CN117962666A - Easy-maintenance direct-current double-gun anti-occupation standby low-power consumption charging pile - Google Patents

Abstract

The invention relates to the technical field of charging piles, in particular to an easy-maintenance direct-current double-gun space-occupation-prevention standby low-power-consumption charging pile, wherein the inner side wall, the rear wall and the front wall of the top of a support frame positioned at two sides of a charging pile body are respectively provided with a side hole shaft hole and a sleeve hole, a motor I is fixed on the rear wall of the top end of the support frame, the middle part of a transmission part is sleeved in the sleeve hole in a rotating way, and the rear end of the transmission part is fixedly connected with a power output shaft of the motor I; the bottom end of the rear part of the L-shaped storage shell is fixed at the front end of the transmission member, one side of the end shell of the front end of the L-shaped storage shell is provided with a side plate which can be opened and closed, and a cable sequentially and correspondingly passes through the side holes, the inner cavity of the transmission member and the inner cavity of the L-shaped storage shell from two sides of the charging pile body and is then assembled and connected with the charging gun in the end shell; the control system comprises an order module, a rotation control module and an opening and closing control module; the problem that the corresponding parking space of the charging pile is easy to be occupied by a non-new energy automobile is well solved.

Description

Easy-maintenance direct-current double-gun anti-occupation standby low-power consumption charging pile

Technical Field

The invention relates to the technical field of charging piles, in particular to a direct-current double-gun space occupation prevention standby low-power consumption charging pile which is easy to maintain.

Background

With the development of electric vehicles, the demand for public charging devices is increasing. The development of electric vehicles is a huge system engineering, which comprises the aspects of power battery pack production, electric vehicle production, matched charging system construction, whole vehicle and accessory maintenance and the like. The matched charging system is an indispensable supporting system, and is similar to a gas station of a traditional fuel automobile, and is a prerequisite for popularization of electric vehicles.

The commonly used charging piles are classified into direct current charging piles and alternating current charging piles. The input voltage of the direct current charging pile is 380V, the power is generally above 60kw, and the full-power state only needs 20-150 minutes. The direct current charging pile is suitable for scenes with higher requirements on charging time, such as operation car charging stations of taxis, buses, logistics cars and the like, and public charging piles of passenger cars.

At present, many charging stations in the market do not monitor the charging pile and the parking space where the charging pile is located, so that the parking space with the charging pile is often occupied by a non-new energy automobile, and the electric automobile cannot be charged.

Disclosure of Invention

The invention aims to provide a direct-current double-gun space occupation prevention standby low-power consumption charging pile which is easy to maintain and is used for solving the problem that a parking space corresponding to the charging pile in the prior art is easy to be occupied by a non-new energy automobile.

In order to achieve the above purpose, the present invention provides the following technical solutions: the direct-current double-gun stand-by low-power consumption charging pile comprises a charging pile body, a cable, a charging gun and a control system arranged in an inner cavity of the charging pile body, wherein the supporting frame is positioned at two sides of the charging pile body, side holes are formed in the top of the supporting frame and close to the side wall of the charging pile body, sleeve holes and shaft holes are correspondingly formed in the front wall and the rear wall of the top of the supporting frame respectively, a motor is fixed at the position, corresponding to the shaft holes, of the rear wall of the supporting frame, and a transmission piece is a cylindrical shell structure with the middle part sleeved in the sleeve holes in a rotating mode and the rear end fixedly connected with a power output shaft of the motor; the bottom end of the rear part of the L-shaped storage shell is fixed at the front end of the transmission piece, the front end of the L-shaped storage shell is provided with an end shell, one side of the end shell is provided with an openable side plate, and the charging gun is arranged in the inner cavity of the end shell; the cables respectively pass through the side holes, the inner cavity of the transmission part and the inner cavity of the L-shaped storage shell from two sides of the charging pile body in sequence correspondingly and are then assembled and connected with the charging gun in the end shell; the control system comprises an order module for acquiring parking rights of a charging parking space and selecting a charging socket position, a rotation control module for controlling the motor to rotate by 90 degrees after acquiring the parking rights of the charging parking space and selecting the charging socket position, and an opening and closing control module for controlling the openable side plate to open after the motor rotates by 90 degrees.

Preferably, the support frame comprises a support column and a box body fixed at the top end of the support column, and the side holes, the shaft holes and the sleeve holes are respectively formed in the side wall, the rear wall and the front wall of the box body.

Preferably, the transmission part comprises a disc arranged in the inner cavity of the box body and fixedly sleeved at the front end of a power output shaft of the motor, a cylinder with the rear end sleeved in the sleeve hole in a rotating mode, an arc-shaped connecting plate fixedly connected between the outer side of the front wall of the disc and the outer side of the rear end of the cylinder, and a connecting plate I fixed at the front end of the cylinder and fixedly connected with the bottom end of the rear part of the L-shaped storage shell.

Preferably, the L-shaped storage housing further comprises a first housing, a second housing with a rear end fixed to a front wall at a top end of the first housing, and a second connecting plate fixed to a rear wall at a bottom end of the first housing and fixedly connected with the first connecting plate.

Preferably, an open structure is arranged on one side wall of the shell and the side wall of the two rear ends of the shell, and a detachable side plate is detachably fixed at the open structure.

Preferably, the back wall of the inner cavity of the end part shell is fixed with a supporting plate near the bottom, the top surface of the supporting plate is fixed with a second motor, the bottom end of the power output shaft of the second motor is fixedly sleeved with an L-shaped connecting piece, the other end of the L-shaped connecting piece is fixed at the position near the back end of the inner side wall of the openable side plate, and the second motor is electrically connected with the openable control module.

Preferably, the inner side wall of the openable side plate is fixed with a clamping seat for clamping the charging gun.

Preferably, a protection shell is arranged between the side wall of the charging pile body and the side wall of the box body, connecting rings are respectively fixed at two ends of the protection shell, the connecting rings at one end of the protection shell are fixed at positions corresponding to the through holes of the charging pile body and the cable by screws, and the connecting rings at the other end of the protection shell are fixed at the positions corresponding to the side walls of the box body and the side holes by screws.

Preferably, the control system further comprises a central control module, a network module and a display screen module, wherein the network module and the display screen module are electrically connected with the central control module, the network module is in signal connection with a client, the order module, the settlement module, the rotation control module and the opening and closing control module are respectively in electrical signal connection with the central control module, and the display screen module is used for displaying preset two-dimension codes, payment two-dimension codes and charging process related information.

Preferably, the order module comprises an online reservation unit for acquiring the parking right of the charging parking space and carrying out online payment through the client, a scanning reservation unit for acquiring the parking right of the charging parking space and carrying out payment through scanning a two-dimensional code displayed on the display screen module, and a charging selection unit for providing a charging socket azimuth selection interface, and the settlement module comprises a charging unit for accounting charging cost, an online payment unit for providing an online payment interface according to the charging cost, and a code scanning payment unit for generating a two-dimensional code for payment on the display screen module according to the charging cost.

Compared with the prior art, the invention has the beneficial effects that:

1. the direct-current double-gun space occupation prevention standby low-power consumption charging pile with easy maintenance can be used for performing space occupation prevention management on two charging parking spaces through the L-shaped storage shell, and the L-shaped storage shell can be used for storing cables and charging guns, so that the maintenance is easy.

2. The direct-current double-gun space occupation prevention standby low-power consumption charging pile which is easy to maintain is in a standby state at any time, and can perform online and on-site code scanning operation, so that convenience of reservation operation of a charging parking space is improved; the charging operation of two new energy vehicles can be simultaneously satisfied, and the experience of new energy automobile owners is greatly improved.

Drawings

FIG. 1 is a schematic perspective view of the whole structure of the present invention;

FIG. 2 is an enlarged schematic view of the structure of FIG. 1A according to the present invention;

FIG. 3 is a schematic perspective view of a support frame according to the present invention;

FIG. 4 is a schematic perspective view of the protective housing of the present invention;

FIG. 5 is a schematic perspective view of a driving member according to the present invention;

fig. 6 is a schematic perspective view of an L-shaped housing case according to the present invention;

FIG. 7 is a schematic diagram of a control system of the present invention;

FIG. 8 is an internal schematic diagram of an order module of the present invention;

fig. 9 is an internal schematic diagram of the settlement module of the present invention.

In the figure: 1-charging a pile body;

2-a cable;

3-charging gun;

4-supporting frames; 4.1-struts; 4.2-a box body; 4.2.1-side holes; 4.2.2-shaft holes; 4.2.3-trepanning;

5-a protective housing; 5.1-connecting ring;

6-motor one;

7-a transmission member; 7.1-discs; 7.2-arc-shaped connecting plates; 7.3-cylinder; 7.4-connecting plate one;

An 8-L-shaped storage case; 8.1-first housing; 8.2-a second shell; 8.3-end housing; 8.4-openable side panels; 8.5-supporting plates; a 6-L shaped connector; 8.7-motor two; 8.8-a clamping seat; 8.9-connecting the plate II; 8.10-removable side panels;

9-a central control module; 9.1-an order module; 9.1.1-predetermined units on line; 9.1.2-scanning a predetermined unit; 9.1.3-a charge selection unit; 9.2-network module; 9.3-client; 9.4-settlement module; 9.4.1 charging units; 9.4.2-an online payment unit; 9.4.3-code scanning payment unit; 9.5-a rotation control module; 9.6-a display screen module; 9.7-an opening and closing control module.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, 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.

Referring to fig. 1-9, the invention provides a technical scheme, which is easy to maintain, and a direct current double-gun anti-occupation standby low-power consumption charging pile, comprising a charging pile body 1, a cable 2, a charging gun 3 and a control system arranged in an inner cavity of the charging pile body 1. The charging pile body 1 is arranged at the rear end position of the middle parts of two adjacent new energy parking spaces.

The support frame 4 is located the both sides that fill electric pile body 1, and the lateral wall that is close to filling electric pile body 1 at support frame 4 top is equipped with side opening 4.2.1, and the front and back wall at support frame 4 top corresponds respectively to be equipped with trepanning 4.2.3 and shaft hole 4.2.2, and motor one 6 is fixed in the position that support frame 4 back wall corresponds with shaft hole 4.2.2. The supporting frame 4 comprises a supporting column 4.1 and a box body 4.2 fixed at the top end of the supporting column 4.1, and side holes 4.2.1, shaft holes 4.2.2 and sleeve holes 4.2.3 are respectively formed in the side wall, the rear wall and the front wall of the box body 4.2. The bottom ends of the struts 4.1 are respectively fixed at the rear ends of the middle parts of the single parking spaces by using foundation bolts.

The transmission part 7 comprises a disc 7.1 which is arranged in the inner cavity of the box body 4.2 and fixedly sleeved at the front end of the power output shaft of the motor 7, a cylinder 7.3 which is rotatably sleeved in the sleeve hole 4.2.3 at the rear end, an arc-shaped connecting plate 7.2 which is fixedly connected between the outer side of the front wall of the disc 7.1 and the outer side of the rear end of the cylinder 7.3, and a connecting plate 7.4 which is fixedly arranged at the front end of the cylinder 7.3. The arc-shaped connecting plate 7.2 not only can meet the requirement of fixed connection between the disc 7.1 and the cylinder 7.3, but also can not interfere and apply force to the cable 2 when the whole transmission piece 7 swings 90 degrees along with the motor I6.

The L-shaped storage shell 8 comprises a first shell 8.1, a second shell 8.2, an end shell 8.3 and a second connecting plate 8.9, wherein the rear end of the second shell is fixed on the front wall of the top end of the first shell 8.1, the end shell 8.3 is arranged at the front end of the second shell 8.2, and the second connecting plate 8.9 is fixed on the rear wall of the bottom end of the first shell 8.1 and fixedly connected with the first connecting plate 7.4. An openable side plate 8.4 is arranged on one side of the end part shell 8.3. The back wall of the inner cavity of the end part shell 8.3 is fixed with a supporting plate 8.5 near the bottom, the top surface of the supporting plate 8.5 is fixed with a motor II 8.7, the bottom end of the power output shaft of the motor II 8.7 is fixedly sleeved with an L-shaped connecting piece 8.6, and the other end of the L-shaped connecting piece 8.6 is fixed at the position near the back end of the inner side wall of the openable side plate 8.4

The charging gun 3 is arranged in the inner cavity of the end part shell 8.3. The cable 2 respectively passes through the side holes 4.2.1, the inner cavity of the transmission part 7 and the inner cavity of the L-shaped storage shell 8 from two sides of the charging pile body 1 in sequence and is assembled and connected with the charging gun 3 in the end shell 8.3.

The control system comprises an order module 9.1 for acquiring the parking right of the charging parking space and selecting the charging socket position, a rotation control module 9.5 for controlling the motor I6 to rotate by 90 degrees after acquiring the parking right of the charging parking space and selecting the charging socket position, and an opening and closing control module 9.7 for controlling the openable and closable side plate 8.4 to be opened after the motor I6 rotates by 90 degrees. The control system further comprises a central control module 9, a network module 9.2 and a display screen module 9.6 which are electrically connected with the central control module 9, wherein the network module 9.2 is in signal connection with a client 9.3, an order module 9.1, a settlement module 9.4, a rotation control module 9.5 and an opening and closing control module 9.7 are respectively electrically connected with the central control module 9, and the display screen module 9.6 is used for displaying preset two-dimension codes, payment two-dimension codes and charging process related information. The order module 9.1 includes an online reservation unit 9.1.1 for acquiring the parking right of the charging parking space and performing online payment through the client 9.3, a scanning reservation unit 9.1.2 for acquiring the parking right of the charging parking space and performing payment through displaying a two-dimensional code on the scanning display screen module 9.6, a charging selection unit 9.1.3 for providing a charging socket orientation selection interface, the settlement module 9.4 includes a charging unit 9.4.1 for accounting charging fees, an online payment unit 9.4.2 for providing an online payment interface according to the charging fees, and a code scanning payment unit 9.4.3 for generating a two-dimensional code for payment on the display screen module 9.6 according to the charging fees, and the second motor 8.7 is electrically connected with the opening and closing control module 9.7. The client 9.3 is a mobile phone APP.

In order to facilitate the cable 2 to pass through the first shell 8.1 and the second shell 8.2, the side wall of the first shell 8.1 and the side wall of the rear end of the second shell 8.2 are provided with open structures, and the detachable side plates 8.10 are detachably fixed at the open structures. Namely, when the cable 2 is required to be installed, the detachable side plate 8.10 is detached from the first shell 8.1 and the second shell 8.2, so that the cable 2 can be conveniently inserted from the opening.

In order to facilitate the fixed storage of the charging pile 3, a clamping seat 8.8 for clamping the charging gun 3 is fixed on the inner side wall of the openable side plate 8.4.

In order to protect the cable between the support frame 4 and the charging pile body 1, a protection shell 5 is arranged between the side wall of the charging pile body 1 and the side wall of the box body 4.2, connecting rings 5.1 are respectively fixed at two ends of the protection shell 5, the connecting ring 5.1 at one end of the protection shell 5 is fixed at the position corresponding to the side wall of the charging pile body 1 and the perforation of the cable by adopting screws, and the connecting ring 5.1 at the other end of the protection shell 5 is fixed at the position corresponding to the side wall of the box body 4.2 and the side hole 4.2.1 by adopting screws.

In summary, when in use, the client 9.3 can charge on line for reservation, and the two-dimensional code on the field general scanning display screen module 9.6 can also acquire the charging authority. Through the selection of the charging socket orientation of the charging selection unit 9.1.3, the rotation control module 9.5 correspondingly controls the motor I6 to swing left or right by 90 degrees, so that after the L-shaped storage shell 8 integrally swings by 90 degrees, the end shell 8.3 is arranged on the corresponding side of the charging socket of the new energy automobile. The opening and closing control module 9.7 controls the second motor 8.7 to rotate, so that the openable and closable side plate 8.4 swings and opens, the charging gun 3 rotates out of the inner cavity of the end part shell 3 along with the openable and closable side plate 8.4, and therefore the charging gun 3 is conveniently taken down from the master-slave clamping seat 8.8, and the redundant cable 2 is pulled out for charging operation.

After the charging is finished, the charging gun 3 is clamped on the clamping seat 8.8 again, and then the motor II 8.7 rotates reversely, so that the openable side plate 8.4 is restored to the closed state. After the payment is completed through the online payment unit 9.4.2 or the code scanning payment unit 9.4.3 and the vehicle is driven away, the first motor 6 rotates by 90 degrees, so that the second 8.2 part and the end 8.3 part of the L-shaped storage shell 8 swing to the position right above the middle part of the parking space again, and the parking space is prevented from being occupied by a non-charged vehicle.

The control system is also required to integrate the modules such as license plate scanning, shooting and radar detection which are commonly used at present, and the modules are used for identifying and starting related programs when a vehicle with preset charging arrives, so that the parking space is in a parking state. When the vehicle is driven away, detection can be carried out, and related programs can be started in time, so that the parking space is in an anti-occupation state.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. Easy maintenance direct current double gun prevents occupying standby low-power consumption fills electric pile, including filling electric pile body (1), cable (2), rifle (3) and locating fill the control system of electric pile body (1) inner chamber, its characterized in that still includes:

The support frame (4), support frame (4) are located the both sides of filling pile body (1), the lateral wall that is close to filling pile body (1) in support frame (4) top is equipped with side opening (4.2.1), the front and back wall of support frame (4) top corresponds respectively and is equipped with trepanning (4.2.3) and shaft hole (4.2.2);

the motor I (6) is fixed at a position corresponding to the shaft hole (4.2.2) on the rear wall of the support frame (4);

The transmission piece (7), the transmission piece (7) is a cylindrical shell structure with the middle part sleeved in the trepanning (4.2.3) in a rotating way and the rear end fixedly connected with the power output shaft of the motor I (6);

The charging gun comprises an L-shaped storage shell (8), wherein the bottom end of the rear part of the L-shaped storage shell (8) is fixed at the front end of a transmission piece (7), the front end of the L-shaped storage shell (8) is provided with an end shell (8.3), one side of the end shell (8.3) is provided with an openable side plate (8.4), and the charging gun (3) is arranged in an inner cavity of the end shell (8.3);

The cable (2) sequentially penetrates through the side holes (4.2.1), the inner cavity of the transmission part (7) and the inner cavity of the L-shaped storage shell (8) from two sides of the charging pile body (1) respectively and correspondingly and then is assembled and connected with the charging gun (3) in the end shell (8.3);

The control system comprises an order module (9.1) for acquiring the parking right of the charging parking space and selecting the direction of the charging socket, a rotation control module (9.5) for controlling the motor I (6) to rotate by 90 degrees after acquiring the parking right of the charging parking space and selecting the direction of the charging socket, and an opening and closing control module (9.7) for controlling the openable side plate (8.4) to open after the motor I (6) rotates by 90 degrees.

2. The easy-maintenance direct-current double-gun space-occupation-prevention standby low-power-consumption charging pile according to claim 1, wherein the low-power-consumption charging pile is characterized in that: the support frame (4) comprises a support column (4.1) and a box body (4.2) fixed at the top end of the support column (4.1), and the side holes (4.2.1), the shaft holes (4.2.2) and the sleeve holes (4.2.3) are respectively formed in the side wall, the rear wall and the front wall of the box body (4.2).

3. The easy-maintenance direct-current double-gun space-occupation-prevention standby low-power-consumption charging pile according to claim 2, wherein the low-power-consumption charging pile is characterized in that: the transmission piece (7) comprises a disc (7.1) which is arranged in the inner cavity of the box body (4.2) and fixedly sleeved at the front end of the power output shaft of the motor I (6), a cylinder (7.3) which is rotatably sleeved at the rear end of the sleeve hole (4.2.3), an arc-shaped connecting plate (7.2) which is fixedly connected between the outer side of the front wall of the disc (7.1) and the outer side of the rear end of the cylinder (7.3), and a connecting plate I (7.4) which is fixedly connected with the front end of the cylinder (7.3) and the rear bottom end of the L-shaped storage shell (8).

4. The easy-maintenance direct-current double-gun space-occupation-prevention standby low-power-consumption charging pile according to claim 3, wherein the low-power-consumption charging pile is characterized in that: the L-shaped storage shell (8) further comprises a first shell (8.1), a second shell (8.2) with the rear end fixed to the front wall of the top end of the first shell (8.1) and a second connecting plate (8.9) fixed to the rear wall of the bottom end of the first shell (8.1) and fixedly connected with the first connecting plate (7.4).

5. The easy-maintenance direct-current double-gun space-occupation-prevention standby low-power-consumption charging pile according to claim 4, wherein the low-power-consumption charging pile is characterized in that: the side wall of the first shell (8.1) and the side wall of the rear end of the second shell (8.2) are provided with an open structure, and a detachable side plate (8.10) is detachably fixed at the open structure.

6. The easy-maintenance direct-current double-gun space-occupation-prevention standby low-power-consumption charging pile according to claim 1, wherein the low-power-consumption charging pile is characterized in that: the end shell is characterized in that a supporting plate (8.5) is fixed on the rear wall of the inner cavity of the end shell (8.3) close to the bottom, a motor II (8.7) is fixed on the top surface of the supporting plate (8.5), an L-shaped connecting piece (8.6) is sleeved at the bottom end fixing of a power output shaft of the motor II (8.7), the other end of the L-shaped connecting piece (8.6) is fixed at the position, close to the rear end, of the inner side wall of the openable side plate (8.4), and the motor II (8.7) is electrically connected with the opening and closing control module (9.7).

7. The easy-maintenance direct-current double-gun space-occupation-prevention standby low-power-consumption charging pile according to claim 1, wherein the low-power-consumption charging pile is characterized in that: the inside wall of the openable side plate (8.4) is fixed with a clamping seat (8.8) for clamping the charging gun (3).

8. The easy-maintenance direct-current double-gun space-occupation-prevention standby low-power-consumption charging pile according to claim 2, wherein the low-power-consumption charging pile is characterized in that: the utility model discloses a protection casing, including protection casing (5), box (4.2) are equipped with between the electric pile body (1) lateral wall with box (4.2) lateral wall, the both ends of protection casing (5) are fixed with go-between (5.1) respectively, go-between (5.1) of protection casing (5) one end adopt the fix with screw charge pile body (1) lateral wall and the position that the cable perforation corresponds, just go-between (5.1) of protection casing (5) other end adopt the fix with screw be in box (4.2) lateral wall with the position that side opening (4.2.1) corresponds.

9. The easy-maintenance direct-current double-gun space-occupation-prevention standby low-power-consumption charging pile according to claim 1, wherein the low-power-consumption charging pile is characterized in that: the control system further comprises a central control module (9), a network module (9.2) and a display screen module (9.6), wherein the network module (9.2) is electrically connected with the central control module (9), the network module (9.2) is electrically connected with a client (9.3), the order module (9.1), the settlement module (9.4), the rotation control module (9.5) and the opening and closing control module (9.7) are electrically connected with the central control module (9) respectively, and the display screen module (9.6) is used for displaying preset two-dimension codes, payment two-dimension codes and charging process related information.

10. The easy-maintenance direct-current double-gun space-occupation-prevention standby low-power-consumption charging pile according to claim 9, wherein the low-power-consumption charging pile is characterized in that: the order module (9.1) comprises an online reservation unit (9.1.1) for acquiring the parking right of the charging parking space and carrying out online payment through the client (9.3), a scanning reservation unit (9.1.2) for acquiring the parking right of the charging parking space and carrying out payment through scanning a two-dimension code displayed on the display screen module (9.6), a charging selection unit (9.1.3) for providing a charging socket orientation selection interface, and the settlement module (9.4) comprises a charging unit (9.4.1) for accounting charging fees, an online payment unit (9.4.2) for providing an online payment interface according to the charging fees and a code scanning payment unit (9.4.3) for generating a two-dimension code for payment on the display screen module (9.6) according to the charging fees.