CN114954125A

CN114954125A - Vehicle battery detection system device based on block chain and use method thereof

Info

Publication number: CN114954125A
Application number: CN202210499101.2A
Authority: CN
Inventors: 王勇; 石瑞志; 王文杰; 杨腾辉
Original assignee: Anhui Bike New Power Technology Co ltd
Current assignee: Anhui Bike New Power Technology Co ltd
Priority date: 2022-05-09
Filing date: 2022-05-09
Publication date: 2022-08-30

Abstract

The invention belongs to the technical field of batteries, and particularly relates to a vehicle battery detection system device based on a block chain and a use method thereof, wherein the vehicle battery detection system device comprises: the power battery pack is arranged in the vehicle and used for providing power for the vehicle; the sensor module is connected with the power battery pack and used for collecting information of a vehicle power battery; and the detection gateway is connected with the sensor module and transmits information forever. According to the invention, the intelligent terminal and the detection station independently receive the setting of block chain analysis, so that the battery state can be quickly plugged in the monitoring station, the maintenance time can be reduced, and the user can conveniently check the battery state.

Description

Vehicle battery detection system device based on block chain and use method thereof

Technical Field

The invention relates to the technical field of battery storage, in particular to a vehicle battery detection system device based on a block chain and a using method thereof.

Background

The electric automobile has the advantages of economical operation, cleanness, environmental protection and the like, but the driving mileage is short due to the limitation of the battery capacity, and meanwhile, the popularization and the application of the electric automobile are limited due to the long battery charging time, the high battery cost and the large maintenance difficulty. In order to prolong the driving range of the electric automobile, a method of replacing the battery can be adopted, when the electric quantity of the battery is insufficient, the fully charged battery can be quickly replaced at a battery replacement station, the battery replacement time is controlled within 3 minutes and is close to the fuel filling time of a fuel vehicle, so that the driving range is prolonged, and the time is saved. Meanwhile, the method for replacing the battery is adopted, so that the vehicle-electricity separation of the electric vehicle can be realized, a user purchases a bare vehicle without the battery, the charging and maintenance of the battery are operated by a professional operator, the vehicle purchasing cost of the user is reduced, the use is convenient, and the industrialized development and the market application of the electric vehicle are facilitated.

The great popularization of automobiles not only consumes non-renewable petroleum resources, but also causes extremely serious air pollution, and therefore, electric automobiles driven by storage batteries are increasingly popular, but the battery state monitoring of the existing electric automobiles is easy to break down, and the electric automobiles are different from common gasoline automobiles in simple structure, and the electric automobile battery monitoring system generally needs to be detected by a special overhaul factory when breaking down, so that the overhaul period is long and difficult to maintain, and therefore, a vehicle battery detection system device based on a block chain and a using method thereof are provided.

Disclosure of Invention

The invention provides the following technical scheme:

a block chain based vehicle battery detection system apparatus, comprising:

the power battery pack is arranged in the vehicle and used for providing power for the vehicle;

the sensor module is connected with the power battery pack and used for collecting information of a vehicle power battery;

the detection gateway is connected with the sensor module and transmits information;

the data center is connected to the detection gateway and used for receiving detection information of the detection gateway and analyzing and sorting the data;

the verification module is connected to the data center and used for verifying the identity of a vehicle owner and the information of the vehicle battery;

a blockchain server, the blockchain server; and the block chain server is connected to the data center and used for receiving the data processed by the data center in an integrated mode and further analyzing and processing the data.

As a preferable aspect of the block chain-based vehicle battery detection system apparatus according to the present invention, the sensor module includes:

the electric quantity sensor is connected to the battery and used for detecting the electric quantity of the battery;

an internal resistance sensor connected to the battery for detecting an internal resistance of the vehicle battery;

a current sensor connected to the battery for detecting an output current of the vehicle;

a voltage sensor connected to the battery for detecting a vehicle battery output voltage;

and the temperature sensor is connected to the battery and is used for recording the temperature information of the battery.

As a preferable aspect of the block chain-based vehicle battery inspection system apparatus according to the present invention, the data center includes:

the data processing module is respectively connected with the electric quantity sensor, the internal resistance sensor, the current sensor, the voltage sensor and the temperature sensor, and is used for receiving information of the electric quantity sensor, the internal resistance sensor, the current sensor, the voltage sensor and the temperature sensor, and sorting and summarizing information collected by the electric quantity sensor, the internal resistance sensor, the current sensor, the voltage sensor and the temperature sensor and sending the information to the block chain processing module;

and the data storage module is connected to the data processing module and is used for storing the information processed by the data processing module.

As a preferable solution of the block chain-based vehicle battery detection system apparatus according to the present invention, the block chain-based vehicle battery detection system apparatus further includes:

the intelligent terminal is in wireless connection with the verification module, is connected with the block chain server, is used for registering and inputting information, and is used for receiving information battery analysis data of the block chain server.

As a preferable scheme of the block chain-based vehicle battery detection system apparatus according to the present invention, the apparatus further includes a monitoring station:

the monitoring station is connected with the block link server, the monitoring station is connected with the verification module, and the detection station is used for verifying the identity information of the maintenance station and providing information detected in the block link server.

As a preferable scheme of the vehicle battery detection system device based on the block chain, the power battery pack is provided with a plurality of batteries, the sensor modules are provided with a plurality of groups, and the number of the batteries in the power battery pack corresponds to the number of the sensor modules one by one.

As a preferred scheme of the vehicle battery detection system device based on the block chain, each power battery pack is connected with one detection gateway, a plurality of detection gateways are arranged, and different gateways can be interconnected and networked.

A method of using a blockchain based vehicle battery inspection system apparatus, comprising:

s1 configuring a blockchain server, wherein the blockchain server is to preset the analysis methods of various detection parameters and the data representation method of the result;

the method comprises the following steps that S2 system registration is carried out, a vehicle owner enters a blockchain system to obtain a unique identification mark and identity information, and power battery detection parameter data are uploaded to the blockchain system, wherein the blockchain technology is a brand-new distributed basic architecture and a computing mode, wherein the blockchain technology is used for verifying and storing data by using a blockchain type data structure, generating and updating data by using a distributed node consensus algorithm, ensuring the safety of data transmission and access by using a cryptography mode, and programming and operating the data by using an intelligent contract consisting of automatic script codes;

s3, detecting data, detecting battery information through a sensor module, sending the detection information to a data center through a detection gateway, analyzing, sorting and storing the data by the data center, and synchronously sending the data to a block chain server for storage;

s4, detecting an instruction, applying for inquiring the state of the power battery by a vehicle-mounted BMS terminal, a monitoring station or a mobile phone by a vehicle owner, verifying identity information by the system, and sending a corresponding detection request to the block chain system by the vehicle owner after the verification is passed;

s5, feeding back information, wherein the block chain system is called from the block chain according to the information selected by the customer for the vehicle owner to check;

s6, detecting in real time, when there is no information required by the client in the block chain, or when the client needs real-time information, the block chain server feeds back the information signal without the client requirement in the block chain to the verification module, the verification module feeds back the information to the gateway through the data center until the information is fed back to the sensor module, and the sensor module detects the data in real time.

As a preferable aspect of the block chain-based vehicle battery detection system apparatus according to the present invention, the data detection information of step S3 further includes:

the method comprises the following steps of battery electric quantity information, battery charging and discharging internal resistance information, battery charging and discharging current information, battery charging and discharging voltage information and battery working temperature information.

As a preferable aspect of the block chain-based vehicle battery inspection system according to the present invention, the message to be verified in step S4 further includes:

step S2, the owner registers the unique identification and identity information, the battery model information or the qualification information of the monitoring station, the owner information and the battery model information.

Compared with the prior art:

1. the intelligent terminal can be a flat panel, a collection notebook and other equipment, the detection station is used for verifying the identity information of the maintenance station and providing information detected in the block chain server, and the monitoring station is arranged at the maintenance station and is used for a maintenance technician to check the battery parameters and judge the battery fault problem;

2. the data detection information of step S3 further includes: the battery electric quantity information, the battery charging and discharging internal resistance information, the battery charging and discharging current information, the battery charging and discharging voltage information and the battery working temperature information are beneficial to detecting the information such as electric quantity, resistance, voltage and the like, provide multiple detections and facilitate the data unified analysis; step S2, the owner registers the unique identification and identity information, the battery model information or the qualification information of the monitoring station, the owner information and the battery model information.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the present invention will be described in detail with reference to the accompanying drawings and detailed embodiments, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive exercise. Wherein:

FIG. 1 is a system block diagram of a block chain based vehicle battery inspection system apparatus according to the present invention;

FIG. 2 is a first block diagram of a system flow of a vehicle battery inspection system apparatus based on a block chain according to the present invention;

FIG. 3 is a block diagram of a system flow of a vehicle battery detection system apparatus based on a block chain according to a second embodiment of the present invention;

FIG. 4 is a block diagram of a data center of a block chain-based vehicle battery inspection system according to the present invention;

FIG. 5 is a block diagram of a detection bed dry-out module of the vehicle battery detection system device based on the block chain according to the present invention;

FIG. 6 is a block diagram of a method for using a block chain-based vehicle battery detection system apparatus according to the present invention.

In the figure: 100. the system comprises a power battery pack, 200, a sensor module, 300, a detection gateway, 400, a data center, 500, a verification module, 600, a block chain server, 700, an intelligent terminal, 800 and a monitoring station.

Detailed Description

The present invention will be described in detail with reference to the following embodiments in order to make the aforementioned objects, features and advantages of the invention more comprehensible.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described herein, and it will be apparent to those of ordinary skill in the art that the present invention may be practiced without departing from the spirit and scope of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in further detail below.

Fig. 1 to 6 show a block chain-based vehicle battery detection system apparatus and a method for using the same according to the present invention, which independently receive a block chain analysis setting through an intelligent terminal 700 and a detection station, thereby facilitating a monitoring station 800 to quickly plug in a battery state, reducing maintenance time, and facilitating a user to check, where the intelligent terminal 700 may be a tablet, a collection notebook, or other device, the detection station is used to verify the identity information of a maintenance station, and provide information detected in a block chain server 600, and the monitoring station 800 is provided at a maintenance station for a maintenance engineer to check battery parameters and determine a battery failure problem, and specifically, the method includes:

a block chain based vehicle battery detection system apparatus, comprising:

a power battery pack 100, the power battery pack 100 being disposed in a vehicle, the power battery pack 100 being used to power the vehicle;

the sensor module 200 is connected with the power battery pack 100, and the sensor module 200 is used for collecting vehicle power battery information;

the detection gateway 300, the detection gateway 300 is connected with the sensor module 200, and the detection gateway 300 always transmits information;

the data center 400 is connected to the detection gateway 300, and the data center 400 is used for receiving the detection information of the detection gateway 300 and analyzing and sorting the data;

a verification module 500, the verification module 500 being connected to the data center 400, the verification module 500 being configured to verify an owner identity and vehicle battery information;

a blockchain server 600, the blockchain server 600; connected to the data center 400, the block chain server 600 is configured to receive the data processed by the data center 400 and perform further data analysis processing.

Further, the sensor module 200 includes:

the electric quantity sensor is connected to the battery and is used for detecting the electric quantity of the battery;

Further, the data center 400 includes:

Further, the method also comprises the following steps:

the intelligent terminal 700 is wirelessly connected with the verification module 500, the intelligent terminal 700 is connected with the blockchain server 600, the intelligent terminal 700 is used for registering and inputting information, and the intelligent terminal 700 is used for receiving information battery analysis data of the blockchain server 600.

Further, a monitoring station 800 is included:

the monitoring station 800 is connected with the block link server, the monitoring station 800 is connected with the verification module 500, and the detection station is used for verifying the identity information of the maintenance station and providing the information detected in the block link server 600.

Further, the power battery pack 100 is provided with a plurality of batteries, the sensor modules 200 are provided with a plurality of groups, and the number of the batteries in the power battery pack 100 corresponds to the number of the sensor modules 200 one by one.

Furthermore, each power battery pack 100 is connected with one detection gateway, and the detection gateways 300 are arranged in a plurality and different gateways can be interconnected and networked.

s1, configuring a blockchain server 600, wherein the blockchain system server is to preset the analysis methods of various detection parameters and the data representation methods of the results;

s2 system registration, wherein the vehicle owner enters the block chain system to obtain the unique identification and identity information, and uploads the power battery detection parameter data to the block chain system, wherein the block chain technology is a brand new distributed basic architecture and calculation mode which uses a block chain type data structure to verify and store data, uses a distributed node consensus algorithm to generate and update data, uses a cryptography mode to ensure the safety of data transmission and access, and uses an intelligent contract composed of automatic script codes to program and operate data;

s3, detecting data, detecting battery information through the sensor module 200, sending the detected information to the data center 400 through the detection gateway 300, analyzing, sorting and storing the data by the data center 400, and synchronously sending the data to the block chain server 600 for storage;

s4, detecting an instruction, applying for inquiring the state of the power battery by the vehicle-mounted BMS terminal, the monitoring station 800 or the mobile phone by the vehicle owner, verifying the identity information by the system, and sending a corresponding detection request to the blockchain system by the vehicle owner after the verification is passed;

s6, detecting in real time, when there is no information required by the client in the blockchain, or when the client needs real-time information, the blockchain server 600 feeds back a signal indicating that there is no client-required information in the blockchain to the verification module 500, and the verification module 500 feeds back the information to the gateway through the data center 400 until the information is fed back to the sensor module 200, so that the sensor module 200 can detect the data in real time.

Further, the step S3 further includes:

Further, the message to be verified in step S4 further includes:

step S2, the owner registers the unique identification and identity information, the battery model information used by the owner or the qualification information of the monitoring station 800, the owner information and the battery model information.

Example 1: a block chain based vehicle battery detection system apparatus, comprising:

a power battery pack 100, the power battery pack 100 being provided in a vehicle, the power battery pack 100 being used to power the vehicle;

a sensor module 200, the sensor module 200 to be connected with the power battery pack 100, the sensor module 200 for collecting vehicle power battery information, the sensor module 200 comprising: the electric quantity sensor is connected to the battery and used for detecting the electric quantity of the battery; an internal resistance sensor connected to the battery for detecting an internal resistance of the vehicle battery; a current sensor connected to the battery for detecting an output current of the vehicle; a voltage sensor connected to the battery for detecting a vehicle battery output voltage; the temperature sensor is connected to the battery and used for recording temperature information of the battery; the detection gateway 300 is connected with the sensor module 200, and the detection gateway 300 always transmits information, so that various information can be collected at the same time;

the data center 400 is connected to the detection gateway 300, the data center 400 is configured to receive detection information of the detection gateway 300, and analyze and sort the data, and the data center 400 includes: the data processing module is respectively connected with the electric quantity sensor, the internal resistance sensor, the current sensor, the voltage sensor and the temperature sensor, and is used for receiving information of the electric quantity sensor, the internal resistance sensor, the current sensor, the voltage sensor and the temperature sensor, and sorting and gathering information collected by the electric quantity sensor, the internal resistance sensor, the current sensor, the voltage sensor and the temperature sensor and sending the information to the block chain processing module;

the data storage module is connected to the data processing module and is used for storing the information processed by the data processing module;

a blockchain server 600, the blockchain server 600; the blockchain server 600 is connected to the data center 400, and is configured to receive data integrally processed by the data center 400 and perform further data analysis processing, and when in use, various analysis methods of detection parameters and data representation methods of results need to be configured for the blockchain server 600 first;

the intelligent terminal 700 is wirelessly connected with the verification module 500, the intelligent terminal 700 is connected with the blockchain server 600, the intelligent terminal 700 is used for registering and inputting information, the intelligent terminal 700 is used for receiving information battery analysis data of the blockchain server 600, and the intelligent terminal 700 can be a tablet computer, a collection notebook computer and other devices.

Monitoring station 800, monitoring station 800 is connected with the block link server, monitoring station 800 is connected with verification module 500, the detection station be used for with verify maintenance website identity information to provide the information that detects in the block link server 600, monitoring station 800 sets up at the maintenance website, be used for supplying the maintenance person to look over the battery parameter, judge the battery trouble problem.

Further, the power battery pack 100 is provided with a plurality of batteries, the sensor modules 200 are provided with a plurality of groups, and the number of the batteries in the power battery pack 100 corresponds to the number of the sensor modules 200 one by one; every power battery group 100 is connected for the gateway with a detection, it is a plurality of to detect gateway 300, and but the networking of interconnection between the different gateways is favorable to sharing categorised detection, further guarantees data accuracy, and the mode of networking is favorable to data integration transmission.

Example 2: a use method of a block chain-based vehicle battery detection system device comprises the following steps: firstly, a block chain server 600 is configured, and various analysis methods of detection parameters and data representation methods of results are preset in the block chain system server; then system registration, wherein the vehicle owner is registered into a block chain system to obtain a unique identification mark and identity information, and power battery detection parameter data is uploaded to the block chain system, and the block chain technology is a brand-new distributed infrastructure and a computing mode which utilize a block chain type data structure to verify and store data, utilize a distributed node consensus algorithm to generate and update data, utilize a cryptography mode to ensure the safety of data transmission and access, and utilize an intelligent contract consisting of automatic script codes to program and operate the data; then, detecting data, namely detecting battery information through the sensor module 200, then sending the detection information to the data center 400 through the detection gateway 300, analyzing, sorting and storing the data through the data center 400, and synchronously sending the data to the block chain server 600 for storage; then, detecting an instruction, wherein the vehicle owner uses the vehicle-mounted BMS terminal, the monitoring station 800 or the mobile phone to apply for inquiring the state of the power battery, the system verifies the identity information, and after the verification is passed, the vehicle owner sends a corresponding detection request to the block chain system; then, the energy information feedback is carried out, and the block chain system is called from the block chain according to the information selected by the customer and is checked by the vehicle owner; finally, real-time detection is carried out, when no information required by a client exists in the blockchain or when the client needs real-time information, the blockchain server 600 feeds back a signal indicating that no information required by the client exists in the blockchain to the verification module 500, the verification module 500 feeds back the information to the gateway through the data center 400 until the information is fed back to the sensor module 200, and the sensor module 200 detects the data in real time; through the setting of intelligent terminal 700 and the independent receiving block chain analysis of detection station, be favorable to the quick plug-in components battery state of monitoring station 800, reduce maintenance duration, and the person of facilitating the use looks over.

Further, the data detection information of step S3 further includes: the battery electric quantity information, the battery charging and discharging internal resistance information, the battery charging and discharging current information, the battery charging and discharging voltage information and the battery working temperature information are beneficial to detecting the information such as electric quantity, resistance, voltage and the like, provide multiple detections and facilitate the data unified analysis; step S2, the owner registers the unique identification and identity information, the battery model information used by the owner or the qualification information of the monitoring station 800, the owner information and the battery model information.

Claims

1. A block chain-based vehicle battery detection system apparatus, comprising:

a power battery pack (100), the power battery pack (100) being arranged in a vehicle, the power battery pack (100) being for powering the vehicle;

the sensor module (200), the sensor module (200) is connected with the power battery pack (100), and the sensor module (200) is used for collecting vehicle power battery information;

a detection gateway (300), wherein the detection gateway (300) is connected with a sensor module (200), and the detection gateway (300) transmits information;

the data center (400), the data center (400) is connected to the detection gateway (300), and the data center (400) is used for receiving the detection information of the detection gateway (300) and analyzing and sorting the data;

a verification module (500), the verification module (500) being connected to a data center (400), the verification module (500) being configured to verify an owner identity and vehicle battery information;

the blockchain server (600), the blockchain server (600) is connected to the data center (400), and the blockchain server (600) is used for receiving the data processed by the data center (400) in an integrated mode and further performing data analysis processing.

2. The block chain-based vehicle battery detection system arrangement according to, wherein the sensor module (200) comprises:

3. The blockchain-based vehicle battery inspection system apparatus according to, wherein the data center (400) includes:

4. The block chain-based vehicle battery test system apparatus of claim, further comprising:

the intelligent terminal (700) is in wireless connection with the verification module (500), the intelligent terminal (700) is connected with the blockchain server (600), the intelligent terminal (700) is used for registering and inputting information, and the intelligent terminal (700) is used for receiving information battery analysis data of the blockchain server (600).

5. The blockchain-based vehicle battery inspection system apparatus of claim, further comprising a monitoring station (800):

the monitoring station (800) is connected with the block link server, the monitoring station (800) is connected with the verification module (500), and the detection station is used for verifying the identity information of the maintenance station and providing a system for detection in the block link server (600).

6. The block chain-based vehicle battery detection system device according to the claim, wherein the power battery pack (100) is provided with a plurality of batteries, the sensor modules (200) are provided with a plurality of groups, and the number of the batteries in the power battery pack (100) is corresponding to the number of the sensor modules (200).

7. The device as claimed in claim, wherein each power battery pack (100) is connected to a detection gateway, and the detection gateways (300) are provided in multiple numbers, and different gateways can be interconnected with each other.

8. A method for using a block chain-based vehicle battery inspection system device, comprising:

s1 configuring the blockchain server (600), the blockchain system server should preset the analysis method of various detection parameters and the data representation method of the result;

s3, detecting data, detecting battery information through the sensor module (200), then sending the detected information to the data center (400) through the detection gateway (300), analyzing, sorting and storing the data by the data center (400), and synchronously sending the data to the block chain server (600) for storage;

s4 detecting instructions, wherein the vehicle-mounted BMS terminal, the monitoring station (800) or the mobile phone is used by the vehicle owner to apply for inquiring the state of the power battery, the system verifies the identity information, and after the verification is passed, the vehicle owner sends a corresponding detection request to the blockchain system;

s6 real-time detection, when the block chain has no information required by the customer, or when the customer needs real-time information, the block chain server (600) feeds back the information signal without the customer requirement in the block chain to the verification module (500), the verification module (500) feeds back the information to the gateway through the data center (400) until the information is fed back to the sensor module (200), and the sensor module (200) detects the data in real time.

9. The method for using a block chain-based vehicle battery test system apparatus according to claim 8, wherein the step S3 data testing information further includes:

10. The use method of the block chain-based vehicle battery detection system apparatus according to the claim, wherein the message to be verified in the step S4 further comprises:

the unique identification and identity information are registered by the vehicle owner, the battery model information used by the vehicle owner or the qualification information of the monitoring station (800), the vehicle owner information and the battery model information.