CN112356730A - Intelligent charging system and charging method for new energy vehicle - Google Patents

Abstract

An intelligent charging system and a charging method for a new energy vehicle are provided, and the intelligent charging system for the new energy vehicle comprises: the communication parking space has a coordinate positioning function and is used for parking the new energy vehicle; the charging assembly is used for providing electric energy supply for the new energy vehicle and comprises a charging pile and a mobile intelligent operation tool; the intelligent terminal is used for transmitting and receiving information of the new energy vehicle; the data control center is used for receiving unprocessed information, transferring and processing data and sending processed information; and the data control center is in communication connection with the intelligent terminal, the communication parking space, the charging pile and the mobile intelligent operation tool respectively. By applying the intelligent charging system and the charging method, an owner can intelligently and remotely control and operate the charging of the new energy vehicle; the parking lot of the communication parking space can realize intelligent and unmanned management and control.

Description

Intelligent charging system and charging method for new energy vehicle

Technical Field

The invention belongs to the fields of automatic automobile charging and robots and remote control and calculation methods, and particularly relates to an intelligent charging system and an intelligent charging method for a new energy vehicle.

Background

The new energy automobile adopts unconventional automobile fuel as a power source (or adopts conventional automobile fuel and a novel vehicle-mounted power device), integrates advanced technologies in the aspects of power control and driving of the automobile, and forms an automobile with advanced technical principle, new technology and new structure.

The new energy automobile comprises four types of Hybrid Electric Vehicles (HEV), pure electric vehicles (BEV, including solar vehicles), Fuel Cell Electric Vehicles (FCEV), other new energy (such as efficient energy storage devices like super capacitors and flywheels) automobiles and the like. Unconventional automotive fuels refer to fuels other than gasoline, diesel, Natural Gas (NG), Liquefied Petroleum Gas (LPG), Ethanol Gasoline (EG), methanol, dimethyl ether.

With respect to the current market conditions and recent development, new energy vehicles mainly refer to electric vehicles. For the electric vehicle, the most anxious is the endurance mileage, so that the automobile must be charged at all times when the vehicle is driven home or runs far to reach a place. If the charging is forgotten every day occasionally, the next day there is a high probability that the battery will not be used normally.

With the rapid development of new energy vehicles, the new energy vehicle charging pile which is a matched product is also widely installed in public buildings, residential area parking lots and charging stations, the common new energy vehicle charging pile comprises a power supply pile body which is arranged on the ground, a charging gun which is electrically connected with the power supply pile body and a butt joint device which is matched and arranged in the new energy vehicle, when the new energy vehicle charging pile is used for charging the new energy vehicle, the vehicle is parked beside the power supply pile body, the butt joint device is opened, the charging gun is manually butted with the butt joint device, the electric energy in the power supply pile body is transmitted to the butt joint device by the charging gun and is stored in a storage battery of the new energy vehicle, after the charging is completed, the charging gun is pulled out from the butt joint device and is placed on the power supply pile body, and the operation of the common new energy vehicle charging pile in the new energy vehicle charging process is tedious, it is time-consuming and labor-consuming.

In addition, the existing charging pile using mode is troublesome to operate, and requires a user to perform interactive operation on the charging pile, but part of people are not skilled in intelligent charging pile equipment operation, and related functions cannot be used; moreover, the position of the charging pile is fixed, so that a user needs to be beside the charging pile during operation, remote operation cannot be realized, and the charging pile is very inconvenient.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention provides an intelligent charging system and a charging method for a new energy vehicle.

The technical scheme for solving the technical problem is as follows: the utility model provides a new forms of energy car intelligent charging system, includes:

the communication parking space has a coordinate positioning function and is used for parking the new energy vehicle;

the charging assembly is used for providing electric energy supply for the new energy vehicle and comprises a charging pile and a mobile intelligent operation tool;

the intelligent terminal is used for transmitting and receiving information of the new energy vehicle;

the data control center is used for receiving unprocessed information, transferring and processing data and sending processed information;

and the data control center is in communication connection with the intelligent terminal, the communication parking space, the charging pile and the mobile intelligent operation tool respectively.

Preferably, a vehicle parking sensing device is arranged in the communication parking space.

Preferably, a visual detection device is further arranged in the communication parking space, and the visual detection device is in communication connection with the communication parking space.

Preferably, the intelligent terminal is provided with information interaction software.

Preferably, the mobile intelligent operation tool comprises a mobile intelligent trolley and a mechanical arm arranged on the mobile intelligent trolley.

Preferably, the charging pile is a fixed charging pile, the fixed charging pile is arranged close to the communication parking space, and the fixed charging seat is connected with a mains supply.

Preferably, the charging pile is a movable charging pile, a charging and discharging battery pack is arranged in the movable charging pile, and the movable charging pile is driven by the movable intelligent operation tool to realize displacement.

The invention also provides a charging method applying the intelligent charging system of the new energy vehicle, which comprises the following steps:

s1: a user drives a new energy vehicle to enter a communication parking space, and a vehicle parking sensing device in the communication parking space senses that the vehicle enters and feeds back the information to a data control center;

s2: the user sends the information such as the parking space number of the communication parking space, the parking direction of the new energy vehicle, the vehicle model and the like to the data control center;

s3: the data control center receives and processes the information from the steps S1 and S2, and then sends an instruction to the charging component;

s4: the mobile intelligent operation tool receives the instruction from the step S3 to start, takes out the charging gun on the charging pile and moves to the position near the charging port of the new energy vehicle in the corresponding communication parking space, opens the charging port cover of the new energy vehicle, aligns and inserts the charging gun into the charging port, and the real-time information in the charging process is fed back to the data control center through the charging assembly and then processed by the data control center and fed back to the intelligent terminal in the hand of the user;

s5: charging is interrupted or is accomplished, and the subassembly that charges feeds back information to intelligent terminal, and the user can roll out the new forms of energy car communication parking stall after learning the information.

Preferably, in step S2, when the new energy vehicle is parked in the communication parking space, the visual detection device is started, detects information such as a parking direction and a vehicle model of the new energy vehicle, and sends the information to the data control center to match with the same type of information sent by the user;

if the matching results are the same, the process proceeds to step S3;

and if the matching results are different, feeding back the information to the intelligent terminal and the visual detection device in the hand of the user, updating the information in the intelligent terminal after the user checks the information, and simultaneously detecting the information again by the visual detection device until the information matching between the intelligent terminal and the visual detection device is the same.

Preferably, in step S5, after the charging is interrupted or completed and the customer confirms the charging on the intelligent terminal, the data control center calculates the charging cost required by the new energy vehicle or the parking cost of the fuel vehicle and feeds the charging cost or the parking cost back to the intelligent terminal of the user, and the user can drive the new energy vehicle out of the communication parking space within a specified time after the user settles the cost on the intelligent terminal.

The invention has the beneficial effects that: 1. the vehicle owner can intelligently and remotely control and operate the charging of the new energy vehicle; 2. the parking lot with the communication parking space can realize intelligent and unmanned management and control; 3. by adopting the intelligent charging system for the new energy vehicle, provided by the invention, the charging port of the new energy vehicle can be accurately positioned, and automatic intelligent charging is realized through a mobile intelligent operation tool; 4. the cooperation that adopts portable intelligent operation instrument and portable electric pile that fills can reduce the quantity of filling electric pile under the condition that satisfies the user demand, reduces relevant cost.

Drawings

Fig. 1 is a schematic diagram of the communication connection of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1, a new energy vehicle intelligent charging system includes:

a communication parking space 101 having a coordinate positioning function for parking a new energy vehicle;

the charging assembly is used for supplying electric energy for the new energy vehicle and comprises a charging pile 102 and a mobile intelligent operation tool 103;

the intelligent terminal 104 is used for transmitting and receiving information of the new energy vehicle;

a data control center 105, configured to receive unprocessed information, transfer data, and send processed information;

the data control center 105 is in communication connection with the intelligent terminal 104, the communication parking space 101, the charging pile 102 and the mobile intelligent operation tool 103 respectively.

In this embodiment, a parking sensing device 1011 is disposed in the communication parking space 101. The parking sensing device 1011 can be present in various ways, such as: infrared sensing device, weighbridge sensing device, camera sensing device, etc., and will not be described herein.

In the invention, the movable intelligent operation tool 103 is innovatively adopted, which can replace the traditional manual operation of a user, and intelligently and automatically realize the pairing charging of the charging gun and the charging port, so that the improper operation possibly caused by the manual operation of the user is saved; secondly, direct interaction operation between the user and the charging pile 102 can be omitted. However, the parking conditions of each user are not uniform, for example, the direction of the vehicle head entering the communication parking space 101 is different, or the vehicle body is inclined when parked, so that even if the same vehicle is parked, the specific positions of the charging ports are not consistent each time, and the difficulty of the mobile intelligent operation tool 103 in searching for the charging ports is increased. In addition, once a position finding error occurs, the mobile intelligent operation tool 103 is likely to damage the metal plate and paint of the vehicle body, so that the user and the user are lost. Therefore, a suitable coordinate positioning function is required to enable the mobile intelligent operation tool 103 to find the charging port of each new energy vehicle.

Here, a preferable embodiment is provided, which has a powerful coordinate positioning function, that is, the communication parking space 101 is further provided with a visual detection device 1012, and the visual detection device 1012 is connected to the communication parking space 101 in a communication manner. Specifically, the vision detection device 1012 includes a plurality of vision detection subunits, the vision detection subunits are installed in each position of the communication parking space 101, and can detect vehicle position information in 360 degrees in multiple dimensions, and then feed the detected vehicle position information back to the data control center 105 through the communication parking space 101, the data control center 105 simulates virtual scene data of the new energy vehicle and the communication parking space 101 in real time according to an XYZ three-coordinate system, and then transmits the virtual scene data of the three-coordinate system to the mobile intelligent operation tool 103, so that the mobile intelligent operation tool 103 can accurately find the charging port position of the new energy vehicle.

In order to facilitate communication between the intelligent terminal 104 and the data control center 105, information interaction software is installed on the intelligent terminal 104, for example, app applications developed for the intelligent charging system of the new energy vehicle on the intelligent mobile phone, or applets in apps such as WeChat and Payment treasures, which communicate with the intelligent charging system of the new energy vehicle, and the like.

In this embodiment, the mobile intelligent operation tool 103 includes a mobile intelligent car 1031, and a mechanical arm 1032 mounted on the mobile intelligent car 1031. The mobile intelligent car 1031 can realize the mobile function of any position, and the mechanical arm 1032 can take the charging gun to perform intelligent charging operation.

Wherein, fill electric pile 102 for fixed electric pile 1021 that fills, fixed electric pile 1021 set up and be close to communication parking stall 101 department that fills, just fixed charging seat and commercial power connection. Because a lot of electric pile 102 of filling have been built on the existing market, in order to can practice thrift the cost and utilize it, during the use, remove intelligent vehicle 1031 and remove to filling electric pile 102 department, utilize robotic arm 1032 will fill the rifle that charges in electric pile 102 and take off, remove to the charging port department of new forms of energy car afterwards, will charge the rifle and aim at the mouth that charges and insert and can realize charging.

In addition, the old fixed charging pile 1021 has many idle situations in some areas and time periods, and often needs to be maintained, so that a large waste situation is caused. Therefore, in a newly built parking lot, the charging pile 102 is preferably a mobile charging pile 1022, a charging and discharging battery pack is arranged in the mobile charging pile 1022, and the mobile charging pile 1022 is driven by the mobile intelligent operation tool 103 to realize displacement. During the use, according to the demand of placing an order of charging of reality, remove intelligent vehicle 1031 and take the portable electric pile 1022 of charging to the vehicle side, recycle robotic arm 1032 with the portable rifle that charges who fills in the electric pile 1022 take off and with the rifle that charges to aim at the mouth that charges and insert and can realize charging, remove intelligent vehicle 1031 this moment and can leave this communication parking stall 101 and go on other operations. After charging, the mobile intelligent car 1031 brings the mobile charging pile 1022 away from the communication parking space 101. It has the similar portable shared theory of filling electric pile 102, in a parking area, need not provide the electric pile 102 that fills who is unanimous with parking stall quantity, also can satisfy the user demand in this parking area to play the effect of cost reduction increase.

The invention also provides a charging method applying the intelligent charging system of the new energy vehicle, which comprises the following steps:

s1: a user drives a new energy vehicle to enter the communication parking space 101, and the vehicle parking sensing device 1011 in the communication parking space 101 senses that the vehicle enters and feeds back the information to the data control center 105;

s2: the user sends information such as the parking space number of the communication parking space 101, the parking direction of the new energy vehicle, the vehicle model and the like to the data control center 105;

s3: the data control center 105 receives and processes the information from steps S1, S2, and then issues an instruction to the charging component;

s4: the mobile intelligent operation tool 103 receives the instruction from the step S3 to start, takes out the charging gun on the charging pile 102 and moves to the vicinity of the charging port of the new energy vehicle in the corresponding communication parking space 101, opens the charging port cover of the new energy vehicle, aligns and inserts the charging gun into the charging port, and the real-time information in the charging process is fed back to the data control center 105 through the charging component, and then processed and fed back to the intelligent terminal 104 in the hand of the user through the data control center 105;

s5: charging is interrupted or completed, the charging assembly feeds information back to the intelligent terminal 104, and a user can drive the new energy vehicle out of the communication parking space 101 after learning the information.

In order to reduce unnecessary loss caused by possible errors, in step S2, when the new energy vehicle is parked in the communication parking space 101, the visual inspection device 1012 starts and detects information such as the parking direction, the vehicle model number, and the like of the new energy vehicle and transmits the information to the data control center 105 to match with the same type of information transmitted by the user; if the matching results are the same, the process proceeds to step S3; if the matching results are different, the information is fed back to the intelligent terminal 104 and the visual detection device 1012 in the hand of the user, the information is updated in the intelligent terminal 104 after the user checks the information, and meanwhile, the visual detection device 1012 carries out detection again until the information matching between the two is the same.

Regarding the charging, in step S5, when the charging is interrupted or completed and the customer confirms on the smart terminal 104, the data control center 105 calculates the charging cost required for the new energy vehicle or the parking cost of the fuel vehicle and feeds the charging cost or the parking cost back to the smart terminal 104 of the user, and the user can drive the new energy vehicle out of the communication parking space 101 within a predetermined time after the user settles the charges on the smart terminal 104. The specific charging can be made according to various factors such as charging time, charging quantity and the like, and the charging for the vehicle to be charged is made according to the parking time.

One of ordinary skill in the art will appreciate that the various example control modules, systems described in connection with the embodiments disclosed herein can be implemented as electronic hardware, or combinations of computer software and electronic hardware. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

In the embodiments provided in the present application, it should be understood that the disclosed modules and systems may be implemented in other manners. For example, the above-described modules and embodiments are merely illustrative, and for example, the division of the modules is only one logical functional division, and in actual implementation, there may be another division, for example, multiple units or components may be combined or integrated into another device, or some features may be omitted, or not executed.

While the present invention has been described with reference to the embodiments shown in the drawings, the present invention is not limited to the embodiments, which are illustrative and not restrictive, and it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (10)

1. The utility model provides a new forms of energy car intelligent charging system which characterized in that includes:

the communication parking space has a coordinate positioning function and is used for parking the new energy vehicle;

the charging assembly is used for providing electric energy supply for the new energy vehicle and comprises a charging pile and a mobile intelligent operation tool;

the intelligent terminal is used for transmitting and receiving information of the new energy vehicle;

the data control center is used for receiving unprocessed information, transferring and processing data and sending processed information;

and the data control center is in communication connection with the intelligent terminal, the communication parking space, the charging pile and the mobile intelligent operation tool respectively.

2. The intelligent charging system of new energy vehicles of claim 1, characterized in that: and a vehicle parking induction device is arranged in the communication parking space.

3. The intelligent charging system of new energy vehicles of claim 1, characterized in that: and the communication parking space is also internally provided with a visual detection device which is in communication connection with the communication parking space.

4. The intelligent charging system of new energy vehicles of claim 1, characterized in that: and the intelligent terminal is provided with information interaction software.

5. The intelligent charging system of new energy vehicles of claim 1, characterized in that: the mobile intelligent operation tool comprises a mobile intelligent trolley and a mechanical arm arranged on the mobile intelligent trolley.

6. The intelligent charging system of new energy vehicles of claim 1, characterized in that: fill electric pile for fixed electric pile that fills, fixed electric pile that fills set up and be close to communication parking stall department, just fixed charging seat and mains connection.

7. The intelligent charging system of new energy vehicles of claim 1, characterized in that: fill electric pile for the movable type fill electric pile, the movable type fill electric pile in be equipped with charge-discharge group battery, just the movable type fill electric pile receive the drive of portable intelligent operation instrument realize the displacement.

8. A charging method using the intelligent charging system for the new energy vehicle as claimed in any one of claims 1 to 7, characterized by comprising the following steps:

s1: a user drives a new energy vehicle to enter a communication parking space, and a vehicle parking sensing device in the communication parking space senses that the vehicle enters and feeds back the information to a data control center;

s2: the user sends the information such as the parking space number of the communication parking space, the parking direction of the new energy vehicle, the vehicle model and the like to the data control center;

s3: the data control center receives and processes the information from the steps S1 and S2, and then sends an instruction to the charging component;

s4: the mobile intelligent operation tool receives the instruction from the step S3 to start, takes out the charging gun on the charging pile and moves to the position near the charging port of the new energy vehicle in the corresponding communication parking space, opens the charging port cover of the new energy vehicle, aligns and inserts the charging gun into the charging port, and the real-time information in the charging process is fed back to the data control center through the charging assembly and then processed by the data control center and fed back to the intelligent terminal in the hand of the user;

s5: charging is interrupted or is accomplished, and the subassembly that charges feeds back information to intelligent terminal, and the user can roll out the new forms of energy car communication parking stall after learning the information.

9. The charging method of the intelligent charging system of the new energy vehicle as claimed in claim 8, wherein: in step S2, when the new energy vehicle is parked in the communication parking space, the visual detection device starts and detects information such as the parking direction, the vehicle model, and the like of the new energy vehicle, and sends the information to the data control center, so as to match the information with the same type of information sent by the user;

if the matching results are the same, the process proceeds to step S3;

and if the matching results are different, feeding back the information to the intelligent terminal and the visual detection device in the hand of the user, updating the information in the intelligent terminal after the user checks the information, and simultaneously detecting the information again by the visual detection device until the information matching between the intelligent terminal and the visual detection device is the same.

10. The charging method of the intelligent charging system of the new energy vehicle as claimed in claim 8, wherein: in step S5, when the charging is interrupted or completed and the customer confirms the charging on the intelligent terminal, the data control center calculates the charging cost required by the new energy vehicle or the parking cost of the fuel vehicle and feeds the charging cost or the parking cost back to the intelligent terminal of the user, and the user can drive the new energy vehicle out of the communication parking space within a specified time after the user settles the cost on the intelligent terminal.

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