CN110843579A - Charging pile for energy Internet - Google Patents

Abstract

The invention discloses a charging pile for an energy internet, and relates to the technical field of information communication; the charging pile state acquisition system comprises a controller, a charging pile state acquisition unit and a communication device, wherein the controller is connected to the Internet through the communication device; it has realized finding the electric pile that fills that can supply in time to charge to use high efficiency through controller, fill electric pile state acquisition unit and communication device and fill electric pile state module etc..

Description

Charging pile for energy Internet

Technical Field

The invention relates to the technical field of information communication, in particular to a charging pile for energy Internet.

Background

At present, electric automobile is more and more popularized, and electric automobile's electric pile that fills is also more and more. People can inquire the position of a nearby charging pile through an electronic map so as to go forward to charge. However, this happens occasionally, and it is not until the charging pile finds that many vehicles have occupied all the charging piles, so that none of the charging piles, which can allow the vehicle to start charging immediately, needs to wait in line for patience.

Problems with the prior art and considerations:

how to solve the technical problem of finding the charging pile which can be used for charging in time with high efficiency.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a charging pile for energy Internet, which can efficiently find the charging pile for timely charging through a controller, a charging pile state acquisition unit, a communication device, a charging pile state module and the like.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows: the utility model provides a fill electric pile for energy internet, includes the controller, fills electric pile state acquisition unit and communication device, the controller passes through communication device and is connected to the internet, still includes and fills electric pile state module on the controller for from filling electric pile state acquisition unit and acquire the state information and the sharing that fill electric pile.

The further technical scheme is as follows: the charging pile state acquisition unit is a starting button which is arranged on the charging pile and used for controlling charging or stopping, the starting button is electrically connected with the input end of a controller of the charging pile,

fill electric pile state module, still be used for the start button switch-on, the controller learns to fill electric pile's state information and is the user state, and the start button disconnection, the controller learns to fill electric pile's state information and is standby state.

The further technical scheme is as follows: the charging device is characterized by further comprising a charging device, the charging pile state acquisition unit is a sampling resistor, and a charging loop of the charging device is connected to the input end of the controller of the charging pile through the sampling resistor;

the charging pile state module is also used for charging the charging device when the charging device works, and the controller acquires that the state information of the charging pile is a use state; the charging device is in standby state, and the controller acquires that the state information of the charging pile is in standby state.

The further technical scheme is as follows: the charging pile state acquisition unit is a charging module running on the controller,

the charging module is used for sending the charging information to the charging pile state module;

the charging pile state module is also used for receiving charging information sent by the charging module, and when the charging information is larger than zero, the controller acquires that the state information of the charging pile is a use state; and when the charging information is equal to zero, the controller acquires that the state information of the charging pile is in a standby state.

The further technical scheme is as follows: the controller is a single chip microcomputer.

The further technical scheme is as follows: the charging pile control system is characterized by further comprising a mobile terminal in wireless connection with the internet, the mobile terminal is connected with the controller and is in two-way communication, and the mobile terminal receives state information of the charging pile sent by the controller.

The further technical scheme is as follows: also comprises a charging pile reservation module and a verification module,

the charging pile reservation module is used for receiving a reservation request sent by the mobile terminal, acquiring state information of the charging pile from the charging pile state module, receiving the reservation request and generating a verification code when the state information of the charging pile is in a standby state, and sending the generated verification code to the mobile terminal;

and the verification module is used for receiving the verification code input by the user, comparing the verification code input by the user with the generated verification code, and authorizing and allowing the charging pile to be used if the verification code input by the user is consistent with the generated verification code.

The further technical scheme is as follows: the charging pile reservation module is also used for sharing the information of the reservation state of the charging pile and receiving a reservation request when the state information of the charging pile is in a standby state and the reservation state is not reserved;

the verification module is also used for receiving a verification code sent by the mobile terminal, a verification code input by an input keyboard of the charging pile or a verification code scanned by a human-computer interaction device of the charging pile.

The further technical scheme is as follows: the charging pile reservation module is also used for receiving a reservation request sent by the mobile terminal through the controller, the controller acquires the state information of the charging pile from the charging pile state module, when the state information of the charging pile is in a standby state, the controller receives the reservation request and generates a verification code, and the controller sends the generated verification code to the mobile terminal;

the verification module is also used for receiving a verification code input by a user through the controller, the verification code input by the user is compared with the generated verification code through the controller, and if the verification code is consistent with the generated verification code, the controller authorizes the charging pile to be allowed to be used.

The further technical scheme is as follows: also comprises a reservation server for reserving charging, the reservation server is respectively connected with the controller of the charging pile and the mobile terminal and is in two-way communication,

the charging pile reservation module is also used for receiving a reservation request sent by the mobile terminal through a reservation server, and the reservation server acquires the state information of the charging pile from the charging pile state module; when the state information of the charging pile is in a standby state, the reservation server receives the reservation request and generates a verification code, and the reservation server sends the generated verification code to the mobile terminal through the Internet;

the verification module is also used for sending the verification code of the user to the reservation server by the mobile terminal, the reservation server compares the verification code of the user with the verification code generated by the user, and if the verification code of the user is consistent with the verification code generated by the reservation server, the reservation server sends authorization information to the controller and allows the charging pile to be used.

Adopt the produced beneficial effect of above-mentioned technical scheme to lie in:

first, a fill electric pile for energy internet, include the controller, fill electric pile state acquisition unit and communication device, the controller passes through communication device and is connected to the internet, still including the electric pile state module that fills that operates on the controller for from filling electric pile state acquisition unit and acquireing the state information and the sharing that fill electric pile. This technical scheme, it passes through the controller, fills electric pile state acquisition unit and communication device and fills electric pile state module etc. has realized finding the electric pile that fills that can supply in time to charge to use high-efficiently.

And secondly, the charging pile state acquisition unit is a starting button which is arranged on the charging pile and used for controlling charging or stopping, the starting button is electrically connected with the input end of a controller of the charging pile, the charging pile state module is also used for switching on the starting button, the controller acquires that the state information of the charging pile is in a use state, the starting button is switched off, and the controller acquires that the state information of the charging pile is in a standby state. The technical scheme has the advantages of lower cost, better cost performance and more reasonable structure.

Thirdly, the charging system also comprises a charging device, the charging pile state acquisition unit is a sampling resistor, and a charging loop of the charging device is connected to the input end of a controller of the charging pile through the sampling resistor; the charging pile state module is also used for charging the charging device when the charging device works, and the controller acquires that the state information of the charging pile is a use state; the charging device is in standby state, and the controller acquires that the state information of the charging pile is in standby state. The technical scheme has the advantages of lower cost, better cost performance and more reasonable structure.

Fourthly, the charging pile state acquisition unit is a charging module running on the controller, and the charging module is used for sending charging information to the charging pile state module; the charging pile state module is also used for receiving charging information sent by the charging module, and when the charging information is larger than zero, the controller acquires that the state information of the charging pile is a use state; and when the charging information is equal to zero, the controller acquires that the state information of the charging pile is in a standby state. The technical scheme has the advantages of lower cost, better cost performance and more reasonable structure.

And fifthly, the controller is a single chip microcomputer. The technical scheme has the advantages of lower cost, better cost performance and more reasonable structure.

And sixthly, the charging pile further comprises a mobile terminal in wireless connection with the internet, the mobile terminal is connected with the controller and is in two-way communication, and the mobile terminal receives the state information of the charging pile sent by the controller. This technical scheme, it is more convenient to use, and the structure is more reasonable.

The charging pile reservation module is used for receiving a reservation request sent by the mobile terminal, acquiring state information of the charging pile from the charging pile state module, receiving the reservation request and generating a verification code when the state information of the charging pile is in a standby state, and sending the generated verification code to the mobile terminal; and the verification module is used for receiving the verification code input by the user, comparing the verification code input by the user with the generated verification code, and authorizing and allowing the charging pile to be used if the verification code input by the user is consistent with the generated verification code. This technical scheme, it is more convenient to use, and the structure is more reasonable.

The charging pile reservation module is further used for sharing information of a reservation state of the charging pile, and accepting a reservation request when the state information of the charging pile is a standby state and the reservation state is not reserved; the verification module is also used for receiving a verification code sent by the mobile terminal, a verification code input by an input keyboard of the charging pile or a verification code scanned by a human-computer interaction device of the charging pile. This technical scheme, it is more convenient to use, and the structure is more reasonable.

Ninth, the charging pile reservation module is further used for receiving a reservation request sent by the mobile terminal through the controller, the controller obtains state information of the charging pile from the charging pile state module, when the state information of the charging pile is in a standby state, the controller receives the reservation request and generates a verification code, and the controller sends the generated verification code to the mobile terminal; the verification module is also used for receiving a verification code input by a user through the controller, the verification code input by the user is compared with the generated verification code through the controller, and if the verification code is consistent with the generated verification code, the controller authorizes the charging pile to be allowed to be used. This technical scheme, it is more convenient to use, and the structure is more reasonable.

Tenth, the system further comprises a reservation server for reserving charging, the reservation server is respectively connected with the controller of the charging pile and the mobile terminal and is in two-way communication with the mobile terminal, the charging pile reservation module is further used for receiving a reservation request sent by the mobile terminal, and the reservation server acquires the state information of the charging pile from the charging pile state module; when the state information of the charging pile is in a standby state, the reservation server receives the reservation request and generates a verification code, and the reservation server sends the generated verification code to the mobile terminal through the Internet; the verification module is also used for sending the verification code of the user to the reservation server by the mobile terminal, the reservation server compares the verification code of the user with the verification code generated by the user, and if the verification code of the user is consistent with the verification code generated by the reservation server, the reservation server sends authorization information to the controller and allows the charging pile to be used. This technical scheme, it is more convenient to use, and the structure is more reasonable.

See detailed description of the preferred embodiments.

Drawings

FIG. 1 is a schematic block diagram of embodiment 1 of the present invention;

FIG. 2 is a schematic block diagram of embodiment 2 of the present invention;

FIG. 3 is a schematic block diagram of embodiment 3 of the present invention;

FIG. 4 is a schematic block diagram of embodiment 4 of the present invention;

FIG. 5 is a schematic block diagram of embodiment 5 of the present invention;

fig. 6 is a schematic block diagram of embodiment 6 of the present invention.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the application, its application, or uses. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, but the present application may be practiced in other ways than those described herein, and it will be apparent to those of ordinary skill in the art that the present application is not limited to the specific embodiments disclosed below.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.

The relative arrangement of the components and steps, the numerical expressions, and numerical values set forth in these embodiments do not limit the scope of the present application unless specifically stated otherwise. Meanwhile, it should be understood that the sizes of the respective portions shown in the drawings are not drawn in an actual proportional relationship for the convenience of description. Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail but are intended to be part of the specification where appropriate. In all examples shown and discussed herein, any particular value should be construed as merely illustrative, and not limiting. Thus, other examples of the exemplary embodiments may have different values. It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, further discussion thereof is not required in subsequent figures.

In the description of the present application, it is to be understood that the orientation or positional relationship indicated by the directional terms such as "front, rear, upper, lower, left, right", "lateral, vertical, horizontal" and "top, bottom", etc., are generally based on the orientation or positional relationship shown in the drawings, and are used for convenience of description and simplicity of description only, and in the case of not making a reverse description, these directional terms do not indicate and imply that the device or element being referred to must have a particular orientation or be constructed and operated in a particular orientation, and therefore, should not be considered as limiting the scope of the present application; the terms "inner and outer" refer to the inner and outer relative to the profile of the respective component itself.

Spatially relative terms, such as "above … …," "above … …," "above … …," "above," and the like, may be used herein for ease of description to describe one device or feature's spatial relationship to another device or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if a device in the figures is turned over, devices described as "above" or "on" other devices or configurations would then be oriented "below" or "under" the other devices or configurations. Thus, the exemplary term "above … …" can include both an orientation of "above … …" and "below … …". The device may be otherwise variously oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

It should be noted that the terms "first", "second", and the like are used to define the components, and are only used for convenience of distinguishing the corresponding components, and the terms have no special meanings unless otherwise stated, and therefore, the scope of protection of the present application is not to be construed as being limited.

Example 1:

as shown in fig. 1, the invention discloses a charging pile for energy internet, which comprises a charging device, a controller, a charging pile state acquisition unit, a communication device and a charging pile state module, wherein the charging device, the controller, the charging pile state acquisition unit and the communication device are arranged on the charging pile, the charging pile state module runs on the controller, the communication device is a wireless communication device, the controller is wirelessly connected to the internet through the wireless communication device, and a control end of the controller is connected with a control end of the charging device and is in one-way communication with the control end of.

The charging pile state acquisition unit is a starting button fixed on the charging pile and used for controlling charging or stopping, and the starting button is electrically connected with the input end of a controller of the charging pile and is in one-way communication.

Fill electric pile state module for the start button switch-on, the controller learns to fill electric pile's state information and is the user state, and the start button disconnection, the controller learns to fill electric pile's state information and is standby state.

The controller is a single chip microcomputer, the model number of the controller is stc89c52, Vcc of the single chip microcomputer is connected with the anode of a direct-current power supply, Vss of the single chip microcomputer is connected with the cathode of the direct-current power supply, a starting button is connected between the Vcc and the control end P0.1 of the 38 th pin of the single chip microcomputer, the control end P0.2 of the 37 th pin of the single chip microcomputer is connected with the control end of a charging device, the hardware of the charging pile, the charging device on the charging pile, the controller, the state acquisition unit of the charging pile and the communication device per se also have corresponding connection communication technologies, and the details are not.

Example 1 description of use:

when a first customer uses the charging pile to charge, the first customer presses a starting button, a control end P0.1 is raised, a controller of the charging pile acquires information requesting to use the charging pile, the controller informs the charging device of starting to charge externally and assigns the state information of the charging pile into a use state, and the controller sends the state information of the charging pile to the internet.

When a second customer wants to search for idle charging piles and go to charge, the second customer inquires the distribution situation of the charging piles through a mobile terminal, namely an electronic map of the smart phone, and meanwhile, the state information of the charging piles can be seen as a use state or a standby state, the charging piles going to the standby state are selected to charge according to needs, and the charging piles are efficiently found and charged.

Inventive concept of example 1:

it has realized finding the electric pile that fills that can supply in time to charge to use high efficiency through controller, start button and wireless communication device and fill electric pile state module etc..

Example 2:

as shown in fig. 2, the invention discloses a charging pile for an energy internet, which comprises a charging device, a controller, a charging pile state acquisition unit, a communication device and a charging pile state module, wherein the charging device, the controller, the charging pile state acquisition unit and the communication device are arranged on the charging pile, the charging pile state module runs on the controller, the communication device is a wireless communication device, and the controller is wirelessly connected to the internet through the wireless communication device.

The charging pile state acquisition unit is a sampling resistor, and a charging loop of the charging device is connected to the input end of the controller of the charging pile through the sampling resistor.

The charging pile state module is used for charging the charging device when the charging device works, and the controller acquires that the state information of the charging pile is a use state; the charging device is in standby state, and the controller acquires that the state information of the charging pile is in standby state.

Wherein, the controller is the singlechip, its model is stc89c52, the Vcc termination DC power supply's of singlechip positive pole, its Vss termination DC power supply's negative pole, sampling resistor connects between charging device's charging loop one end and the control end P0.1 of singlechip 38 th foot, the control end P0.2 of singlechip 37 th foot is connected with charging device's control end, fill electric pile's hardware, fill the charging device on the electric pile, the controller with fill electric pile state acquisition unit and communication device itself and also have corresponding connection communication technology and for prior art no longer give details here.

Example 2 description of use:

when a first customer pays, a charging plug is inserted and the charging pile is used for charging, the charging device charges the electric car, current in a charging loop of the charging device flows to a control end P0.1 of the controller through the sampling resistor, the control end P0.1 is high, the controller of the charging pile knows that the charging pile is being used for charging, the controller assigns state information of the charging pile into a use state, and the controller sends the state information of the charging pile to the internet.

When a second customer wants to search for idle charging piles and go to charge, the second customer inquires the distribution situation of the charging piles through a mobile terminal, namely an electronic map of the smart phone, and meanwhile, the state information of the charging piles can be seen as a use state or a standby state, the charging piles going to the standby state are selected to charge according to needs, and the charging piles are efficiently found and charged.

Inventive concept of example 2:

it has realized finding high efficiency through controller, charging device, sampling resistor and wireless communication device and fill electric pile state module etc. and fills electric pile and charge.

Example 3:

as shown in fig. 3, the invention discloses a charging pile for an energy internet, which comprises a controller and a communication device installed on the charging pile, and a charging pile state acquisition unit and a charging pile state module which are operated on the controller, wherein the communication device is a wireless communication device, and the controller is wirelessly connected to the internet through the wireless communication device.

The charging pile state acquisition unit is a charging module.

And the charging module is used for sending the charging information to the charging pile state module.

The charging pile state module is used for receiving the charging information sent by the charging module, and when the charging information is larger than zero, the controller acquires that the state information of the charging pile is a use state; and when the charging information is equal to zero, the controller acquires that the state information of the charging pile is in a standby state.

The controller is a single chip microcomputer, and the hardware, the controller, the communication device and the corresponding connection communication technology of the charging pile and the charging program in the charging module are all the prior art and are not described again.

Example 3 description of use:

when the first client pays, plugs in the charging plug and charges by using the charging pile, the charging device works to charge the electric car, and the charging module starts to charge. The charging module sends the charging information to the charging pile state module, the controller of the charging pile acquires the charging information, when the charging information is larger than zero, the controller acquires that the charging pile is being used and assigns the state information of the charging pile to a use state, and the controller sends the state information of the charging pile to the internet.

When a second customer wants to search for idle charging piles and go to charge, the second customer inquires the distribution situation of the charging piles through a mobile terminal, namely an electronic map of the smart phone, and meanwhile, the state information of the charging piles can be seen as a use state or a standby state, the charging piles going to the standby state are selected to charge according to needs, and the charging piles are efficiently found and charged.

Inventive concept of example 3:

it has realized that high efficiency finds to fill electric pile and charges and provides the prerequisite basis through controller and wireless communication device and charging module and fill electric pile state module etc..

Example 4:

as shown in fig. 4, the invention discloses a charging pile for an energy internet, which comprises a charging device, a controller, a charging pile state acquisition unit, a communication device and a charging pile state module, wherein the charging pile state acquisition unit and the communication device are installed on the charging pile, the charging pile state module runs on the controller, the charging pile further comprises a mobile terminal in wireless connection with the internet, the communication device is a wireless communication device, the controller is in wireless connection with the internet through the wireless communication device, and a control end of the controller is connected with a control end of the charging device and is in one-way communication. The mobile terminal is connected with the controller through a wireless communication device and the internet and communicates bidirectionally.

The charging pile state acquisition unit is a starting button fixed on the charging pile and used for controlling charging or stopping, and the starting button is electrically connected with the input end of a controller of the charging pile and is in one-way communication.

Fill electric pile state module for the start button switch-on, the controller learns to fill electric pile's state information and is the user state, and the start button disconnection, the controller learns to fill electric pile's state information and is standby state.

And the mobile terminal receives the state information of the charging pile shared by the controller for the smart phone.

The controller is a single chip microcomputer, the model number of the controller is stc89c52, Vcc of the single chip microcomputer is connected with the anode of a direct-current power supply, Vss of the single chip microcomputer is connected with the cathode of the direct-current power supply, a starting button is connected between the Vcc and the control end P0.1 of the 38 th pin of the single chip microcomputer, the control end P0.2 of the 37 th pin of the single chip microcomputer is connected with the control end of a charging device, the hardware of the charging pile, the charging device on the charging pile, the controller, the state acquisition unit of the charging pile and the communication device per se also have corresponding connection communication technologies, and the details are not.

Example 4 description of use:

when a first customer uses the charging pile to charge, the first customer presses a starting button, a control end P0.1 is raised, a controller of the charging pile acquires information requesting to use the charging pile, the controller informs the charging device of starting to charge externally and assigns the state information of the charging pile into a use state, and the controller sends the state information of the charging pile to the internet.

When a second customer wants to search for idle charging piles and go to charge, the second customer inquires the distribution situation of the charging piles through a mobile terminal, namely an electronic map of the smart phone, and meanwhile, the state information of the charging piles can be seen as a use state or a standby state, the charging piles going to the standby state are selected to charge according to needs, and the charging piles are efficiently found and charged.

Inventive concept of example 4:

it has realized that high efficiency finds to fill electric pile and charge and provides the prerequisite basis through controller, start button, wireless communication device and mobile terminal and fill electric pile state module etc..

Example 5:

as shown in fig. 5, the invention discloses a charging pile for an energy internet, which comprises a two-dimensional code, a charging device, a controller, a charging pile state acquisition unit, a communication device, a charging pile state module, a charging pile reservation module and a verification module, wherein the two-dimensional code, the charging device, the controller, the charging pile state acquisition unit and the communication device are installed on the charging pile, the charging pile state module, the charging pile reservation module and the verification module run on the controller, the mobile terminal is in wireless connection with the internet, the communication device is a wireless communication device, the controller is in wireless connection with the internet through the wireless communication device, and a control end. The mobile terminal is connected with the controller through a wireless communication device and the internet and communicates bidirectionally.

The charging pile state acquisition unit is a starting button fixed on the charging pile and used for controlling charging or stopping, and the starting button is electrically connected with the input end of a controller of the charging pile and is in one-way communication.

Fill electric pile state module for the start button switch-on, the controller learns to fill electric pile's state information and is the user state, and the start button disconnection, the controller learns to fill electric pile's state information and is standby state.

And the mobile terminal receives the state information of the charging pile shared by the controller for the smart phone.

The charging pile reservation module is used for receiving a reservation request sent by the mobile terminal through the controller, the controller acquires state information of the charging pile from the charging pile state module, when the state information of the charging pile is in a standby state, the controller receives the reservation request and generates a verification code, and the controller sends the generated verification code to the mobile terminal.

The verification module is used for acquiring the generated verification code from the charging pile reservation module, the mobile terminal scans the two-dimensional code on the charging pile, submits the use request and the verification code to the controller, the controller receives the use request and the verification code submitted by the user, compares the verification code submitted by the user with the generated verification code, and controls the charging device to start working if the verification code is consistent with the generated verification code.

The controller is a single chip microcomputer, the model number of the controller is stc89c52, Vcc of the single chip microcomputer is connected with the anode of a direct-current power supply, Vss of the single chip microcomputer is connected with the cathode of the direct-current power supply, a starting button is connected between the Vcc and the control end P0.1 of the 38 th pin of the single chip microcomputer, the control end P0.2 of the 37 th pin of the single chip microcomputer is connected with the control end of a charging device, the hardware of the charging pile, the charging device on the charging pile, the controller, the state acquisition unit of the charging pile and the communication device per se also have corresponding connection communication technologies, and the details are not.

Example 5 instructions:

when a customer wants to search for an idle charging pile and go to charging, the customer inquires the distribution condition of the charging pile through a mobile terminal, namely an electronic map of a smart phone, and can see the state information of the charging pile as a use state or a standby state, and the charging pile in the standby state is reserved as required.

The mobile terminal sends a reservation request to the controller, the controller receives the reservation request sent by the mobile terminal, the controller acquires state information of the charging pile from the charging pile state module, when the state information of the charging pile is in a standby state, the controller receives the reservation request and generates a verification code, and the controller sends the generated verification code to the mobile terminal.

When a customer arrives at a charging pile site, the two-dimensional code on the charging pile is scanned through the mobile terminal, the use request and the verification code are submitted to the controller, the controller receives the use request and the verification code submitted by the user, the verification code submitted by the user is compared with the generated verification code, and if the two-dimensional code is consistent with the generated verification code, the charging device is authorized to be allowed to work.

The customer uses and fills electric pile and charges, and it presses the start button, and control end P0.1 is got to high, fills electric pile's controller and learns the information that the electric pile was filled in the request use, and the controller tells charging device to begin external charging and with the state information assignment that fills electric pile as the user state, and the controller will fill electric pile's state information and send to the internet.

If other customers want to search for an idle charging pile, the other customers can find that the charging pile is reserved or in use. The charging pile is efficiently found and charged.

Inventive concept of example 5:

the charging pile state module, the charging pile reservation module, the verification module and the like are used for efficiently finding the charging pile and providing a precondition for charging through the controller, the starting button, the wireless communication device, the mobile terminal, the charging pile state module, the charging pile reservation module, the verification module and the like.

Relative to example 5:

the charging pile reservation module is used for receiving a reservation request sent by the mobile terminal through the controller, the controller acquires state information of the charging pile from the charging pile state module, when the state information of the charging pile is in a standby state and the reservation state is not reserved, the controller receives the reservation request, modifies the reservation state into a reserved state and generates a verification code, and the controller sends the generated verification code to the mobile terminal; and when the state information of the charging pile is the use state or the reservation state is reserved, the controller refuses the reservation request. Further improving the overall efficiency.

Example 6:

as shown in fig. 6, the invention discloses a charging pile for an energy internet, which comprises a two-dimensional code, a charging device, a controller, a charging pile state acquisition unit, a communication device, a reservation server, a mobile terminal, a charging pile state module, a charging pile reservation module and a verification module, wherein the two-dimensional code is installed on the charging pile, the reservation server and the mobile terminal are used for reserving charging, the mobile terminal is in wireless connection and bidirectional communication with the reservation server through the internet, the communication device is a wireless communication device, the controller is in connection and bidirectional communication with the reservation server through the wireless communication device and the internet, and a control end of the controller is in connection and unidirectional communication with a control end of the charging device.

The charging pile state acquisition unit is a starting button fixed on the charging pile and used for controlling charging or stopping, and the starting button is electrically connected with the input end of a controller of the charging pile and is in one-way communication.

Fill electric pile state module for the start button switch-on, the controller learns to fill electric pile's state information and is the user state, and the start button disconnection, the controller learns to fill electric pile's state information and is standby state.

The reservation server reads the state information of the charging pile, and the mobile terminal receives the state information of the charging pile and the reservation state information shared by the reservation server for the smart phone.

The charging pile reservation module is used for receiving a reservation request sent by the mobile terminal through a reservation server, and the reservation server acquires state information of the charging pile from the charging pile state module; when the state information of the charging pile is in a standby state and the reservation state is not reserved, the reservation server receives the reservation request, modifies the reservation state into reserved and generates a verification code, and the reservation server sends the generated verification code to the mobile terminal; and when the state information of the charging pile is the use state or the reservation state is reserved, the reservation server refuses the reservation request.

The verification module is used for acquiring the generated verification code from the charging pile reservation module, the mobile terminal scans the two-dimensional code on the charging pile, submits the use request and the verification code to the reservation server, the reservation server receives the use request and the verification code submitted by the user, compares the verification code submitted by the user with the generated verification code, and if the use request and the verification code are consistent, sends authorization information to the controller and allows the charging pile to be used.

The controller is a single chip microcomputer, the model number of the controller is stc89c52, Vcc of the single chip microcomputer is connected with the anode of a direct-current power supply, Vss of the single chip microcomputer is connected with the cathode of the direct-current power supply, a starting button is connected between the Vcc and the control end P0.1 of the 38 th pin of the single chip microcomputer, the control end P0.2 of the 37 th pin of the single chip microcomputer is connected with the control end of a charging device, a reservation server, a mobile terminal, charging pile hardware, a charging device on the charging pile, a controller, a charging pile state acquisition unit and a communication device per se also have corresponding connection communication technologies, and the connection communication technologies are not repeated.

Example 6 instructions:

when a customer wants to search for an idle charging pile and go to charge, the customer inquires the distribution condition of the charging pile through a mobile terminal, namely an electronic map of a smart phone, and can see that the state information of the charging pile is a use state or a standby state, the reservation state of the charging pile is not reserved or reserved, and the charging pile in the standby state is reserved as required.

The method comprises the steps that a mobile terminal sends a reservation request to a reservation server, the reservation server receives the reservation request sent by the mobile terminal, the reservation server obtains state information of a charging pile from a charging pile state module, when the state information of the charging pile is in a standby state and the reservation state is not reserved, the reservation server receives the reservation request, modifies the reservation state into a reserved state and generates a verification code, and the reservation server sends the generated verification code to the mobile terminal.

During the period, other customers find that the charging pile is reserved if the customers want to search for the idle charging pile. Having realized finding high efficiency and filling electric pile, avoided running to make an unnecessary way.

When a client arrives at a charging pile site, the two-dimensional code on the charging pile is scanned through the mobile terminal, the use request and the verification code are submitted to the reservation server, the reservation server receives the use request and the verification code submitted by the user, the verification code submitted by the user is compared with the generated verification code, and if the two-dimensional code and the verification code are consistent, the authorization controller allows the charging device to work.

The customer uses and fills electric pile and charges, and it presses the start button, and control end P0.1 is got to high, fills electric pile's controller and learns the information that the electric pile was filled in the request use, and the controller informs charging device and begins to charge outward and with the state information assignment that fills electric pile as the user state, and the controller will fill electric pile's state information and send reservation server to.

During the period, other customers find out that the charging pile is in use if the customers want to search for the idle charging pile. Having realized finding high efficiency and filling electric pile, avoided running to make an unnecessary way.

Inventive concept of example 6:

the charging pile reservation system realizes that the charging pile is efficiently found and a precondition basis is provided for charging through the reservation server, the controller, the starting button, the wireless communication device, the mobile terminal, the charging pile state module, the charging pile reservation module, the verification module and the like.

Claims (10)

1. The utility model provides a fill electric pile for energy internet, includes the controller, fills electric pile state acquisition unit and communication device, the controller is connected to the internet through communication device, its characterized in that: the charging pile state acquisition unit is used for acquiring state information of the charging pile and sharing the state information.

2. The charging pile for the energy internet as claimed in claim 1, wherein: the charging pile state acquisition unit is a starting button which is arranged on the charging pile and used for controlling charging or stopping, the starting button is electrically connected with the input end of a controller of the charging pile,

fill electric pile state module, still be used for the start button switch-on, the controller learns to fill electric pile's state information and is the user state, and the start button disconnection, the controller learns to fill electric pile's state information and is standby state.

3. The charging pile for the energy internet as claimed in claim 1, wherein: the charging device is characterized by further comprising a charging device, the charging pile state acquisition unit is a sampling resistor, and a charging loop of the charging device is connected to the input end of the controller of the charging pile through the sampling resistor;

the charging pile state module is also used for charging the charging device when the charging device works, and the controller acquires that the state information of the charging pile is a use state; the charging device is in standby state, and the controller acquires that the state information of the charging pile is in standby state.

4. The charging pile for the energy internet as claimed in claim 1, wherein: the charging pile state acquisition unit is a charging module running on the controller,

the charging module is used for sending the charging information to the charging pile state module;

the charging pile state module is also used for receiving charging information sent by the charging module, and when the charging information is larger than zero, the controller acquires that the state information of the charging pile is a use state; and when the charging information is equal to zero, the controller acquires that the state information of the charging pile is in a standby state.

5. The charging pile for the energy internet as claimed in claim 1, wherein: the controller is a single chip microcomputer.

6. The charging pile for the energy internet as claimed in claim 1, wherein: the charging pile control system is characterized by further comprising a mobile terminal in wireless connection with the internet, the mobile terminal is connected with the controller and is in two-way communication, and the mobile terminal receives state information of the charging pile sent by the controller.

7. The charging pile for the energy internet as claimed in claim 6, wherein: also comprises a charging pile reservation module and a verification module,

the charging pile reservation module is used for receiving a reservation request sent by the mobile terminal, acquiring state information of the charging pile from the charging pile state module, receiving the reservation request and generating a verification code when the state information of the charging pile is in a standby state, and sending the generated verification code to the mobile terminal;

and the verification module is used for receiving the verification code input by the user, comparing the verification code input by the user with the generated verification code, and authorizing and allowing the charging pile to be used if the verification code input by the user is consistent with the generated verification code.

8. The charging pile for the energy internet as claimed in claim 7, wherein:

the charging pile reservation module is also used for sharing the information of the reservation state of the charging pile and receiving a reservation request when the state information of the charging pile is in a standby state and the reservation state is not reserved;

the verification module is also used for receiving a verification code sent by the mobile terminal, a verification code input by an input keyboard of the charging pile or a verification code scanned by a human-computer interaction device of the charging pile.

9. The charging pile for the energy internet as claimed in claim 7, wherein: the charging pile reservation module is also used for receiving a reservation request sent by the mobile terminal through the controller, the controller acquires the state information of the charging pile from the charging pile state module, when the state information of the charging pile is in a standby state, the controller receives the reservation request and generates a verification code, and the controller sends the generated verification code to the mobile terminal;

the verification module is also used for receiving a verification code input by a user through the controller, the verification code input by the user is compared with the generated verification code through the controller, and if the verification code is consistent with the generated verification code, the controller authorizes the charging pile to be allowed to be used.

10. The charging pile for the energy internet as claimed in claim 7, wherein: also comprises a reservation server for reserving charging, the reservation server is respectively connected with the controller of the charging pile and the mobile terminal and is in two-way communication,

the charging pile reservation module is also used for receiving a reservation request sent by the mobile terminal through a reservation server, and the reservation server acquires the state information of the charging pile from the charging pile state module; when the state information of the charging pile is in a standby state, the reservation server receives the reservation request and generates a verification code, and the reservation server sends the generated verification code to the mobile terminal through the Internet;

the verification module is also used for sending the verification code of the user to the reservation server by the mobile terminal, the reservation server compares the verification code of the user with the verification code generated by the user, and if the verification code of the user is consistent with the verification code generated by the reservation server, the reservation server sends authorization information to the controller and allows the charging pile to be used.

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