1. The utility model provides a new forms of energy electric automobile fills electric pile intelligent management system which characterized in that: comprises a slideway (1) and a charging pile structure (1); the charging pile structure (2) is fixedly arranged in the middle of the sliding part (1); the charging pile structure (2) comprises a plurality of charging modules (21) and a control module (22); the control module (22) is arranged on one side of the top of the charging pile structure (21); a charging system in the charging pile structure (2) is electrically connected with a plurality of charging modules (21); charging modules (21) are arranged in the charging pile structure (2) and on two sides of the charging pile structure (2); the user passes through the display screen control on control module (22) fill electric pile structure (2) both sides charge module (21) along slide (1) back and forth movement respectively, and charge through charging module (21).

2. The new energy electric vehicle charging pile intelligent management system of claim 1, characterized in that: the charging module (21) comprises a charging body (211); the top of the charging body (211) is of a semicircular structure, and the charging body (211) is correspondingly pressed on the slide way (1); a walking device (212) is fixedly arranged at the bottom of the charging body (211) corresponding to a concave position in the middle of the slide way (1); the control module (22) is electrically connected with the walking device; fill electric pile structure (2) bottom charging system and pass through flexible cord (213) and charge body (211) electric connection.

3. The new energy electric vehicle charging pile intelligent management system of claim 2, characterized in that: an installation groove (23) is formed in one side, corresponding to the vehicle, of the top of the charging body (211); a charging gun (231) is correspondingly accommodated and arranged in the mounting groove (23); the top of the charging body (211) is covered with a protective cover (232); the protective cover (232) is of an arc-shaped sheet structure; a fan-shaped connecting plate (233) is fixedly arranged on one side, away from the telescopic flexible wire (213), of the protective cover (232); the swinging device on the side wall of the charging body (211) is in driving connection with one end of the axis of the fan-shaped connecting plate (233), and the protective cover (232) correspondingly swings to shield the mounting groove (23); the protective cover (232) extends corresponding to one side of the telescopic flexible wire (213) to form a shielding edge (234).

4. The new energy electric vehicle charging pile intelligent management system of claim 2, characterized in that: protection structures (24) are arranged on two sides of the bottom of the charging pile structure (2) corresponding to the positions of the charging modules (21); the protective structure (24) comprises a lower baffle (241); the lower baffle plate (241) is correspondingly and fixedly arranged between the middle concave positions of the upper slide ways (1) on the side wall of the bottom of the charging pile structure (2), and the lower baffle plate (241) is lower than the bottom of the walking device (212).

5. The new energy electric vehicle charging pile intelligent management system according to claim 4, characterized in that: the protective structure (24) further comprises a splice cover (242); the spliced cover cap (242) is attached to the side wall of the charging pile structure (242) in a sliding mode; the splicing cover cap (242) is of a semi-circular shell structure, and the top of the splicing cover cap (242) is open; the driving end of the lifting device on the side wall of the top of the charging pile structure (2) is in driving connection with the middle of the curved side wall of the splicing cover cap (242); the splicing cover cap (242) diameter is larger than the diameter of the protection cap (232) and is arranged, and the splicing cover cap (242) is adapted to the protection cap (232).

6. The new energy electric vehicle charging pile intelligent management system according to claim 5, characterized in that: a side baffle (243) is fixedly arranged in the middle of the bottom of one side, away from the charging pile structure (2), of the spliced cover cap (242); the spliced cover cap (242), the side baffle (243) and the lower baffle (241) are spliced to form a protective cover structure.

Background

With the development of society, environmental problems are more and more emphasized by people, and the new energy electric automobile is gradually developed in the field; the pollution to the environment is reduced by using the new energy electric automobile; and in the process of electric automobile development, electric automobile charges and is the problem that must solve urgently, and only the problem of charging obtains good solution, and electric automobile will have further development so, fills electric pile charging system in general, often sets up one and fills electric pile in a parking stall, can occupy unnecessary space like this to increased the risk that the electricity was revealed, increased the cost simultaneously.

Disclosure of Invention

The purpose of the invention is as follows: in order to overcome the defects in the prior art, the intelligent management system for the new energy electric vehicle provided by the invention can effectively achieve the effect of correspondingly charging a plurality of vehicles through the movement of a plurality of charging modules, and the space occupied by the charging pile is saved.

The technical scheme is as follows: in order to achieve the purpose, the technical scheme of the invention is as follows:

an intelligent management system for a new energy electric vehicle charging pile comprises a slide way and a charging pile structure; the charging pile structure is fixedly arranged in the middle of the sliding part; the charging pile structure comprises a plurality of charging modules and a control module; the control module is arranged on one side of the top of the charging pile structure; a charging system in the charging pile structure is electrically connected with the plurality of charging modules; charging modules are arranged in the charging pile structure and on two sides of the charging pile structure; the user passes through the control module on the display screen control fill the module of charging of electric pile structure both sides and follow the slide back and forth movement respectively, and charge through the module of charging.

Further, the charging module includes a charging body; the top of the charging body is of a semicircular structure, and the charging body is correspondingly pressed on the slideway; a traveling device is fixedly arranged at the bottom of the charging body corresponding to the concave position in the middle of the slide way; the control module is electrically connected with the walking device; fill electric pile structure bottom charging system and charge body electric connection through flexible cord.

Furthermore, an installation groove is formed in one side, corresponding to the vehicle, of the top of the charging body; a charging gun is correspondingly accommodated and arranged in the mounting groove; the top of the charging body is covered with a protective cover; the protective cover is of an arc-shaped sheet structure; a fan-shaped connecting plate is fixedly arranged on one side of the protective cover, which is far away from the telescopic flexible wire; the swinging device on the side wall of the charging body is in driving connection with one end of the axis of the fan-shaped connecting plate, and the protective cover correspondingly swings to shield the mounting groove; the protective cover is arranged in an extending mode corresponding to one side of the telescopic flexible wire to form a shielding edge.

Furthermore, protection structures are arranged on two sides of the bottom of the charging pile structure corresponding to the positions of the charging modules; the protective structure comprises a lower baffle plate; the lower baffle plate is correspondingly and fixedly arranged between the concave positions in the middle of the upper slideway on the side wall of the bottom of the charging pile structure, and the lower baffle plate is lower than the bottom of the walking device.

Further, the protection structure further comprises a splicing cover; the spliced cover cap is slidably attached to the side wall of the charging pile structure; the splicing cover cap is of a semicircular shell structure, and the top of the splicing cover cap is open; the driving end of the lifting device on the side wall of the top of the charging pile structure is in driving connection with the middle of the curved side wall of the splicing cover; the concatenation shroud diameter is greater than the protection casing diameter setting, just the concatenation shroud adapts to the shroud on the protection casing.

Further, a side baffle is fixedly arranged in the middle of the bottom of one side, away from the charging pile structure, of the spliced cover cap; the splicing cover cap, the side baffle and the lower baffle are spliced to form a protective cover structure.

Has the advantages that: according to the invention, a plurality of charging modules are arranged on one charging pile to charge a plurality of vehicles, so that the occupied space is saved; including but not limited to the following benefits:

1) a plurality of charging modules of one charging pile respectively move to charge different vehicles, and the charging can be carried out only by controlling the corresponding charging modules to the positions where the vehicles stop, so that the space occupied by the charging pile is saved; a plurality of charging modules can be arranged in parallel, a plurality of groups of charging pile structures can be arranged, and a plurality of charging modules are arranged;

2) when the charging module is not used for charging, the protective cover structure can protect the charging module and prevent the charging module from being damaged due to exposure to the sun and rain; heavy protection setting like this, the rifle that charges is protected to the inlayer protection casing, and whole module of charging is protected in outer safety cover structure protection, avoids damaging, increases life.

Drawings

FIG. 1 is a view of a charging pile;

FIG. 2 is a schematic view of a charging device;

FIG. 3 is a view of the shield structure;

fig. 4 is a view of a semicircular housing structure.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

As shown in figures 1-4: an intelligent management system for a charging pile of a new energy electric automobile comprises a slide way 1 and a charging pile structure 1; the charging pile structure 2 is fixedly arranged in the middle of the sliding block 1; the charging pile structure 2 comprises a plurality of charging modules 21 and a control module 22; the control module 22 is arranged on one side of the top of the charging pile structure 21; the charging system in the charging pile structure 2 is electrically connected with the plurality of charging modules 21; charging modules 21 are arranged in the charging pile structure 2 and on two sides of the charging pile structure 2; the user passes through the control of the display screen on the control module 22 the module 21 that charges of filling electric pile structure 2 both sides is along slide 1 back and forth movement respectively, and charges through the module 21 that charges. The slide ways are arranged on one sides of the plurality of parallel parking places, the charging pile structures are arranged on the slide ways, the plurality of charging modules on the charging pile structures move back and forth on the slide ways and correspondingly lean against the bottom of the charging pile structures, so that the space occupied by the charging piles arranged on each parking place can be saved, the plurality of charging modules of one charging pile move respectively to charge different vehicles, the charging can be carried out only by controlling the corresponding charging modules to the positions where the vehicles stop, and the space occupied by the charging piles is saved; and can set up a plurality of modules that charge side by side, also can set up the multiunit and fill electric pile structure to set up a plurality of modules that charge. The user can operate the control charging module through the display screen of control module and move to corresponding vehicle position along the slide, then just can charge to the vehicle with the rifle that charges on the charging module.

The charging module 21 includes a charging body 211; the top of the charging body 211 is of a semicircular structure, and the charging body 211 is correspondingly pressed on the slideway 1; a traveling device 212 is fixedly arranged at the bottom of the charging body 211 corresponding to a concave position in the middle of the slide way 1; the control module 22 is electrically connected with the walking device; the charging system at the bottom of the charging pile structure 2 is electrically connected with the charging body 211 through a flexible cord 213. The user operation controls the traveling device to drive the charging body to move to the vehicle parking position, the electric energy is supplied through the telescopic flexible wire, the number of the charging piles at one end of the parking space is reduced, and occupied space and installation cost are saved.

The top of the charging body 211 corresponding to one side of the vehicle is provided with a mounting groove 23; a charging gun 231 is correspondingly accommodated and arranged in the mounting groove 23; the top of the charging body 211 is covered with a protective cover 232; the protective cover 232 is of an arc-shaped sheet structure; a fan-shaped connecting plate 233 is fixedly arranged on one side of the protective cover 232 away from the telescopic flexible wire 213; the swinging device on the side wall of the charging body 211 is in driving connection with one end of the axis of the sector connecting plate 233, and the protective cover 232 correspondingly swings to shield the mounting groove 23; the protection cover 232 extends to correspond to one side of the flexible cord 213 to form a shielding edge 234. Swinging gear drive fan-shaped connecting plate drives the protection casing swing, and the protection casing breaks away from the mounting groove, and the user just can draw out the rifle that charges of charging to the vehicle, and the protection casing can effectually protect the rifle that charges when not charging, avoids charging the rifle and receives the influence of shining in the sun and rain for a long time.

Protection structures 24 are arranged on two sides of the bottom of the charging pile structure 2 corresponding to the positions of the charging modules 21; the protective structure 24 includes a lower baffle 241; the lower baffle 241 is correspondingly and fixedly arranged between the concave positions in the middle of the slideway 1 on the side wall of the bottom of the charging pile structure 2, and the lower baffle 241 is lower than the bottom of the walking device 212. When the charging module is located the lower fender top, the lower fender can shelter from the dust and the rainwater fog of below and cause the influence damage to the charging module.

The protective structure 24 further includes a splice cover 242; the splicing cover cap 242 is slidably attached to the side wall of the charging pile structure 242; the splicing cover cap 242 is of a semicircular shell structure, and the top of the splicing cover cap 242 is open; the driving end of the lifting device on the side wall of the top of the charging pile structure 2 is in driving connection with the middle of the curved side wall of the splicing cover cap 242; the diameter of the splicing cover 242 is larger than that of the protective cover 232, and the splicing cover 242 is adapted to cover the protective cover 232. A side baffle 243 is fixedly arranged in the middle of the bottom of one side, away from the charging pile structure 2, of the splicing cover cap 242; the spliced cover cap 242, the side baffle 243 and the lower baffle 241 are spliced to form a protective cover structure. When the charging module moves to the lower baffle plate position, the lifting device drives the splicing cover cap and the side baffle plate to move downwards to be spliced with the lower baffle plate to form a protective cover structure, and when the charging module is not used for charging, the protective cover structure can protect the charging module and prevent the charging module from being damaged due to exposure to the sun and rain; heavy protection setting like this, the rifle that charges is protected to the inlayer protection casing, and whole module of charging is protected in outer safety cover structure protection, avoids damaging, increases life.

A mounting groove is further formed in the charging pile structure corresponding to one side wall of the vehicle, and a charging gun is mounted in the mounting groove; correspond the cover on the mounting groove and be equipped with semicircle housing 25, fill power device drive end and the drive of semicircle housing 25 top on the electric pile structure lateral wall and be connected, through driving semicircle housing up-and-down motion, open or close the mounting groove, and then just can draw out the rifle that charges of dragging out and charge.

The foregoing description is of the preferred embodiment of the present invention and it will be apparent to those skilled in the art that numerous modifications and enhancements can be made without departing from the principles of the invention, which modifications and enhancements are intended to be within the scope of the invention.