CN111319501A

CN111319501A - Charging pile equipment for charging new energy automobile

Info

Publication number: CN111319501A
Application number: CN202010254999.8A
Authority: CN
Inventors: 杨长友
Original assignee: Hangzhou De Biao New Energy Equipment Co ltd
Current assignee: Hangzhou De Biao New Energy Equipment Co ltd
Priority date: 2020-04-02
Filing date: 2020-04-02
Publication date: 2020-06-23
Also published as: JP2021163739A

Abstract

The invention discloses a charging pile device for charging a new energy automobile, which comprises a charging pile, a fixing pipe fixedly arranged on the left end surface of the charging pile, a charging gun arranged in the fixing pipe, an electric wire communicated between the charging gun and a charging pile body, a protection device arranged on the charging gun, and a fastening device arranged on the fixing pipe; the protection device comprises a first circular ring fixedly arranged on the charging gun, a second circular ring arranged on one side of the first circular ring in a reciprocating manner, a third circular ring arranged on one side of the second circular ring in a reciprocating manner, a fourth circular ring arranged on one side of the second circular ring in a reciprocating manner, a fifth circular ring arranged on one side of the fourth circular ring in a reciprocating manner, and four moving assemblies arranged on the outer surface of the first circular ring in the circumferential direction.

Description

Charging pile equipment for charging new energy automobile

Technical Field

The invention belongs to the field of agriculture, and particularly relates to charging pile equipment for charging a new energy automobile.

Background

Along with new energy automobile's popularization gradually, it is increasingly popular to be used for filling electric pile equipment to new energy automobile charging, but the electric gun that charges on the present electric pile equipment of filling is dropped by the people collision when placing on equipment easily, thereby can contact the danger that takes place to electrocute with the people.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the charging pile equipment for charging the new energy automobile, which can prevent the charging gun from being collided and dropped by a person to be contacted with the person to generate electric shock.

In order to achieve the purpose, the invention adopts the following technical scheme: a charging pile device for charging a new energy automobile comprises a charging pile, a fixing pipe fixedly arranged on the left end face of the charging pile, a charging gun arranged in the fixing pipe, an electric wire communicated between the charging gun and a charging pile body, a protection device arranged on the charging gun, and a fastening device arranged on the fixing pipe; the protection device comprises a first circular ring fixedly arranged on the charging gun, a second circular ring arranged on one side of the first circular ring in a reciprocating manner, a third circular ring arranged on one side of the second circular ring in a reciprocating manner, a fourth circular ring arranged on one side of the second circular ring in a reciprocating manner, a fifth circular ring arranged on one side of the fourth circular ring in a reciprocating manner, and four moving assemblies arranged on the outer surface of the first circular ring in the circumferential direction.

The first circular ring is connected with the second circular ring through two first sleeves, the second circular ring is connected with the third circular ring through two second sleeves, the third circular ring is connected with the fourth circular ring through two third sleeves, the fourth circular ring is connected with the fifth circular ring through two fourth sleeves, each first sleeve comprises a round rod fixedly arranged on the first circular ring, a sleeve arranged on the second circular ring, and a compression spring fixedly arranged at the bottom of the sleeve and close to one end of the bottom of the sleeve, wherein the round rod is fixedly arranged on the first circular ring, and the compression spring is fixedly arranged at the bottom of the sleeve and close to one end of the round rod.

The moving assembly comprises a rectangular groove arranged on the first circular ring, a moving plate arranged on the rectangular groove in a left-right moving mode, two first trapezoidal grooves formed in two side walls of the rectangular groove, two first trapezoidal blocks fixedly arranged on two sides of the moving plate respectively and capable of sliding in the two first trapezoidal grooves, two extrusion springs fixedly arranged between two side walls of the first trapezoidal grooves and the two first trapezoidal blocks respectively, four rotating blocks hinged to the moving plate along the length direction respectively, and four fixed blocks fixedly arranged on the moving plate along the length direction respectively, wherein a torsion spring is fixedly arranged at the hinged position of each rotating block respectively, and one end of each torsion spring is fixedly arranged on the moving plate.

The fastening device comprises a working shell fixedly arranged on the fixed pipe, a working space arranged in the working shell, a first support plate which can be vertically moved in the working space, a first rectangular groove arranged on the upper end wall of the fixed pipe, a pressing block fixedly arranged at the upper end of the first support plate, a second support plate which can be vertically moved in the working space, a first arc-shaped block fixedly arranged at the lower end of the second support plate, a first jack arranged on the first support plate, a second jack arranged on the second support plate, a second rectangular groove arranged on the lower end wall of the fixed pipe, a first rectangular groove arranged on the side wall of the working space, a first rectangular block fixedly arranged on the first support plate and positioned in the first rectangular groove, a second rectangular block fixedly arranged on the second support plate and positioned in the second rectangular groove, a first extrusion spring fixedly arranged between the side wall of the first rectangular groove and one end of the first rectangular block, a second extrusion spring fixedly arranged on the second support plate and positioned in the second rectangular groove, a second extrusion spring fixedly arranged, The second extrusion spring is fixedly arranged between the side wall of the second rectangular groove and one end of the second rectangular block, a first matching shell is fixedly arranged on the side face of the working shell, a first matching space is arranged on the first matching shell, a first inner groove is arranged at the bottom of the first matching space and is communicated with the inner wall of the fixed pipe, a first rotating shaft is rotatably arranged between the side walls of the first matching space, a first rotating plate is fixedly arranged on the first rotating shaft, a first through groove is arranged on the side wall of the first matching space, a movable long plate can move in the through groove in a reciprocating mode, a second trapezoidal groove is arranged at the bottom of the first matching space, a second trapezoidal block is fixedly arranged on the lower end wall of the first matching space and is located in the second trapezoidal groove, and a second extrusion spring is fixedly arranged on the side wall of the second trapezoidal groove and the second trapezoidal block.

The fastening device also comprises a third trapezoidal groove arranged on the upper end wall of the first matching space, a sliding block arranged on the lower side of the third trapezoidal groove in a reciprocating manner, a third trapezoidal block fixedly arranged at the upper end of the sliding block and positioned in the third trapezoidal groove, a third extrusion spring fixedly arranged between the side wall of the third trapezoidal groove and the sliding block, a fourth trapezoidal groove arranged on the side surface of the sliding block, a first sliding rod arranged on one side of the sliding block in a reciprocating manner, a fourth trapezoidal block fixedly arranged on the sliding block and positioned in the fourth trapezoidal groove, a fourth extrusion spring fixedly arranged on the side wall of the fourth trapezoidal groove and the fourth trapezoidal block, a second matching shell fixedly arranged on the working shell, a second matching space arranged in the second matching shell, a second internal groove arranged on the side wall of the second matching space and communicated with the inner wall of the fixed pipe, a second rotating shaft rotatably arranged between the two side walls of the second matching space, a first rotating shaft fixedly arranged on the two side walls of the second matching space, a second rotating shaft fixedly arranged on the two, A second rotating plate fixedly arranged on a second rotating shaft, a moving block capable of reciprocating relative to the outer surface of the fixed pipe, a second through groove arranged on the side wall of the second matching space and communicated with the working space, a fifth trapezoidal groove arranged on the outer surface of the fixed pipe, a fifth trapezoidal block fixedly arranged on the side surface of the moving block and positioned in the fifth trapezoidal groove, a fifth extrusion spring fixedly arranged between the side wall of the fifth trapezoidal groove and the fifth trapezoidal block, a sixth trapezoidal groove fixedly arranged on the side wall of the second matching space, a sliding plate capable of reciprocating relative to the fixed pipe, a sixth trapezoidal block fixedly arranged on the sliding plate and positioned in the sixth trapezoidal groove, a sixth extrusion spring fixedly arranged between the side wall of the sixth trapezoidal groove and the sixth trapezoidal block, a second sliding rod capable of reciprocating relative to the sliding plate, and a seventh trapezoidal groove arranged on one side surface of the sliding plate, A seventh trapezoidal block fixedly arranged on the second sliding rod and positioned in the seventh trapezoidal groove, a seventh extrusion spring fixedly arranged between the side wall of the seventh trapezoidal groove and the seventh trapezoidal block, a first chute arranged on the inner wall of the fixed pipe, a third sliding rod arranged on the first chute in a reciprocating way, a first matching arc-shaped plate fixedly arranged on the third sliding rod and positioned in the first chute, and an eighth extrusion spring fixedly arranged between the side wall of the working space and the third sliding rod, the second sliding groove is formed in the inner wall of the fixed pipe, the fourth sliding rod is arranged in the working space in a reciprocating mode, the second matching arc-shaped plate is fixedly arranged on the fourth sliding rod and located in the second sliding groove, the ninth extrusion spring is fixedly arranged between the fourth sliding rod and the side wall of the working space, the third insertion hole is formed in the third sliding rod, and the fourth insertion hole is formed in the fourth sliding rod.

In summary, the invention has the following advantages: this equipment structure is simple, can make the rifle that charges be difficult to by the people collision and drop to the rifle that charges that can avoid dropping contacts with the people and takes place the danger of electrocuteeing, thereby makes equipment safer.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a front view of the present invention.

Fig. 3 is a top view of the present invention.

Fig. 4 is a perspective view of fig. 3 taken in section a-a.

Fig. 5 is an enlarged view of fig. 4 at B.

Fig. 6 is an enlarged view of fig. 4 at C.

Fig. 7 is a first structural schematic diagram of the fastening device.

Fig. 8 is an enlarged view of fig. 7 at D.

Fig. 9 is a perspective view cut away at E-E in fig. 2.

Fig. 10 is a structural schematic diagram of a fastening device.

Fig. 11 is an enlarged view of fig. 10 at F.

Fig. 12 is a third structural schematic diagram of the fastening device.

Fig. 13 is an enlarged view at G in fig. 12.

Fig. 14 is an enlarged view of fig. 13 at H.

FIG. 15 is a first schematic structural view of the first and second plates.

FIG. 16 is a second structural view of the first and second plates.

FIG. 17 is a ramp mating view of the moving elongated plate and the first support plate.

FIG. 18 is a view of the ramp engagement of the shift block and the first slide bar.

Detailed Description

As shown in fig. 1-18, a charging pile device for charging a new energy automobile comprises a charging pile 1, a fixing tube 2 fixedly arranged on the left end surface of the charging pile 1, a charging gun 3 arranged in the fixing tube 2, an electric wire communicated between the charging gun 3 and the charging pile body 1, a protection device arranged on the charging gun 3, and a fastening device arranged on the fixing tube 2; the protection device comprises a first circular ring 50 fixedly arranged on the charging gun 3, a second circular ring 51 arranged on one side of the first circular ring 50 in a reciprocating manner, a third circular ring 52 arranged on one side of the second circular ring 51 in a reciprocating manner, a fourth circular ring 53 arranged on one side of the second circular ring 51 in a reciprocating manner, a fifth circular ring 55 arranged on one side of the fourth circular ring 53 in a reciprocating manner, and four moving components arranged on the outer surface of the first circular ring 50 in the circumferential direction.

The first circular ring 50 and the second circular ring 51 are connected through two first sleeves, the second circular ring 51 and the third circular ring 53 are connected through two second sleeves, the third circular ring 53 and the fourth circular ring 53 are connected through two third sleeves, the fourth circular ring 53 and the fifth circular ring 55 are connected through two fourth sleeves, the first sleeves comprise a round rod 57 fixedly arranged on the first circular ring 50, a sleeve 56 arranged on the second circular ring 51, and a compression spring fixedly arranged at the bottom of the sleeve 56 and one end, close to the bottom of the sleeve 56, of the round rod 57, and the structures of the second sleeves, the third sleeves and the fourth sleeves are the same as the structure of the first sleeves.

The moving assembly comprises a rectangular groove arranged on the first circular ring 50, a moving plate 100 which is arranged on the rectangular groove in a manner of moving left and right, two first trapezoidal grooves arranged on two side walls of the rectangular groove, two first trapezoidal blocks which are respectively and fixedly arranged on two sides of the moving plate 100 and can slide in the two first trapezoidal grooves, two extrusion springs respectively and fixedly arranged between the two side walls of the first trapezoidal grooves and the two first trapezoidal blocks, four rotating blocks 101 respectively hinged on the moving plate 100 along the length direction, and four fixed blocks 102 respectively and fixedly arranged on the moving plate 100 along the length direction, wherein a torsional spring is respectively and fixedly arranged at the hinged part of each rotating block 101, and one end of the torsional spring is fixedly arranged on the moving plate 100; when a person uses the charging gun to fall carelessly, the head of the charging gun is heavier, the head can be firstly contacted with the ground, when one side of the head of the charging gun collides with the ground, the moving plate 100 is far away from the head of the charging gun to move, and the moving plate 100 on the other three sides still supports the first circular ring, the second circular ring, the third circular ring, the fourth circular ring and the fifth circular ring so that the first circular ring, the second circular ring, the third circular ring, the fourth circular ring and the fifth circular ring cannot be far away from the head to shrink when colliding with the ground, and therefore the head is prevented from being exposed outside and contacting with the ground to cause the head of the charging gun to be damaged by collision; when the charging gun is used for charging a socket of an automobile, the four moving plates can move backwards under the blocking of the socket, the first circular ring, the second circular ring, the third circular ring, the fourth circular ring and the fifth circular ring can also move backwards under the blocking of the socket, so that the head part of the charging gun can leak and can be charged, the rotating plates on the moving plates can overturn when in contact with the first circular ring, the second circular ring, the third circular ring, the fourth circular ring and the fifth circular ring, so that the rotating plates can continue to move upwards to reset under the action of the first circular ring, the second circular ring, the third circular ring, the fourth circular ring and the fifth circular ring, and the equipment can be continuously used.

The fastening device comprises a working shell 151 fixedly arranged on the fixed pipe 2, a working space arranged in the working shell 151, a first support plate 152 arranged in the working space in a vertically movable manner, a first rectangular groove arranged on the upper end wall of the fixed pipe 2, a pressing block 153 fixedly arranged on the upper end of the first support plate 152, a second support plate 501 arranged in the working space in a vertically movable manner, a first arc-shaped block 154 fixedly arranged on the lower end of the second support plate 501, a first jack arranged on the first support plate 152, a second jack arranged on the second support plate 501, a second rectangular groove arranged on the lower end wall of the fixed pipe 2, a first rectangular groove arranged on the side wall of the working space, a first rectangular block fixedly arranged on the first support plate 152 and positioned in the first rectangular groove, a second rectangular block fixedly arranged on the second support plate 501 and positioned in the second rectangular groove, a first extrusion spring fixedly arranged between the side wall of the first rectangular groove and one end of the first rectangular block, The fixed second extrusion spring that sets up between second rectangular channel lateral wall and second rectangular block one end, the fixed first cooperation casing 177 that sets up on work casing 151 side, the first cooperation space of setting on first cooperation casing 177, set up the first inside groove that is linked together at first cooperation space bottom and fixed pipe 2 inner wall, rotate the first pivot that sets up between first cooperation space lateral wall, the fixed first rotor plate 155 that sets up on first pivot, the first logical groove of setting on first cooperation space lateral wall, can be at the removal long plate 156 of logical inslot reciprocating motion, the second dovetail groove of setting at first cooperation space bottom, the fixed second dovetail block that sets up at first cooperation space lower extreme wall and lie in the second dovetail groove, the fixed second extrusion spring that sets up on second dovetail groove lateral wall and second dovetail groove.

The fastening device further comprises a third trapezoidal groove arranged on the upper end wall of the first matching space, a sliding block 200 arranged on the lower side of the third trapezoidal groove in a reciprocating manner, a third trapezoidal block fixedly arranged at the upper end of the sliding block 200 and positioned in the third trapezoidal groove, a third extrusion spring fixedly arranged between the side wall of the third trapezoidal groove and the sliding block 200, a fourth trapezoidal groove arranged on the side surface of the sliding block 200, a first sliding rod 299 arranged on one side of the sliding block 200 in a reciprocating manner, a fourth trapezoidal block fixedly arranged on the sliding block 200 and positioned in the fourth trapezoidal groove, a fourth extrusion spring fixedly arranged on the side wall of the fourth trapezoidal groove and the fourth trapezoidal block, a second matching shell 203 fixedly arranged on the working shell 151, a second matching space arranged in the second matching shell 203, a second inner groove arranged on the side wall of the second matching space and communicated with the inner wall of the fixed pipe 2, a second inner groove arranged on the side wall of the second matching space, a second inner groove fixedly arranged on the side wall of the second matching space and, A second rotating shaft rotatably arranged between two side walls of the second matching space, a second rotating plate 204 fixedly arranged on the second rotating shaft, a moving block 205 capable of reciprocating relative to the outer surface of the fixed pipe 2, a second through groove arranged on the side wall of the second matching space and communicated with the working space, a fifth trapezoidal groove arranged on the outer surface of the fixed pipe 2, a fifth trapezoidal block fixedly arranged on the side surface of the moving block 205 and positioned in the fifth trapezoidal groove, a fifth extrusion spring fixedly arranged between the side wall of the fifth trapezoidal groove and the fifth trapezoidal block, a sixth trapezoidal groove fixedly arranged on the side wall of the second matching space, a sliding plate 777 capable of reciprocating relative to the fixed pipe 2, a sixth trapezoidal block fixedly arranged on the sliding plate 777 and positioned in the sixth trapezoidal groove, a sixth extrusion spring fixedly arranged between the side wall of the sixth trapezoidal groove and the sixth trapezoidal block, a second sliding rod 280 capable of reciprocating relative to the sliding plate 777, a second sliding rod, A seventh trapezoidal groove arranged on one side surface of the sliding plate 777, a seventh trapezoidal block fixedly arranged on the second sliding rod 280 and positioned in the seventh trapezoidal groove, a seventh extrusion spring fixedly arranged between the side wall of the seventh trapezoidal groove and the seventh trapezoidal block, a first chute arranged on the inner wall of the fixed tube 3, a third sliding rod 282 arranged on the first chute in a reciprocating manner, a first matching arc plate 283 fixedly arranged on the third sliding rod 282 and positioned in the first chute, an eighth extrusion spring fixedly arranged between the side wall of the working space and the third sliding rod 282, a second chute arranged on the inner wall of the fixed tube 3, a fourth sliding rod 284 arranged in the working space in a reciprocating manner, a second matching arc plate 285 fixedly arranged on the fourth sliding rod 284 and positioned in the second chute, a ninth extrusion spring fixedly arranged between the fourth sliding rod 284 and the side wall of the working space, a ninth extrusion spring 999, A third insertion hole provided in the third slide lever 282, a fourth insertion hole provided in the fourth slide lever 284; when the contact gap between the inner wall of the fixed pipe and the outer surface of the charging gun is large, the charging gun can easily fall off, when the contact gap between the inner wall of the fixed pipe and the outer surface of the charging gun is small, the charging gun can not be easily taken and placed, after the charging gun in the device is placed in the fixed pipe, the first rotating plate and the second rotating plate are overturned under the pushing of the charging gun, the first rotating plate can push the first sliding rod to enter the first jack and the second jack, so that the first supporting plate and the second supporting plate can be fixedly connected, the second rotating plate can push the second sliding rod to enter the third jack and the second jack, so that the third sliding rod and the fourth sliding rod are fixedly connected, at the moment, when a person collides with the charging gun to enable the charging gun to incline towards the direction of the second matching arc plate 285, the fourth sliding rod 284 can drive the third sliding rod 282 to move, the third sliding rod 282 can drive the first matching arc plate 283 to move, the first matching arc plate 283 can move close to the head of the charging gun until the head of the charging gun, because the charging gun is in an inclined state at the moment, the occupied width of the part of the charging gun positioned in the fixed pipe is increased, and the width of the opening of the fixed pipe is unchanged, so that the inclined charging gun cannot be separated from the fixed pipe; when the charging gun is taken out, the first rotating plate and the second rotating plate can rotate and reset, the moving block 205 can push the fourth sliding rod 284 to move away from the inner wall of the fixed pipe by the contact of the inclined surface of the moving block 205 and the inclined surface of the fourth sliding rod 284 under the action of the fifth extrusion spring, the moving long plate 156 can push the first support plate 152 to move upwards under the action of the reset of the second extrusion spring, before that, the second sliding rod 280 can be far away from the first jack and the second jack under the action of the seventh extrusion spring, the first sliding rod 299 can be far away from the third jack and the fourth jack under the action of the fourth extrusion spring, so that the first support plate and the second support plate can be separated, the third sliding rod and the fourth sliding rod can be separated, so that the second support plate 501 can not move along with the first support plate 152 when the charging gun is taken out, the third sliding rod 282 can not move along with the fourth sliding rod 284 to enlarge the fixed pipe orifice, the charging gun is convenient to take and place, so that the equipment is more convenient to use.

Fill electric pile and rifle that charges for prior art, so the structure is no longer repeated.

Claims

1. A charging pile device for charging a new energy automobile comprises a charging pile 1, a fixed pipe 2 fixedly arranged on the left end face of the charging pile 1, a charging gun 3 arranged in the fixed pipe 2, an electric wire communicated between the charging gun 3 and a charging pile body 1, a protection device arranged on the charging gun 3, and a fastening device arranged on the fixed pipe 2; the protection device comprises a first circular ring 50 fixedly arranged on the charging gun 3, a second circular ring 51 arranged on one side of the first circular ring 50 in a reciprocating manner, a third circular ring 52 arranged on one side of the second circular ring 51 in a reciprocating manner, a fourth circular ring 53 arranged on one side of the second circular ring 51 in a reciprocating manner, a fifth circular ring 55 arranged on one side of the fourth circular ring 53 in a reciprocating manner, and four moving components arranged on the outer surface of the first circular ring 50 in the circumferential direction.

2. The charging pile device for charging the new energy automobile according to claim 1, characterized in that: the first circular ring 50 and the second circular ring 51 are connected through two first sleeves, the second circular ring 51 and the third circular ring 53 are connected through two second sleeves, the third circular ring 53 and the fourth circular ring 53 are connected through two third sleeves, the fourth circular ring 53 and the fifth circular ring 55 are connected through two fourth sleeves, the first sleeves comprise a round rod 57 fixedly arranged on the first circular ring 50, a sleeve 56 arranged on the second circular ring 51, and a compression spring fixedly arranged at the bottom of the sleeve 56 and one end, close to the bottom of the sleeve 56, of the round rod 57, and the structures of the second sleeves, the third sleeves and the fourth sleeves are the same as the structure of the first sleeves.

3. The charging pile device for charging the new energy automobile according to claim 1, characterized in that: the moving assembly comprises a rectangular groove arranged on the first circular ring 50, a moving plate 100 arranged on the rectangular groove in a left-right moving mode, two first trapezoidal grooves formed in two side walls of the rectangular groove, two first trapezoidal blocks fixedly arranged on two sides of the moving plate 100 respectively and capable of sliding in the two first trapezoidal grooves, two extrusion springs fixedly arranged between two side walls of the first trapezoidal grooves and the two first trapezoidal blocks respectively, four rotating blocks 101 hinged to the moving plate 100 along the length direction respectively, and four fixed blocks 102 fixedly arranged on the moving plate 100 along the length direction respectively, a torsion spring is fixedly arranged at the hinged position of each rotating block 101 respectively, and one end of each torsion spring is fixedly arranged on the moving plate 100.

4. The charging pile device for charging the new energy automobile according to claim 1, characterized in that: the fastening device comprises a working shell 151 fixedly arranged on the fixed pipe 2, a working space arranged in the working shell 151, a first support plate 152 arranged in the working space in a vertically movable manner, a first rectangular groove arranged on the upper end wall of the fixed pipe 2, a pressing block 153 fixedly arranged on the upper end of the first support plate 152, a second support plate 501 arranged in the working space in a vertically movable manner, a first arc-shaped block 154 fixedly arranged on the lower end of the second support plate 501, a first jack arranged on the first support plate 152, a second jack arranged on the second support plate 501, a second rectangular groove arranged on the lower end wall of the fixed pipe 2, a first rectangular groove arranged on the side wall of the working space, a first rectangular block fixedly arranged on the first support plate 152 and positioned in the first rectangular groove, a second rectangular block fixedly arranged on the second support plate 501 and positioned in the second rectangular groove, a first extrusion spring fixedly arranged between the side wall of the first rectangular groove and one end of the first rectangular block, The fixed second extrusion spring that sets up between second rectangular channel lateral wall and second rectangular block one end, the fixed first cooperation casing 177 that sets up on work casing 151 side, the first cooperation space of setting on first cooperation casing 177, set up the first inside groove that is linked together at first cooperation space bottom and fixed pipe 2 inner wall, rotate the first pivot that sets up between first cooperation space lateral wall, the fixed first rotor plate 155 that sets up on first pivot, the first logical groove of setting on first cooperation space lateral wall, can be at the removal long plate 156 of logical inslot reciprocating motion, the second dovetail groove of setting at first cooperation space bottom, the fixed second dovetail block that sets up at first cooperation space lower extreme wall and lie in the second dovetail groove, the fixed second extrusion spring that sets up on second dovetail groove lateral wall and second dovetail groove.

5. The charging pile device for charging the new energy automobile according to claim 4, characterized in that: the fastening device further comprises a third trapezoidal groove arranged on the upper end wall of the first matching space, a sliding block 200 arranged on the lower side of the third trapezoidal groove in a reciprocating manner, a third trapezoidal block fixedly arranged at the upper end of the sliding block 200 and positioned in the third trapezoidal groove, a third extrusion spring fixedly arranged between the side wall of the third trapezoidal groove and the sliding block 200, a fourth trapezoidal groove arranged on the side surface of the sliding block 200, a first sliding rod 299 arranged on one side of the sliding block 200 in a reciprocating manner, a fourth trapezoidal block fixedly arranged on the sliding block 200 and positioned in the fourth trapezoidal groove, a fourth extrusion spring fixedly arranged on the side wall of the fourth trapezoidal groove and the fourth trapezoidal block, a second matching shell 203 fixedly arranged on the working shell 151, a second matching space arranged in the second matching shell 203, a second inner groove arranged on the side wall of the second matching space and communicated with the inner wall of the fixed pipe 2, a second inner groove arranged on the side wall of the second matching space, a second inner groove fixedly arranged on the side wall of the second matching space and, A second rotating shaft rotatably arranged between two side walls of the second matching space, a second rotating plate 204 fixedly arranged on the second rotating shaft, a moving block 205 capable of reciprocating relative to the outer surface of the fixed pipe 2, a second through groove arranged on the side wall of the second matching space and communicated with the working space, a fifth trapezoidal groove arranged on the outer surface of the fixed pipe 2, a fifth trapezoidal block fixedly arranged on the side surface of the moving block 205 and positioned in the fifth trapezoidal groove, a fifth extrusion spring fixedly arranged between the side wall of the fifth trapezoidal groove and the fifth trapezoidal block, a sixth trapezoidal groove fixedly arranged on the side wall of the second matching space, a sliding plate 777 capable of reciprocating relative to the fixed pipe 2, a sixth trapezoidal block fixedly arranged on the sliding plate 777 and positioned in the sixth trapezoidal groove, a sixth extrusion spring fixedly arranged between the side wall of the sixth trapezoidal groove and the sixth trapezoidal block, a second sliding rod 280 capable of reciprocating relative to the sliding plate 777, a second sliding rod, A seventh trapezoidal groove arranged on one side surface of the sliding plate 777, a seventh trapezoidal block fixedly arranged on the second sliding rod 280 and positioned in the seventh trapezoidal groove, a seventh extrusion spring fixedly arranged between the side wall of the seventh trapezoidal groove and the seventh trapezoidal block, a first chute arranged on the inner wall of the fixed tube 3, a third sliding rod 282 arranged on the first chute in a reciprocating manner, a first matching arc plate 283 fixedly arranged on the third sliding rod 282 and positioned in the first chute, an eighth extrusion spring fixedly arranged between the side wall of the working space and the third sliding rod 282, a second chute arranged on the inner wall of the fixed tube 3, a fourth sliding rod 284 arranged in the working space in a reciprocating manner, a second matching arc plate 285 fixedly arranged on the fourth sliding rod 284 and positioned in the second chute, a ninth extrusion spring fixedly arranged between the fourth sliding rod 284 and the side wall of the working space, a ninth extrusion spring 999, A third insertion hole provided on the third slide lever 282, and a fourth insertion hole provided on the fourth slide lever 284.