CN114590154A - Internet of things new energy charging pile - Google Patents

Abstract

The invention is suitable for the field of charging piles, and provides an Internet of things new energy charging pile which comprises a plurality of installation pile body assemblies and a plurality of charging mechanical arms, wherein the charging mechanical arms are distributed around the installation pile body assemblies in an annular array manner; a plurality of unit charging box assemblies are connected to the charging mechanical arm in a sliding manner, and unit charging boxes are arranged on the unit charging box assemblies; the unit charging box assembly is provided with a rotating structure; the plurality of charging mechanical arms are driven by the driving structure to complete rotation position adjustment around the installation pile body assembly, so that the transverse coverage range is improved; the sliding position of the unit charging box is adjusted along the charging mechanical arm by using a moving structure, so that the longitudinal coverage range is improved; the multiple parking spaces are served simultaneously by combining the multiple unit charging box assemblies, so that the coverage area is improved, more parking spaces are served, the efficient charging of the vehicle without moving is realized after the charging is finished, and the problem of fixed proportion of the charging pile and the parking spaces is solved; more parking spaces are flexibly served, and the charging efficiency is high.

Description

Internet of things new energy charging pile

Technical Field

The invention relates to the field of charging piles, in particular to an Internet of things new energy charging pile.

Background

With the development of the times and the enhancement of the green environmental protection concept, new energy vehicles are continuously developed, wherein the charging piles for charging the new energy vehicles are products of the development.

The function of the charging pile is similar to that of an oiling machine in a gas station, and the charging pile can be fixed on the ground or on the wall, is installed in parking lots of public buildings and residential districts or charging stations, and can charge electric vehicles of various models according to different voltage levels.

The existing charging pile installation mode is a mode of charging piles at a parking space, in the actual charging process, queuing can occur, an owner of a charged car cannot arrive at the site in time, or the charging pile is only limited to a plurality of fixed parking spaces for charging, the coverage range is small, the charging pile and the parking space are proportioned, the charging efficiency is low, and the phenomenon that the new energy car is queued for charging in a highway service area is often caused.

Disclosure of Invention

The embodiment of the invention aims to provide an Internet of things new energy charging pile, and aims to solve the problems that in the actual charging process, a queuing phenomenon occurs, an owner of a charged vehicle cannot arrive at the site in time, or the charging pile is only limited to a plurality of fixed parking spaces for charging, the coverage range is small, the charging pile and the parking spaces are matched, and the charging efficiency is low.

Specifically, the method comprises the following steps: the charging pile comprises an installation pile body assembly and a charging mechanical arm, wherein the installation pile body assembly is used for being installed at a parking lot; the charging mechanical arms are arranged in a plurality of annular arrays and distributed around the installation pile body assembly, and the charging mechanical arms are driven by the driving structure to complete rotation position adjustment around the installation pile body assembly;

the unit charging box is arranged on the unit charging box assembly, and the unit charging box is used for adjusting the sliding position on the charging mechanical arm by utilizing a moving structure arranged on the unit charging box assembly; the unit charging box assembly is provided with a rotating structure, and the unit charging box is adjusted by utilizing the rotating position of the rotating structure.

Furthermore, after the parking lot is installed by the aid of the pile body installation assemblies, the plurality of charging mechanical arms are driven by the driving structure to complete rotation position adjustment around the pile body installation assemblies, and transverse coverage is improved; the sliding position of the unit charging box is adjusted along a charging mechanical arm by using a moving structure, so that the longitudinal coverage is improved; the multiple parking spaces are served simultaneously by combining the multiple unit charging box assemblies, so that the coverage area is improved, more parking spaces are served, the efficient charging of the vehicle without moving is realized after the charging is finished, and the problem of fixed proportion of the charging pile and the parking spaces is solved; more parking spaces are flexibly served, and the charging efficiency is high; simultaneously revolution mechanic is used for improving the horizontal cover of unit box that charges on the small scale, realizes the nimble different grade type vehicle of coping to and the parking in the equidirectional not.

In order to explain the Internet of things new energy charging pile in detail, a pile body is arranged on the pile body mounting assembly, and a mounting disc for mounting is fixed on the pile body; a reinforcing disc is arranged at the joint of the mounting disc and the pile body; a through cavity is formed in the pile body, a plurality of connecting cables are inserted into the through cavity, and the connecting cables outside the through cavity are connected to the charging mechanical arm; a top cover is fixed at the opening of the through cavity at the top of the pile body, and the top cover is used for separating rainwater.

Furthermore, the driving structure consists of a power driving box and a driving ring structure; the driving ring structure is sleeved and fixed on the pile body; the power driving box is fixed on the charging mechanical arm; the power driving box is clamped on the driving ring structure and is engaged with the gear teeth to complete driving movement, so that the charging mechanical arm is driven to rotate around the pile body to be adjusted.

Still further, a driving box body is arranged on the power driving box, and a clamping notch is formed in the position, close to the driving ring structure, of the driving box body; the driving ring structure is provided with a ring body, the ring body is fixed on the pile body through a plurality of fixing columns, and the ring body is connected inside the clamping groove opening in a sliding manner; the gear ring is laid on the surface of the ring body, the gear ring is meshed with a gear A arranged inside the clamping groove, the gear A is fixed on an output shaft of a driving motor A arranged inside the driving box body, gear teeth are meshed to drive and move, and the charging mechanical arm is adjusted around the rotating position of the pile body through driving the power driving box.

Optimized, be provided with the junction box on the drive box body, inside the junction box communicates the drive box body, the connection cable runs through inside the junction box to alternate on the arm of charging through the drive box body.

Optimized, be fixed with the dead lever on the drive box body, be fixed with the support column on the dead lever, the support column is on the spacing ring at the one end sliding connection who keeps away from the dead lever, and the spacing ring cover is established and is fixed on the pile body.

In order to elaborate the Internet of things new energy charging pile, a guide rail is arranged on the charging mechanical arm, and a plurality of unit charging box assemblies are connected to the guide rail in a sliding manner; the guide rail is provided with a guide plate; the unit charging box assembly is provided with a guide block, and the guide block is movably sleeved on the guide plate; the moving structure is provided with a driving motor B, and the driving motor B is arranged inside the guide block; the driving motor B is fixed with a gear B on an output shaft thereof, the gear B is meshed on a rack, and the rack is laid on the guide plate.

Furthermore, a rotating disc is arranged on the rotating structure and is rotatably connected to a rotating shaft, and the rotating shaft is fixed on the guide block; a telescopic sleeve is fixed on the rotating disc, and one end of the telescopic sleeve, which is far away from the rotating disc, is fixed on the unit charging box through a connecting plate;

a wire take-up box is fixed on the guide block, a cable is wound and contained in the wire take-up box, one end of the cable extends out of the wire take-up box and is tiled in a wire laying plate arranged on the guide rail, and a wire laying groove is formed in the wire laying plate in a matched manner with the cable; the other end of the cable is movably inserted in sequence through the guide block, the rotating shaft, the rotating disc, the telescopic sleeve and the connecting plate and connected to the unit charging box; and the unit charging box is connected with a charging cable.

Furthermore, a plurality of groups of cable winding structures for winding and accommodating cables are arranged in the wire winding box;

the cable winding structure is provided with a winding roller, a storage cable is wound by the winding roller, and a winding groove is formed in the winding roller; a plurality of arc-shaped supporting plates distributed in an annular array are arranged in the winding groove, an elastic telescopic rod is fixed on each arc-shaped supporting plate, the other end of each elastic telescopic rod is fixed on a fixed disc, and the fixed disc is rotatably connected in the wire collecting box; the outer shell is covered outside the winding roller, and a wire laying plate is fixed on the outer shell.

Compared with the prior art, after the parking lot is installed by the aid of the installation pile body assemblies, the plurality of charging mechanical arms are driven by the driving structure to complete rotation position adjustment around the installation pile body assemblies, and accordingly transverse coverage is improved; the sliding position of the unit charging box is adjusted along the charging mechanical arm by using a moving structure, so that the longitudinal coverage range is improved; the multiple parking spaces are served simultaneously by combining the multiple unit charging box assemblies, so that the coverage area is improved, more parking spaces are served, the efficient charging of the vehicle without moving is realized after the charging is finished, and the problem of fixed proportion of the charging pile and the parking spaces is solved; more parking spaces are flexibly served, and the charging efficiency is high; meanwhile, the rotary structure is used for improving the transverse coverage of the unit charging box in a small range, and vehicles of different types and parking in different directions can be flexibly coped with.

Drawings

Fig. 1 is a schematic structural diagram of an internet-of-things new energy charging pile;

FIG. 2 is a schematic structural diagram of the charging robot arm of FIG. 1;

FIG. 3 is a schematic structural view of the power-driven cartridge of FIG. 2;

FIG. 4 is a schematic structural view of the single charge box assembly of FIG. 2;

fig. 5 is a schematic structural diagram of the pile body assembly in fig. 1;

fig. 6 is a front view of the pile assembly of fig. 5;

fig. 7 is a schematic view of an assembly structure of a driving ring structure and a power driving box in the internet of things new energy charging pile;

fig. 8 is a schematic structural diagram of a cable winding structure in the internet of things new energy charging pile;

fig. 9 is a schematic diagram of the internet of things new energy charging pile after practical application.

In the drawings:

the charging mechanical arm 1 is used for installing the pile body assembly 2;

the power driving box 11, the guide rail 12, the unit charging box assembly 13, the connecting cable 14 and the support column 15;

the device comprises a top cover 21, a driving ring structure 22, a limiting ring 23, a pile body 24, a reinforcing disc 25, a mounting disc 26 and a fixing column 27;

a driving box body 111, a card slot 112, a wiring tube 113 and a fixing rod 114;

the guide plate 121, the wire laying plate 122 and the wire laying groove 123;

the device comprises a guide block 131, a rotating disc 132, a rotating shaft 133, a take-up box 134, a telescopic sleeve 135, a connecting plate 136, a unit charging box 137, a charging cable 138 and a cable winding structure 139;

shell body 1391, the board 1392 of paving, wire winding roller 1393, wire winding groove 1394, elasticity telescopic link 1395, fixed disk 1396.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

In the embodiment of the invention, as shown in fig. 1-4 and 9: the utility model provides a stake of thing networking new forms of energy charging, includes:

the installation pile body assembly 2 is used for installing at a parking lot;

the charging mechanical arm 1 is provided with a plurality of charging mechanical arms 1, the charging mechanical arms 1 are distributed around the installation pile body assembly 2 in an annular array mode, and the charging mechanical arms 1 are driven by a driving structure to complete rotation position adjustment around the installation pile body assembly 2;

in practical use, the installation pile body assembly 2 is installed in a parking lot to serve a plurality of parking spaces, and the plurality of charging mechanical arms 1 are driven by the driving structure to complete rotation position adjustment around the installation pile body assembly 2, so that the transverse coverage range is improved, and more parking spaces are served;

the unit charging box assembly 13 is provided with a unit charging box 137, and the unit charging box 137 is adjusted in sliding position on the charging mechanical arm 1 by utilizing a moving structure arranged on the unit charging box assembly 13;

after the charging mechanical arm 1 rotates to a certain angle to serve the parking stall, the moving structure is started, and the sliding position of the unit charging box 137 is adjusted along the charging mechanical arm 1, so that the longitudinal coverage range is improved; meanwhile, a plurality of unit charging box assemblies 13 are arranged, so that a plurality of parking spaces can be served simultaneously;

the unit charging box assembly 13 is provided with a rotating structure, and the unit charging box 137 is adjusted by the rotating position of the rotating structure;

after the rotating structure is started, the horizontal coverage of the unit charging box 137 on a small range is improved, and more parking spaces are served.

In the embodiment of the invention, after the parking lot is installed by using the installation pile body assembly 2, the plurality of charging mechanical arms 1 are driven by the driving structure to complete the rotation position adjustment around the installation pile body assembly 2, so that the transverse coverage range is improved; the unit charging box 137 is adjusted in sliding position along the charging robot arm 1 by using a moving structure, so that the longitudinal coverage is improved; the multiple parking spaces are served simultaneously by combining the multiple unit charging box assemblies 13, so that the coverage area is improved, more parking spaces are served, efficient charging without moving the vehicle is realized after the charging is finished, and the problem of fixed proportion of the charging pile and the parking spaces is solved; more parking spaces are flexibly served, and the charging efficiency is high; meanwhile, the rotating structure is used to improve the lateral coverage of the unit charging box 137 in a small range, so that the flexible response to different types of vehicles and parking in different directions can be realized (refer to fig. 9 in particular).

In the embodiment of the invention, in order to explain the internet of things new energy charging pile in detail, the charging pile is specifically shown in fig. 5 and 6: the installation pile body assembly 2 is provided with a pile body 24 (the pile body 24 is provided with a control panel connected with the internet of things, the control panel is in the prior art and can be directly purchased in the market, and is not described in detail and is not shown in the attached drawings), and the pile body 24 is fixed with an installation disc 26 for installation; a reinforcing disc 25 is arranged at the joint of the mounting disc 26 and the pile body 24;

a through cavity is formed in the pile body 24, a plurality of connecting cables 14 are inserted into the through cavity (the connecting cables 14 are movably inserted into the through cavity, and enough length is reserved for adapting to the adjustment of the rotating position of the charging mechanical arm 1), and the connecting cables 14 outside the through cavity are connected to the charging mechanical arm 1; a top cover 21 is fixed at the opening of the through cavity at the top of the pile body 24, and the top cover 21 is used for blocking rainwater.

In the embodiment of the invention, in order to explain the internet of things new energy charging pile in detail, the charging pile is specifically shown in fig. 1, 2 and 7: the driving structure consists of a power driving box 11 and a driving ring structure 22; the driving ring structure 22 is sleeved and fixed on the pile body 24; the power driving box 11 is fixed on the charging mechanical arm 1; the power driving box 11 is clamped on the driving ring structure 22 and performs driving movement by means of gear tooth engagement, so as to drive the charging mechanical arm 1 to rotate around the pile body 24 for position adjustment.

In the embodiment of the invention, in order to explain the charging pile for the new energy of the internet of things in detail, the charging pile is specifically shown in figures 1-3 and 5-7: a driving box body 111 is arranged on the power driving box 11, and a clamping notch 112 is formed in the position, close to the driving ring structure 22, of the driving box body 111; the driving ring structure 22 is provided with a ring body, the ring body is fixed on the pile body 24 through a plurality of fixing columns 27, and the ring body is connected inside the clamping groove opening 112 in a sliding manner; a gear ring is laid on the surface of the ring body and meshed with a gear A arranged inside the clamping groove opening 112, the gear A is fixed on an output shaft of a driving motor A arranged inside the driving box body 111 to complete gear tooth meshing driving movement, and the charging mechanical arm 1 is adjusted around the pile body 24 through driving the power driving box 11.

The driving motor A is started, the driving motor A drives the gear A to rotate, the gear A is used as an engagement point through an engaged gear ring, gear teeth are engaged to drive and move, the power driving box 11 is driven to complete the adjustment of the rotation position of the charging mechanical arm 1 around the pile body 24, the transverse coverage range is enlarged, and more parking spaces are served.

In the embodiment of the invention, in order to explain the internet of things new energy charging pile in detail, the charging pile is specifically shown in fig. 3: the driving box body 111 is provided with a wire connecting pipe 113, the wire connecting pipe 113 is communicated with the inside of the driving box body 111, and the connecting cable 14 penetrates through the inside of the wire connecting pipe 113 and penetrates through the driving box body 111 on the charging mechanical arm 1.

In the embodiment of the invention, in order to explain the internet of things new energy charging pile in detail, the charging pile is specifically shown in fig. 3 and 7: a fixing rod 114 is fixed on the driving box 111, a supporting column 15 is fixed on the fixing rod 114, the supporting column 15 is slidably connected to a limiting ring 23 at one end far away from the fixing rod 114, and the limiting ring 23 is sleeved and fixed on the pile body 24.

When the power driving box 11 is clamped on the driving ring structure 22 and driven to move by means of gear tooth engagement, so as to drive the charging mechanical arm 1 to adjust the rotating position around the pile body 24, the fixing rod 114 and the supporting column 15 are used as supporting points to be rotatably connected to the limiting ring 23, so that auxiliary support by means of the limiting ring 23 is realized.

In the embodiment of the invention, in order to explain the internet of things new energy charging pile in detail, the charging pile is specifically shown in fig. 2-4: the charging mechanical arm 1 is provided with a guide rail 12 (the specific guide rail 12 is fixed on the power driving box 11), and the plurality of unit charging box assemblies 13 are connected on the guide rail 12 in a sliding manner; a guide plate 121 is arranged on the guide rail 12; the unit charging box assembly 13 is provided with a guide block 131, and the guide block 131 is movably sleeved on the guide plate 121; the moving structure is provided with a driving motor B, and the driving motor B is arranged inside the guide block 131; the driving motor B is fixed with a gear B on its output shaft, the gear B is engaged on a rack, and the rack is laid on the guide plate 121.

Starting a driving motor B, driving the gear B to rotate by the driving motor B, and completing the movement of the unit charging box assembly 13 along the guide plate 121 by taking the rack as a supporting point, so as to complete the sliding position adjustment of the unit charging box 137 along the charging mechanical arm 1 and realize the improvement of the longitudinal coverage; and meanwhile, the unit charging box assemblies 13 are provided with a plurality of units, so that a plurality of parking spaces can be served simultaneously.

In the embodiment of the invention, in order to explain the internet of things new energy charging pile in detail, the charging pile is specifically shown in fig. 2-4: the rotating structure is provided with a rotating disc 132, the rotating disc 132 is rotatably connected to a rotating shaft 133, and the rotating shaft 133 is fixed on the guide block 131; a telescopic sleeve 135 is fixed on the rotary disc 132, and one end of the telescopic sleeve 135 far away from the rotary disc 132 is fixed on a unit charging box 137 through a connecting plate 136;

a take-up box 134 is fixed on the guide block 131, a cable is wound and contained in the take-up box 134, one end of the cable extends out of the take-up box 134 and is tiled in a wiring board 122 arranged on the guide rail 12 (specifically, connected with the connecting cable 14), and a wiring groove 123 is formed in the wiring board 122 in a matching manner with the cable; the other end of the cable is movably inserted through the guide block 131, the rotating shaft 133, the rotating disc 132, the telescopic sleeve 135 and the connecting plate 136 in sequence and is connected to the unit charging box 137; a charging cable 138 is connected to the unit charging box 137.

It should be noted that: the telescopic tube 135 is provided with an air cylinder telescopic rod inside for adjusting the length of the telescopic tube 135.

After the rotating disc 132 rotates through the rotating shaft 133, the rotation of the rotating structure is completed, so that the transverse coverage of the unit charging box 137 in a small range is improved, and more parking spaces are served; meanwhile, the telescopic adjustment of the telescopic tube 135 realizes flexible handling of different types of vehicles and parking in different directions.

In the embodiment of the invention, in order to explain the internet of things new energy charging pile in detail, the charging pile is specifically shown in fig. 4 and 8: a plurality of groups of cable winding structures 139 used for winding and accommodating cables are arranged in the wire winding box 134;

a winding roller 1393 is arranged on the cable winding structure 139, a storage cable is wound by the winding roller 1393, and a winding slot 1394 is formed in the winding roller 1393; a plurality of arc-shaped supporting plates distributed in an annular array are arranged in the wire winding groove 1394, an elastic telescopic rod 1395 is fixed on each arc-shaped supporting plate (the elastic telescopic rod 1395 has a specific structure that a spring is sleeved outside the telescopic rod), the other end of each elastic telescopic rod 1395 is fixed on a fixed disk 1396, and the fixed disk 1396 is rotatably connected inside the wire collecting box 134; the winding roller 1393 is externally covered with an outer shell 1391, and a wire laying plate 1392 is fixed on the outer shell 1391.

The wiring board 1392 is arranged to avoid winding in the winding process, and meanwhile, when the cable needs to be stretched, the cable extrudes the arc-shaped supporting plate which extrudes the elastic telescopic rod 1395, so that the radius of the winding roller 1393 is reduced, the circumference is reduced, and the cable is stretched; when the cable needs to be shortened, the cable is loosened, the elastic expansion rod 1395 is restored, the radius of the winding roller 1393 is increased, and the cable is expanded and contracted by increasing the circumference.

It should be noted that the extension and contraction of the cable is determined by the moving position of the unit charging box assembly 13 on the guide plate 121, the extended cable is laid by the laying plate 1392 and enters the inside of the laying groove 123, and the shortened cable is re-picked out from the inside of the laying groove 123.

The working principle of the invention is as follows:

after the parking lot is installed by the aid of the installation pile body assembly 2, the plurality of charging mechanical arms 1 are driven by the driving structure to complete rotation position adjustment around the installation pile body assembly 2, and transverse coverage is improved; the sliding position of the unit charging box 137 is adjusted along the charging robot arm 1 by using a moving structure, so that the longitudinal coverage is improved; the multiple parking spaces are served simultaneously by combining the multiple unit charging box assemblies 13, so that the coverage area is improved, more parking spaces are served, efficient charging without moving the vehicle is realized after the charging is finished, and the problem of fixed proportion of the charging pile and the parking spaces is solved; more parking spaces are flexibly served, and the charging efficiency is high; meanwhile, the rotating structure is used for improving the transverse coverage of the unit charging box 137 in a small range, and flexible handling of different types of vehicles and parking in different directions is achieved.

In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

While the preferred embodiments of the present invention have been described in detail, the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.

Claims (10)

1. The utility model provides a stake of thing networking new forms of energy charging, its characterized in that includes:

a mounting pile assembly for mounting at a parking lot;

the charging mechanical arms are arranged in a plurality of annular arrays and distributed around the installation pile body assembly, and the charging mechanical arms are driven by the driving structure to complete rotation position adjustment around the installation pile body assembly;

the unit charging box is arranged on the unit charging box assembly, and the unit charging box is used for adjusting the sliding position on the charging mechanical arm by utilizing a moving structure arranged on the unit charging box assembly;

the unit charging box assembly is provided with a rotating structure, and the unit charging box is adjusted by utilizing the rotating position of the rotating structure.

2. The Internet of things new energy charging pile according to claim 1,

the pile body is arranged on the pile body mounting assembly, and a mounting disc for mounting is fixed on the pile body; a reinforcing disc is arranged at the joint of the mounting disc and the pile body;

a through cavity is formed in the pile body, a plurality of connecting cables are inserted into the through cavity, and the connecting cables outside the through cavity are connected to the charging mechanical arm;

a top cover is fixed at the opening of the through cavity at the top of the pile body.

3. The Internet of things new energy charging pile according to claim 2,

the driving structure consists of a power driving box and a driving ring structure; the driving ring structure is sleeved and fixed on the pile body;

the power driving box is fixed on the charging mechanical arm;

the power driving box is clamped on the driving ring structure and is engaged with the gear teeth to complete driving movement, so that the charging mechanical arm is driven to rotate around the pile body to be adjusted.

4. The Internet of things new energy charging pile according to claim 3,

the power driving box is provided with a driving box body, and the driving box body is provided with a clamping notch at a position close to the driving ring structure;

the driving ring structure is provided with a ring body, the ring body is fixed on the pile body through a plurality of fixing columns, and the ring body is connected inside the clamping groove opening in a sliding manner;

the gear ring is laid on the surface of the ring body, the gear ring is meshed with a gear A arranged inside the clamping groove, the gear A is fixed on an output shaft of a driving motor A arranged inside the driving box body, gear teeth are meshed to drive and move, and the charging mechanical arm is adjusted around the rotating position of the pile body through driving the power driving box.

5. The Internet of things new energy charging pile according to claim 4, characterized in that a wiring pipe is arranged on the driving box body and communicated to the inside of the driving box body, and a connecting cable penetrates through the inside of the wiring pipe and penetrates through the driving box body and the charging mechanical arm.

6. The Internet of things new energy charging pile according to claim 4, wherein a fixing rod is fixed on the driving box body, a supporting column is fixed on the fixing rod, the supporting column is connected to a limiting ring in a sliding mode at one end far away from the fixing rod, and the limiting ring is sleeved and fixed on the pile body.

7. The Internet of things new energy charging pile according to any one of claims 1-6,

the charging mechanical arm is provided with a guide rail, and the plurality of unit charging box assemblies are connected to the guide rail in a sliding manner;

the guide rail is provided with a guide plate;

the unit charging box assembly is provided with a guide block, and the guide block is movably sleeved on the guide plate;

the moving structure is provided with a driving motor B, and the driving motor B is arranged inside the guide block;

a gear B is fixed on an output shaft of the driving motor B, the gear B is meshed with a rack, and the rack is laid on the guide plate.

8. The Internet of things new energy charging pile according to claim 7,

the rotating structure is provided with a rotating disc which is rotatably connected to a rotating shaft, and the rotating shaft is fixed on the guide block;

a telescopic sleeve is fixed on the rotating disc, and one end of the telescopic sleeve, which is far away from the rotating disc, is fixed on the unit charging box through a connecting plate;

a wire take-up box is fixed on the guide block, a cable is wound and contained in the wire take-up box, one end of the cable extends out of the wire take-up box and is tiled in a wire laying plate arranged on the guide rail, and a wire laying groove is formed in the wire laying plate in a matched manner with the cable; the other end of the cable is movably inserted in sequence through the guide block, the rotating shaft, the rotating disc, the telescopic sleeve and the connecting plate and connected to the unit charging box;

and a charging cable is connected to the unit charging box.

9. The Internet of things new energy charging pile according to claim 8, characterized in that a plurality of groups of cable winding structures for winding storage cables are arranged in the winding box.

10. The Internet of things new energy charging pile according to claim 9,

the cable winding structure is provided with a winding roller, a storage cable is wound by the winding roller, and a winding groove is formed in the winding roller;

a plurality of arc-shaped supporting plates distributed in an annular array are arranged in the winding groove, an elastic telescopic rod is fixed on each arc-shaped supporting plate, the other end of each elastic telescopic rod is fixed on a fixed disc, and the fixed disc is rotatably connected in the wire collecting box;

the outer shell is covered outside the winding roller, and a wire laying plate is fixed on the outer shell.

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