CN110723014B

CN110723014B - Anti-creeping buried automobile charging pile

Info

Publication number: CN110723014B
Application number: CN201911025971.0A
Authority: CN
Inventors: 陈鹏; 徐乐; 宁雪峰; 李元佳
Original assignee: Guangdong Power Grid Co Ltd; Dongguan Power Supply Bureau of Guangdong Power Grid Co Ltd
Current assignee: Guangdong Power Grid Co Ltd; Dongguan Power Supply Bureau of Guangdong Power Grid Co Ltd
Priority date: 2019-10-25
Filing date: 2019-10-25
Publication date: 2024-03-08
Anticipated expiration: 2039-10-25
Also published as: CN110723014A

Abstract

The embodiment of the invention discloses an anti-creeping buried automobile charging pile, which comprises a buried bin and a lifting assembly arranged at the bottom of the buried bin, wherein a charging pile main body is connected above the lifting assembly, a rain shield is arranged on the outer side wall of the buried bin, a sealing gasket groove is formed in the top end surface of the buried bin, a mounting groove is formed in the inner wall of the buried bin in the area below the sealing gasket groove, a water removing assembly and the buried bin are arranged in the device, a user can hide the charging pile main body in the buried bin which is in stable environment, so that the influence of external factors is reduced, and when the charging pile main body moves up and down in the buried bin, a rolling belt and a water removing cotton belt are pushed by a push column to cling to a charging pile shell, so that the sliding charging pile main body can move along with the rolling belt, water drops of the charging pile shell are fully absorbed by the water removing cotton belt, and the situation that rainwater of the charging pile shell is gathered together and drops to a charging pile interface is avoided.

Description

Anti-creeping buried automobile charging pile

Technical Field

The embodiment of the invention relates to the technical field of charging equipment, in particular to an anti-creeping buried automobile charging pile.

Background

The charging pile has the function similar to that of an oiling machine in a gas station, can be fixed on the ground or a wall, is installed in public buildings (public buildings, malls, public parking lots and the like) and residential community parking lots or charging stations, and can charge electric automobiles of various types according to different voltage levels. The input end of the charging pile is directly connected with an alternating current power grid, and the output end of the charging pile is provided with a charging plug for charging the electric automobile. The charging pile generally provides two charging modes of conventional charging and quick charging, people can use a specific charging card to swipe the card on a man-machine interaction operation interface provided by the charging pile for use, corresponding operations such as charging mode, charging time and cost data printing are carried out, a charging pile display screen can display data such as charging quantity, cost and charging time, the charging pile is widely installed in a city along with the use of an electric automobile, but the phenomenon that rainwater enters the charging interface along with the lengthening of the service time occurs, so that electric shock casualties of a plurality of public places are caused.

So people in order to avoid the rainwater to get into the interface that charges and lead to the production of phenomenon such as electric leakage, all can adopt waterproof assembly to protect, like application number CN201821707064.5, the patent name is a fill electric pile with anticreep function, and it mainly is in the rifle department that charges installation rain baffle, and the interface department that charges installs plug protection box simultaneously realizes preventing that the rainwater from getting into the purpose of filling electric pile.

However, the rainwater of the charging pile shell can not be prevented from converging together when the charging pile is used, so that the situation that the rainwater drops to the charging pile interface occurs, namely when the charging pile shell is full of a large number of tiny water drops, the water drops at the high position of the charging pile shell can slide downwards under the action of gravity, so that the water drops along the way are converged together, the volume of the water drops is increased, the water drops are easily permeated into the charging port or the charging gun, and the situation such as electric leakage is caused.

Disclosure of Invention

Therefore, the embodiment of the invention provides an anti-creeping buried automobile charging pile, which solves the problems that in the prior art, when a large amount of tiny water drops are stained on a charging pile shell, the water drops at the high position of the charging pile shell slide downwards under the action of gravity so as to gather the water drops along the way, and the volume of the water drops is increased, so that the water drops are easy to permeate into a charging port or a charging gun.

In order to achieve the above object, the embodiments of the present invention provide the following technical solutions:

the utility model provides an anticreep buries formula car fills electric pile, includes buries storehouse and installs the lifting unit who buries the storehouse bottom in buries the lifting unit's top is connected with fills electric pile main part, buries the lateral wall in storehouse and installs the rain-proof cover, and buries the top surface in storehouse and offer sealed pad groove, the inner wall of buries the storehouse has offered the mounting groove in the below region in sealed pad groove install the dewatering unit in the mounting groove, just the below region in mounting groove has offered the fixed slot install the air-dry dehumidification subassembly in the fixed slot;

the water removal assembly comprises a spring push top seat, a rolling belt, an installation cover positioned in an installation groove and a movable frame connected in the installation cover, wherein two rotating shafts with two ends connected with the movable frame are arranged in the rolling belt, the rotating shafts are positioned at two ends of the rolling belt, a supporting plate installed on the movable frame is arranged between the two rotating shafts, the side wall of the supporting plate is connected with a push wheel through the spring push top seat, the outer side wall of the rolling belt is connected with a water removal cotton belt, and one side surface of the installation cover, which is close to the rain shield, is connected with a push column penetrating through a buried bin.

As a preferable scheme of the invention, the spring ejection seat comprises a support cylinder with the end part connected with the support plate, wherein the support cylinder is connected with an ejection wheel mounting cylinder, and an ejection spring is arranged between the ejection wheel mounting cylinder and the support cylinder.

As a preferable scheme of the invention, a plurality of pulling sliding grooves are formed in the inner wall of the rain shield, a pushing column moving frame with an L-shaped cross section is connected in the pulling sliding grooves, a clamping boss is arranged on the side wall of one end of the pushing column moving frame, and a pushing inclined table with a right trapezoid cross section is arranged on the side wall of the other end of the pushing column moving frame.

As a preferable scheme of the invention, a positioning groove is formed in the lower area of the pulling chute on the inner wall of the rain shield, a positioning spring is arranged on the inner wall of the positioning groove, a positioning clamping table is arranged on the end face of the positioning spring, and a clamping table clamping groove is arranged on the surface of one side of the pushing column moving frame, which is close to the positioning clamping table.

As a preferable scheme of the invention, the cross section of the movable frame is of a U-shaped structure.

As a preferable scheme of the invention, the air-drying and dehumidifying assembly comprises a driving tooth column and an air guide mounting frame arranged on the inner wall of the fixed groove, a plurality of air-drying and dehumidifying cylinders are arranged on the air guide mounting frame, an air injection interlayer for injecting air into the air-drying and dehumidifying cylinders is arranged in the air guide mounting frame, and the driving tooth column is arranged on the inner wall of the bottom of the buried bin and is directly connected with the air-drying and dehumidifying cylinders.

As a preferable scheme of the invention, the air drying and dehumidifying cylinder comprises a hollow air guide column connected to an air guide mounting frame, one end of the hollow air guide column, which is close to a driving tooth column, is provided with a rotating gear connected with the driving tooth column, the inner wall of the hollow air guide column is provided with a plurality of air drying holes, and the side wall of the hollow air guide column is connected with the dehumidifying cylinder.

As a preferable scheme of the invention, a square through hole is formed in the upper surface of the rain shield, a sealing groove is formed in the inner wall of the square through hole, a rain shield block is arranged in the square through hole, a sealing piece groove is formed in the position, corresponding to the sealing groove, of the side wall of the rain shield block, a sealing spring is arranged in the sealing piece groove, and the end face of the sealing spring is connected with a sealing clamping block extending into the sealing piece groove.

As a preferable scheme of the invention, a pulling frame is arranged on the surface of one side of the rain shielding block, which is close to the charging pile main body, and the side walls of the two ends of the pulling frame are connected with a driving stair platform.

Embodiments of the present invention have the following advantages:

the equipment is provided with the water removal assembly and the buried bin, a user can hide the charging pile body in the buried bin which is in stable environment, so that the influence of external factors is reduced, the workload of maintenance personnel is reduced, and when the charging pile body moves up and down in the buried bin, the rolling belt and the water removal cotton belt are pushed by the push column to be clung to the charging pile shell, so that the sliding charging pile body moves with the rolling belt, then the water drops of the charging pile shell can be fully absorbed by the water removal cotton belt, and the situation that rainwater of the charging pile shell is gathered together and drops to a charging pile interface is avoided; meanwhile, after the charging pile body is hidden in the buried bin, the drying treatment of the charging pile shell is realized through the dehumidifying cylinder and the hollow air guide column, so that the humidity of the shell and the charging gun or the socket of the charging pile body is not too high when the charging pile body is in the buried bin for a long time, and the waterproof effect is further improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It will be apparent to those of ordinary skill in the art that the drawings in the following description are exemplary only and that other implementations can be obtained from the extensions of the drawings provided without inventive effort.

The structures, proportions, sizes, etc. shown in the present specification are shown only for the purposes of illustration and description, and are not intended to limit the scope of the invention, which is defined by the claims, so that any structural modifications, changes in proportions, or adjustments of sizes, which do not affect the efficacy or the achievement of the present invention, should fall within the ambit of the technical disclosure.

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present invention;

FIG. 2 is a top view of a mounting cup according to an embodiment of the present invention;

FIG. 3 is an enlarged view of FIG. 1 at A;

fig. 4 is a top view of an underground cabinet according to an embodiment of the present invention.

In the figure:

1-burying a bin; 2-lifting assembly; 3-a charging pile body; 4-a water removal assembly; 5-air drying and dehumidifying components; 6-a rain shield;

101-a gasket groove; 102-a mounting groove; 103-a fixed groove;

401-spring pushing the top seat; 402-mounting a cover; 403-a mobile frame; 404-rotating shaft; 405-rolling the belt; 406-a support plate; 407-ejector wheel; 408-dewatering cotton tape; 409-push jack; 410-a support cylinder; 411-push wheel mounting cylinder; 412-ejector springs;

501-driving a tooth column; 502-an air guide mounting rack; 503-air-drying a dehumidification cylinder; 504-gas injection interlayer; 505-hollow air guide column; 506-rotating the gear; 507-air drying holes; 508-a dehumidifying cylinder;

601-pulling a chute; 602-pushing column moving frame; 603-pushing the ramp; 604-positioning grooves; 605-positioning a spring; 606-positioning a clamping table; 607-a clamping groove of the clamping table; 608-passing through square holes; 609-sealing the groove; 610-a rain shield; 611-seal groove; 612—a seal spring; 613-sealing the clamping block; 614-pulling the frame; 615-drive landing; 616-detent projections.

Detailed Description

Other advantages and advantages of the present invention will become apparent to those skilled in the art from the following detailed description, which, by way of illustration, is to be read in connection with certain specific embodiments, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1, the invention provides an anti-creeping underground automobile charging pile, which can fully suck water drops attached to a charging pile shell when a charging pile main body 3 moves up and down in an underground bin 1 through a water removal component 4, so that rainwater of the charging pile shell is prevented from converging together, and the situation that the rainwater drops to a charging pile interface is avoided; meanwhile, after the charging pile body 3 is hidden in the buried bin 1, the drying treatment of the charging pile shell is realized through the dehumidifying cylinder 508 and the hollow air guide column 505, so that the humidity of the shell and the charging gun or the socket of the charging pile body is not too high when the charging pile body is in the buried bin for a long time, and the waterproof effect is further improved.

Including burying storehouse 1 and installing the lifting unit 2 in burying storehouse 1 bottom, this lifting unit 2 can make fill electric pile main part 3 in burying storehouse 1 and slide from top to bottom, and it can be preferably electric putter or hydraulic putter, and this lifting unit 2 when using, accessible external control ware (like singlechip controller etc.) controls, and the length, width and the height that just should bury storehouse 1 are greater than fill electric pile main part 3 so can realize fully waterproof operation fill electric pile shell fill electric pile main part 3 is connected with in lifting unit 2's top, fill electric pile main part 3 is installed to the lateral wall of storehouse 1, and fill electric pile groove 101 has been seted up on the top surface of storehouse 1 underground, fill electric pile main part 1's inner wall has seted up mounting groove 102 in the below region of sealing pile groove 101 install water removal subassembly 4 in mounting groove 102, just the below region of mounting groove 102 has seted up fixed slot 103 install air-dry dehumidification subassembly 5 in the fixed slot 103.

When a user needs to charge or finishes charging, the lifting component 2 can be controlled by the external controller to lift the charging pile body 3 out of or store the charging pile body 3 in the buried bin 1, and when the charging pile body 3 is lifted out of or store the charging pile body 3 in process, the water removing component 4 can be fully contacted with the shell of the charging pile body 3, so that water drops attached to the shell of the charging pile body 3 are removed, rainwater of the charging pile shell is prevented from gathering together, and the situation that the rainwater drops to a charging pile interface occurs; meanwhile, when the charging pile body 3 is hidden in the buried bin 1 for a long time, the air drying dehumidification assembly 5 can be used for reducing the moisture of the outer shell of the charging pile body 3, so that the humidity in the buried bin 1 is not too high, and the waterproof effect of the equipment is further improved.

The dewatering subassembly 4 includes spring pushing jack 401, the roll band 405, be located the mounting cup 402 of mounting groove 102 and connect the movable frame 403 in the mounting cup 402, this movable frame 403 is connected with the optional block of the connected mode of mounting cup 402, specifically, as shown in fig. 2, set up the spacing groove that carries out spacing to movable frame 403 at the inner wall of mounting groove 102, so just can make, when mounting cup 402 moves, the movable frame 403 can not move easily, thereby the condition that the slope falls out of mounting cup 402 appears, simultaneously because of the cross section of movable frame 403 personally submits the U font structure, so this movable frame 403 can be comparatively convenient take out, only can put forth mounting cup 402 with movable frame 403 with the use of pointing movable frame 403, this roll band 405 can select the material that has certain elasticity, such as elastic band or elasticity are great rubber etc. simultaneously this roll band 405 and spring pushing jack 401 all are provided with a plurality of, its not high surface (namely roll band 405 can not easily move through the condition that the body is different degree of rolling band 405 falls out of mounting cup 402, and can avoid the position to meet with the protruding pile body 405 when the rolling band 405 is different, thereby can not change the place with the protruding pile body 405 when the rolling band is pressed against the place, in addition, can avoid the place of rolling band 405 to contact with the protruding pile body 405 when the place is different in contact with the place with the protruding pile body 405, can be passed through the place with the protruding place, and the place can be contacted with the place with the protruding pile body 405.

Specifically, as shown in fig. 1, fig. 2 and fig. 3, a rotating shaft 404 with two ends connected with the movable frame 403 is disposed in the rolling belt 405, two rotating shafts 404 are disposed at two ends of the rolling belt 405, a supporting plate 406 mounted on the movable frame 403 is disposed between the two rotating shafts 404, a pushing wheel 407 is connected to a side wall of the supporting plate 406 through a spring pushing seat 401, a water-removing cotton belt 408 is connected to an outer side wall of the rolling belt 405, the water-removing cotton belt 408 and the rolling belt 405 are connected through a magic tape, so that a user can replace the water-removing cotton belt 408 conveniently, and a pushing column 409 penetrating through the buried cabin 1 is connected to a side surface of the mounting cover 402, which is close to the rain shield 6.

This dewatering subassembly 4 can get rid of the attached moisture of electric pile main part 3 shell, during its concrete operation, once lifting assembly 2 lifts electric pile main part 3 out of buries storehouse 1, then push up post 409 can push up mounting cover 402 and move towards electric pile main part 3, until antifriction zone 405 and dewatering cotton belt 408 fully with electric pile main part 3 shell contact, later when electric pile main part 3 reciprocates, can drive antifriction zone 405 and dewatering cotton belt 408 and move together (promptly antifriction zone 405 and dewatering cotton belt 408 slide along two axis of rotation 404, the principle of its motion is the same with the mode of belt, and make dewatering cotton belt 408 move, in order to avoid certain region of dewatering cotton belt 408 to absorb water always, the circumstances that leads to the excessive water to drop into buries storehouse 1 takes place), make dewatering cotton belt 408 fully absorb the moisture of electric pile main part 3 shell.

The spring pushing base 401 includes a supporting cylinder 410 with an end connected to the supporting plate 406, a push wheel mounting cylinder 411 is connected to the supporting cylinder 410, and a push spring 412 is mounted between the push wheel mounting cylinder 411 and the supporting cylinder 410.

The spring ejector 401 is provided to adjust the contact area and the contact tightness between the rolling belt 405 and the charging pile body 3, when the rolling belt 405 contacts with the charging pile body 3, the ejector wheel 407 is pressed to gradually slide along the supporting cylinder 410, at this time, the ejector spring 412 is compressed, that is, the elastic force of the ejector spring 412 is increased, so that the thrust force of the ejector wheel 407 is increased, that is, the contact tightness between the rolling belt 405 and the charging pile body 3 is greater, and the ejector wheel 407 pushes the rolling belt 405 to be bent to a reduced extent due to the sliding of the ejector wheel mounting cylinder 411 along the supporting cylinder 410, that is, the contact area between the rolling belt 405 and the charging pile body 3 is increased.

As shown in fig. 1 and 3, the inner wall of the rain shield 6 is provided with a plurality of pulling sliding grooves 601, a pushing column moving frame 602 with an L-shaped cross section is connected in the pulling sliding grooves 601, a clamping boss 616 is mounted on one end side wall of the pushing column moving frame 602, and a pushing inclined table 603 with a right trapezoid cross section is mounted on the other end side wall of the pushing column moving frame 602.

During specific operation, once the charging pile body 3 is pushed out of the buried bin 1, the charging pile moving frame 602 is pushed up by a part on the rain shield 6, and in the process of lifting the charging pile moving frame 602, the upper surface of the rain shield 6 is provided with four through square holes 608, the through square holes 608 and the sealing clamping blocks 613 are respectively provided with four sealing grooves 609, and in the through square holes 608, a sealing piece groove 611 is formed in a position corresponding to the sealing groove 609 on the side wall of the charging pile body 610, a sealing spring 612 is arranged in the sealing piece groove 611, and in the process of lifting the charging pile moving frame 602, when the sealing block 610 is clamped in the through square holes 608, the sealing spring 613 is pushed out by the sealing spring 612 so as to be clamped in the sealing groove 609, once the charging pile body 610 is pushed up by the charging pile body 608, the sealing piece groove 610 is pulled up by the inner wall of the sealing frame 608, and is not influenced by the sliding groove 603, and the sliding groove is easily pushed up by the sliding groove 602, and the charging pile body is not pushed up by the sealing pile body 602 along the direction of the sliding groove 603.

Because the pulling frame 614 is installed on the surface of the side of the rain shielding block 610, which is close to the charging pile main body 3, and the side walls of the two ends of the pulling frame 614 are both connected with the driving ladder stand 615, when the rain shielding block 610 ascends or descends, the pulling frame 614 moves along with the driving ladder stand 615, and because the driving ladder stand 615 is installed at the two ends of the pulling frame 614, the ascending or descending pulling frame 614 pushes the driving ladder stand 615 to push the push column moving frame 602 to ascend or descend along the pulling chute 601, when the push column moving frame 602 cannot move, if the rain shielding block 610 continues to move, the driving ladder stand 615 slides along the inclined surface of the clamping boss 616, so that the pulling frame 614 is slightly bent, and the rain shielding block 610 can normally slide out.

In this embodiment, in order to make the rain shielding block 610 normally move out of the square hole 608, a pulling table may be installed on the lower surface of the rain shielding block 610, a pulling cover for clamping the pulling table is installed on the upper surface of the charging pile body 3, when the charging pile body 3 rises, the pulling cover gradually clamps the pulling table so that the rain shielding block 610 is not easy to move after being ejected out, and when the rain shielding block 610 resets, the charging pile body 3 applies a force to the pulling table through the pulling cover so that the rain shielding block 610 can be normally clamped into the square hole 608, meanwhile, the position of the pushing column moving frame 602 can also be automatically reset, and then the charging pile body 3 is continuously pulled down, at this time, the rain shielding block 610 is clamped in the square hole 608, so that the pulling cover and the pulling table can be slowly separated, and the specific structures of the two can be shown in fig. 1.

As shown in fig. 1 and 3, the inner wall of the rain shield 6 is provided with a positioning groove 604 in the lower area of the pulling chute 601, a positioning spring 605 is installed on the inner wall of the positioning groove 604, a positioning clamping table 606 is installed on the end surface of the positioning spring 605, a clamping table clamping groove 607 is installed on one side surface of the pushing column moving frame 602, which is close to the positioning clamping table 606, and a plurality of clamping table clamping grooves 607 can be provided, so that the pushing column moving frame 602 can be fixed at different positions.

When the push column moving frame 602 slides to the point that the push column moving frame 602 cannot move continuously, in order to prevent the push column 409 from being reset (i.e. the degree of compaction of the contact between the rolling belt 405 and the charging pile body 3 is changed), the positioning spring 605 pushes the positioning clamping table 606 to be clamped in the clamping table clamping groove 607 when the push column moving frame 602 slides to the point that the push column moving frame 602 cannot move continuously, so that the push inclined table 603 always pushes the push column 409, i.e. the position of the rolling belt 405 cannot be changed easily.

As shown in fig. 1 and fig. 4, the air drying and dehumidifying assembly 5 includes a driving toothed column 501 and an air guiding mounting frame 502 mounted on the inner wall of the fixing groove 103, the air guiding mounting frame 502 is in a rectangular structure, and meanwhile, the driving toothed column 501 is preferably set to four, and the four driving toothed columns 501 are connected through pulleys, once one driving toothed column 501 is rotated, all driving toothed columns 501 are rotated.

Install a plurality of air-dry dehumidification section of thick bamboo 503 on air guide mounting bracket 502, this a plurality of air-dry dehumidification section of thick bamboo 503 can divide into four groups and install the upper surface at rectangular structure's air guide mounting bracket 502 according to sharp order respectively (i.e. with fill electric pile main part 3 peripheral surface laminating), and every group air-dry dehumidification section of thick bamboo 503 is provided with 6 at least air-dry dehumidification section of thick bamboo 503 simultaneously, and when 6 air-dry dehumidification section of thick bamboo 503 are installed according to sharp order, the rotation gear 506 on it is two-by-two meshing together, and be provided with the gas injection in the air guide mounting bracket 502 and get into the air injection intermediate layer 504 in the air-dry dehumidification section of thick bamboo 503, drive tooth post 501 install buried storehouse 1 bottom inner wall and with air-dry dehumidification section of thick bamboo 503 lug connection.

This air-dry dehumidification subassembly 5 when using, accessible gas injection device (such as external fan etc.) is in gas injection intermediate layer 504, and the gas in the gas injection intermediate layer 504 can be through air-dry dehumidification section of thick bamboo 503 discharge so that the moisture on the charge pile main part 3 shell is air-dried, and the user can make this moment drive tooth post 501 motion to take a plurality of air-dry dehumidification section of thick bamboo 503 to rotate simultaneously, and pivoted air-dry dehumidification section of thick bamboo 503 can be with the moisture on the charge pile main part 3 shell absorbed, when avoiding the moisture on the charge pile main part 3 shell to be air-dried from this, will great drop of water by the condition emergence of blowing in the interface of charging.

The air drying and dehumidifying cylinder 503 comprises an air guiding cylinder 505 connected to an air guiding mounting frame 502, the air guiding cylinder 505 is more connected to the air guiding mounting frame 502, the end of the air guiding cylinder 505 can be optionally penetrated into an air injecting interlayer 504 and movably connected to the air guiding mounting frame 502, one end of the air guiding cylinder 505, which is close to a driving tooth column 501, is provided with a rotating gear 506 connected with the driving tooth column 501, a plurality of air drying holes 507 are formed in the inner wall of the air guiding cylinder 505, and the side wall of the air guiding cylinder 505 is connected with a dehumidifying cylinder 508.

When the air drying and dehumidifying cylinder 503 is specifically operated, once the tooth post 501 is driven to drive one rotating gear 506 to move, the rotating gears 506 meshed with the side walls of the tooth post 501 also move, namely, when the rotating gears 506 meshed with the tooth post 501 are driven to move, all the rotating gears 506 move, then the hollow air guide post 505 is also driven, and when the hollow air guide post 505 rotates, the dehumidifying cylinder 508 also rotates, so that the moisture on the shell of the charging pile body 3 is absorbed, and meanwhile, the air in the air injection interlayer 504 is blown out through the air drying holes 507, so that the air drying and dehumidifying effect is better.

While the invention has been described in detail in the foregoing general description and specific examples, it will be apparent to those skilled in the art that modifications and improvements can be made thereto. Accordingly, such modifications or improvements may be made without departing from the spirit of the invention and are intended to be within the scope of the invention as claimed.

Claims

1. The utility model provides an anticreep buries formula car fills electric pile, its characterized in that, including buries storehouse (1) and installs lifting unit (2) in buries storehouse (1) bottom the top of lifting unit (2) is connected with fills electric pile main part (3), the rain-proof cover (6) is installed to the lateral wall of buries storehouse (1), and buries the top surface of storehouse (1) and has seted up sealed pad groove (101), the mounting groove (102) have been seted up in the below region in sealed pad groove (101) to the inner wall of buries storehouse (1) install dewatering subassembly (4) in mounting groove (102), just fixed slot (103) have been seted up in the below region of mounting groove (102) install air-dry dehumidification subassembly (5) in fixed slot (103);

the dewatering assembly (4) comprises a spring pushing seat (401), a rolling belt (405), an installation cover (402) positioned in an installation groove (102) and a movable frame (403) connected in the installation cover (402), wherein two rotating shafts (404) with two ends connected with the movable frame (403) are arranged in the rolling belt (405), the two rotating shafts (404) are positioned at two ends of the rolling belt (405), a supporting plate (406) installed on the movable frame (403) is arranged between the two rotating shafts (404), the side wall of the supporting plate (406) is connected with a pushing wheel (407) through the spring pushing seat (401), the outer side wall of the rolling belt (405) is connected with a dewatering cotton belt (408), and one side surface of the installation cover (402) close to a rain shield (6) is connected with a pushing column (409) penetrating through a buried bin (1);

a plurality of pulling sliding grooves (601) are formed in the inner wall of the rain shield (6), a pushing column moving frame (602) with an L-shaped cross section is connected in the pulling sliding grooves (601), a clamping boss (616) is arranged on one end side wall of the pushing column moving frame (602), and a pushing inclined table (603) with a right trapezoid cross section is arranged on the other end side wall of the pushing column moving frame (602);

the air drying and dehumidifying assembly (5) comprises a driving tooth column (501) and an air guide mounting frame (502) arranged on the inner wall of the fixed groove (103), a plurality of air drying and dehumidifying drums (503) are arranged on the air guide mounting frame (502), an air injection interlayer (504) for injecting air into the air drying and dehumidifying drums (503) is arranged in the air guide mounting frame (502), and the driving tooth column (501) is arranged on the inner wall of the bottom of the buried bin (1) and is directly connected with the air drying and dehumidifying drums (503);

the air drying and dehumidifying cylinder (503) comprises a hollow air guide column (505) connected to an air guide mounting frame (502), one end of the hollow air guide column (505) close to a driving tooth column (501) is provided with a rotating gear (506) connected with the driving tooth column (501), the inner wall of the hollow air guide column (505) is provided with a plurality of air drying holes (507), and the side wall of the hollow air guide column (505) is connected with a dehumidifying cylinder (508).

2. The anti-creeping underground automobile charging pile according to claim 1, wherein the spring pushing base (401) comprises a supporting cylinder (410) with an end connected with the supporting plate (406), a pushing wheel mounting cylinder (411) is connected in the supporting cylinder (410), and a pushing spring (412) is mounted between the pushing wheel mounting cylinder (411) and the supporting cylinder (410).

3. The anti-creeping underground automobile charging pile according to claim 1, wherein a positioning groove (604) is formed in the lower area of the pulling chute (601) on the inner wall of the rain shield (6), a positioning spring (605) is mounted on the inner wall of the positioning groove (604), a positioning clamping table (606) is mounted on the end face of the positioning spring (605), and a clamping table clamping groove (607) is mounted on one side surface of the pushing column moving frame (602) close to the positioning clamping table (606).

4. An anti-creeping buried car charging pile according to claim 1, characterized in that the cross section of the movable frame (403) is of a U-shaped structure.

5. The anti-creeping underground automobile charging pile according to claim 1, wherein a square through hole (608) is formed in the upper surface of the rain shield (6), a sealing groove (609) is formed in the inner wall of the square through hole (608), a rain shielding block (610) is mounted in the square through hole (608), a sealing groove (611) is formed in the position, corresponding to the sealing groove (609), of the side wall of the rain shielding block (610), a sealing spring (612) is mounted in the sealing groove (611), and a sealing clamping block (613) extending into the sealing groove (611) is connected to the end face of the sealing spring (612).

6. The anti-creeping buried automobile charging pile according to claim 5, wherein a pulling frame (614) is mounted on a surface of one side of the rain shielding block (610) close to the charging pile main body (3), and two side walls of the pulling frame (614) are connected with driving terraces (615).