CN116587906A - New energy charging pile and management method thereof - Google Patents

Abstract

The utility model discloses a new energy charging pile and a management method thereof, comprising a charging pile cabinet body, wherein a top cover is fixedly arranged at the top end of the charging pile cabinet body, a storage cavity is formed in the front surface of the top cover, and a sun shield is movably arranged in the storage cavity; the charging pile cabinet is characterized in that wire collecting boxes are fixedly arranged at the bottoms of two sides of the charging pile cabinet body respectively, a wire collecting mechanism is movably arranged in each wire collecting box, the wire collecting mechanism is fixedly connected with an output shaft of a servo motor, and the servo motor is fixedly arranged on the outer wall of one side of each wire collecting box. When the sun shield stretches out, the charging pile cabinet body is shielded, so that the control panel of the charging pile cabinet body is prevented from being subjected to sun-drying and rain for a long time, and the service life of the control panel of the charging pile cabinet body is prolonged; the wire winding mechanism automatically winds and unwinds the charging wires, so that the charging wires are conveniently tidied, and potential safety hazards caused to pedestrians by scattered cables are avoided.

Description

New energy charging pile and management method thereof

Technical Field

The utility model relates to the technical field of charging piles, in particular to a new energy charging pile and a management method thereof.

Background

The function of the new energy charging pile is similar to that of the oiling machine, electric vehicles of various types can be charged according to different voltage levels, the new energy charging pile generally provides two charging modes of conventional charging and quick charging, and people can charge the new energy electric vehicles by using a specific charging card.

The utility model discloses a new forms of energy fills electric pile as in chinese patent of publication No. CN218197953U, including filling electric pile body, the front of filling electric pile body is equipped with touch display screen, and the front of filling electric pile body is equipped with and is used for carrying out clear dust removal mechanism to touch display screen, and dust removal mechanism is including the symmetry setting up the fixed plate in touch display screen both sides, is equipped with the cleaning roller between two fixed plates, has seted up the spout on the fixed plate, and the cleaning roller passes through the slider at both ends and reciprocates in the spout. According to the utility model, through the dust removing mechanism, when dust or water drops are accumulated on the surface of the touch display screen, the cleaning roller can be moved up and down to clean the surface of the touch display screen, so that the hand feeling and sensitivity of the touch display screen are prevented from being reduced when people use the touch display screen, and inconvenience is brought to the use.

After the personnel use, the storage work of the lengthened charging wire is very complicated, the time of the personnel is seriously wasted, the long-time insolation of the sun can cause the damage of the surface of the charging wire without shrinkage, the damage or danger is easy to occur, and meanwhile, the scattered cable can also cause potential safety hazard to the pedestrians.

Disclosure of Invention

The utility model aims to provide a new energy charging pile and a management method thereof, which are used for solving the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the new energy charging pile comprises a charging pile cabinet body, wherein a top cover is fixedly arranged at the top end of the charging pile cabinet body, a storage cavity is formed in the front surface of the top cover, and a sun shield is movably arranged in the storage cavity;

the charging pile cabinet is characterized in that wire collecting boxes are fixedly arranged at the bottoms of two sides of the charging pile cabinet body respectively, a wire collecting mechanism is movably arranged in each wire collecting box, the wire collecting mechanism is fixedly connected with an output shaft of a servo motor, and the servo motor is fixedly arranged on the outer wall of one side of each wire collecting box.

Preferably, the movable grooves are respectively formed in the inner walls of the two sides of the storage cavity, racks are fixedly mounted at the bottoms of one ends of the movable grooves, which are close to the openings of the storage cavity, and rectangular grooves are respectively formed in one sides of the movable grooves, which are opposite to each other.

Preferably, the top cap is kept away from the cavity of accomodating one side cavity and is equipped with the transmission chamber, the transmission intracavity activity is equipped with drive assembly, drive assembly includes transmission shaft, drive chain, lead screw, drive chain activity is established in the transmission chamber, the transmission shaft is connected in the both sides of drive chain transmission respectively, the output shaft of positive and negative motor is connected in the middle bottom transmission of drive chain, positive and negative motor fixed mounting is at one side outer wall of top cap, the one end fixed connection lead screw of transmission shaft, the lead screw is rotated and is installed in the rectangular channel.

Preferably, the one end both sides of sunshading board are fixed connection connecting axle respectively, the connecting axle is fixed to cup joint the gear, gear and rack meshing cooperation, the one end that the sunshading board was kept away from to the connecting axle rotates the connection cylinder, the cylinder slides and establishes in the rectangle inslot, one side of cylinder runs through and is equipped with the screw hole, screw hole and lead screw-thread fit.

Preferably, a wire outlet is formed in one side of the top end of the wire collecting box, a charging wire penetrates through the wire outlet, a round corner is formed in the top edge of the wire outlet, a box door is hinged to one side of the wire collecting box, and a handle is fixedly connected to the box door.

Preferably, the wire winding mechanism comprises movable strips, connecting plates, two bidirectional screws, steering boxes, wire winding assemblies, threaded rods, sliding plates and auxiliary wire winding assemblies, wherein two movable strips are arranged in parallel, two ends of each movable strip are respectively connected with the top wall and the bottom wall of the wire winding box in a sliding mode, two movable strips are respectively connected with a plurality of wire winding assemblies in a sliding mode, two movable strips are respectively connected with the connecting plates in a fixed mode at one middle portion of each movable strip in a fixed mode, the connecting plates are connected with two sides of the bidirectional screws in a sleeved mode through threaded structures, one end of each bidirectional screw is fixedly connected with a servo motor, the middle of each bidirectional screw is connected with the steering boxes, one side of each steering box is fixedly connected with the inner wall of each wire winding box, the other side of each steering box is connected with the threaded rods in a rotating mode, the threaded rods are connected with the sliding plates in a sliding mode, and one side of each sliding plate is connected with a plurality of auxiliary wire winding assemblies in a sliding mode.

Preferably, the length direction of the bidirectional screw rod is perpendicular to the length direction of the screw rod, a sliding groove is formed in the middle of one end face of the sliding plate, and a plurality of rectangular clamping grooves are formed in the inner wall of the sliding groove.

Preferably, the wire winding subassembly includes sliding frame, positioning bolt, connecting block, lantern ring, turning ball, rectangle mouth, ball groove, sliding frame slides and cup joints the movable strip, positioning bolt is cup jointed through the helicitic texture to one side of sliding frame, the rectangle mouth has been seted up to the opposite side of sliding frame, the width of rectangle mouth is greater than the thickness of connecting plate, one side fixed connection connecting block's of sliding frame one end, the other end fixed connection lantern ring of connecting block, a plurality of ball grooves have been seted up to the lantern ring inner wall, equal movable joint has the turning ball in the ball groove.

Preferably, the auxiliary winding assembly comprises a pull ring, a mounting groove, a rolling ball, a rotating column, a connecting cylinder, a spring, a sliding block, a movable cavity and a clamping strip, wherein the sliding block is slidably arranged in the sliding groove, the movable cavity is internally provided with the movable cavity, the clamping strip is slidably sleeved in the movable cavity, one end of the clamping strip is fixedly connected with one end of the spring, the other end of the spring is fixedly connected with the inner wall of the movable cavity, the other end of the sliding block is fixedly connected with the connecting cylinder, one side, far away from the sliding block, of the connecting cylinder is rotationally sleeved with the rotating column, the rotating column is fixedly connected with the outer wall of the pull ring, the inner wall of the pull ring is provided with a plurality of mounting grooves, and the rolling ball is movably arranged in the mounting groove.

The management method of the new energy charging pile comprises the following steps:

s1, electrifying a positive and negative motor to work, driving a transmission assembly to work, driving a sun shield to extend out of an opening end of a storage cavity by transmission of the transmission assembly, then meshing and matching a gear and a rack, driving the sun shield to rotate for a certain angle, and further shading the front surface of a charging pile cabinet body by the sun shield to protect a charging pile cabinet body control panel;

s2, when the charging gun is pulled out during charging, the servo motor works, the bidirectional screw rod of the wire collecting mechanism is driven to rotate, the bidirectional screw rod drives the connecting plates to mutually approach, the connecting plates drive the movable strips to mutually approach, the movable strips drive the wire collecting components to mutually approach, the distance between the wire collecting components is changed, the charging wire connected with the serpentine disc-shaped structure is further driven to move towards the middle of the wire collecting box, meanwhile, the threaded rod rotates, the threaded rod drives the sliding plate to approach towards the direction of the wire collecting components, the pulled charging wire is loosened, at the moment, the length of the movable charging wire is increased, and an operator can pull the charging gun to conduct charging operation;

s3, after the charging gun is plugged into the charging pile cabinet body, the servo motor works reversely, the movable strips which are close to each other are away from each other, the movable strips drive the winding assembly to be away from each other, the winding assembly further drives the sleeved charging wire to stretch into a serpentine disc-shaped structure, meanwhile, the threaded rod rotates, the threaded rod drives the sliding plate to move, the sliding plate drives the auxiliary winding assembly to move, the auxiliary winding assembly pulls the charging wire of the serpentine disc-shaped structure to move towards one side of the charging pile cabinet body, and then the charging wire which extends out of the winding box is driven to be recovered into the winding box.

Compared with the prior art, the utility model has the beneficial effects that: when the sun shield stretches out, the charging pile cabinet body is shielded, so that the control panel of the charging pile cabinet body is prevented from being subjected to sun-drying and rain for a long time, and the service life of the control panel of the charging pile cabinet body is prolonged; the wire collecting mechanism automatically collects and releases the charging wires, so that the charging wires are conveniently tidied, and the scattered charging wires are prevented from causing potential safety hazards to pedestrians.

Drawings

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

FIG. 2 is a schematic cross-sectional view of the top cover of the present utility model;

FIG. 3 is a schematic view of a sunshade panel structure according to the present utility model;

FIG. 4 is a schematic view of the internal structure of the wire-rewinding box in the present utility model;

FIG. 5 is a schematic view of a part of the structure of the wire winding assembly according to the present utility model;

fig. 6 is a schematic cross-sectional view of an auxiliary wire winding assembly according to the present utility model.

In the figure: 1. a charging pile cabinet body; 2. a top cover; 3. a storage chamber; 31. a movable groove; 32. rectangular grooves; 33. a transmission cavity; 34. a rack; 4. a sun visor; 41. a cylinder; 42. a threaded hole; 43. a connecting shaft; 44. a gear; 5. a wire collecting box; 51. a door; 52. a wire outlet; 6. a charging wire; 7. a wire winding mechanism; 71. a movable bar; 72. a connecting plate; 73. a bidirectional screw; 74. a steering box; 75. a wire winding assembly; 751. a sliding frame; 752. positioning bolts; 753. a connecting block; 754. a collar; 755. a rotating ball; 756. a rectangular opening; 757. a ball groove; 76. a threaded rod; 77. a sliding plate; 771. a chute; 78. an auxiliary wire-rewinding assembly; 781. a pull ring; 782. a mounting groove; 783. a rolling ball; 784. rotating the column; 785. a connecting cylinder; 786. a spring; 787. a slide block; 788. a movable cavity; 789. clamping strips; 8. a forward and reverse motor; 9. a transmission assembly; 91. a transmission shaft; 92. a drive chain; 93. a screw rod; 10. a servo motor.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

Referring to fig. 1 and 2, in a first embodiment of the present utility model, a new energy charging pile is provided, which includes a charging pile cabinet body 1, a top cover 2 is fixedly installed at the top end of the charging pile cabinet body 1, a storage cavity 3 is opened on the front surface of the top cover 2, and a sun shield 4 is movably arranged in the storage cavity 3;

the two sides bottom of the charging pile cabinet body 1 are respectively fixedly provided with a wire collecting box 5, a wire collecting mechanism 7 is movably arranged in the wire collecting box 5, the wire collecting mechanism 7 is fixedly connected with an output shaft of a servo motor 10, and the servo motor 10 is fixedly arranged on the outer wall of one side of the wire collecting box 5.

Receive charging wire 6 in the admission box 5, take-up mechanism 7 is snakelike discoid structure to charging wire 6 and accomodates, and two adjacent kinks of charging wire 6 of snakelike discoid structure are pulled into triangle-shaped structure by take-up mechanism 7 simultaneously, and then have increased the space that charging wire 6 accomodates, make the length that charging wire 6 was released longer.

The new energy charging pile and the management method thereof are also provided, and the new energy charging pile comprises the following steps:

s1, electrifying a positive and negative motor 8 to work, driving a transmission assembly 9 to work, driving the transmission assembly 9 to drive a sun shield 4 to extend out of the opening end of a storage cavity 3, and then meshing and matching a gear 44 with a rack 34 to drive the sun shield 4 to rotate for a certain angle, so that the sun shield 4 can shade the front surface of a charging pile cabinet body 1, and a control panel of the charging pile cabinet body 1 can be protected;

s2, when the charging gun is pulled out during charging, the servo motor 10 works to drive the bidirectional screw 73 of the wire collecting mechanism 7 to rotate, the bidirectional screw 73 drives the connecting plates 72 to mutually approach, the connecting plates 72 drive the movable strips 71 to mutually approach, the movable strips 71 drive the wire collecting components 75 to mutually approach, the distance between the wire collecting components 75 is changed, the charging wires 6 connected with the serpentine disc-shaped structure are driven to move towards the middle of the wire collecting box 5, meanwhile, the threaded rod 76 rotates, the threaded rod 76 drives the sliding plate 77 to approach towards the wire collecting components 75, the pulled charging wires 6 are loosened, at the moment, the length of the movable charging wires 6 is increased, and an operator can pull the charging gun to perform charging operation;

s3, after the charging gun is plugged into the charging pile cabinet body 1, the servo motor 10 works reversely, the movable strips 71 which are close to each other are away from each other, the movable strips 71 drive the wire collecting assembly 75 to be away from each other, the wire collecting assembly 75 further drives the sleeved charging wire 6 to stretch into a serpentine disc-shaped structure, meanwhile, the threaded rod 76 rotates, the threaded rod 76 drives the sliding plate 77 to move, the sliding plate 77 drives the auxiliary wire collecting assembly 78 to move, the auxiliary wire collecting assembly 78 pulls the charging wire 6 of the serpentine disc-shaped structure to move towards one side of the charging pile cabinet body 1, and the charging wire 6 which extends out of the wire collecting box 5 is driven to be collected into the wire collecting box 5.

Example 2

Referring to fig. 1-6, in a second embodiment of the present utility model, based on the previous embodiment, specifically, two side inner walls of the accommodating cavity 3 are respectively provided with a movable groove 31, one end bottom of the movable groove 31, which is close to the opening of the accommodating cavity 3, is fixedly provided with a rack 34, and one opposite side of the movable groove 31 is respectively provided with a rectangular groove 32. The cross sectional area of sunshading board 4 is less than or equal to accomodates the area in chamber 3, and the thickness of sunshading board 4 is less than the height of accomodating chamber 3 simultaneously, and then guarantees that sunshading board 4 can fully receive in accomodating chamber 3, and sunshading board 4 is when stretching out simultaneously, less thickness can realize sunshading board 4 and rotate certain angle, forms decurrent domatic, when avoiding sunshading board 4 to keep off the rain, and the rainwater is backward poured into and is accomodate in chamber 3.

Further, the top cap 2 is kept away from the cavity of accomodating 3 one side cavity and is equipped with the transmission chamber 33, the transmission intracavity activity is equipped with drive assembly 9, drive assembly 9 includes transmission shaft 91, drive chain 92, lead screw 93, drive chain 92 activity is established in the transmission chamber 33, drive chain 92's both sides transmission respectively connect transmission shaft 91, the output shaft of positive and negative motor 8 is connected in the middle bottom transmission of drive chain 92, positive and negative motor 8 fixed mounting is at one side outer wall of top cap 2, the one end fixed connection lead screw 93 of transmission shaft 91, lead screw 93 rotates and installs in rectangular channel 32.

Further, the two sides of one end of the sun shield 4 are fixedly connected with the connecting shaft 43 respectively, the connecting shaft 43 is fixedly sleeved with the gear 44, the gear 44 is meshed and matched with the rack 34, one end of the connecting shaft 43, far away from the sun shield 4, is rotatably connected with the cylinder 41, the cylinder 41 is slidably arranged in the rectangular groove 32, one side of the cylinder 41 is provided with a threaded hole 42 in a penetrating mode, and the threaded hole 42 is in threaded fit with the screw rod 93.

The positive and negative motor 8 is electrified to work, drive the drive chain 92 of drive assembly 9 to work, drive chain 92 drives transmission shaft 91 synchronous rotation, transmission shaft 91 drives the lead screw 93 rotation of rigid coupling, lead screw 93 drives cylinder 41 through the helicitic texture and removes in rectangular slot 32, cylinder 41 and then drive sunshading board 4 and stretch out from the open end of accomodating chamber 3, after cylinder 41 reaches accomodate chamber 3 open one side, gear 44 and rack 34 meshing cooperation, when cylinder 41 drives connecting axle 43 and removes, gear 44 drives under rack 34 and rotates, gear 44 and then drive sunshading board 4 rotation certain angle, sunshading board 4 and then sun-proof the front of filling electric pile cabinet 1, protection filling electric pile cabinet 1 control panel, prevent filling electric pile cabinet 1 control panel and being sunburned in the rain for a long time, the life of filling electric pile cabinet 1 has been prolonged.

Specifically, a wire outlet 52 is formed in one side of the top end of the wire collecting box 5, the charging wire 6 penetrates through the wire outlet 52, a round corner is formed in the top edge of the wire outlet 52, a box door 51 is hinged to one side of the wire collecting box 5, and a handle is fixedly connected to the box door 51. The outlet 52 is used for stretching out of charging wire 6, and the wear-resisting slide ring of outlet 52 inner wall fixed connection simultaneously cooperates the fillet simultaneously, avoids outlet 52 to lead to the fact wearing and tearing to charging wire 6 outward appearance, and a plurality of infiltration holes have been seted up to the bottom of admission tank 5, avoid admission tank 5 inside ponding, and the setting of chamber door 51 is convenient to open chamber door 51, overhauls the operation to admission tank 5 inside.

Specifically, take-up mechanism 7 includes movable strip 71, connecting plate 72, two-way screw 73, turn to case 74, take-up subassembly 75, threaded rod 76, slide plate 77, supplementary take-up subassembly 78, movable strip 71 is equipped with two in parallel, the roof and the diapire of two movable strip 71 both ends slip respectively and connect the take-up case 5, a plurality of take-up subassemblies 75 are all cup jointed to two movable strip 71, the equal fixed connection connecting plate 72 in one side middle part of two movable strip 71, the connecting plate 72 cup joints the both sides of two-way screw 73 through the helicitic texture, the one end fixed connection servo motor 10 of two-way screw 73, turn to case 74 is connected at the middle part of two-way screw 73, the inner wall of one side fixed connection take-up case 5 of turn to case 74, the opposite side rotation connection threaded rod 76 of turn to case 74, threaded rod 76 cup joints slide plate 77 through the helicitic texture, one side sliding connection of slide plate 77 has a plurality of supplementary take-up subassemblies 78.

Further, the length direction of the bidirectional screw 73 and the length direction of the threaded rod 76 are perpendicular to each other, a sliding groove 771 is formed in the middle of one end face of the sliding plate 77, and a plurality of rectangular clamping grooves are formed in the inner wall of the sliding groove 771.

During charging, the charging gun is pulled out, the microprocessor controls the servo motor 10 to work, the bidirectional screw 73 of the wire collecting mechanism 7 is driven to rotate, the bidirectional screw 73 drives the connecting plate 72 to mutually approach, the connecting plate 72 drives the movable strip 71 to mutually approach, the movable strip 71 drives the wire collecting assembly 75 to mutually approach, the distance between the oppositely arranged wire collecting assemblies 75 is changed, the charging wire 6 connected with the serpentine disc-shaped structure is driven to move towards the middle part of the wire collecting box 5, meanwhile, the threaded rod 76 rotates, the threaded rod 76 drives the sliding plate 77 to approach towards the direction of the wire collecting assembly 75, the pulled charging wire 6 is loosened, at the moment, the length of the pulled charging wire 6 is increased, after an operator pulls the charging wire 6, the charging gun is matched for charging operation, after the inductor senses that the charging gun is inserted on the charging pile cabinet 1, the microprocessor controls the servo motor 10 to reversely work, the movable strips 71 which are close to each other are away from each other, the movable strips 71 drive the wire collecting assembly 75 to be away from each other, the wire collecting assembly 75 drives the sleeved charging wire 6 to stretch into a serpentine disc-shaped structure, meanwhile, the threaded rod 76 rotates, the threaded rod 76 drives the sliding plate 77 to move, the sliding plate 77 drives the auxiliary wire collecting assembly 78 to move, two adjacent bending parts of the charging wire 6 of the serpentine disc-shaped structure are pulled into a triangular structure by the auxiliary wire collecting assembly 78, the space for accommodating the charging wire 6 is further increased, the charging wire 6 which extends out of the wire collecting box 5 is driven to be retracted into the wire collecting box 5, or after charging is finished, an operator forgets to plug a charging gun on the charging pile cabinet 1, a timing program is arranged in an internal program of the charging pile, the micro-processing control servo motor 10 works after the charging gun is not plugged on the charging pile cabinet 1 for a certain time, the servo motor 10 drives the take-up mechanism 7 to store the charging wires 6, so that the charging wires 6 are conveniently tidied, and the scattered charging wires 6 are prevented from causing potential safety hazards to pedestrians.

Further, the wire winding assembly 75 comprises a sliding frame 751, a positioning bolt 752, a connecting block 753, a collar 754, a rotating ball 755, a rectangular opening 756 and a ball groove 757, wherein the sliding frame 751 is in sliding connection with the movable strip 71, one side of the sliding frame 751 is in sliding connection with the positioning bolt 752 through a threaded structure, the rectangular opening 756 is formed in the other side of the sliding frame 751, the width of the rectangular opening 756 is larger than the thickness of the connecting plate 72, one side of the sliding frame 751 is fixedly connected with one end of the connecting block 753, the other end of the connecting block 753 is fixedly connected with the collar 754, the inner wall of the collar 754 is provided with a plurality of ball grooves 757, and the ball grooves 757 are movably connected with the rotating balls 755 in a clamping mode.

The charging wire 6 is respectively passed through in the lantern ring 754 of receiving subassembly 75, a plurality of crisscross symmetrical receipts line subassembly 75 that set up, drive the charging wire 6 tensile of penetrating into snakelike disk structure, the rotating ball 755 that the activity of lantern ring 754 inner wall set up, sliding contact to charging wire 6 outer wall, avoid charging wire 6 outward skin direct contact lantern ring 754 inner wall, the smooth degree when charging wire 6 removes has been improved, simultaneously also avoid charging wire 6 outward skin wearing and tearing, the sliding frame 751 cup joints with movable strip 71 slip, and then can change the position of sliding frame 751 at will, then fix the position of sliding frame 751 through locating bolt 752, the convenience is adjusted the bending angle of charging wire 6, avoid charging wire 6 bending angle to be too little, set up of rectangular mouth 756, avoid connecting plate 72 to hinder the removal of sliding frame 751.

Further, the auxiliary wire winding assembly 78 includes a pull ring 781, a mounting groove 782, a ball 783, a rotating post 784, a connecting cylinder 785, a spring 786, a sliding block 787, a movable cavity 788 and a clamping strip 789, wherein the sliding block 787 is slidably arranged in the sliding groove 771, one end of the sliding block 787 is concavely provided with the movable cavity 788, the sliding block 789 is slidably sleeved in the movable cavity 788, one end of the clamping strip 789 is fixedly connected with one end of the spring 786, the other end of the spring 786 is fixedly connected with the inner wall of the movable cavity 788, the other end of the sliding block 787 is fixedly connected with the connecting cylinder 785, one side, far away from the sliding block 787, of the connecting cylinder 785 is rotationally sleeved with the rotating post 784, the outer wall of the pull ring 781 is fixedly connected with the inner wall of the sliding block 787, the inner wall of the pull ring 781 is provided with a plurality of mounting grooves 782, and the ball 783 is movably arranged in the mounting groove 782.

When the charging wire 6 penetrates into the lantern ring 754 of the wire collecting assembly 75, the charging wire 6 between the two lantern rings 754 which are opposite in a staggered manner penetrates into the pull ring 781 of the auxiliary wire collecting assembly 78 at the same time, the center axis of the pull ring 781 is perpendicular to the center axis of the lantern ring 754 or forms an acute angle with the center axis of the lantern ring 754, the bidirectional screw 73 rotates to drive the threaded rod 76 to rotate, the threaded rod 76 drives the sliding plate 77 to move, the sliding plate 77 drives the pull ring 781 to move, the pull ring 781 further pulls the charging wire 6, the charging wire 6 is matched with the two lantern rings 754 which are opposite in a staggered manner, two adjacent bending positions of the charging wire 6 in a serpentine disc-shaped structure are pulled into a triangular structure by the pull ring 781, the accommodating space of the charging wire 6 is further enlarged, and when the charging wire 6 is discharged, the discharging length of the charging wire 6 is longer.

Example 3

Referring to fig. 1-6, in the third embodiment of the present utility model, when the present utility model is used, the front and back motors 8 are powered on to work to drive the transmission assembly 9 to work, the transmission shaft 91 of the transmission assembly 9 rotates synchronously, the transmission shaft 91 drives the fixedly connected screw rod 93 to rotate, the screw rod 93 drives the cylinder 41 to move in the rectangular groove 32, the cylinder 41 further drives the sun shield 4 to extend out from the opening end of the storage cavity 3, and after the cylinder 41 reaches the opening side of the storage cavity 3, the gear 44 is meshed with the rack 34 to drive the sun shield 4 to rotate for a certain angle, the sun shield 4 further shields the front surface of the charging pile cabinet 1, thereby protecting the control panel of the charging pile cabinet 1 from long-time sun-drying and rain, and prolonging the service life of the charging pile cabinet 1; during charging, the charging gun is pulled out, the microprocessor controls the servo motor 10 to work, the bidirectional screw 73 of the wire collecting mechanism 7 is driven to rotate, the bidirectional screw 73 drives the connecting plate 72 to mutually approach, the connecting plate 72 drives the movable strip 71 to mutually approach, the movable strip 71 drives the wire collecting assembly 75 to mutually approach, the distance between the oppositely arranged wire collecting assemblies 75 is changed, the charging wire 6 connected with the serpentine disc-shaped structure is driven to move towards the middle part of the wire collecting box 5, meanwhile, the threaded rod 76 rotates, the threaded rod 76 drives the sliding plate 77 to approach towards the direction of the wire collecting assembly 75, the pulled charging wire 6 is loosened, at the moment, the length of the pulled charging wire 6 is increased, after an operator pulls the charging wire 6, the charging gun is matched for charging operation, after the inductor senses that the charging gun is inserted on the charging pile cabinet 1, the microprocessor controls the servo motor 10 to reversely work, the movable strips 71 which are close to each other are away from each other, the movable strips 71 drive the wire collecting assembly 75 to be away from each other, the wire collecting assembly 75 drives the sleeved charging wire 6 to stretch into a serpentine disc-shaped structure, meanwhile, the threaded rod 76 rotates, the threaded rod 76 drives the sliding plate 77 to move, the sliding plate 77 drives the auxiliary wire collecting assembly 78 to move, two adjacent bending parts of the charging wire 6 of the serpentine disc-shaped structure are pulled into a triangular structure by the auxiliary wire collecting assembly 78, the space for accommodating the charging wire 6 is further increased, the charging wire 6 which extends out of the wire collecting box 5 is driven to be retracted into the wire collecting box 5, or after charging is finished, an operator forgets to plug a charging gun on the charging pile cabinet 1, a timing program is arranged in an internal program of the charging pile, the micro-processing control servo motor 10 works after the charging gun is not plugged on the charging pile cabinet 1 for a certain time, the servo motor 10 drives the take-up mechanism 7 to store the charging wires 6, so that the charging wires 6 are conveniently tidied, and the scattered charging wires 6 are prevented from causing potential safety hazards to pedestrians.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. New forms of energy fills electric pile, including filling electric pile cabinet body (1), its characterized in that: the top end of the charging pile cabinet body (1) is fixedly provided with a top cover (2), the front surface of the top cover (2) is provided with a storage cavity (3), and a sun shield (4) is movably arranged in the storage cavity (3);

the charging pile cabinet is characterized in that wire collecting boxes (5) are fixedly installed at the bottoms of two sides of the charging pile cabinet body (1) respectively, wire collecting mechanisms (7) are movably arranged in the wire collecting boxes (5), the wire collecting mechanisms (7) are fixedly connected with output shafts of servo motors (10), and the servo motors (10) are fixedly installed on outer walls of one sides of the wire collecting boxes (5).

2. The new energy charging pile according to claim 1, wherein: the movable grooves (31) are respectively formed in the inner walls of the two sides of the storage cavity (3), racks (34) are fixedly arranged at the bottoms of one ends of the movable grooves (31) close to the openings of the storage cavity (3), and rectangular grooves (32) are respectively formed in one sides of the movable grooves (31) opposite to each other.

3. The new energy charging pile according to claim 2, wherein: the utility model discloses a top cap, including top cap (2), storage cavity (3) are kept away from to top cap (2), one side cavity that accomodates cavity (3) is equipped with transmission chamber (33), transmission chamber (33) internalization is equipped with drive assembly (9), drive assembly (9) are including transmission shaft (91), drive chain (92), lead screw (93), drive chain (92) activity is established in transmission chamber (33), transmission shaft (91) are connected in the both sides of drive chain (92) transmission respectively, the output shaft of positive and negative motor (8) is connected in the middle bottom transmission of drive chain (92), positive and negative motor (8) fixed mounting is at one side outer wall of top cap (2), one end fixed connection lead screw (93) of drive shaft (91), lead screw (93) rotate and install in rectangular channel (32).

4. A new energy charging pile according to claim 3, characterized in that: one end both sides of sunshading board (4) are fixed connection connecting axle (43) respectively, connecting axle (43) are fixed cup joint gear (44), gear (44) and rack (34) meshing cooperation, one end that sunshading board (4) was kept away from to connecting axle (43) rotates and connects cylinder (41), cylinder (41) slip is established in rectangle groove (32), one side of cylinder (41) runs through and is equipped with screw hole (42), screw hole (42) and lead screw (93) screw-thread fit.

5. The new energy charging pile according to claim 1, wherein: an outlet (52) is formed in one side of the top end of the wire collecting box (5), a charging wire (6) penetrates through the outlet (52), a round corner is formed in the top edge of the outlet (52), a box door (51) is hinged to one side of the wire collecting box (5), and a handle is fixedly connected to the box door (51).

6. The new energy charging pile according to claim 1, wherein: the utility model provides a take-up mechanism (7) is including movable strip (71), connecting plate (72), two-way screw rod (73), turn to case (74), receive line subassembly (75), threaded rod (76), slide plate (77), supplementary receive line subassembly (78), movable strip (71) parallel is equipped with two, two the roof and the diapire of receiving line case (5) are slided respectively to the both ends of movable strip (71), two all slide socket a plurality of receive line subassemblies (75) of movable strip (71), two one side middle part of movable strip (71) is fixed connection connecting plate (72), the connecting plate (72) cup joints the both sides of two-way screw rod (73) through the helicitic texture, one end fixed connection servo motor (10) of two-way screw rod (73), turn to case (74) is connected at the middle part of turning to the one side of turn to case (74) is fixed to be connected with the inner wall of receiving line case (5), threaded rod (76) are cup jointed through helicitic texture slide plate (77), one side of slide plate (77) is connected with supplementary receive line subassembly (78).

7. The new energy charging pile according to claim 6, wherein: the length direction of the bidirectional screw rod (73) and the length direction of the threaded rod (76) are mutually perpendicular, a sliding groove (771) is formed in the middle of one end face of the sliding plate (77), and a plurality of rectangular clamping grooves are formed in the inner wall of the sliding groove (771).

8. The new energy charging pile according to claim 7, wherein: the winding assembly (75) comprises a sliding frame (751), a positioning bolt (752), a connecting block (753), a sleeve ring (754), a rotating ball (755), a rectangular opening (756) and a ball groove (757), wherein the sliding frame (751) is in sliding sleeve joint with a movable strip (71), one side of the sliding frame (751) is in sleeve joint with the positioning bolt (752) through a threaded structure, the other side of the sliding frame (751) is provided with the rectangular opening (756), the width of the rectangular opening (756) is larger than the thickness of the connecting plate (72), one side of the sliding frame (751) is fixedly connected with one end of the connecting block (753), the other end of the connecting block (753) is fixedly connected with the sleeve ring (754), a plurality of ball grooves (757) are formed in the inner wall of the sleeve ring (754), and the rotating ball (755) are movably clamped in the ball grooves (757).

9. The new energy charging pile according to claim 8, wherein: the auxiliary winding assembly (78) comprises a pull ring (781), a mounting groove (782), a rolling ball (783), a rotating column (784), a connecting cylinder (785), a spring (786), a sliding block (787), a movable cavity (788) and a clamping strip (789), wherein the sliding block (787) is slidably arranged in the sliding groove (771), the movable cavity (788) is recessed at one end of the sliding block (787), the clamping strip (789) is slidably sleeved in the movable cavity (788), one end of the clamping strip (789) is fixedly connected with one end of the spring (786), the other end of the spring (786) is fixedly connected with the inner wall of the movable cavity (788), the other end of the sliding block (787) is fixedly connected with the connecting cylinder (785), one side of the connecting cylinder (785) away from the sliding block (787) is rotatably sleeved with the outer wall of the sliding block (781), a plurality of mounting grooves (782) are formed in the inner wall of the sliding ring (78788), and the rolling ball (783) is movably arranged in the mounting groove.

10. A method of managing a new energy charging pile according to any one of claims 1 to 9, comprising the steps of:

s1, electrifying a positive and negative motor (8) to work to drive a transmission assembly (9) to work, driving the sun shield (4) to extend out of the opening end of a storage cavity (3) by transmission of the transmission assembly (9), then meshing and matching a gear (44) with a rack (34) to drive the sun shield (4) to rotate for a certain angle, and then sun shield the front surface of a charging pile cabinet body (1) by the sun shield (4) to protect a control panel of the charging pile cabinet body (1);

s2, when the charging gun is in charging work, the servo motor (10) is pulled out to work, the bidirectional screw (73) of the winding mechanism (7) is driven to rotate, the bidirectional screw (73) drives the connecting plate (72) to be close to each other, the connecting plate (72) drives the movable strip (71) to be close to each other, the movable strip (71) drives the winding assembly (75) to be close to each other, the distance between the winding assembly (75) is changed, the charging wire (6) connected with the serpentine disc structure is driven to move towards the middle of the winding box (5), meanwhile, the threaded rod (76) rotates, the threaded rod (76) drives the sliding plate (77) to be close to the winding assembly (75) direction, the pulled charging wire (6) is loosened, at the moment, the length of the movable charging wire (6) is increased, and an operator can pull the charging gun to perform charging operation;

s3, after charging is finished, the charging gun is inserted on the charging pile cabinet body (1), the servo motor (10) reversely works, the movable strips (71) close to each other are away from each other, the movable strips (71) drive the winding assemblies (75) to be away from each other, the winding assemblies (75) further drive sleeved charging wires (6) to stretch into a snake-shaped disc-shaped structure, meanwhile, the threaded rods (76) rotate, the threaded rods (76) drive the sliding plates (77) to move, the sliding plates (77) drive the auxiliary winding assemblies (78) to move, the auxiliary winding assemblies (78) pull the charging wires (6) of the snake-shaped disc-shaped structure to move towards one side of the charging pile cabinet body (1), and further drive the charging wires (6) extending out of the winding boxes (5) to be recycled into the winding boxes (5).