CN107554322B - Multi-gun automatic identification and error correction processing system and method for alternating-current charging pile and charging pile - Google Patents

Abstract

The invention relates to an alternating current charging pile multi-gun automatic identification error correction processing system and method and a charging pile. The signal acquisition module receives a gun number of a charging gun, user information and order information selected by a user; the information distribution processing module processes the received information to obtain classified information; the automatic identification error correction module processes the classification information and creates a classification information table; the automatic identification error correction module judges whether the gun number of the charging gun of the feedback signal is consistent with the gun number of the charging gun selected by the user; if the charging gun number is consistent with the charging gun number, setting the charging gun number in a locking state; if the charging gun number is inconsistent with the actual charging gun number, the actually connected charging gun number is automatically adjusted and displayed, and the actually connected charging gun number is set to be in a locking state. By implementing the invention, the control of the random placement and random plugging of the charging gun with one gun and multiple guns is realized, and the troubles that a user returns the charging gun to a wrong position, selects the wrong gun, cannot charge, deducts wrong fees, cannot stop charging, cannot leave and the like are effectively solved.

Description

Multi-gun automatic identification and error correction processing system and method for alternating-current charging pile and charging pile

Technical Field

The invention relates to the field of charging automobiles, in particular to a multi-gun automatic identification and error correction processing system and method for an alternating-current charging pile and the charging pile.

Background

Under the large background of global energy crisis and serious environmental crisis, in order to relieve the increasingly serious energy crisis and environmental pollution, the automobile industry develops towards the directions of cleanness, environmental protection and energy conservation, and the electric automobile is taken as a green vehicle with wide development prospect, so that the popularization speed is extremely rapid in the future, and the market prospect in the future is also extremely huge. The development of energy-saving and new energy automobiles is an important measure for reducing the fuel consumption of automobiles, relieving the contradiction between fuel supply and demand, reducing exhaust emission, improving atmospheric environment, promoting the technical progress of automobile industry and optimizing and upgrading.

China highly attaches importance to the development of electric automobiles, and a series of standards are developed in succession in China to support and standardize the development of electric automobiles. However, the electric automobile has a long way to walk in order to realize large-area popularization in China, and a plurality of problems need to be solved. Such as: the electric pile that fills who lays in the market does not possess the electronic lock function basically, leads to the rifle that charges to place everywhere, random plug, and the rifle state information that charges is not known can monitor platform. The electric pile of filling of a stake bigun of laying on the market has the phenomenon that the A rifle still arrives B rifle seat position, what lead to A car settlement to stop is that the B car charges, and the B rifle can be pulled out, and the A rifle can't be pulled out, and what cause the A car to deduct is the expense of B car, and the A car must wait that B car owner's card swiping ends to charge just can pull out the rifle, otherwise can't pull out the rifle, can't leave. The invention realizes the multi-gun automatic identification and error correction method for the charging pile, and can effectively solve the problems.

Disclosure of Invention

The invention aims to solve the technical problems that in the prior art, users can not charge the alternating-current charging pile by mistake due to the fact that the position of a charging gun is changed, the gun is selected by mistake, the charging cannot be stopped, the charging cannot leave the charging pile and the like, and provides an alternating-current charging pile multi-gun automatic identification error correction processing system, method and charging pile.

The technical scheme adopted by the invention for solving the technical problems is as follows: a multi-gun automatic identification and error correction processing system of an alternating current charging pile is constructed, and comprises: a signal acquisition module, an information distribution processing module, an automatic identification error correction module and an electronic lock processing module, wherein,

the signal acquisition module receives a gun number of a charging gun, user information and order information selected by a user, and transmits the acquired information to the information distribution processing module;

the information distribution processing module judges, processes and classifies the received information according to a preset algorithm to obtain classification information, and sends the classification information to the automatic identification error correction module;

the automatic identification error correction module processes the classification information, creates a classification information table and sends the classification information table to the electronic lock processing module;

the electronic lock processing module controls an electronic lock to lock and unlock a charging gun according to the instruction of the classification information table, and returns a feedback signal of the electronic lock to the automatic identification error correction module; the automatic identification error correction module judges whether the gun number of the charging gun of the feedback signal is consistent with the gun number of the charging gun selected by the user;

if the charging gun number is consistent with the charging gun number, sending a successful connection prompt message, and setting the charging gun number to be in a locking state; if the charging gun number is inconsistent with the actual charging gun number, the actually connected charging gun number is automatically adjusted and displayed, a successful connection prompt message is sent, and the actually connected charging gun number is set to be in a locking state.

Preferably, the system for automatically identifying and correcting the errors of the multiple guns of the alternating-current charging pile comprises a signal acquisition module and a signal processing module, wherein the signal acquisition module comprises: the system comprises an IC card information acquisition unit for reading IC card information, an order information acquisition unit for acquiring order information, a user information packaging unit for acquiring user information and a man-machine interaction unit for man-machine interaction.

Preferably, in the system for automatically identifying and correcting the multiple charging guns of the alternating-current charging pile, the human-computer interaction unit is a touch screen human-computer interaction unit and is used for receiving selection information of a user, displaying connection state information of the charging guns, displaying use state information and displaying prompt information of the user.

Preferably, the system for automatically identifying and correcting the multiple guns of the alternating-current charging pile further comprises: and the monitoring platform is used for receiving the order information and the user identity identification information, wherein the user identity identification information comprises a gun number of the charging gun, the user information and the order information which are connected.

In addition, the invention also provides an automatic multi-gun identification and error correction processing method for the alternating-current charging pile, which comprises the following steps:

s1: the signal acquisition module acquires a gun number of a charging gun, user information and order information selected by a user, and transmits the acquired information to the information distribution processing module;

s2: the information distribution processing module judges, processes and classifies the received information according to a preset algorithm to obtain classification information, and sends the classification information to the automatic identification error correction module;

s3: the automatic identification error correction module processes the classification information, creates a classification information table and sends the classification information table to the electronic lock processing module;

s4: the electronic lock processing module controls an electronic lock according to the instruction of the classification information table, detects a feedback signal of the electronic lock, and returns the feedback signal of the electronic lock to the automatic identification error correction module, and the electronic lock is used for controlling locking and unlocking of the charging gun;

s5: the automatic identification error correction module judges whether the gun number of the charging gun of the feedback signal is consistent with the gun number of the charging gun selected by the user;

s6: if the charging gun number is consistent with the charging gun number, the touch screen man-machine interaction unit sends out a prompt message of successful connection, and the gun number of the charging gun is set to be in a locking state;

s7: if the charging gun number is inconsistent with the actual charging gun number, the touch screen man-machine interaction unit automatically adjusts and displays the charging gun number actually connected by the user, sends a prompt message of successful connection, and sets the actually connected charging gun number to be in a locking state.

Preferably, the method for automatically identifying and correcting the errors of the multiple guns of the alternating-current charging pile further comprises the following steps:

s8: and uploading the user identification information to a monitoring platform, wherein the connected gun number of the charging gun, the user information and the order information are used as the user identification information.

Preferably, in the method for automatically identifying and correcting the errors of the multiple guns in the ac charging pile of the present invention, the step S6 includes:

s61: unlocking a hanging seat corresponding to a charging gun number according to the charging gun number selected by a receiving user;

s62: returning a first feedback signal after the charging gun is inserted into the vehicle, and locking a hanging seat corresponding to the gun number of the charging gun;

s63: judging whether the gun number of the charging gun returned by the first feedback signal is consistent with the gun number of the charging gun selected by the user, and if so, swiping the card to start charging;

s64: and after the charging gun is disconnected from the vehicle, a second feedback signal is returned to unlock the hanging seat corresponding to the gun number of the charging gun, and after the charging gun is inserted back into the hanging seat, the hanging seat is locked again.

Preferably, in the method for automatically identifying and correcting the errors of the multiple guns in the ac charging pile of the present invention, the step S7 includes:

s71: unlocking a hanging seat corresponding to a charging gun number according to the charging gun number selected by a receiving user;

s72: returning a third feedback signal after the charging gun is inserted into the vehicle, and judging whether the gun number of the charging gun returned by the third feedback signal is consistent with the gun number of the charging gun selected by the user;

s73: and if the gun number is inconsistent with the charging gun number, automatically modifying the gun number selected by the user into the returned charging gun number.

Preferably, the method for automatically identifying and correcting the errors of the multiple guns of the alternating-current charging pile further comprises the following steps:

s74: if the charging gun does not exist on the hanging seat corresponding to the charging gun number selected by the receiving user, prompt information is sent to prompt the user to search the charging gun corresponding to the charging gun number on other hanging seats of the charging pile.

In addition, the present invention also provides an ac charging pile, including: a memory and a processor, wherein,

the memory to store program instructions;

the processor is used for executing the multi-gun automatic identification and error correction processing method of the alternating-current charging pile according to the program instructions stored in the memory.

The system and the method for the automatic multi-gun identification and error correction of the alternating-current charging pile and the charging pile have the following beneficial effects that: the signal acquisition module receives a gun number of a charging gun, user information and order information selected by a user; the information distribution processing module processes the received information to obtain classified information; the automatic identification error correction module processes the classification information and creates a classification information table; the automatic identification error correction module judges whether the gun number of the charging gun of the feedback signal is consistent with the gun number of the charging gun selected by the user; if the charging gun number is consistent with the charging gun number, setting the charging gun number in a locking state; if the charging gun number is inconsistent with the actual charging gun number, the actually connected charging gun number is automatically adjusted and displayed, and the actually connected charging gun number is set to be in a locking state. By implementing the invention, the control of the random placement and random plugging of the charging gun with one gun and multiple guns is realized, and the troubles that a user returns the charging gun to a wrong position, selects the wrong gun, cannot charge, deducts wrong fees, cannot stop charging, cannot leave and the like are effectively solved.

Drawings

The invention will be further described with reference to the accompanying drawings and examples, in which:

FIG. 1 is a schematic structural diagram of an AC charging pile multi-gun automatic identification and error correction processing system according to the present invention;

FIG. 2 is a schematic diagram of the signal acquisition module of the present invention;

FIG. 3 is a schematic flow chart of a multi-gun automatic identification and error correction processing method for an AC charging pile according to the present invention;

FIG. 4 is a flowchart illustrating step S6 of the error correction processing method of the present invention;

FIG. 5 is a flowchart illustrating step S7 of the error correction processing method of the present invention;

fig. 6a, fig. 6b and fig. 6c are schematic structural diagrams of an embodiment of the error correction processing method of the present invention.

Detailed Description

For a more clear understanding of the technical features, objects and effects of the present invention, embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

Fig. 1 is a schematic structural diagram of an ac charging pile multi-gun automatic identification and error correction processing system according to the present invention.

Specifically, this alternating-current charging stake rifle automatic identification error correction processing system includes: the system comprises a signal acquisition module 10, an information distribution processing module 20, an automatic identification error correction module 30 and an electronic lock processing module 40, wherein the input end of the signal acquisition module 10 is respectively connected with a card reader module and a monitoring platform protocol analysis module, the output end of the signal acquisition module 10 is connected with the automatic identification error correction module 30 through the information distribution processing module 20, and the automatic identification error correction module 30 is connected with the electronic lock processing module 40.

The signal acquisition module 10 receives the gun number of the charging gun, the user information and the order information selected by the user, and transmits the acquired information to the information distribution processing module 20.

Preferably, fig. 2 is a schematic structural diagram of the signal acquisition module of the present invention, and the signal acquisition module 10 includes: an IC card information acquisition unit 101 for reading IC card information, an order information acquisition unit 102 for acquiring order information, a user information packaging unit 103 for acquiring user information, and a human-computer interaction unit 104 for human-computer interaction. Preferably, the human-computer interaction unit 104 is a touch screen human-computer interaction unit, and is configured to receive selection information of a user, display connection state information of the charging gun, display use state information, and display user prompt information.

The information distribution processing module 20 judges, processes and classifies the received information according to a preset algorithm to obtain classification information, and sends the classification information to the automatic identification error correction module 30.

The automatic identification and error correction module 30 processes the classification information and creates a classification information table, and transmits the classification information table to the electronic lock processing module 40.

The electronic lock processing module 40 completes electronic lock control and information processing, controls the electronic lock to lock and unlock the charging gun according to the instruction of the classification information table, and returns a feedback signal of the electronic lock to the automatic identification error correction module 30; the automatic identification error correction module 30 determines whether the gun number of the charging gun of the feedback signal is consistent with the gun number of the charging gun selected by the user. If the gun number, the user information and the order information are consistent, the gun number, the user information and the order information are bound as user identification information, a touch screen man-machine interaction unit in the signal acquisition module 10 is informed, the touch screen man-machine interaction unit sends out a connection success prompt message, and the gun number is set to be in a locking state, namely the authority of the gun number is changed into an unselected state (in charging). If the actual connection state of the charging gun number is inconsistent with the actual connection state of the charging gun number, the system automatically changes the actual connection state of the charging gun number to the charging gun number selected by the user on the touch display screen, sends out a successful connection prompt message and sets the actual connection state of the charging gun number to be in a locking state.

Preferably, the system for automatically identifying and correcting the multiple guns of the alternating-current charging pile further comprises: and the signal acquisition module 10 of the monitoring platform sends the user identity identification information to the monitoring platform, and the multi-gun self-identification error correction process is ended. The monitoring platform is used for receiving order information and user identity identification information, wherein the user identity identification information comprises a connected charging gun number, user information and order information.

Fig. 3 is a schematic flow chart of a multi-gun automatic identification and error correction processing method for an ac charging pile according to the present invention.

Specifically, the multi-gun automatic identification and error correction processing method for the alternating-current charging pile comprises the following steps:

s1: the signal acquisition module 10 acquires a gun number of a charging gun, user information and order information selected by a user, and transmits the acquired information to the information distribution processing module 20;

s2: the information distribution processing module 20 judges, processes and classifies the received information according to a preset algorithm to obtain classification information, and sends the classification information to the automatic identification error correction module 30;

s3: the automatic identification error correction module 30 processes the classification information and creates a classification information table, and sends the classification information table to the electronic lock processing module 40;

s4: the electronic lock processing module 40 controls the electronic lock according to the instruction of the classification information table, detects a feedback signal of the electronic lock, and returns the feedback signal of the electronic lock to the automatic identification error correction module 30, wherein the electronic lock is used for controlling the locking and unlocking of the charging gun;

s5: the automatic identification error correction module 30 determines whether the gun number of the charging gun of the feedback signal is consistent with the gun number of the charging gun selected by the user;

s6: if the charging gun number is consistent with the charging gun number, the touch screen man-machine interaction unit sends out a prompt message of successful connection, and the gun number of the charging gun is set to be in a locking state. The automatic identification and error correction module 30 binds the charging gun number with the user information and the order information as user identification information, and informs the touch screen man-machine interaction unit in the signal acquisition module 10, and the touch screen man-machine interaction unit prompts the charging gun to be successfully connected.

Preferably, fig. 4 is a schematic flow chart of step S6 of the error correction processing method of the present invention, and step S6 includes:

s61: unlocking a hanging seat corresponding to the charging gun number according to the charging gun number selected by the receiving user;

s62: returning a first feedback signal after the charging gun is inserted into the vehicle, and locking a hanging seat corresponding to the gun number of the charging gun;

s63: judging whether the gun number of the charging gun returned by the first feedback signal is consistent with the gun number of the charging gun selected by the user, and if so, swiping the card to start charging;

s64: and after the charging gun is disconnected from the vehicle, a second feedback signal is returned, the hanging seat corresponding to the gun number of the charging gun is unlocked, and after the charging gun is inserted back into the hanging seat, the hanging seat is locked again.

S7: if the charging gun number is inconsistent with the preset charging gun number, the touch screen man-machine interaction unit automatically adjusts and displays the charging gun number actually connected by the user, sends a successful connection prompt message and sets the actually connected charging gun number to be in a locking state. The automatic identification error correction module 30 binds the charging gun number with the user information and the order information as user identification information and informs the touch screen human-computer interaction unit in the signal acquisition module 10, the touch screen human-computer interaction unit prompts the charging gun number actually connected by the user, and the system automatically changes the charging gun number of the display interface of the touch screen human-computer interaction unit into the charging gun number actually selected (used) by the user. And the touch screen human-computer interaction unit prompts the charging gun to be successfully connected.

Preferably, fig. 5 is a schematic flow chart of step S7 of the error correction processing method of the present invention, and step S7 includes:

s71: unlocking a hanging seat corresponding to the charging gun number according to the charging gun number selected by the receiving user;

s72: returning a third feedback signal after the charging gun is inserted into the vehicle, and judging whether the gun number of the charging gun returned by the third feedback signal is consistent with the gun number of the charging gun selected by the user;

s73: and if the gun number is inconsistent with the charging gun number, automatically modifying the gun number selected by the user into the returned charging gun number.

S74: if the charging gun does not exist on the hanging seat corresponding to the charging gun number selected by the receiving user, prompt information is sent out to prompt the user to search the charging gun corresponding to the charging gun number on other hanging seats of the charging pile. The gun body of each charging gun is provided with a charging gun number.

S8: and uploading the user identification information to a monitoring platform, wherein the connected gun number of the charging gun, the user information and the order information are used as the user identification information.

Fig. 6a, fig. 6b and fig. 6c are schematic structural diagrams of an embodiment of the error correction processing method of the present invention.

As shown in fig. 6a and 6b, the gun numbers of the charging guns displayed on the interface correspond to the hanging seats one by one.

Displaying: number 1-seat a-plate a-gun;

displaying: no. 2-seat-B-plate-gun B;

displaying: no. 3-C base-C plate-C gun;

displaying: number 4-base-plate-gun-D;

1. when the charging gun head is inserted back into the hanging seat under the idle condition, the electronic lock of the hanging seat locks the gun head immediately.

2. The user selects No. 1, the A plate is unlocked, the user pulls out the A gun, and the A seat is vacated

3. The gun A is inserted into the vehicle end, the seat A is locked immediately after the connection is normal, other gun bodies are prevented from being inserted (if the gun electronic lock is pulled out for unlocking), and the charging is started by swiping a card.

4. And after the charging is finished, the A base is unlocked, the A gun is inserted back into the A base, the electronic lock locks the A gun head, and the charging is finished.

Abnormal gun selection/return flow:

1. gun numbers 1 and 2 are charging as shown in fig. 6B, the correct flow is gun a back to seat a, gun B back to seat B. However, if an error occurs when the gun is inserted back into the corresponding seat after the charging is finished, as shown in fig. 6c, the gun a is inserted back into the seat B, and the gun B is inserted back into the seat a (to name one example).

2. No. 1- -seat A- -plate A- -gun B;

no. 2-seat-B-plate-gun a;

3. the user selects gun No. 1 again to charge, and the A plate controls to unlock the A seat and pull out the B gun to charge.

4. After the user inserts the gun, the B board recognizes that the gun body is inserted, considers that a charging connection event exists, and feeds back the charging gun number to the self-recognition error correction module.

5. The charging gun number self-recognition error correction module judges that the selected gun number 1 is inconsistent with the returned actually inserted gun number 2, mainly returns the inserted gun number 2, switches the gun number selected by the No. 1 and automatically changes the No. 1 selected by the user into the No. 2.

6. If other users charge the gun, the No. 1 gun is idle but the gun body A is not on the A seat, the touch screen interface prompts the user that the gun A is on other gun seats, and informs the electronic lock processing module to match the user to find the gun, the user can find the No. 1 gun (the corresponding gun number is on each charging gun) through the gun number, and if the user still pulls out the wrong gun, the user continues to return to the initial position of the automatic identification error correction process.

In addition, the present invention also provides an ac charging pile, including: a memory and a processor, wherein,

a memory for storing program instructions;

and the processor is used for executing the multi-gun automatic identification and error correction processing method of the alternating current charging pile according to the program instructions stored in the memory.

By implementing the invention, the control of the random placement and random plugging of the charging gun with one gun and multiple guns is realized, and the troubles that a user returns the charging gun to a wrong position, selects the wrong gun, cannot charge, deducts wrong fees, cannot stop charging, cannot leave and the like are effectively solved.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and are intended to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the scope of the present invention. All equivalent changes and modifications made within the scope of the claims of the present invention should be covered by the claims of the present invention.

Claims (7)

1. The utility model provides an alternating-current charging stake rifle automatic identification error correction processing system which characterized in that includes: a signal acquisition module (10), an information distribution processing module (20), an automatic identification error correction module (30) and an electronic lock processing module (40), wherein,

the signal acquisition module (10) receives the gun number of the charging gun, the user information and the order information selected by the user, and transmits the acquired information to the information distribution processing module (20);

the information distribution processing module (20) judges, processes and classifies the received information according to a preset algorithm to obtain classification information, and sends the classification information to the automatic identification error correction module (30);

the automatic identification error correction module (30) processes the classification information, creates a classification information table and sends the classification information table to the electronic lock processing module (40);

the electronic lock processing module (40) controls the electronic lock to lock and unlock the charging gun according to the instruction of the classification information table, and returns a feedback signal of the charging gun to the automatic identification error correction module (30); the automatic identification error correction module (30) judges whether the gun number of the charging gun of the feedback signal is consistent with the gun number of the charging gun selected by the user;

if the charging gun number is consistent with the charging gun number, sending a successful connection prompt message, and setting the charging gun number to be in a locking state; if the charging gun number is inconsistent with the actual charging gun number, the actually connected charging gun number is automatically adjusted and displayed, a successful connection prompt message is sent, and the actually connected charging gun number is set to be in a locking state.

2. The AC charging post multi-gun automatic identification and correction processing system according to claim 1, wherein the signal acquisition module (10) comprises: the system comprises an IC card information acquisition unit (101) for reading IC card information, an order information acquisition unit (102) for acquiring order information, a user information packaging unit (103) for acquiring user information, and a man-machine interaction unit (104) for man-machine interaction.

3. The system of claim 2, wherein the human-computer interaction unit (104) is a touch screen human-computer interaction unit for receiving user selection information, displaying connection status information of charging guns, displaying use status information, and displaying user prompt information.

4. The system for processing the multi-gun automatic identification and correction of the AC charging pile according to claim 1 or 2, further comprising: the monitoring platform is used for receiving user identification information, wherein the user identification information comprises a gun number of a charging gun, user information and order information which are connected.

5. The method for automatically identifying and correcting the fault of the multiple guns of the alternating-current charging pile is characterized by comprising the following steps of:

s1: the signal acquisition module (10) acquires the gun number of the charging gun, the user information and the order information selected by the user, and transmits the acquired information to the information distribution processing module (20);

s2: the information distribution processing module (20) judges, processes and classifies the received information according to a preset algorithm to obtain classification information, and sends the classification information to the automatic identification error correction module (30);

s3: the automatic identification error correction module (30) processes the classification information, creates a classification information table and sends the classification information table to the electronic lock processing module (40);

s4: the electronic lock processing module (40) controls the electronic lock according to the instruction of the classification information table, detects a feedback signal of the charging gun and returns the feedback signal of the charging gun to the automatic identification error correction module (30), and the electronic lock is used for controlling the locking and unlocking of the charging gun;

s5: the automatic identification error correction module (30) judges whether the gun number of the charging gun of the feedback signal is consistent with the gun number of the charging gun selected by the user;

s6: if the charging gun number is consistent with the charging gun number, the touch screen man-machine interaction unit sends out a prompt message of successful connection, and the gun number of the charging gun is set to be in a locking state;

s7: if the charging gun number is inconsistent with the actual charging gun number, the touch screen man-machine interaction unit automatically adjusts and displays the charging gun number actually connected by the user, sends a prompt message of successful connection, and sets the actually connected charging gun number to be in a locking state.

6. The AC charging post multi-gun automatic identification and error correction processing method as claimed in claim 5, further comprising:

s8: and uploading the user identification information to a monitoring platform, wherein the connected gun number of the charging gun, the user information and the order information are used as the user identification information.

7. An alternating current charging pile, comprising: a memory and a processor, wherein,

the memory to store program instructions;

the processor is used for executing the method for processing the automatic multi-gun identification and error correction of the alternating current charging pile according to any one of claims 5 to 6 according to the program instructions stored in the memory.

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