CN113635799A

CN113635799A - New energy charging pile

Info

Publication number: CN113635799A
Application number: CN202111109758.5A
Authority: CN
Inventors: 冯银平
Original assignee: Shanghai Jingu Information Technology Co ltd
Current assignee: Shanghai Jingu Information Technology Co ltd
Priority date: 2021-09-23
Filing date: 2021-09-23
Publication date: 2021-11-12

Abstract

The invention relates to the technical field of new energy, in particular to a new energy charging pile, which comprises a charging pile, wherein a switch door is arranged on the outer side of the charging pile, a partition plate is arranged on one side, close to the switch door, in the charging pile, a take-up mechanism is arranged on one side, facing the switch door, of the partition plate, a gun taking-up and paying-off mechanism is arranged at the upper end of the side face, located between the switch door and the partition plate, of the charging pile, a charging cable is wound in the take-up mechanism, one end of the charging cable extends out of the take-up mechanism and is arranged in the gun taking-up and paying-off mechanism, one end, extending out of the take-up mechanism, of the charging cable is connected with a charging gun, the charging gun is placed in the gun taking-up and paying-off mechanism, and a pile operating screen is arranged on the side, located on the gun taking-up and paying-off mechanism, of the charging pile. The invention prevents the cable and the charging gun from being exposed outside due to the fact that the cable and the charging gun cannot be automatically recovered, and the cable and the charging gun can be worn or corroded by rainwater for a long time, thereby avoiding the possibility that the overlong cable trips on the ground by pedestrians, and solving the problem that the cable is polluted by dust.

Description

New energy charging pile

Technical Field

The invention relates to the technical field of new energy, in particular to a new energy charging pile.

Background

The existing charging pile for the new energy automobile generally comprises a charging box, a charging cable, a charging gun and the like, when the new energy automobile needs to be charged, the charging gun needs to be taken down and inserted into a charging port of the new energy automobile, because the charging cable is generally long and the charging cable is exposed outside the charging pile, the cable is easy to hang on the ground during charging, which not only makes the cable be contaminated by dust, and the abrasion of the insulation layer of the cable is increased, and the possibility of stumbling of pedestrians is increased because of the overlong cable on the ground, and when the charging is finished, the charging gun and the cable need to be manually retracted, which not only increases the labor capacity and makes the charging process become complicated, and the cable can not be retrieved automatically and expose outside, can wear and tear or can receive the rainwater erosion for a long time, influences the life of cable, and the personal safety will be threatened in case of the cable is damaged. Most of present rifle that charges all are that the muzzle of a gun that charges fixes on filling electric pile, and the body of a gun leaks externally, is extracted by some people's malicious violence easily, and the body of a gun exposes in the outside for a long time, easily receives the rainwater erosion, influences the life of rifle that charges.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a new energy charging pile capable of effectively protecting a charging wire and a charging gun.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a new forms of energy fill electric pile, includes and fills electric pile, it is equipped with the switch door to fill the electric pile outside, the one side that is close to the switch door in filling electric pile is equipped with the baffle, the baffle is equipped with admission machine towards one side of switch door, it is equipped with receipts and releases rifle mechanism to fill the side upper end that electric pile is located between switch door and the baffle, the winding is provided with the charging cable in the admission machine, the one end of charging cable is stretched out admission machine and is received and released rifle mechanism to in, the one end that the charging cable stretches out admission machine is connected with the rifle that charges, the rifle that charges is placed in receiving and releasing rifle mechanism the inside, it is equipped with the electric pile operation screen to fill the side that electric pile is located receiving and releasing rifle mechanism.

Preferably, the charging pile is designed into a rectangular box body.

Preferably, the gun retracting mechanism comprises a charging port, the charging port is provided with a charging pile and is positioned on the side wall between the partition plate and the switch door, two hinged seats are symmetrically arranged on the upper side of the charging port, a charging port baffle is rotatably connected onto the two hinged seats, a baffle motor is fixedly arranged on one hinged seat, and the output end of the baffle motor and the charging port baffle are fixedly connected into the hinged seats; the utility model discloses a charging port, including a charging port, a charging port baffle, two second branch poles, a wiring groove, two gyro wheels, charging port both sides symmetry is provided with charging port slider groove, every charging port slider inslot reciprocating sliding is provided with towards the electric port slider, every one side that charging port slider is close to the mouth baffle that charges has set firmly first branch, the symmetry is provided with two second branch poles on the terminal surface of the mouth that charges towards the mouth that charges, first branch rotates with second branch pole to be connected, the mouth that charges is located one side lower extreme that fills electric pile inside is equipped with the wiring groove, the wiring groove internal rotation is provided with two gyro wheels.

Preferably, one surface of each charging port sliding block facing to the center of the charging port is a soft wear-resistant surface.

Preferably, each of the second struts is at an angle of less than ninety degrees to a side of the charging port shutter adjacent the hinge mount.

Preferably, the wire rewinding mechanism comprises a transmission wheel, the transmission wheel is rotatably arranged on the middle lower side of the partition plate facing the switch door, an output part is arranged on the lower side of the transmission wheel and meshed with a gear of the output part, and an inner side gear ring is arranged on the upper side of the transmission wheel and meshed with the gear of the transmission wheel; a shell is arranged on one side, facing the switch door, of the partition plate between the output part and the gun retracting mechanism, a clamping part is arranged on the upper left side of the shell, the shell faces the lower side of the clamping part, a first shell opening on the shell is arranged on one side, perpendicular to the clamping part, of the shell, a second shell opening is arranged on the right side of the first shell opening and perpendicular to the center of the clamping part, a hydraulic rod is arranged on the lower side of the clamping part, the hydraulic rod penetrates through the first shell opening, a hydraulic cylinder is arranged on the lower right side of the hydraulic rod, a transmission rod is rotatably arranged at an eccentric position on the transmission wheel, and the other end of the transmission rod is fixedly connected to the bottom of the hydraulic cylinder; a first hydraulic channel penetrating through the hydraulic rod along the axial direction is arranged in the hydraulic rod, and the first hydraulic channel is communicated to the hydraulic cylinder.

Preferably, the output part, the position of filling electric pile towards in the baffle is equipped with the motor, the motor is equipped with the output shaft towards one side of baffle, be equipped with the transmission shaft groove toward the front end in the center of output shaft, be equipped with the transmission shaft in the transmission shaft groove, the one end that the transmission shaft stretches into the transmission shaft groove is equipped with the transmission slider, be equipped with the transmission slider groove of spiral setting on the wall surface in the transmission shaft groove, the transmission slider reciprocating sliding sets up in the transmission slider groove, the transmission slider drives the degree of depth change that the transmission shaft stretched into the transmission shaft groove when moving in the transmission slider groove.

Preferably, the clamping component comprises a clamping base, the clamping base is fixedly arranged on the shell and is positioned at the side edge position of the opening of the first shell, a first hydraulic groove is formed in one side, close to the hydraulic rod, of the clamping base, a second hydraulic rod is arranged in the first hydraulic groove in a sliding manner, the bottom of the first hydraulic groove is communicated with a first hydraulic channel in the hydraulic rod, an S-shaped sliding groove is formed in the inner end face, close to the shell, of the clamping base, a sliding block is arranged in the sliding groove in a sliding manner, one end, extending out of the sliding groove, of the sliding block is connected with a top block, a top block groove is formed in one side, facing the second hydraulic rod, of the top block, the end portion of the second hydraulic rod is clamped and slides in the top block groove, an upper clamping piece is arranged on one side, far away from the hydraulic rod, of the clamping base, a lower clamping piece is connected to the side edge of the top block, and the shape radian of the upper clamping piece is similar to that of the electric wire, the upper side of the lower clamping piece is provided with a lower clamping piece rubber sleeve with the same radian, and the lower side of the upper clamping piece is provided with an upper clamping piece rubber sleeve with the same radian.

Preferably, the upper half part of the shell is provided with a cable passing hole, and the cable passing hole is provided with a brush.

Has the advantages that:

the invention provides a new energy charging pile, which does not need workers to carry out work of cable collection, charging guns, cable cleaning and the like, greatly lightens the labor intensity of the workers, enables the charging cable to be collected into a take-up mechanism and the charging guns to be collected into the take-up mechanism through the close fit of the charging pile, the take-up and pay-off mechanism and the take-up mechanism, slows down the abrasion of an insulating layer of the charging cable, avoids the possibility that a pedestrian trips over the ground due to overlong cables, and automatically withdraws the charging guns and cables after charging is finished, thereby not only reducing the labor capacity, simplifying the charging process, preventing the cables from being exposed outside due to the fact that the cables cannot be automatically withdrawn, being abraded for a long time or being corroded by rainwater, influencing the service life of the cables, and threatening the personal safety once the cables are damaged. According to the invention, through the matching of the clamping mechanism and the sliding mechanism of the take-up mechanism in the take-up process, the recovered charging cable is corrected and recovered, the cable is primarily cleaned through the lower clamping piece rubber sleeve and the upper clamping piece rubber sleeve in the clamping mechanism, and then a cable through opening is arranged on the upper half part of the shell and a hairbrush is arranged on the cable through opening for secondary cleaning.

According to the gun charging and discharging mechanism, the charging port baffle, the first baffle motor of the charging port, the second baffle motor of the charging port, the charging port baffle and the sliding block are connected with the first supporting rod, the charging port baffle and the sliding block are connected with the second supporting rod, the sliding block of the charging port, the sliding block groove of the charging port, the first roller and the second roller are tightly matched, so that the gun charging and discharging mechanism can automatically send out the charging gun when a charging pile is unlocked, and the charging gun is withdrawn when the charging pile is unlocked, so that the problem that a gun body is leaked outside and easily pulled out by malicious violence of some people is solved, and the gun body is exposed outside for a long time and easily corroded by rainwater, and the service life of the charging gun is influenced.

Drawings

The invention is further explained below with reference to the figures and examples:

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

FIG. 2 is a left side view of the present invention;

FIG. 3 is a front view of the present invention;

FIG. 4 is a cross-sectional view B-B of FIG. 3;

FIG. 5 is a cross-sectional view of E-E of FIG. 2;

FIG. 6 is an enlarged view of a portion of FIG. 1 at A;

fig. 7 is a partial enlarged view of fig. 4 at D;

FIG. 8 is a block diagram of an output member of the present invention;

fig. 9 is a partial enlarged view at C of fig. 5;

FIG. 10 is a cross-sectional view of the structure shown in FIG. 9;

FIG. 11 is a schematic structural view of the upper clip;

fig. 12 is an enlarged view of the slide block and the slide groove in the structure shown in fig. 9.

In the figure, a charging pile 1, a switch door 12, a clapboard 13, a take-up mechanism 4, a gun retracting mechanism 2, a charging cable 31, a charging gun 3, an electric pile operation screen 11, a charging port 32, a hinged seat 30, a charging port baffle 21, a baffle motor 22, a charging port slider groove 26, a charging port slider 25, a first support rod 23, a second support rod 24, a wiring groove 28, a roller 27, a transmission wheel 44, an output part 43, an inner gear ring 42, a shell 41, a clamping part 47 and a first shell opening 412, second housing opening 411, hydraulic lever 46, hydraulic cylinder 45, drive rod 451, motor 431, output shaft 436, drive shaft slot 435, drive shaft 433, drive slider 434, drive slider slot 433, clamping base 471, second hydraulic lever 472, top block slot 473, top block 474, slide block 475, slide slot 476, upper jaw 477, lower jaw 480, lower jaw rubber sleeve 479, upper jaw rubber sleeve 478.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

In the description of the present invention, it should be noted that the terms "inside", "below", and the like refer to orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the present invention conventionally place when used, and are used only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

Combine accompanying drawing 1-12, a new forms of energy to fill electric pile, including filling electric pile 1, fill 1 outside of electric pile and be equipped with switch door 12, it is equipped with baffle 13 to fill one side that is close to switch door 12 in electric pile 1, baffle 13 is equipped with admission machine 4 towards one side of switch door 12, it is equipped with receive and release rifle mechanism 2 to fill the side upper end that electric pile 1 is located between switch door 12 and baffle 13, the winding is provided with charging cable 31 in admission machine 4, charging cable 31's one end is stretched out admission machine 4 and is received and released rifle mechanism 2 in, charging cable 31 stretches out the one end of admission machine 4 and is connected with charging gun 3, charging gun 3 places in receiving and releasing rifle mechanism 2 the inside, it is equipped with electric pile operation screen 11 to fill the side that electric pile 1 is located receiving and releasing rifle mechanism 2.

Further, fill electric pile 1 and be the design of rectangle box.

Further, the gun retracting mechanism 2 comprises a charging port 32, the charging port 32 is provided with a charging pile 1 positioned on the side wall between the partition plate 13 and the switch door 12, two hinged seats 30 are symmetrically arranged on the upper side of the charging port 21, a charging port baffle 21 is rotatably connected to the two hinged seats 30, a baffle motor 22 is fixedly arranged on one hinged seat 30, and the output end of the baffle motor 22 and the charging port baffle 21 are fixedly connected into the hinged seats 30; charging mouth 32 bilateral symmetry is provided with charging mouth slider groove 26, reciprocal slip is provided with towards electric mouthful slider 25 in every charging mouth slider groove 26, every one side that charging mouth slider 25 is close to charging mouth baffle 21 has set firmly first branch 23, charging mouth baffle 21 is provided with two second branches 24 towards the symmetry on charging mouth 32's the terminal surface, first branch 23 rotates with second branch 24 to be connected, charging mouth 32 is located and fills electric pile 1 inside one side lower extreme and is equipped with trough 28, the trough 28 internal rotation is provided with two gyro wheels 27.

Furthermore, one surface of each charging port slider 25 facing the center of the charging port 32 is a soft wear-resistant surface.

Further, an angle between each second strut 24 and a side of the charging port shutter 21 adjacent to the hinge base 30 is less than ninety degrees.

Further, the take-up mechanism 4 comprises a transmission wheel 44, the transmission wheel 44 is rotatably arranged on the middle lower side of the partition plate 13 facing the switch door 12, an output part 43 is arranged on the lower side of the transmission wheel 44 and is meshed with the gear, and an inner gear ring 42 is arranged on the upper side of the transmission wheel 44 and is meshed with the gear; a shell 41 is arranged on one side of the partition plate 13 facing the switch door 12 between the output part 43 and the gun retracting mechanism 2, a clamping part 47 is arranged on the left upper side of the shell 41, a first shell opening 412 on the shell 41 is arranged on one vertical side of the shell 41 facing the lower side of the clamping part 47, a second shell opening 411 is arranged on the right side of the first shell opening 412 and vertical to the center of the clamping part 47, a hydraulic rod 46 is arranged on the lower side of the clamping part 47, the hydraulic rod 46 penetrates through the first shell opening 412, a hydraulic cylinder 45 is arranged on the right lower side of the hydraulic rod 46, a transmission rod 451 is rotatably arranged at an eccentric position on the transmission wheel 44, and the other end of the transmission rod 451 is fixedly connected to the bottom of the hydraulic cylinder 45; a first hydraulic passage extending through the hydraulic rod 46 in the axial direction is provided in the hydraulic rod 46, and the first hydraulic passage is communicated to the hydraulic cylinder 45.

Further, the output part 43 is provided with a motor 431 in the partition 13 facing the charging pile 1, one side of the motor 431 facing the partition 13 is provided with an output shaft 436, the center of the output shaft 436 is provided with a transmission shaft groove 435 toward the front end, a transmission shaft 433 is arranged in the transmission shaft groove 435, one end of the transmission shaft 433 extending into the transmission shaft groove 435 is provided with a transmission slider 434, the inner wall surface of the transmission shaft groove 435 is provided with a transmission slider groove 433 which is spirally arranged, the transmission slider 434 is arranged in the transmission slider groove 433 in a reciprocating sliding manner, and the transmission slider 434 drives the transmission shaft 433 to extend into the transmission shaft groove 435 with a changed depth when moving in the transmission slider groove 433.

Further, the clamping component 47 includes a clamping base 471, the clamping base 471 is fixedly arranged on the housing 41 at a side edge of the first housing opening 411, a first hydraulic groove is arranged on a side of the clamping base 471 close to the hydraulic rod 46, a second hydraulic rod 472 is slidably arranged in the first hydraulic groove, a bottom of the first hydraulic groove is communicated with a first hydraulic channel in the hydraulic rod 46, an S-shaped sliding groove 476 is arranged on an inner end surface of the clamping base 471 close to the housing 41, a sliding block 475 is slidably arranged in the sliding groove 476, an end of the sliding block 475 extending out of the sliding groove 476 is connected with a top block 474, a top block groove 473 is arranged on a side of the top block 474 facing the second hydraulic rod, an end part of the second hydraulic rod 472 is clamped and slides in the top block groove 473, an upper clamping piece 477 is arranged on a side of the clamping base 471 away from the hydraulic rod 46, a side edge of the top block 474 is connected with a lower clamping piece 480, a shape of the upper clamping piece 477 is similar to a shape of the lower clamping piece 480, the upper side of the lower clamping piece 480 is provided with a lower clamping piece rubber sleeve 479 with the same radian, and the lower side of the upper clamping piece 477 is provided with an upper clamping piece rubber sleeve 478 with the same radian.

Further, the upper half of the housing 41 is provided with a cable through opening and a brush is provided on the cable through opening.

The working principle is as follows: when a person drives a vehicle to be close to the charging pile 1, when the charging pile 1 is unlocked on the electric pile operation panel 11, the two baffle motors 22 of the charging port 32 start to work simultaneously, the charging port baffle 21 is driven to move upwards, the two second supporting rods 24 and the second supporting rods 23 which are symmetrical to each other at the lower left and right of the charging port baffle 21 are driven, the two charging port sliders 25 at the left and right are driven to move forwards in the corresponding charging port slider grooves 26 through linkage, the charging port sliders 25 clamp the charging gun 3 to move forwards, the charging cable 31 at the rear end of the charging gun 3 rolls forwards above the two rollers 27, when the person holds the charging gun 3 to move outwards, the inner gear ring 42 in the take-up mechanism 4 is driven anticlockwise, the inner gear ring 42 drives the transmission wheel 44, the transmission wheel 44 drives the output part 43, the transmission slider 434 in the output part 43 moves upwards along the transmission slider grooves 433, and the output shaft 436 also moves upwards along with the output shaft groove 435, the topmost tooth of the output part 43 is separated from the transmission wheel 44, when the charging gun 3 is inserted into a new energy automobile, the system detects the tightness degree of a new energy charging cable, if the new energy charging cable is tight, the motor 431 of the output part 43 is controlled to work clockwise, and the topmost tooth of the output part 43 is meshed with the transmission wheel 44.

When the new energy automobile is charged, and a person pulls the charging gun out of the charging port of the new energy automobile, the motor of the output part 43 starts to work at the moment, a force for pulling back the charging cable is provided, at the moment, the uppermost tooth of the output part 43 is tightly matched with the transmission wheel 44 and the inner side gear ring 42, the charging cable is looped outside the inner side gear ring 42, the charging cable 31 at the rear end of the charging gun 3 is driven to roll backwards on the two rollers 27, the hydraulic cylinder 45 arranged on the transmission wheel 44 and the hydraulic rod 46 arranged in front of the hydraulic cylinder 45 perform intermittent work according to the work of the transmission wheel 44, the transmission wheel 44 rotates to eccentrically drive the transmission rod 451 to move so as to drive the hydraulic cylinder 45 to move relative to the hydraulic rod 46, and therefore, hydraulic oil in the hydraulic cylinder 45 is charged into or pumped out of the clamping part 47 through the first hydraulic channel in the hydraulic rod 46.

When the electric wire is slowly retracted, as hydraulic oil is filled in the clamping component, the second hydraulic rod 472 in the clamping component is ejected out, so that the top block 474 is driven to move, at the moment, the sliding block 475 is limited by the sliding groove 476 to move left and right, so that the top block 474 is driven to move left and right, and the second hydraulic rod 472 slides relatively in the top block groove 473. At this time, the top block 474 drives the lower clip 480 to move towards the upper clip 477 side and move left and right in the moving process, and at this time, if the electric wire is in a twisted state in the process of slowly withdrawing the electric wire, after the electric wire is contacted through the lower clip rubber sleeve 479 on the lower clip 477, the electric wire is continuously adjusted in position by left and right swinging until the notch of the electric wire is aligned with the notch of the lower clip 477, and the angle of the electric wire is adjusted. This process is repeated as the drive wheel 44 rotates, and the incoming wire is adjusted continuously to avoid twisting during the wire drawing process.

When the charging gun 3 returns to the charging port 32, the two baffle motors 22 of the charging port 32 start to work simultaneously to drive the charging port baffle 21 to move downwards, and drive the two second supporting rods 24 and the second supporting rods 23 which are symmetrical at the lower left and right parts of the charging port baffle 21, the left and right charging port sliding blocks 25 are driven to move backwards in the corresponding charging port sliding block grooves 26 through linkage, and the charging port sliding blocks 25 clamp the charging gun 3 to move backwards until the charging port baffle 21 is completely closed.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. The utility model provides a new forms of energy fill electric pile, is including filling electric pile (1), its characterized in that: fill electric pile (1) outside and be equipped with switch door (12), one side that is close to switch door (12) in charging pile (1) is equipped with baffle (13), baffle (13) are equipped with admission machine (4) towards one side of switch door (12), it is equipped with receipts rifle mechanism (2) to fill electric pile (1) side upper end that is located between switch door (12) and baffle (13), the winding is provided with charging cable (31) in admission machine (4), admission machine (4) to receiving and releasing rifle mechanism (2) are stretched out to the one end of charging cable (31), the one end that charging cable (31) stretched out admission machine (4) is connected with charging gun (3), charging gun (3) are placed in receiving and releasing rifle mechanism (2) the inside, it is equipped with electric pile operation screen (11) to fill electric pile (1) the side that is located receiving and releasing rifle mechanism (2).

2. The new energy charging pile according to claim 1, characterized in that the charging pile (1) is designed as a rectangular box.

3. The new energy charging pile according to claim 1, characterized in that the gun retracting mechanism (2) comprises a charging port (32), the charging port (32) is arranged on a side wall of the charging pile (1) between the partition plate (13) and the switch door (12), two hinged seats (30) are symmetrically arranged on the upper side of the charging port (21), a charging port baffle (21) is rotatably connected to the two hinged seats (30), a baffle motor (22) is fixedly arranged on one hinged seat (30), and an output end of the baffle motor (22) and the charging port baffle (21) are fixedly connected in the hinged seats (30); mouthful (32) bilateral symmetry charges and is provided with mouthful slider groove (26) that charges, every reciprocal slip is provided with towards electric mouthful slider (25) in mouthful slider groove (26) charges, every one side that mouthful slider (25) are close to mouthful baffle (21) that charges has set firmly first branch (23), mouthful baffle (21) that charges is provided with two second branch (24) towards the terminal surface of mouthful (32) that charges on the symmetry, first branch (23) are connected with second branch (24) rotation, the mouth that charges (32) are located one side lower extreme that fills electric pile (1) inside is equipped with trough (28), trough (28) internal rotation is provided with two gyro wheels (27).

4. The new energy charging pile according to claim 3, wherein one surface of each charging port sliding block (25) facing the circle center of the charging port (32) is a soft wear-resistant surface.

5. The new energy charging pile according to claim 3, characterized in that the angle between each second pole (24) and the side of the charging port shutter (21) close to the hinge seat (30) is less than ninety degrees.

6. The new energy charging pile according to claim 1, wherein the take-up mechanism (4) comprises a driving wheel (44), the driving wheel (44) is rotatably arranged on the middle lower side of the partition (13) facing the switch door (12), an output part (43) is arranged on the lower side of the driving wheel (44) and is meshed with a gear of the output part, and an inner gear ring (42) is arranged on the upper side of the driving wheel (44) and is meshed with the gear of the output part; a shell (41) is arranged between the output component (43) and the gun retracting mechanism (2) and on one side of the clapboard (13) facing the switch door (12), a clamping part (47) is arranged at the upper left of the shell (41), a first shell opening (412) on the shell (41) is arranged at one vertical side of the shell (41) facing the lower part of the clamping part (47), a second shell opening (411) is arranged at the right side of the first shell opening (412) and at a position vertical to the center of the clamping part (47), a hydraulic rod (46) is arranged on the lower side of the clamping component (47), the hydraulic rod (46) penetrates through the first shell opening (412), a hydraulic cylinder (45) is arranged on the lower right side of the hydraulic rod (46), a transmission rod (451) is rotatably arranged at an eccentric position on the transmission wheel (44), and the other end of the transmission rod (451) is fixedly connected to the bottom of the hydraulic cylinder (45); a first hydraulic channel penetrating through the hydraulic rod (46) along the axial direction is arranged in the hydraulic rod (46), and the first hydraulic channel is communicated to the hydraulic cylinder (45).

7. The new energy charging pile according to claim 6, characterised in that the output member (43), a motor (431) is arranged in the position of the clapboard (13) facing the charging pile (1), an output shaft (436) is arranged on one side of the motor (431) facing the partition plate (13), a transmission shaft groove (435) is arranged in the center of the output shaft (436) towards the front end, a transmission shaft (433) is arranged in the transmission shaft groove (435), one end of the transmission shaft (433) extending into the transmission shaft groove (435) is provided with a transmission sliding block (434), a spirally arranged transmission slide block groove (433) is arranged on the inner wall surface of the transmission shaft groove (435), the transmission slide block (434) is arranged in the transmission slide block groove (433) in a reciprocating sliding way, when the transmission slide block (434) moves in the transmission slide block groove (433), the depth of the transmission shaft (433) extending into the transmission shaft groove (435) is driven to change.

8. The new energy charging pile according to claim 6, wherein the clamping component (47) comprises a clamping base (471), the clamping base (471) is fixedly arranged on the housing (41) at a side edge position of the first housing opening (411), a first hydraulic groove is formed in one side of the clamping base (471) close to the hydraulic rod (46), a second hydraulic rod (472) is slidably arranged in the first hydraulic groove, the bottom of the first hydraulic groove is communicated with a first hydraulic channel in the hydraulic rod (46), an S-shaped sliding groove (476) is formed in an inner end face of the clamping base (471) close to the housing (41), a sliding block (475) is slidably arranged in the sliding groove (476), a top block (474) is connected to one end of the sliding block (475) extending out of the sliding groove (476), a top block groove (473) is formed in one side of the top block (474) facing the second hydraulic rod (472), the tip screens of second hydraulic stem (472) slide in ejector pad groove (473), it is equipped with clamping piece (477) to press from both sides one side that hydraulic stem (46) were kept away from in tight base (471), the side of ejector pad (474) is connected with lower clamping piece (480), it is similar with the electric wire shape with lower clamping piece (480) shape radian to go up clamping piece (477), the upside of lower clamping piece (480) is equipped with the lower clamping piece rubber sleeve (479) that the radian is unanimous, the downside of going up clamping piece (477) is equipped with the last clamping piece rubber sleeve (478) that the radian is unanimous.

9. The new energy charging pile according to claim 6, characterized in that: the upper half part of the shell (41) is provided with a cable passing hole, and a hairbrush is arranged on the cable passing hole.