CN202615415U - Full lifecycle management system of electric automobile power cell and based on Internet of Things - Google Patents

Abstract

The utility model relates to a full lifecycle management system of an electric automobile power cell and based on Internet of Things. The full lifecycle management system of the electric automobile power cell and based on the Internet of Things includes an RFID electronic label arranged on a power cell, an RFID electric label read-write device and a power cell monitoring and managing device. The RFID electric label read-write device is in communicational connection with the power cell monitoring and managing device. The full lifecycle management system of the electric automobile power cell and based on the Internet of Things provided by the utility model reads information of the power cell through the RFID electronic label in real time, and performs the control of the real-time recognition and tracking, operational data collection and automatic charge and power conversion operation of the power cell. At the same time, the power cell is connected with relative subjects such as a related charge device, a power conversion device and a maintenance device. Therefore, the connection of Things is realized. The full lifecycle management including links of the registration, storage, charge, power conversion, check, maintenance, wrapping and the like is established. The trackability and traceability of the power cell in a use process are realized.

Description

Electric automobile power battery lifecycle management system based on Internet of Things

Technical field

The utility model belongs to electric automobile power battery management system field, relates to a kind of electric automobile power battery lifecycle management system based on Internet of Things.

Background technology

The Large Electric automobile fills electrical changing station and possesses capital-intensive usually, the characteristic of technology-intensive type.Wherein electrokinetic cell is to fill basic that electrical changing station depends on for existence and development.Fill with other and to change electric apparatus in comparison and have salient feature; Show that mainly quantity is huge; The equipment mutual with it is many, and frequent to its operation, the distribution place disperses; The dynamic change of electric weight is fast etc., thus the lifecycle management of electrokinetic cell in filling the electrical changing station operation control in occupation of unusual consequence.In the prior art, usually by means of traditional labor management ways and means, its inefficiency, error rate is high, and assets information in kind can't be synchronously in real time with management system information.

Therefore; Need long-range, dynamic, real-time, a full automatic electrokinetic cell data acquisition of effective electrokinetic cell lifecycle management system's realization; Be used for replacing the foreground artificial data collection of traditional asset management mode; Better combine, improve the integrality of electrokinetic cell service efficiency and data, give full play to the effective utilization of electrokinetic cell with the background computer data.

The utility model content

The purpose of the utility model provides a kind of batteries of electric automobile lifecycle management system based on Internet of Things, to solve the problem that efficient is low, error rate is high of prior art.

For realizing above-mentioned purpose; The electric automobile power battery life-cycle cycle management system based on Internet of Things of the utility model; Comprise RFID electronic tag, RFID electronic label read-write equipment and the electrokinetic cell managing apparatus be located on the electrokinetic cell, said RFID electronic label read-write equipment is connected with the communication of electrokinetic cell managing apparatus.

Further, said RFID electronic tag is located at locking system place, power battery box front.

Said RFID electronic label read-write equipment comprises the hand-held read-write equipment, be located at the RFID electronic label read/write that changes on the electric equipment anchor clamps is connected inductor with automatic charging on being located at charging set.

Said electrokinetic cell managing apparatus comprises that battery is put Registering modules in storage, machine account is set up module, record of charging module, service recorder module, Maintenance and Repair module and scrapped module.

Further, said RFID electronic label read-write equipment is connected through Ethernet, optical fiber or the communication of 3G wireless communication mode with the electrokinetic cell managing apparatus.

The batteries of electric automobile lifecycle management system based on Internet of Things of the utility model; RFID electronic label read-write equipment reads the various information of electrokinetic cell in real time through the RFID electronic tag; Electrokinetic cell is carried out Real time identification to be followed the tracks of; Service data is gathered, and robotization is filled and changed electricity and control.Simultaneously; With electrokinetic cell and relative charging equipment, change electric equipment, the repair apparatus relative subject realizes that the thing thing is connected; Foundation comprise electrokinetic cell registration, storage, charge, change the life-cycle cycle management of links such as electricity, maintenance, maintenance, encirclement, realize electrokinetic cell in use traceable with can review.Adopted native system advanced electronic technology, RFID automatic identification technology, mechanics of communication and Computerized Information Processing Tech have realized the robotization lifecycle management of electrokinetic cell, have improved the efficiency of management of electrokinetic cell greatly.

Description of drawings

Fig. 1 is the system authority figure of embodiment;

Fig. 2 is the pie graph of the electrokinetic cell watch-dog of embodiment;

Fig. 3 is the installation site of electronic tag on battery case;

Fig. 4 is the operation chart of electronic label read/write terminal to electronic tag.

Embodiment

Shown in Fig. 1-4; Electric automobile power battery life-cycle cycle management system based on Internet of Things; Comprise RFID electronic tag, RFID electronic label read-write equipment and electrokinetic cell managing apparatus, RFID electronic label read-write equipment is connected with the communication of electrokinetic cell managing apparatus.The RFID electronic tag is located at locking place, power battery box front, and RFID electronic label read-write equipment comprises the hand-held read-write equipment, be located at the RFID electronic label read/write that changes on the electric equipment anchor clamps is connected inductor with automatic charging on being located at charging set.The electrokinetic cell managing apparatus is that Surveillance center's computing machine comprises that battery is put Registering modules in storage, machine account is set up module, record of charging module, service recorder module, Maintenance and Repair module and scrapped module.RFID electronic label read-write equipment is connected through Ethernet, optical fiber or the communication of 3G wireless communication mode with the electrokinetic cell managing apparatus.

The management software of electrokinetic cell watch-dog comprises electrokinetic cell and goes into database management module; The grouping management module; Account administration module, real-time information enquiry module; Update module, electrokinetic cell status data real-time monitoring module, task distribution module, electric weight residue prompting processing scheme module, electrokinetic cell historical data retrieval module, data statistics module, electronic tag administration module etc.Real-time and monitoring unit communication on the spot realizes the real-time monitoring to electrokinetic cell through Ethernet/optical fiber/3G wireless communication mode.

The workflow of this management system is:

The first step adopts the registration of electronic tag warehouse-in, by the staff RFID electronic tag is installed on battery case; Write the battery case numbering through hand-held terminal device; The battery entry time, battery electric quantity, battery group information; Battery case is safeguarded sign and association attributes, uploads to the electrokinetic cell managing apparatus.

In second step, after the batch battery information that the electrokinetic cell managing apparatus is uploaded handheld terminal is handled,, set up and fill electrical changing station battery account through to information screening and processing.

The 3rd step, the service recorder of electrokinetic cell, accurate in order to realize; Change electric process automatically; The RFID tag read-write equipment has been installed changing on the anchor clamps of electric equipment, when changing battery, change that electric equipment receives that supervisory system issues change electricity instruction and target battery information after; Utilize the rfid interrogator on the anchor clamps to come to scan the electronic tag on the battery successively, navigate to till the target battery.When taking off battery, this time and information of vehicle of changing electricity is write electronic tag and monitoring management system respectively, formation battery service recorder.

The 4th step; Electrokinetic cell charges automatically and connects and record of charging, automatic charging is installed on the charging set connects inductor, and inductor is gathered the information about power of electronic tag; Automatically judge whether current battery satisfies charge condition; If Rule of judgment satisfies, the charging set connector charges from being dynamically connected battery voluntarily.Automatically the induction connector writes electronic tag with the start time of this charging, sends to monitoring and control management software through CAN communication simultaneously, adds the record of charging of battery.

The 5th step; In the dynamic battery changing process; The electrokinetic cell managing apparatus to change electric equipment issue the target battery ID that will change, change electric equipment and need read the label on the electrokinetic cell through the electronic label read/write on its anchor clamps, thus the localizing objects battery.

The 6th step; Battery operating position according to record in the electronic tag; Formulate special Maintenance and Repair plan, electrokinetic cell is carried out repair and maintenance, the each maintenance with the record of maintenance rewritten the label maintenance record by hand-held set; Then maintenance information is sent to the electrokinetic cell managing apparatus through this wireless WIFI, form the Maintenance and Repair record of electrokinetic cell.

In the 7th step, staff's only with hand is held machine and at the scene the battery information of planned obsolescence is read, and is uploaded to managing apparatus and scraps operation, promptly accomplishes scrapping of battery.Because the uniqueness of electronic tag, competent authorities need not the scene and check, and efficient improves.

Claims (4)

1. electric automobile power battery life-cycle cycle management system based on Internet of Things; It is characterized in that; Comprise RFID electronic tag, RFID electronic label read-write equipment and the electrokinetic cell managing apparatus be located on the electrokinetic cell, said RFID electronic label read-write equipment is connected with the communication of electrokinetic cell managing apparatus.

2. system according to claim 1 is characterized in that: said RFID electronic tag is located at locking system place, power battery box front.

3. system according to claim 1 is characterized in that: said RFID electronic label read-write equipment comprises the hand-held read-write equipment, be located at the RFID electronic label read/write that changes on the electric equipment anchor clamps is connected inductor with automatic charging on being located at charging set.

4. according to each described system among the claim 1-3, it is characterized in that: said RFID electronic label read-write equipment is connected through Ethernet, optical fiber or the communication of 3G wireless communication mode with the electrokinetic cell managing apparatus.

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