the first gear 678 moves towards both sides and engages with the first rack 679 to rotate, the sixth rotating shaft 676 is rotated to rotate the rotating plate 677, so that the mercury will not be subjected to resistance when flowing through, and then the liquid level on the side of the fixed wheel 3 of the cylindrical box 62 will rise to cover the positive and negative power connectors 64, the current is conducted, the lead 63 transmits the current to the motor 411 to rotate the motor 411 clockwise, the motor 411 rotates to drive the first rotating shaft 412 to rotate clockwise, the first belt wheel 413 is driven, the first flat belt 414 drives the second belt wheel 415, the second belt wheel 415 drives the second rotating shaft 416 to drive the first connecting rod 417, the third rotating shaft 418 drives the second connecting rod 419 to drive the fourth rotating shaft 421, the fourth rotating shaft 421 is driven to drive the right angle seat 422, the right angle seat 422 drives the first pressing plate 423, the first pressing plate 423 drives the first pressing rod 424 to move upwards in the guide sleeve, the fifth rotating shaft 427 and the caster 428 on the first fixed block 426 are driven to move upwards in the same way, that the position of the caster 428 is lifted upwards by the motor 411 clockwise, until the inclination angle of the charging pile 1 is less than 5% and horizontal, the first spring 681 resets the buffer plate 675 after the action, the charging pile 1 deflects to the other side of the fixed wheel 3 and can move reversely, the movement mode is the same as the movement mode, the direction is opposite, and details are not repeated;

operation of mode B: when the inclination angle of the charging pile 1 is smaller than 5%, the kinetic energy of mercury is small and smaller than the kinetic energy required for the unobstructed control component 67 to act, then the liquid is processed by the slow-releasing component, and the liquid level of the liquid cannot cover the power-on connector 64;

when the position of the charging pile 1 needs to be fixed, the air cylinder 51 pushes the second pressing plate 531 downwards to drive the hollow rod 532 downwards, the fourth cylinder 533 is driven downwards by the third spring 534, the third pressing plate 535 is driven downwards, the suction cup body 551 is driven downwards, the housing 52 is driven downwards along with the position of the second pressing plate 531 due to the self gravity, then the housing 52 is contacted with the ground and does not continue downwards, then the suction cup body 551 is also contacted with the ground, the annular sleeve 5511 is contacted with the ground and is pressed, the annular sleeve 5511 is not driven downwards, the second pressing plate 531 slides downwards in the housing 52, the third spring 534 and the fourth spring 547 are compressed, then the power block presses the stress plate 541 downwards, the stress plate 541 is driven downwards, the third connecting rod 543 serves as a lever to drive the connecting block 546 upwards through the third connecting rod 543 and the tenth rotating shaft 544, then the fifth cylinder rod 552 slides upwards in the suction cup body 551, and drives the first flexible sleeve disk 554 upwards, the first cavity 556 is not sealed, so that the pressure intensity is unchanged, the second cavity 557 is sealed, so that the internal air pressure becomes lower, the air pressure is lower than the normal external atmospheric pressure, when the shell 52 is not pressed down any more, the second pressing plate 531 continues to move downwards, the second pressing plate 531 is connected with the shell 52 in a sealing and sliding manner, grass leans on the piston of the needle tube, so that the air pressure in the shell 52 is increased, the pressure received by the suction cup body 551 is increased higher than the external atmospheric pressure, the suction cup body 551 moves the third fixing block 561 downwards, the second rack 569 is pressed through the fifth spring 567, the sixth cylindrical rod 566 slides in the third fixing block 561, the fourth connecting rod 563 rotates on the third fixing block 561 through the eleventh rotating shaft 562, the fourth fixing block 565 moves towards two sides through the twelfth rotating shaft 564, the fourth fixing block 565 drives the shell 591 to move towards two sides, so that the second gear 571 moves towards two sides, and the second gear 571 is meshed with the second rack 569 to rotate, the second gear 571 drives the thirteenth rotating shaft 572 to rotate, the third gear 573 is driven to rotate, the third gear 573 drives the fourth gear 574 to rotate, the fourteenth rotating shaft 575 is driven to rotate, the fourth gear 574 on the other side of the casing 591 drives the fifth gear 576 to rotate, the fifteenth rotating shaft 577 is driven to rotate, the first helical gear 578 is driven to rotate, the second helical gear 579 is driven to rotate, the sixteenth rotating shaft 581 is driven to rotate, the fourth pulley 584 is driven to rotate through the second flat belt 583, the seventeenth rotating shaft 585 is driven to rotate, the power plate 586 contacts the swinging plate 588 in the rotating process, the swinging plate 588 rotates around the eighteenth rotating shaft 587, the power plate 586 and the swinging plate 587 are separated from contact after rotating for a certain angle, the eighteenth rotating shaft 587 is reset through the torsion spring 589, the power plate 586 has a round angle, and the swinging plate 587 can be separated from contact with the power plate 586 well, without damaging the two plates, the third gear 573 has a larger diameter than the fourth gear 574, increasing the rotation speed of the fourth gear 574, namely, the rotation speed of the fourteenth rotating shaft 575 is increased, so that the rotation speed of the roller 593 is increased, the vertical plate 592 is in the shape of a tooth profile, the toothed part can contact with the cylindrical block when the roller 593 rotates to clean dust on the roller and the cylindrical block, the front, the left, the right, the upper and the lower surfaces in the shell 591 are in a closed state when the second flexible sleeve 5911 enables the shell 591 to move towards two sides, the eighteenth rotating shaft 587 can enable the first guide plate 596 and the second guide plate 597 to rotate with the same small amplitude to vibrate to prevent the dust from being stained with, the dust can be absorbed into the dust cleaning box by the air suction module, when the shell passes through the section, the sucking disc body 551 is to suck, and the section is cleaned up to reduce dust when the sucking disc body 551 sucks.

It is to be understood that the described embodiments are merely a few embodiments of the invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Claims

1. A charging pile insulation monitoring device comprises a charging pile (1), a display screen (2) arranged on the upper side of the middle of the charging pile (1), a fixed wheel (3) arranged below the charging pile (1), an anti-tilting device (4) arranged below the charging pile (1), a position fixing device (5) arranged at the middle position below the charging pile (1), and an electrifying control device (6) arranged at the middle position inside the charging pile (1); the method is characterized in that: the position fixing device comprises a first power component (53), a pressure component (54) matched with the first power component (53), a sucker component (55) matched with the pressure component (54), a second power component (56) matched with the sucker component (55), a gear transmission component (57) matched with the second power component (56), a third power component (58) matched with the gear transmission component (57), and a dust cleaning component (59) matched with the gear transmission component (57) and the third power component (58); dust removal subassembly (59) include shell (591), rigid coupling in the riser (592) of this shell, cooperate cylinder (593) of this riser, rigid coupling in back plate (594) of this shell, rigid coupling in the dust removal box (595) of this back plate, cooperate in guide plate one (596) and guide plate two (597) of this shell.

2. The charging pile insulation monitoring device of claim 1, characterized in that: the anti-tilting device comprises a connecting rod assembly (41) and a lifting assembly (42); the connecting rod assembly comprises a motor (411) fixedly connected to the charging pile (1), a first rotating shaft (412) fixedly connected to the output end of the motor, a first belt wheel (413) fixedly connected to the first rotating shaft, a first flat belt (414) wound around the first belt wheel, a second belt wheel (415) wound around the other end of the first flat belt, a second rotating shaft (416) fixedly connected to the second belt wheel, a first connecting rod (417) fixedly connected to the second rotating shaft, a third rotating shaft (418) rotatably connected to the first connecting rod, and a second connecting rod (419) fixedly connected to the third rotating shaft; the lifting assembly comprises a fourth rotating shaft (421) fixedly connected to the second connecting rod, a right-angle seat (422) rotatably connected to the fourth rotating shaft, a first pressing plate (423) fixedly connected to the right-angle seat, a first pressing rod (424) fixedly connected to the first pressing plate, a first fixed block (426) fixedly connected to the first pressing rod, a fifth rotating shaft (427) rotatably connected to the first fixed block, a caster (428) fixedly connected to the fifth rotating shaft and a guide sleeve (425) slidably connected to the pressing rod; the guide sleeve is fixedly connected to the charging pile (1); the first rotating shaft (412) and the second rotating shaft (416) are rotatably connected to the charging pile (1); the caster wheels (428) and the fixed wheels (3) are symmetrically arranged relative to the center plane of the charging pile.

3. The charging pile insulation monitoring device of claim 2, characterized in that: the electrifying control device comprises a fixed rod (61) fixedly connected to the charging pile (1), a cylindrical box (62) fixedly connected to the fixed rod, a lead (63) connected to the cylindrical box, an electrifying joint (64) arranged in the cylindrical box, a first buffering unit (65) arranged in the cylindrical box, a second buffering unit (66) arranged in the cylindrical box, a plurality of square grooves (651) arranged on the first buffering unit, a plurality of first cylindrical rods (652) arranged in the square grooves, a plurality of wide grooves (661) arranged in the second buffering unit, a resistance-free control component (67) arranged in the second buffering unit and a micro-buffering component (68) matched with the resistance-free control component.

4. A charging pile insulation monitoring device according to claim 3, characterized in that: the unobstructed control assembly comprises an elastic element (671) fixedly connected to the wide groove (661), a second cylindrical rod (672) fixedly connected to the elastic element, a channel iron block (673) fixedly connected to the second cylindrical rod, a baffle plate (674) fixedly connected to the channel iron block, a first rack (679) arranged in the channel iron, a first gear (678) meshed with the first rack, a sixth rotating shaft (676) fixedly connected to the first gear, a buffer plate (675) rotatably connected to the sixth rotating shaft, a first groove body (6751) arranged in the buffer plate, an oblique angle (6752) arranged on the buffer plate, and a rotating plate (677) fixedly connected to the sixth rotating shaft; the rotating plate (677) is arranged in the first groove body (6751).

5. The charging pile insulation monitoring device of claim 4, wherein: the slight-buffering component comprises a first spring (681) fixedly connected to the baffle (674), a first moving plate (682) fixedly connected to the other end of the first spring, a first fixing plate (683) fixedly connected to the first moving plate, a third cylindrical rod (684) fixedly connected to the first fixing plate, a second spring (685) arranged on the third cylindrical rod, a second moving plate (686) fixedly connected to the second spring, a seventh rotating shaft (687) rotatably connected to the second moving plate, and a guide wheel (688) fixedly connected to the seventh rotating shaft; the other end of the second spring (685) is fixedly connected to the first fixing plate (683), the guide wheel (688) abuts against the groove block (673), and the first moving plate (682) is rotatably connected to the sixth rotating shaft (676).

6. The charging pile insulation monitoring device of claim 1, characterized in that: the position fixing device also comprises an air cylinder (51), a shell (52) and a second fixed block (521) fixedly connected to the shell; the first power assembly comprises a second pressure plate (531) fixedly connected to the pushing end of the cylinder, a hollow rod (532) fixedly connected to the second pressure plate, a fourth cylindrical rod (533) slidably connected to the hollow rod, a third spring (534) arranged on the fourth cylindrical rod, a third pressure plate (535) fixedly connected to the fourth cylindrical rod, and a power block (536) fixedly connected to the second pressure plate; the pressure intensity component comprises an eighth rotating shaft (544) rotatably connected to the shell (52), a third connecting rod (543) fixedly connected to the eighth rotating shaft, a ninth rotating shaft (542) rotatably connected to the third connecting rod, a pressure receiving plate (541) fixedly connected to the ninth rotating shaft, a tenth rotating shaft (545) rotatably connected to the third connecting rod, a connecting block (546) fixedly connected to the tenth rotating shaft, and a fourth spring (547) fixedly connected to the shell (2); the sucker assembly comprises a fifth cylindrical rod (552) fixedly connected to the connecting block (546), a sucker body (551) slidably connected to the fifth cylindrical rod, a disc (553) fixedly connected to the fifth cylindrical rod, a first flexible sleeve (554) fixedly connected to the disc, an annular sleeve (555) arranged on the sucker body, a first cavity (556) located above the first flexible sleeve and a second cavity (557) located below the first flexible sleeve; the second pressing plate (531) is slidably connected to the housing (2) and two ends of the third spring (534) are respectively and fixedly connected to the hollow rod (532), the third pressing plate (535), the sucker body (551) is fixedly connected to the third pressing plate (535), and the connecting block (546) is slidably connected to a groove on the sucker body.

7. The charging pile insulation monitoring device of claim 6, wherein: the second power assembly comprises a third fixed block (561) fixedly connected to the sucker body (551), an eleventh rotating shaft (562) rotatably connected to the third fixed block, a fourth connecting rod (563) fixedly connected to the eleventh rotating shaft, a twelfth rotating shaft (564) fixedly connected to the fourth connecting rod, a fourth fixed block (565) rotatably connected to the twelfth rotating shaft, a sixth cylindrical rod (566) slidably connected to the third fixed block, a fifth fixed block (568) fixedly connected to the sixth cylindrical rod, a second rack (569) fixedly connected to the fifth fixed block, and a fifth spring (567) abutted between the third fixed block and the fifth fixed block.

8. The charging pile insulation monitoring device of claim 7, wherein: the gear transmission assembly comprises a second gear (571) meshed with the second rack, a thirteenth rotating shaft (572) fixedly connected with the second gear, a third gear (573) fixedly connected with the thirteenth rotating shaft, a fourth gear (574) meshed with the third gear, a fourteenth rotating shaft (575) fixedly connected with the fourth gear, two fourth gears arranged on the fourteenth rotating shaft, a fifth gear (576) meshed with the other fourth gear, a fifteenth rotating shaft (577) fixedly connected with the fifth gear, a first helical gear (578) fixedly connected with the fifteenth rotating shaft, and a second helical gear (579) meshed with the first helical gear; the third power component comprises a sixteenth rotating shaft (581) fixedly connected with the second helical gear (579), a third belt wheel (582) fixedly connected with the sixteenth rotating shaft, a second flat belt (583) wound around the third belt wheel, a fourth belt wheel (584) wound at the other end of the second flat belt, a seventeenth rotating shaft (585) fixedly connected with the fourth belt wheel, a power plate (586) fixedly connected with the seventeenth rotating shaft, a swinging plate (588) matched with the power plate, an eighteenth rotating shaft (587) fixedly connected with the swinging plate, and a torsion spring (589) arranged on the eighteenth rotating shaft.

9. The charging pile insulation monitoring device of claim 8, wherein: casing (591) rigid coupling in third fixed block (565), thirteenth pivot (572), fourteenth pivot (575), fifteenth pivot (577), sixteenth pivot (581), seventeenth pivot (585), eighteenth pivot (587) rotate to be connected in this casing (591), guide plate one (596) and guide plate two (597) rigid coupling in eighteenth pivot (587), be equipped with on casing (591) second flexible cover (5911), riser (592) are toothed, be equipped with a plurality of cylinder pieces on drum (593).