CN115071476A - Matrix type intelligent charging device and method - Google Patents

Abstract

The invention particularly relates to a matrix type intelligent charging device and method. The matrix type intelligent charging device and the method comprise a server, an intelligent power distribution charger, an intelligent control matrix and an intelligent charging pile; the intelligent power distribution charger is connected with a power supply network through a bus inlet side and is connected with an intelligent control matrix bus through an intelligent charger output bus. The matrix type intelligent charging device and method overcome the problem of poor flexibility of the conventional charging pile, solve the problems that the conventional charging pile is insufficient in charging interface, the power of the charging pile is not adjustable, and the fuel vehicle occupies the parking space of the charging pile, and can meet different charging requirements of new energy vehicles or other devices in an actual environment.

Description

Matrix type intelligent charging device and method

Technical Field

The invention relates to the technical field of electric mobile carriers and intelligent charging, in particular to a matrix type intelligent charging device and method.

Background

With the development and progress of new energy technology and the requirements of automobile automation and intellectualization, new energy automobiles are rapidly developed, and accordingly, the charging requirements of the new energy automobiles are more and more vigorous. In order to meet the diversified social requirements of people, the charging pile design of the corresponding original single scene cannot meet the more and more complex charging requirements. Under the condition that the charging pile meets the requirements of high-power and ultra-high-power charging, the wide coverage of the charging pile and the normal and flexible operation of a charging system are required to be ensured. On the other hand, in view of the concern of damage to the battery due to quick charging or long parking time in a parking lot, it is desirable to reduce the charging power to reduce the damage to the battery due to charging, so that it is desirable to select the charging power by itself during charging.

Charging piles on the market at present only play a single charging pile to charge one or two electric vehicles or other mobile vehicles, and charging power can not be adjusted. Charging parking stall is often occupied by burning oil vehicle simultaneously, and the unable effective solution fills electric pile utilization efficiency to and fill the electric pile facility and extensively cover the problem, consequently the traditional life demand that can't satisfy the modernization that fills electric pile.

The invention provides a matrix type intelligent charging device and method in order to safely, conveniently and quickly serve the charging requirements of electric automobiles or other equipment and meet the more diversified and more efficient charging requirements of people.

Disclosure of Invention

In order to make up for the defects of the prior art, the invention provides a simple and efficient matrix type intelligent charging device and method.

The invention is realized by the following technical scheme:

the utility model provides a matrix intelligence charging device which characterized in that: the intelligent power distribution charging system comprises a server, an intelligent power distribution charging machine, an intelligent control matrix and an intelligent charging pile; the intelligent power distribution charger is connected with a power supply network through a bus inlet side and is connected with an intelligent control matrix bus through an intelligent charger output bus;

the server is used for realizing information interaction with the intelligent power distribution charger and the user side APP and generating a corresponding control instruction according to the order information of the user side APP so as to realize intelligent control over the intelligent power distribution charger, the intelligent charging matrix and the intelligent charging pile; the metering charging and user interaction functions are realized through the user side APP, so that a user can not only obtain the required electric energy condition at any time, but also perform remote information interaction with the intelligent charging device in real time;

the intelligent power distribution charger is used for converting electric energy in a power grid into direct-current voltage meeting the national direct-current charging standard, performing power distribution according to the user demand and controlling the output power of the output end so as to realize the later-stage intelligent charging pile supply;

the intelligent control matrix is used for establishing intelligent charging output, is connected with a designated intelligent charging pile connected to the intelligent control matrix, distributes charging energy for the new energy automobile according to power selected by a user, and distributes charging power for each charging gun.

The intelligent power distribution charger comprises an intelligent charging controller, a power module and a power distributor;

the intelligent power distribution charger is in multi-path output; according to the charging power, the utilization rate of the charging piles and the number of the charging piles which are charged simultaneously, one or more intelligent power distribution charging machines are adopted in one matrix to synchronously and parallelly charge, charge in turn or charge in a reservation mode for a plurality of vehicles or other mobile carriers.

The intelligent control matrix consists of an electric power and communication transmission cable, a matrix switcher and a matrix controller, the input end of the intelligent control matrix is connected with the intelligent power distribution charger, and the output end of the intelligent control matrix is connected with the intelligent charging pile device.

The intelligent charging pile comprises a supporting pile, an intelligent charging controller, an electric energy and signal transmission cable and a direct current charging gun;

the supporting pile is used for supporting the intelligent charging controller, the electric energy and signal transmission cable and the direct-current charging gun;

the intelligent charging controller is in charge of exchanging charging information with the server when the electric mobile carrier is charged;

the electric energy and signal transmission cable is used for transmitting electric energy and charging information;

the direct current charging gun is used as an interactive connector with charging equipment, is connected to a charging interface of a direct current or other electric mobile vehicles of the new energy automobile, and transmits charging electric energy to the charging equipment to charge corresponding equipment.

The intelligent power distribution charger, the intelligent control matrix and the intelligent charging pile are all provided with a system safety protection circuit and are responsible for detecting the operation and the electric energy quality condition of the system in real time and ensuring personal safety.

The intelligent power distribution charger with multi-path output comprises a plurality of power modules, and the power modules dynamically adjust the output power through the power distribution modules in a parallel mode, a series mode or a mixed mode.

A matrix type intelligent charging method is characterized in that: the method comprises the following steps:

step S101: a user selects an idle intelligent charging pile and connects the direct current charging gun to a vehicle to be charged or other mobile carriers; the server modifies the current state of the intelligent charging pile into the use state;

step S102: scanning the two-dimensional code, NFC or Bluetooth through a client APP to obtain information of the intelligent charging device, generating a charging order according to the information of the intelligent charging pile, the information of the mobile carrier and user selection, generating a corresponding charging task according to the order information, and carrying out synchronous parallel charging, waiting charging or appointment charging on vehicles or other mobile carriers;

the charging task includes: charging power, charging duration, vehicle type information and electric energy parameters;

the server compares the current state, the vehicle type information, the residual power and the electric energy parameter of the intelligent charging column with the charging task to determine whether preset conditions are met;

the preset conditions include: whether the vehicle is in an idle state, the residual charging power and whether the vehicle type is supported;

step S103: the intelligent charging device schedules the intelligent power distribution charger, the intelligent control matrix and the intelligent charging pile to execute a charging task;

when the intelligent power distribution charger has residual charging power, the instant charging can be selected after the charging power is set, and when the residual charging power is greater than the set maximum charging power, the charging is carried out according to the set power; when the residual charging power is smaller than the set charging power, charging is carried out by using the residual charging power, and when other charging equipment releases the charging power, the charging power of the instant charging equipment is preferentially increased until the charging power set by a user is reached;

when the residual charging power of the intelligent power distribution charger is 0, selecting the charging power and then performing alternate charging; when other charging equipment releases charging power, sequentially charging the waiting charging equipment;

step S104: determining whether charging is finished or not according to the charging information and the charging duration, if so, releasing the direct-current charging gun, the intelligent control matrix and the intelligent power distribution charger, generating order completion information, feeding the order completion information back to a user side APP, and executing order settlement;

and when the user disconnects the direct current charging gun from the vehicle to be charged or other mobile carriers, the current state of the intelligent charging pile is changed into idle state.

In step S103, when charging in a waiting period, the charging sequence adopts a bidding mode, a high-level member priority mode or a first-come first-charge mode; when charging is started, the charging process and mode are the same as the instant charging.

In step S103, the user selects the reserved charging by himself, and starts charging after waiting for the set time after selecting the charging time and the charging power, and executes waiting charging after the charging time is reached.

The invention has the beneficial effects that: the matrix type intelligent charging device and method overcome the problem of poor flexibility of the conventional charging pile, solve the problems that the conventional charging pile is insufficient in charging interface, the power of the charging pile is not adjustable, and the fuel vehicle occupies the parking space of the charging pile, and can meet different charging requirements of new energy vehicles or other devices in an actual environment.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic diagram of a matrix intelligent charging device according to the present invention.

Fig. 2 is a schematic diagram of the matrix intelligent charging method of the present invention.

In the figure, 10 servers; 20 intelligent power distribution charger, 21 intelligent charging controller, 22 power module and 23 power distribution module; 30 intelligent control matrix, 31 matrix controller, 32 matrix switcher; 33 power and signal transmission cables; 40 intelligent charging stake, 41 support stake, 42 intelligent charging controller, 43 direct current rifle that charges, 44 electric energy and signal transmission cable.

Detailed Description

In order to make those skilled in the art better understand the technical solution of the present invention, the technical solution in the embodiment of the present invention will be clearly and completely described below with reference to the embodiment of the present invention. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. 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 invention.

The matrix type intelligent charging device comprises a server 10, an intelligent power distribution charger 20, an intelligent control matrix 30 and an intelligent charging pile 40; the intelligent power distribution charger is connected with a power supply network through a bus inlet side and is connected with an intelligent control matrix bus through an intelligent charger output bus;

the server 10 is used for realizing information interaction with the intelligent power distribution charger and the user side APP and generating a corresponding control instruction according to the order information of the user side APP so as to realize intelligent control over the intelligent power distribution charger 20, the intelligent charging matrix 30 and the intelligent charging pile 40; the metering charging and user interaction functions are realized through the user side APP, so that a user can not only obtain the required electric energy condition at any time, but also perform remote information interaction with the intelligent charging device in real time;

the intelligent power distribution charger 20 is used for converting electric energy in the power grid into direct-current voltage meeting the national direct-current charging standard, performing power distribution according to the user demand, and controlling the output power of the output end so as to realize the later-stage intelligent charging pile supply;

the intelligent control matrix 30 is used for establishing intelligent charging output, establishing connection with a designated intelligent charging pile connected to the intelligent control matrix 30, distributing charging energy for the new energy automobile according to power selected by a user, and distributing charging power for each charging gun.

The intelligent power distribution charger 20 comprises an intelligent charging controller 21, a power module 22 and a power distributor 23;

the intelligent power distribution charger 20 is in multi-path output; according to the charging power, the utilization rate of the charging piles and the number of the charging piles which are charged simultaneously, one or more intelligent power distribution charging machines are adopted in one matrix to synchronously and parallelly charge, charge in turn or charge in a reservation mode for a plurality of vehicles or other mobile carriers.

The intelligent control matrix 30 is composed of a power and communication transmission cable 33, a matrix switcher 32 and a matrix controller 31, and the input end of the intelligent control matrix is connected with the intelligent power distribution charger and the output end of the intelligent control matrix is connected with the intelligent charging pile device.

The intelligent charging pile 40 comprises a supporting pile 41, an intelligent charging controller 42, an electric energy and signal transmission cable 44 and a direct current charging gun 43;

the support pile 41 is used for supporting an intelligent charging controller 42, an electric energy and signal transmission cable 44 and a direct current charging gun 43. Pollution and damage are avoided, and the use is convenient; the support piles 41 may be in various forms, and may be in a pile type, or may be in other forms or shapes such as a wall, a plate type, and the like.

The intelligent charging controller 42 is responsible for interacting charging information with the server 10 when charging the electric mobile vehicle; through two-dimensional code, NFC, bluetooth and other modes and user side APP mutual, show relevant information such as this equipment, battery charging outfit, charging situation, communicate with new energy automobile in order to control charging voltage, electric current etc..

The power and signal transmission cable 44 is used for transmitting power and charging information;

the direct current charging gun 43 serves as an interactive connector with a charging device, is connected to a charging interface of a direct current or other electric mobile vehicles of the new energy automobile, and transmits charging electric energy to the charging device to charge the corresponding device.

The intelligent power distribution charger 20, the intelligent control matrix 30 and the intelligent charging pile 40 are all provided with system safety protection circuits and are responsible for detecting the system operation and the electric energy quality condition in real time and ensuring personal safety.

The multi-output intelligent power distribution charger 20 includes a plurality of power modules, and the plurality of power modules dynamically adjust output power in a parallel mode, a series mode or a mixed mode through the power distribution modules.

The user passes through the information interaction between user side APP realization and the server 10, also the user only needs to park the electric power mobile carrier to this intelligent charging stake device department to insert the direct current mouth that charges with the rifle, then make an order through user side APP, can charge the electric power mobile carrier through the intelligent charging stake device.

The user side APP is installed to the mobile side in a program or system mode, and the obtained mobile side includes but is not limited to a smart phone, a tablet computer, a personal computer or other hardware equipment with corresponding functions.

The intelligent control matrix 30 is used for connecting the appointed output of the intelligent power distribution charger 20 to any intelligent charging pile 40 connected to the intelligent control matrix 30, and transmitting the electric energy to the intelligent charging pile 40 and then to the mobile charging carrier. It should be noted that the position of the intelligent control matrix 30 may be flexibly set according to the actual site requirement, and does not constitute a protective limitation in the embodiment of the present application. The intelligent control matrix 30 may be disposed outside the intelligent power distribution charger device 20, or may be integrated with the intelligent power distribution charger device 20, or may exist in a variable form.

The matrix type intelligent charging method comprises the following steps:

step S101: the user selects an idle intelligent charging pile 40, and connects the direct current charging gun 43 to a vehicle to be charged or other mobile vehicles; the server 10 modifies the current state of the intelligent charging pile 40 into use, and prevents the system from mistakenly thinking that a vacant charging pile still exists;

step S102: scanning the two-dimensional code, NFC, Bluetooth and other modes through a client APP to obtain information of the intelligent charging device, generating a charging order according to the information of the intelligent charging pile, the information of the mobile carrier and user selection, generating a corresponding charging task according to the order information, and carrying out synchronous parallel charging, waiting charging or appointment charging on vehicles or other mobile carriers;

the charging task includes: charging power, charging duration, vehicle type information and electric energy parameters;

the server 10 compares the current state, the vehicle type information, the remaining power and the electric energy parameter of the intelligent charging pole with the charging task to determine whether preset conditions are met;

the preset conditions include: whether the vehicle is in an idle state, the residual charging power and whether the vehicle type is supported;

step S103: the intelligent charging device schedules the intelligent power distribution charger 20, the intelligent control matrix 30 and the intelligent charging pile to execute a charging task;

when the intelligent power distribution charger has residual charging power, the instant charging can be selected after the charging power is set, and when the residual charging power is greater than the set maximum charging power, the charging is carried out according to the set power; when the residual charging power is smaller than the set charging power, charging is carried out by using the residual charging power, and when other charging equipment releases the charging power, the charging power of the instant charging equipment is preferentially increased until the charging power set by a user is reached;

when the remaining charging power of the intelligent power distribution charger 20 is 0, the charging power is selected and then the alternate charging is performed; when other charging equipment releases charging power, sequentially charging the waiting charging equipment;

step S104: determining whether charging is finished or not according to the charging information and the charging duration, if so, releasing the direct-current charging gun, the intelligent control matrix and the intelligent power distribution charger, generating order completion information, feeding the order completion information back to a user side APP, and executing order settlement;

when the user disconnects the dc charging gun 43 from the vehicle to be charged or other mobile vehicle, the current state of the intelligent charging pile 40 is modified to be idle.

In step S103, when charging in a waiting period, the charging sequence adopts a bidding mode, a high-level member priority mode or a first-come first-charge mode; when charging is started, the charging process and mode are the same as the instant charging.

In step S103, the user selects the reserved charging by himself, the user starts charging after waiting for the set time after selecting the charging time and the charging power, and performs waiting charging after the charging time is reached.

There are a plurality of variable factors in the charging process, such as the amount of remaining charging power, user-selected charging power, reserved charging power, charging priority policy (membership grade, bidding), etc., which cause the charging mode selection, and more charging modes or processes can be formed, which vary without affecting the idea of the intelligent charging device.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. The utility model provides a matrix intelligence charging device which characterized in that: the intelligent power distribution charging system comprises a server, an intelligent power distribution charging machine, an intelligent control matrix and an intelligent charging pile; the intelligent power distribution charger is connected with a power supply network through a bus inlet side and is connected with an intelligent control matrix bus through an intelligent charger output bus;

the server is used for realizing information interaction with the intelligent power distribution charger and the user side APP and generating a corresponding control instruction according to the order information of the user side APP so as to realize intelligent control over the intelligent power distribution charger, the intelligent charging matrix and the intelligent charging pile; the metering charging and user interaction functions are realized through the user side APP, so that a user can not only obtain the required electric energy condition at any time, but also perform remote information interaction with the intelligent charging device in real time;

the intelligent power distribution charger is used for converting electric energy in a power grid into direct-current voltage meeting the national direct-current charging standard, performing power distribution according to the user demand and controlling the output power of the output end so as to realize the later-stage intelligent charging pile supply;

the intelligent control matrix is used for establishing intelligent charging output, is connected with a designated intelligent charging pile connected to the intelligent control matrix, distributes charging energy for the new energy automobile according to power selected by a user, and distributes charging power for each charging gun.

2. The matrix-type intelligent charging device of claim 1, wherein: the intelligent power distribution charger comprises an intelligent charging controller, a power module and a power distributor;

the intelligent power distribution charger is in multi-path output; according to the charging power, the utilization rate of the charging piles and the number of the charging piles which are charged simultaneously, one or more intelligent power distribution charging machines are adopted in one matrix to synchronously and parallelly charge, charge in turn or charge in a reservation mode for a plurality of vehicles or other mobile carriers.

3. The matrix-type intelligent charging device of claim 1, wherein: the intelligent control matrix consists of an electric power and communication transmission cable, a matrix switcher and a matrix controller, the input end of the intelligent control matrix is connected with the intelligent power distribution charger, and the output end of the intelligent control matrix is connected with the intelligent charging pile device.

4. The matrix-type intelligent charging device of claim 1, wherein: the intelligent charging pile comprises a supporting pile, an intelligent charging controller, an electric energy and signal transmission cable and a direct current charging gun;

the supporting pile is used for supporting the intelligent charging controller, the electric energy and signal transmission cable and the direct-current charging gun;

the intelligent charging controller is in charge of exchanging charging information with the server when the electric mobile carrier is charged;

the electric energy and signal transmission cable is used for transmitting electric energy and charging information;

the direct current charging gun is used as an interactive connector with charging equipment, is connected to a charging interface of a direct current or other electric mobile vehicles of the new energy automobile, and transmits charging electric energy to the charging equipment to charge corresponding equipment.

5. The matrix-type intelligent charging device of claim 1, wherein: the intelligent power distribution charger, the intelligent control matrix and the intelligent charging pile are all provided with a system safety protection circuit and are responsible for detecting the operation and the electric energy quality condition of the system in real time and ensuring personal safety.

6. The matrix-type intelligent charging device of claim 2, wherein: the intelligent power distribution charger with multi-path output comprises a plurality of power modules, and the power modules dynamically adjust the output power through the power distribution modules in a parallel mode, a series mode or a mixed mode.

7. The intelligent charging method of the matrix intelligent charging device according to claims 1-6, characterized in that: the method comprises the following steps:

step S101: a user selects an idle intelligent charging pile and connects the direct current charging gun to a vehicle to be charged or other mobile carriers; the server modifies the current state of the intelligent charging pile into the use state;

step S102: scanning the two-dimensional code, NFC or Bluetooth through a client APP to obtain information of the intelligent charging device, generating a charging order according to the information of the intelligent charging pile, the information of the mobile carrier and user selection, generating a corresponding charging task according to the order information, and carrying out synchronous parallel charging, waiting charging or appointment charging on vehicles or other mobile carriers;

the charging task includes: charging power, charging duration, vehicle type information and electric energy parameters;

the server compares the current state, the vehicle type information, the residual power and the electric energy parameter of the intelligent charging column with the charging task to determine whether preset conditions are met;

the preset conditions include: whether the vehicle is in an idle state, the residual charging power and whether the vehicle type is supported;

step S103: the intelligent charging device schedules the intelligent power distribution charger, the intelligent control matrix and the intelligent charging pile to execute a charging task;

when the intelligent power distribution charger has residual charging power, the instant charging can be selected after the charging power is set, and when the residual charging power is greater than the set maximum charging power, the charging is carried out according to the set power; when the residual charging power is smaller than the set charging power, charging is carried out by using the residual charging power, and when other charging equipment releases the charging power, the charging power of the instant charging equipment is preferentially increased until the charging power set by a user is reached;

when the residual charging power of the intelligent power distribution charger is 0, selecting the charging power and then performing alternate charging; when other charging equipment releases charging power, sequentially charging the waiting charging equipment;

step S104: determining whether charging is finished or not according to the charging information and the charging duration, if so, releasing the direct-current charging gun, the intelligent control matrix and the intelligent power distribution charger, generating order completion information, feeding the order completion information back to a user side APP, and executing order settlement;

and when the user disconnects the direct current charging gun from the vehicle to be charged or other mobile carriers, the current state of the intelligent charging pile is changed into idle state.

8. The intelligent charging method of the matrix intelligent charging device according to claim 7, wherein: in step S103, when charging in a waiting period, the charging sequence adopts a bidding mode, a high-level member priority mode or a first-come first-charge mode; when charging is started, the charging process and mode are the same as the instant charging.

9. The intelligent charging method of the matrix intelligent charging device according to claim 7, wherein: in step S103, the user selects the reserved charging by himself, the user starts charging after waiting for the set time after selecting the charging time and the charging power, and performs waiting charging after the charging time is reached.

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