CN114655057A - Intelligent charging method and system for new energy charging pile - Google Patents

Abstract

The application discloses an intelligent charging method and system of a new energy charging pile, which are used for improving the utilization efficiency of the charging pile. The method comprises the following steps: acquiring first information of a first user, wherein the first information comprises first charging position information and first charging time period information; searching a second user meeting a preset condition according to the first information; establishing a shared charging group of a first user and a second user; acquiring a selection instruction of a shared charging group; binding the shared charging group and the target charging pile according to the selection instruction; acquiring a target charging instruction of a target charging pile; judging whether the target charging instruction is a first charging instruction or a second charging instruction; and if the target charging instruction is the first charging instruction or the second charging instruction, opening the charging state of the target charging pile to the first user or the second user so that the first user or the second user can perform charging operation.

Description

Intelligent charging method and system for new energy charging pile

Technical Field

The application relates to the field of electric automobile charging, in particular to an intelligent charging method and system of a new energy charging pile.

Background

With the rise of new energy development, electric automobiles are more and more widely used in life. Generally, an electric vehicle refers to a vehicle that uses a battery as an energy source, and converts electric energy into mechanical energy through a controller, a motor and other components to move so as to control the current and change the speed.

The charging pile is charging equipment for providing charging service for the electric automobile. Along with electric automobile's increase, also increase day by day to the demand of filling electric pile, but the quantity of filling electric pile is limited to electric automobile needs certain time when using to fill electric pile to charge, if electric automobile can not the off-peak charging, will lead to filling electric pile can not obtain rational utilization, causes to fill electric pile utilization efficiency low, thereby further aggravate the difficult problem of electric automobile charging, has influenced user's experience.

Disclosure of Invention

The application provides an intelligent charging method and system of a new energy charging pile, which are used for improving the utilization efficiency of the charging pile.

The application provides a first aspect of an intelligent charging method for a new energy charging pile, which comprises the following steps:

acquiring first information of a first user, wherein the first information comprises first charging position information and first charging time period information;

searching a second user meeting a preset condition according to the first information, wherein the preset condition is that a second charging time interval of the second user is not overlapped with a first charging time interval, and the distance between a second charging position of the second user and the first charging position is smaller than a preset distance;

establishing a shared charging group for the first user and the second user;

acquiring a selection instruction of the shared charging group, wherein the selection instruction carries identification information of a target charging pile;

binding the shared charging group and the target charging pile according to the selection instruction;

acquiring a target charging instruction of the target charging pile;

judging whether the target charging instruction is a first charging instruction or a second charging instruction, wherein the first charging instruction is a charging instruction sent by the first user in a first charging period, and the second charging instruction is a charging instruction sent by the second user in a second charging period;

if the target charging instruction is the first charging instruction or the second charging instruction, opening the charging state of the target charging pile to the first user or the second user so that the first user or the second user can perform charging operation.

Optionally, after the binding the shared charging group and the target charging pile according to the binding instruction, the method further includes:

judging whether the target charging pile has a residual charging time period or not according to the users in the shared charging group;

if the target charging pile has a residual charging time period, adding a third user into a shared charging group, wherein the third charging time period of the third user is located in the residual charging time period, and the distance between the third charging position of the third user and the target charging pile is smaller than the preset distance;

the determining whether the target charging instruction is the first charging instruction or the second charging instruction comprises:

judging whether the target charging instruction is the first charging instruction, the second charging instruction or the third charging instruction, wherein the third charging instruction is a charging instruction sent by the third user in the third charging period;

if the target charging instruction is the first charging instruction or the second charging instruction, opening the charging state of the target charging pile to the first user or the second user, so that the first user or the second user performs a charging operation, including:

if the target charging instruction is a first charging instruction, a second charging instruction or a third charging instruction, opening the charging state of the target charging pile to the first user, the second user or the third user so that the first user, the second user or the third user can perform charging operation.

Optionally, after the determining whether the target charging instruction is the first charging instruction, the second charging instruction, or the third charging instruction, the method further includes:

if the target charging instruction is not a first charging instruction and the first charging instruction is not obtained in the first charging period, opening the charging state of the target charging pile in the first charging period to a fourth user so that the fourth user can perform charging operation;

or the like, or a combination thereof,

if the target charging instruction is not a second charging instruction and the second charging instruction is not acquired in the second charging period, opening the charging state of the target charging pile in the second charging period to the fourth user so that the fourth user performs charging operation;

or the like, or a combination thereof,

if the target charging instruction is not a third acting instruction and the third charging instruction is not acquired in the third charging period, opening the charging state of the target charging pile in the third charging period to the fourth user so that the fourth user performs charging operation.

Optionally, the obtaining the selection instruction of the shared charging group includes:

acquiring a bindable shared charging pile within a preset range;

and acquiring the identification electricity price of the shared charging pile, so that the first user and the second user generate and send a selection instruction according to the identification electricity price.

Optionally, after the opening the charging state of the target charging pile to the first user or the second user so that the first user or the second user performs a charging operation, the method further includes:

detecting whether the battery connected with the target charging pile is in a full-charge state or not;

if so, sending a power-off instruction to the target charging pile so as to enable the target charging pile to be automatically powered off.

Optionally, after detecting whether the battery connected to the target charging pile is in a full-charge state, the method further includes:

if not, detecting whether the charging power of the target charging pile is in a safe state;

if not, sending a power-off instruction to the target charging pile so as to enable the target charging pile to be powered off automatically.

The application second aspect provides a new forms of energy fill electric pile's intelligent charging system, includes:

the first acquiring unit is used for acquiring first information of a first user, wherein the first information comprises first charging position information and first charging time interval information;

the searching unit is used for searching a second user meeting a preset condition according to the first information, wherein the preset condition is that a second charging time interval of the second user is not overlapped with a first charging time interval, and the distance between a second charging position of the second user and the first charging position is smaller than a preset distance;

the establishing unit is used for establishing a shared charging group of the first user and the second user;

the second acquisition unit is used for acquiring a selection instruction of the shared charging group, wherein the selection instruction carries identification information of a target charging pile;

the binding unit is used for binding the shared charging group and the target charging pile according to the selection instruction;

the third acquisition unit is used for acquiring a target charging instruction of the target charging pile;

the first judging unit is used for judging whether the target charging instruction is a first charging instruction or a second charging instruction, wherein the first charging instruction is a charging instruction sent by the first user in a first charging period, and the second charging instruction is a charging instruction sent by the second user in a second charging period;

a first opening unit, configured to open a charging state of the target charging pile to the first user or the second user if the target charging instruction is the first charging instruction or the second charging instruction, so that the first user or the second user performs a charging operation.

Optionally, the intelligent charging system further comprises:

the second judging unit is used for judging whether the target charging pile has a residual charging time period according to the users in the shared charging group;

the joining unit is used for joining a third user into a shared charging group if the target charging pile has a residual charging time period, wherein the third charging time period of the third user is within the residual charging time period, and the distance between the third charging position of the third user and the target charging pile is smaller than the preset distance;

the first judging unit is specifically configured to:

judging whether the target charging instruction is the first charging instruction, the second charging instruction or the third charging instruction, wherein the third charging instruction is a charging instruction sent by the third user in the third charging period;

the first open cell is specifically configured to:

if the target charging instruction is a first charging instruction, a second charging instruction or a third charging instruction, opening the charging state of the target charging pile to the first user, the second user or the third user so that the first user, the second user or the third user can perform charging operation.

Optionally, the intelligent charging system further comprises:

a second opening unit, configured to open a charging state of the target charging pile in the first charging period to a fourth user if the target charging instruction is not a first charging instruction and the first charging instruction is not obtained in the first charging period, so that the fourth user performs a charging operation;

or the like, or, alternatively,

the charging system is used for opening the charging state of the target charging pile in the second charging time period to the fourth user if the target charging instruction is not a second charging instruction and the second charging instruction is not acquired in the second charging time period, so that the fourth user performs charging operation;

or the like, or, alternatively,

and if the target charging instruction is not a third acting instruction and the third charging instruction is not acquired in the third charging period, opening the charging state of the target charging pile in the third charging period to the fourth user, so that the fourth user performs charging operation.

Optionally, the second obtaining unit is specifically configured to:

acquiring a bindable shared charging pile within a preset range;

and acquiring the identification electricity price of the shared charging pile, so that the first user and the second user generate and send a selection instruction according to the identification electricity price.

Optionally, the intelligent charging system further comprises:

the third judging unit is used for judging whether the battery connected with the target charging pile is in a full-charge state or not;

and the first power-off unit is used for sending a power-off instruction to the target charging pile if the target charging pile is powered off, so that the target charging pile is powered off automatically.

Optionally, the intelligent charging system further comprises:

the detection unit is used for detecting whether the charging power of the target charging pile is in a safe state or not if the charging power of the target charging pile is not in the safe state;

and the second power-off unit is used for sending a power-off instruction to the target charging pile if the target charging pile is not powered off, so that the target charging pile is powered off automatically.

The third aspect of the present application provides an intelligent charging system for a new energy charging pile, the system including:

the device comprises a processor, a memory, an input and output unit and a bus;

the processor is connected with the memory, the input and output unit and the bus;

the memory stores a program, and the processor calls the program to execute the intelligent charging method for the new energy charging pile according to any one of the first aspect and the second aspect.

A fourth aspect of the present application provides a computer-readable storage medium, where a program is stored, and when the program is executed on a computer, the method for intelligently charging a new energy charging pile, which is optional in any one of the first aspect and the first aspect, is executed.

According to the technical scheme, the method has the following advantages: acquiring first information of a first user, wherein the first information comprises position information and first charging time interval information, searching a second user meeting preset conditions in a preset range according to the first information, and the second condition is that a second charging time interval of the second user is not coincident with the first charging time interval; assembling a shared charging group of a first user and a second user; acquiring a selection instruction of a shared charging group, wherein the selection instruction carries identification information of a target charging pile; binding the shared charging group and the target charging pile according to the selection instruction; acquiring a target charging instruction of a target charging pile; and if the target charging instruction is the first charging instruction or the second charging instruction, opening the charging state of the target charging pile to the first user or the second user so that the first user or the second user can carry out charging operation. By the method, the charging state of the target charging pile is opened to the first user in the first charging period, and the charging state of the target charging pile is opened to the second user in the second charging period, so that the first user and the second user can use the charging pile by peak, the target charging pile is reasonably utilized, and the use efficiency of the charging pile is improved.

Drawings

In order to more clearly illustrate the technical solutions in the present application, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic flowchart of an embodiment of an intelligent charging method for a new energy charging pile according to the present application;

fig. 2 is a schematic flowchart of another embodiment of an intelligent charging method for a new energy charging pile according to the present application;

fig. 3 is a schematic structural diagram of an embodiment of an intelligent charging system of a new energy charging pile according to the present application;

fig. 4 is a schematic structural diagram of another embodiment of an intelligent charging system of a new energy charging pile according to the present application;

fig. 5 is a schematic structural diagram of an embodiment of an intelligent charging system of a new energy charging pile provided by the present application.

Detailed Description

The application provides an intelligent charging method and system of a new energy charging pile, which are used for improving the use efficiency of the charging pile.

It should be noted that the intelligent charging method for the new energy charging pile provided by the application can be applied to a terminal and can also be applied to a server, for example, the terminal can be a fixed terminal such as a smart phone or a computer, a tablet computer, a smart television, a smart watch, a portable computer terminal and a desktop computer. For convenience of explanation, the terminal is taken as an execution subject for illustration in the present application.

Referring to fig. 1, fig. 1 is a diagram illustrating an embodiment of an intelligent charging method for a new energy charging pile according to the present application, where the method includes:

101. the method comprises the steps that a terminal obtains first information of a first user, wherein the first information comprises first charging position information and first charging time period information;

in this embodiment, a first user needs to download a shared charging pile APP at a first terminal or open a shared charging pile applet through the first terminal, and fill in first information on the shared charging pile APP or the shared charging pile applet through the first terminal, where the first information includes first charging position information and first charging time period information, and after the filling is successful, the first terminal sends the first information to the terminal through a wired or wireless network, and the terminal obtains the first information, where the first information includes the first charging position information and the first charging time period information.

102. The terminal searches a second user meeting a preset condition according to the first information, wherein the preset condition is that a second charging time interval of the second user is not overlapped with a first charging time interval, and the distance between a second charging position of the second user and the first charging position is smaller than a preset distance;

in this embodiment, the terminal searches for a second user meeting a preset condition according to the first charging location information and the first charging period information in the first information, where a second charging period filled by the second user does not coincide with a charging period of the first user, and a distance between a second charging location selected by the second user and the first charging location of the first user is less than a preset distance. For example: the preset distance is 500 meters, the first charging time period is 8: 00-10: 00, the first charging position is market A, and if the charging time period of user B is 10: 00-12: 00, the distance between the charging position filled by the user B and the market A is 200 meters, the charging time period of the user C is 1:00-3:00, the distance between the charging position filled by the user C and the market A is 600 meters, and the second user is determined to be the user B.

103. The terminal establishes a shared charging group of a first user and a second user;

in this embodiment, the terminal allocates the first user and the second user to the same shared charging group.

104. The method comprises the steps that a terminal obtains a selection instruction of a shared charging group, wherein the selection instruction carries identification information of a target charging pile;

in this embodiment, after the first user and the second user in the shared charging group determine the target charging pile, the first user and the second user send a selection instruction to the terminal, and the terminal obtains the selection instruction of the shared charging group, where the selection instruction carries identification information of the target charging pile, so that the terminal determines the target charging pile according to the identification information.

105. The terminal binds the shared charging group and the target charging pile according to the selection instruction;

in this embodiment, the terminal determines the target charging pile according to the identifier of the target charging pile carried in the selection instruction, and binds the shared charging group and the target charging pile. Therefore, the first user in the shared charging group has the priority of preferentially using the target charging pile in the first charging period and the second user in the second charging period.

106. The method comprises the steps that a terminal obtains a target charging instruction of a target charging pile;

in this embodiment, when a user needs to use the target charging pile to perform a charging operation, the user needs to send a target charging instruction to the terminal, and the terminal determines the target charging pile according to the target charging instruction, where the target charging instruction includes identification information of the target charging pile, identity information of the user, and charging period information required by the user. The user can obtain the identification information of the target charging pile by scanning the two-dimensional code set on the target charging pile.

107. The terminal judges whether a target charging instruction is a first charging instruction or a second charging instruction, wherein the first charging instruction is a charging instruction sent by a first user in a first charging period, and the second charging instruction is a charging instruction sent by a second user in a second charging period;

in this embodiment, the terminal determines whether to open the charging state of the target charging pile according to the target charging instruction, and when the target charging instruction is a first charging instruction sent by a first user in a first charging period or a second charging instruction sent by a second user in a second charging period, the terminal opens the charging state of the target charging pile, so that priority of use of the first user and the second user in the shared charging group on the target charging pile in the first charging period and the second charging period is ensured. If the charging command is the first charging command or the second charging command, the terminal executes step 108, and if the charging command is not the first charging command or the second charging command, the terminal ends the process.

108. If the target charging instruction is a first charging instruction or a second charging instruction, the terminal opens the charging state of the target charging pile to the first user or the second user so that the first user or the second user can perform charging operation;

in this embodiment, if the terminal receives a first charging instruction sent by a first user within a first charging period, the terminal opens the charging state of the target charging pile to the first user, so that the first user performs a charging operation; and if the terminal receives a second charging instruction sent by the second user in a second charging time period, the terminal opens the charging state of the target charging pile to the second user so that the second user performs charging operation. For example: the first charging time interval is 8:00 to 10:00, and if the terminal receives a first charging instruction sent by the first user from 8:00 to 10:00, the terminal opens the charging state of the target charging pile to the first user so that the first user can perform charging operation.

In this embodiment, a terminal acquires first information of a first user, where the first information includes location information and first charging period information, searches for a second user meeting a preset condition within a preset range according to the first information, and the second condition is that a second charging period of the second user does not coincide with the first charging period; assembling a shared charging group of a first user and a second user; acquiring a selection instruction of a shared charging group, wherein the selection instruction carries identification information of a target charging pile; binding the shared charging group and the target charging pile according to the selection instruction; acquiring a target charging instruction of a target charging pile; and if the target charging instruction is the first charging instruction or the second charging instruction, opening the charging state of the target charging pile to the first user or the second user so that the first user or the second user can carry out charging operation. By the method, the charging state of the target charging pile is opened to the first user in the first charging period, and the charging state of the target charging pile is opened to the second user in the second charging period, so that the first user and the second user can use the charging pile by peak, the target charging pile is reasonably utilized, and the use efficiency of the charging pile is improved.

Referring to fig. 2, fig. 2 is a diagram illustrating an embodiment of an intelligent charging method for a new energy charging pile, where the method includes:

201. the method comprises the steps that a terminal obtains first information of a first user, wherein the first information comprises first charging position information and first charging time period information;

202. the terminal searches for a second user meeting a preset condition according to the first information, wherein the preset condition is that a second charging time period of the second user is not overlapped with a first charging time period, and the distance between a second charging position of the second user and the first charging position is smaller than a preset distance;

203. the terminal establishes a shared charging group of a first user and a second user;

steps 201 to 203 in this embodiment are similar to steps 101 to 103 in the embodiment of fig. 1, and are not described herein again.

204. The method comprises the steps that a terminal obtains a selection instruction of a shared charging group, wherein the selection instruction carries identification information of a target charging pile;

in this embodiment, the obtaining of the selection instruction of the shared charging group includes: the method comprises the steps that a terminal obtains a bindable shared charging pile within a preset range; the terminal obtains the identification electricity price of the shared charging pile, so that the first user and the second user generate and send a selection instruction according to the identification electricity price. In this embodiment, the terminal acquires the bindable shared charging piles within the preset range according to the first charging position and the second charging position, displays the electricity price identifiers of the bindable shared charging piles, and the first user and the second user can select a suitable target charging pile according to the electricity price identifiers, generate a selection instruction according to the target charging pile, and send the selection instruction to the terminal.

205. The terminal binds the shared charging group and the target charging pile according to the selection instruction;

step 205 in this embodiment is similar to step 105 in the embodiment of fig. 1, and detailed description thereof is omitted here.

206. The terminal judges whether the target charging pile has a residual charging time period according to the users in the shared charging group;

in this embodiment, the terminal determines whether the target charging pile has a remaining charging period according to the first charging period of the first user and the second charging period of the second user in the shared charging group, and if yes, the terminal performs step 207. For example, if the first charging period of the first user in the shared charging group is 8:00 to 10:00, the second charging period of the second user is 11:00 to 12:00, and the one-day working period of the target charging pile is 24 hours, the terminal determines that the target charging pile has the remaining charging period, and the terminal performs step 207.

207. If the target charging pile has a residual charging period, the terminal adds a third user into the shared charging group, the third charging period of the third user is located in the residual charging period, and the distance between the third charging position of the third user and the target charging pile is smaller than the preset distance;

in this embodiment, when the terminal determines that the target charging pile has the remaining charging period, the terminal joins the third user, whose charging position is located near the target charging pile and whose charging period is located in the remaining charging period, to the shared charging group, so that the charging period of the target charging pile is utilized to the maximum extent. For example: the remaining time period of the target charging pile is 12:00-3:00, the charging time period of the user A is 12:00-3:00, the preset distance is 500 meters, the charging position selected by the user A is far away from the target charging pile 400, and then the user A is added into the shared charging group by the terminal at the moment.

208. The method comprises the steps that a terminal obtains a target charging instruction of a target charging pile;

209. the terminal judges whether the target charging instruction is a first charging instruction, a second charging instruction or a third charging instruction, wherein the third charging instruction is a charging instruction sent by a third user in a third charging period;

210. if the target charging instruction is a first charging instruction, a second charging instruction or a third charging instruction, the terminal opens the charging state of the target charging pile to a first user, a second user or a third user so that the first user, the second user or the third user can perform charging operation;

steps 208 to 210 in this embodiment are similar to steps 106 to 108 in the embodiment of fig. 1, and are not repeated herein.

211. If the target charging instruction is not the first charging instruction, the second charging instruction or the third charging instruction, and the first charging instruction is not acquired in the first charging period, or the second charging instruction is not acquired in the second charging period, or the third charging instruction is not acquired in the third charging period, opening the charging state of the target charging pile in the first charging period, the second charging period or the third charging period to a fourth user, so that the fourth user performs charging operation;

in this embodiment, if the target charging instruction is not the first charging instruction and the terminal does not obtain the first charging instruction in the first charging period, it indicates that the first user in the shared charging group does not need to use the target charging pile for charging operation in the first charging period, at this time, the terminal opens the charging state of the target charging pile in the first charging period to a fourth user outside the shared charging group, so that the fourth user outside the shared charging group uses the target charging pile for charging operation in the first charging period. If the target charging instruction is not the second charging instruction and the terminal does not acquire the second charging instruction in the second charging period, it indicates that the second user in the shared charging group does not need to use the target charging pile for charging operation in the second charging period, at this time, the terminal opens the charging state of the target charging pile in the second charging period to the fourth user outside the shared charging group, so that the fourth user outside the shared charging group uses the target charging pile for charging operation in the second charging period.

212. The terminal judges whether a battery connected with the target charging pile is in a full-charge state or not;

in this embodiment, after the target charging pile opens the charging state, the terminal detects whether the battery connected to the target charging pile is in a full-charge state, and if the battery is in the full-charge state, the terminal executes step 213; if the battery is not in a full state, the terminal performs step 214.

213. If the battery is in a full-charge state, the terminal sends a power-off instruction to the target charging pile so that the target charging pile is automatically powered off;

in this embodiment, if the battery of being connected with the target charging pile is in full charge state, then the terminal sends the outage instruction to the target charging pile to make the target charging pile auto-power-off, thereby avoid the overcharge to electric motor car battery, alleviateed the loss to electric motor car battery and promoted the security that electric motor car trolley-bus charges.

214. If the battery is not in a full-charge state, the terminal detects whether the charging power of the target charging pile is in a safe state;

in this embodiment, if the battery connected to the target charging pile is not in a full-charge state, the terminal detects whether the charging power of the target charging pile is in a safe state, and if the charging power of the target charging pile is not in the safe state, the terminal executes step 215.

215. If the charging power of the target charging pile is not in a safe state, the terminal sends a power-off instruction to the target charging pile so that the target charging pile is automatically powered off.

In this embodiment, when the charging power of target charging stake is not in safe state, the terminal sends the outage instruction to the target charging stake to make the target charging stake auto-power-off, thereby security when further having promoted the electric motor car and charging has avoided arousing the circumstances such as electric motor car spontaneous combustion or explosion because charging power is too big.

Referring to fig. 3, fig. 3 is a diagram illustrating an embodiment of an intelligent system of a new energy charging pile according to the present application, where the system includes:

a first obtaining unit 301, configured to obtain first information of a first user, where the first information includes first charging location information and first charging period information;

a searching unit 302, configured to search for a second user meeting a preset condition according to the first information, where the preset condition is that a second charging time period of the second user does not coincide with a first charging time period, and a distance between a second charging position of the second user and the first charging position is smaller than a preset distance;

a establishing unit 303, configured to establish a shared charging group of the first user and the second user;

a second obtaining unit 304, configured to obtain a selection instruction of the shared charging group, where the selection instruction carries identification information of a target charging pile;

a binding unit 305, configured to bind the shared charging group and the target charging pile according to the selection instruction;

a third obtaining unit 306, configured to obtain a target charging instruction of the target charging pile;

a first determining unit 307, configured to determine whether the target charging instruction is a first charging instruction or a second charging instruction, where the first charging instruction is a charging instruction sent by the first user in a first charging period, and the second charging instruction is a charging instruction sent by the second user in a second charging period;

a first opening unit 308, configured to open the charging state of the target charging pile to the first user or the second user if the target charging instruction is the first charging instruction or the second charging instruction, so that the first user or the second user performs a charging operation.

Through the system, the charging state of the target charging pile is opened to the first user in the first charging period, and the charging state of the target charging pile is opened to the second user in the second charging period, so that the first user and the second user can use the charging pile by peak shifting, the target charging pile is reasonably utilized, and the use efficiency of the charging pile is improved.

Please refer to fig. 4, and fig. 4 is another embodiment of the intelligent charging system for a new energy charging pile provided in the present application, in which the system includes:

a first obtaining unit 401, configured to obtain first information of a first user, where the first information includes first charging location information and first charging period information;

a searching unit 402, configured to search for a second user meeting a preset condition according to the first information, where the preset condition is that a second charging time period of the second user does not coincide with a first charging time period, and a distance between a second charging position of the second user and the first charging position is smaller than a preset distance;

a building unit 403, configured to build a shared charging group of the first user and the second user;

a second obtaining unit 404, configured to obtain a selection instruction of the shared charging group, where the selection instruction carries identification information of a target charging pile;

a binding unit 405, configured to bind the shared charging group and the target charging pile according to the selection instruction;

a third obtaining unit 406, configured to obtain a target charging instruction of the target charging pile;

a first determining unit 407, configured to determine whether the target charging instruction is a first charging instruction or a second charging instruction, where the first charging instruction is a charging instruction sent by the first user in a first charging period, and the second charging instruction is a charging instruction sent by the second user in a second charging period;

a first opening unit 408, configured to open the charging state of the target charging pile to the first user or the second user if the target charging instruction is the first charging instruction or the second charging instruction, so that the first user or the second user performs a charging operation.

Optionally, the intelligent charging system further comprises:

a second determining unit 409, configured to determine whether the target charging pile has a remaining charging time period according to the user in the shared charging group;

a joining unit 410, configured to join a third user into the shared charging group if the target charging pile has a remaining charging time period, where a third charging time period of the third user is located in the remaining charging time period, and a distance between a third charging position of the third user and the target charging pile is smaller than the preset distance;

the first determining unit 407 is specifically configured to:

judging whether the target charging instruction is the first charging instruction, the second charging instruction or the third charging instruction, wherein the third charging instruction is a charging instruction sent by the third user in the third charging period;

the first opening unit 408 is specifically configured to:

if the target charging instruction is a first charging instruction, a second charging instruction or a third charging instruction, opening the charging state of the target charging pile to the first user, the second user or the third user so that the first user, the second user or the third user can perform charging operation.

Optionally, the intelligent charging system further comprises:

a second opening unit 411, configured to open a charging state of the target charging pile in the first charging period to a fourth user if the target charging instruction is not the first charging instruction and the first charging instruction is not obtained in the first charging period, so that the fourth user performs a charging operation;

or the like, or, alternatively,

the charging control module is used for opening the charging state of the target charging pile in the second charging time period to the fourth user if the target charging instruction is not a second charging instruction and the second charging instruction is not obtained in the second charging time period, so that the fourth user can perform charging operation;

or the like, or, alternatively,

and if the target charging instruction is not a third acting instruction and the third charging instruction is not acquired in the third charging period, opening the charging state of the target charging pile in the third charging period to the fourth user, so that the fourth user performs charging operation.

Optionally, the second obtaining unit 404 is specifically configured to:

acquiring a bindable shared charging pile within a preset range;

and acquiring the identification electricity price of the shared charging pile so that the first user and the second user generate and send a selection instruction according to the identification electricity price.

Optionally, the intelligent charging system further comprises:

a third determining unit 412, configured to determine whether the battery connected to the target charging pile is in a full-charge state;

the first power-off unit 413 is configured to send a power-off command to the target charging pile if the target charging pile is powered off automatically.

Optionally, the intelligent charging system further comprises:

the detecting unit 414 is configured to detect whether the charging power of the target charging pile is in a safe state if the charging power of the target charging pile is not in the safe state;

the second power-off unit 415 is configured to send a power-off instruction to the target charging pile if the target charging pile is not powered off.

In the system of this embodiment, the functions of each unit correspond to the steps in the method embodiment shown in fig. 2, and are not described herein again.

The present application also provides an intelligent charging system of a new energy charging pile, please refer to fig. 5, fig. 5 is an embodiment of an intelligent charging system of a new energy charging pile provided by the present application, the system includes:

a processor 501, a memory 502, an input/output unit 503, and a bus 504;

the processor 501 is connected with the memory 502, the input/output unit 503 and the bus 504;

the memory 502 stores a program, and the processor 501 calls the program to execute any one of the above intelligent charging methods for the new energy charging pile.

The present application also relates to a computer-readable storage medium having a program stored thereon, where the program, when executed on a computer, causes the computer to execute any one of the above intelligent charging methods for a new energy charging pile.

It is clear to those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described systems, apparatuses and units may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

In the several embodiments provided in the present application, it should be understood that the disclosed system, apparatus and method may be implemented in other ways. For example, the above-described apparatus embodiments are merely illustrative, and for example, the division of the units is only one logical division, and other divisions may be realized in practice, for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present application may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit may be implemented in the form of hardware, or may also be implemented in the form of a software functional unit.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present application may be substantially implemented or contributed to by the prior art, or all or part of the technical solution may be embodied in a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a read-only memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and the like.

Claims (10)

1. An intelligent charging method of a new energy charging pile is characterized by comprising the following steps:

acquiring first information of a first user, wherein the first information comprises first charging position information and first charging time period information;

searching a second user meeting a preset condition according to the first information, wherein the preset condition is that a second charging time period of the second user is not overlapped with a first charging time period, and the distance between a second charging position and a first charging position of the second user is smaller than a preset distance;

establishing a shared charging group of the first user and the second user;

acquiring a selection instruction of the shared charging group, wherein the selection instruction carries identification information of a target charging pile;

binding the shared charging group and the target charging pile according to the selection instruction;

acquiring a target charging instruction of the target charging pile;

judging whether the target charging instruction is a first charging instruction or a second charging instruction, wherein the first charging instruction is a charging instruction sent by the first user in a first charging period, and the second charging instruction is a charging instruction sent by the second user in a second charging period;

if the target charging instruction is the first charging instruction or the second charging instruction, opening the charging state of the target charging pile to the first user or the second user so that the first user or the second user can perform charging operation.

2. The smart charging method according to claim 1, wherein after the binding the shared charging group and the target charging post according to the binding instruction, the method further comprises:

judging whether the target charging pile has a residual charging time period or not according to the users in the shared charging group;

if the target charging pile has a residual charging time period, adding a third user into a shared charging group, wherein the third charging time period of the third user is located in the residual charging time period, and the distance between the third charging position of the third user and the target charging pile is smaller than the preset distance;

the determining whether the target charging instruction is the first charging instruction or the second charging instruction comprises:

judging whether the target charging instruction is the first charging instruction, the second charging instruction or the third charging instruction, wherein the third charging instruction is a charging instruction sent by the third user in the third charging period;

if the target charging instruction is the first charging instruction or the second charging instruction, opening the charging state of the target charging pile to the first user or the second user, so that the first user or the second user performs a charging operation, including:

if the target charging instruction is a first charging instruction, a second charging instruction or a third charging instruction, opening the charging state of the target charging pile to the first user, the second user or the third user so that the first user, the second user or the third user can perform charging operation.

3. The intelligent charging method of claim 2, wherein after the determining whether the target charging instruction is the first charging instruction, the second charging instruction, or the third charging instruction, the method further comprises:

if the target charging instruction is not a first charging instruction and the first charging instruction is not acquired in the first charging period, opening the charging state of the target charging pile in the first charging period to a fourth user so that the fourth user performs charging operation;

or the like, or, alternatively,

if the target charging instruction is not a second charging instruction and the second charging instruction is not acquired in the second charging period, opening the charging state of the target charging pile in the second charging period to the fourth user so that the fourth user performs charging operation;

or the like, or, alternatively,

if the target charging instruction is not a third acting instruction and the third charging instruction is not acquired in the third charging period, opening the charging state of the target charging pile in the third charging period to the fourth user so that the fourth user performs charging operation.

4. The smart charging method according to claim 1, wherein the obtaining the instruction to select the shared charging group comprises:

acquiring a bindable shared charging pile within a preset range;

and acquiring the identification electricity price of the shared charging pile, so that the first user and the second user generate and send a selection instruction according to the identification electricity price.

5. The smart charging method according to any one of claims 1 to 4, wherein after the opening the charging status of the target charging post to the first user or the second user to enable the first user or the second user to perform a charging operation, the method further comprises:

judging whether the battery connected with the target charging pile is in a full-charge state or not;

if so, sending a power-off instruction to the target charging pile so as to enable the target charging pile to be automatically powered off.

6. The intelligent charging method according to claim 5, wherein after the determining whether the battery connected to the target charging post is in a full state, the method further comprises:

if not, detecting whether the charging power of the target charging pile is in a safe state;

if not, sending a power-off instruction to the target charging pile so as to enable the target charging pile to be powered off automatically.

7. The utility model provides an intelligent charging system of new forms of energy stake, its characterized in that, intelligent charging system includes:

the first acquisition unit is used for acquiring first information of a first user, wherein the first information comprises first charging position information and first charging time interval information;

the searching unit is used for searching a second user meeting a preset condition according to the first information, wherein the preset condition is that a second charging time interval of the second user is not overlapped with a first charging time interval, and the distance between a second charging position of the second user and the first charging position is smaller than a preset distance;

the establishing unit is used for establishing a shared charging group of the first user and the second user;

the second acquisition unit is used for acquiring a selection instruction of the shared charging group, wherein the selection instruction carries identification information of a target charging pile;

the binding unit is used for binding the shared charging group and the target charging pile according to the selection instruction;

the third acquisition unit is used for acquiring a target charging instruction of the target charging pile;

the first judging unit is used for judging whether the target charging instruction is a first charging instruction or a second charging instruction, wherein the first charging instruction is a charging instruction sent by the first user in a first charging period, and the second charging instruction is a charging instruction sent by the second user in a second charging period;

a first opening unit, configured to open a charging state of the target charging pile to the first user or the second user if the target charging instruction is the first charging instruction or the second charging instruction, so that the first user or the second user performs a charging operation.

8. The intelligent charging system according to claim 7, further comprising:

the second judging unit is used for judging whether the target charging pile has a residual charging time period according to the users in the shared charging group;

the joining unit is used for joining a third user into a shared charging group if the target charging pile has a residual charging time period, wherein the third charging time period of the third user is within the residual charging time period, and the distance between the third charging position of the third user and the target charging pile is smaller than the preset distance;

the first judging unit is specifically configured to:

judging whether the target charging instruction is the first charging instruction, the second charging instruction or the third charging instruction, wherein the third charging instruction is a charging instruction sent by the third user in the third charging period;

the first open cell is specifically configured to:

if the target charging instruction is a first charging instruction, a second charging instruction or a third charging instruction, opening the charging state of the target charging pile to the first user, the second user or the third user so that the first user, the second user or the third user can perform charging operation.

9. The intelligent charging system according to claim 8, further comprising:

a second opening unit, configured to open a charging state of the target charging pile in the first charging period to a fourth user if the target charging instruction is not a first charging instruction and the first charging instruction is not obtained in the first charging period, so that the fourth user performs a charging operation;

or the like, or, alternatively,

the charging system is used for opening the charging state of the target charging pile in the second charging time period to the fourth user if the target charging instruction is not a second charging instruction and the second charging instruction is not acquired in the second charging time period, so that the fourth user performs charging operation;

or the like, or, alternatively,

and if the target charging instruction is not a third acting instruction and the third charging instruction is not acquired in the third charging period, opening the charging state of the target charging pile in the third charging period to the fourth user, so that the fourth user performs charging operation.

10. The intelligent charging system according to claim 7, wherein the second obtaining unit is specifically configured to:

acquiring a bindable shared charging pile within a preset range;

and acquiring the identification electricity price of the shared charging pile, so that the first user and the second user generate and send a selection instruction according to the identification electricity price.

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