CN114701387A - Charging pile data acquisition method and system - Google Patents

Abstract

The application relates to the field of charging piles, in particular to a charging pile data acquisition method and a charging pile data acquisition system, wherein the charging pile data acquisition method comprises the following steps: collecting data information of a vehicle, wherein the data information comprises vehicle color data information, vehicle type data information, license plate data information, vehicle weight data information and vehicle battery data information; storing the data information in an information base; and analyzing the data information in the information base based on the vehicle management database to obtain an analysis result. According to the charging pile data acquisition method and the charging pile data acquisition system, whether illegal modification exists or not is obtained by acquiring the vehicle information of the electric automobile in real time.

Description

Charging pile data acquisition method and system

Technical Field

The application relates to the field of charging piles, in particular to a charging pile data acquisition method and a charging pile data acquisition system.

Background

The function of the charging pile is similar to that of an oiling machine in a gas station, the charging pile can be fixed on the ground or on the wall, and the charging pile is installed in public buildings, shopping malls, public parking lots and residential area parking lots or charging stations and can charge electric vehicles of various models according to different voltage levels.

The input end of the charging pile is directly connected with an alternating current power grid, and the output end of the charging pile is provided with a charging plug for charging the electric automobile. The charging pile generally provides two charging modes of conventional charging and quick charging, and people can use a specific charging card to swipe the card on a human-computer interaction operation interface provided by the charging pile for carrying out corresponding charging mode, charging time and fee data printing operation.

Electric vehicles are retrofittable by changing body color, changing engines, changing body or frame, all of which require application to registered vehicle management. If the electric automobile is modified randomly without the regulations, the method not only violates the regulations, but also has certain influence on personal safety and road safety, thereby possibly causing a series of safety accidents.

Disclosure of Invention

In order to realize the real-time collection and analysis of vehicle information of the electric automobile and further solve the problem of illegal modification, the application provides a charging pile data collection method and a charging pile data collection system.

In a first aspect, the application provides a charging pile data acquisition method, which adopts the following technical scheme:

a charging pile data acquisition method comprises the following steps:

collecting data information of a vehicle, wherein the data information comprises vehicle color data information, vehicle type data information, license plate data information, vehicle weight data information and vehicle battery data information;

storing the data information in an information base;

and analyzing the data information in the information base based on the vehicle management database to obtain an analysis result.

By adopting the technical scheme, the data information of the target vehicle is collected, the data information is recorded and stored in the information base, the corresponding vehicle management information is obtained from the vehicle management database based on the data information, and the vehicle management information and the collected data information are analyzed to obtain a corresponding analysis result, so that the problem of illegal modification can be obtained by collecting the vehicle information of the electric vehicle in real time.

Optionally, the acquiring data information of the vehicle includes the following steps:

acquiring an interaction instruction to electrify the charging pile, and acquiring an electrifying signal;

acquiring an acquisition instruction based on the power-on signal;

and acquiring data information of the vehicle based on the acquisition instruction.

By adopting the technical scheme, the charging pile powers on the electric automobile based on the interactive instruction to obtain a power-on signal, and the background server performs data acquisition on the target vehicle based on the power-on signal.

Optionally, the step of storing the data information in the information base includes the following steps:

establishing an information form based on the data information type;

matching is carried out on the basis of the information form and the data information to obtain a matching result;

acquiring corresponding data information based on the matching result;

importing the data information into the information form;

and storing the information form in the information base.

By adopting the technical scheme, the information form is established based on the data type of the vehicle, the specific data information of the target vehicle can be obtained through matching of the name of the information form, and the matched data information is stored in the information base, so that the data information of the historical collected vehicle can be conveniently inquired and recorded.

Optionally, the vehicle management database includes vehicle record information and vehicle leaving information, and analyzing the data information based on the vehicle management database to obtain an analysis result includes the following steps:

capturing vehicle management information in the vehicle management database based on the information form;

and analyzing the data information based on the vehicle management information to obtain an analysis result.

By adopting the technical scheme, the vehicle management information can be obtained based on the vehicle management database, and then the vehicle management information and the collected data information are analyzed to obtain an analysis result.

Optionally, the analyzing the data information based on the vehicle management information to obtain an analysis result includes the following steps:

acquiring a threshold interval based on the vehicle management information;

judging whether the data information is positioned in the threshold interval or not;

if the abnormal result exceeds the preset threshold value, obtaining an abnormal analysis result;

if not, obtaining a preliminary normal analysis result.

By adopting the technical scheme, whether the data information is located in the corresponding threshold interval or not is judged, which data information of the target vehicle is normal or which data information is abnormal can be obtained, and further a specific analysis result is obtained.

Optionally, the vehicle management information includes identity information of a vehicle owner, and the data information in the information base is analyzed based on a vehicle management database, and after an analysis result is obtained, the method includes the following steps:

associating the analysis result with identity information of the vehicle owner;

and obtaining a data analysis report by taking the identity information of the vehicle owner as an index and the analysis result.

By adopting the technical scheme, the obtained analysis results are associated with the identity information of the target vehicle owner, the vehicle data information analysis report is obtained by taking the identity information of the target vehicle owner as an index and the corresponding analysis results, and the specific content of the vehicle data information analysis report can be obtained through the identity information of the target vehicle owner, so that the query, the record and the storage are facilitated.

In a second aspect, the present application further provides a charging pile data acquisition system, which adopts the following technical scheme:

a charging pile data acquisition system comprising:

the system comprises an acquisition module, a storage module and a display module, wherein the acquisition module is used for acquiring data information of a vehicle, and the data information comprises vehicle color data information, vehicle type data information, license plate data information, vehicle weight data information and vehicle battery data information;

the storage module is used for storing the data information in the information base;

the analysis module is used for analyzing the data information in the information base based on a vehicle management database to obtain an analysis result;

by adopting the technical scheme, the data information of the target vehicle is acquired based on the acquisition module, the data information is recorded and stored in the information base through the storage module, the corresponding vehicle management information is acquired from the vehicle management database based on the data information, and the vehicle management database and the acquired data information are analyzed through the analysis module to obtain the corresponding analysis result, so that the problem of illegal modification can be solved by acquiring the vehicle information of the electric vehicle in real time.

Optionally, the collecting module includes:

a photographing unit for photographing an entire image of a vehicle;

a weight measuring unit for measuring a weight of a vehicle;

a detection unit for detecting a capacity of a vehicle power battery;

an identification unit for acquiring the corresponding data information based on an overall image of a vehicle, a weight, and a capacity of a battery.

Optionally, the storage module includes:

the matching unit is used for matching the information form with the acquired data information to obtain a matching result;

an obtaining unit, configured to obtain the corresponding data information based on the matching result;

and the importing unit is used for importing the data information into the information form.

Optionally, the analysis module includes:

the grabbing unit is used for grabbing corresponding vehicle management information in the vehicle management database;

and the analysis unit is used for analyzing the threshold interval and the data information to obtain an analysis result.

In summary, the present application includes at least one of the following beneficial technical effects: the method comprises the steps of acquiring data information of a target vehicle, recording and storing the data information in an information base, acquiring vehicle management information of the target vehicle from a vehicle management database based on the data information, analyzing the vehicle management information of the target vehicle and the acquired data information to obtain a corresponding analysis result, and generating a data analysis report corresponding to the target vehicle based on the analysis result. Therefore, the problem of whether illegal modification exists can be obtained by acquiring the data information of the electric automobile in real time.

Drawings

Fig. 1 is a schematic overall flow chart of a charging pile data acquisition method according to the present application.

Fig. 2 is a schematic flowchart of steps S201 to S203 in a charging pile data acquisition method according to the present application.

Fig. 3 is a schematic flowchart of steps S301 to S305 in a charging pile data acquisition method according to the present application.

Fig. 4 is a schematic flowchart of steps S401 to S402 in a charging pile data acquisition method according to the present application.

Fig. 5 is a schematic flowchart of steps S501 to S504 in a charging pile data acquisition method according to the present application.

Fig. 6 is a schematic flowchart of steps S601 to S602 in a charging pile data acquisition method according to the present application.

Fig. 7 is a schematic diagram of an overall module structure of a charging pile data acquisition system according to the present application.

Description of reference numerals:

1. an acquisition module; 11. a shooting unit; 12. a weight measuring unit; 13. a detection unit; 14. an identification unit; 2. a storage module; 21. a matching unit; 22. an acquisition unit; 23. an importing unit; 3. a processing module; 31. a grasping unit; 32. an analysis unit.

Detailed Description

The present application is described in further detail below with reference to figures 1-7.

The embodiment of the application discloses a charging pile data acquisition method, which comprises the following steps with reference to fig. 1:

s101, collecting data information of a vehicle, wherein the data information comprises vehicle color data information, vehicle type data information, license plate data information, vehicle weight data information and vehicle battery data information;

s102, storing the data information in an information base;

and S103, analyzing the data information in the information base based on the vehicle management database to obtain an analysis result.

In practical application, in step S101, the vehicle color data information refers to type information of a color on an outer surface of a vehicle body and information of an area occupied by a local outer surface color of the vehicle body, the vehicle type data information refers to a vehicle length and a vehicle width of the vehicle, the license plate data information refers to license plate number information of a target vehicle, the vehicle weight data information refers to weight information of the vehicle, and the vehicle battery data information refers to capacity information of a power battery of the vehicle.

In practical application, the step S102 records the data information of the vehicle while charging the vehicle, and the information base can store and backup the recorded vehicle data information, so as to query the historical data information of the vehicle.

Step S103, in actual use, based on the data information of the vehicle, obtaining registered record information of the target vehicle and factory information of the vehicle from the vehicle management database in a matching manner, comparing and analyzing the registered record information of the target vehicle and the factory information of the vehicle with the collected data information of the target vehicle to obtain an analysis result, and based on the analysis result, obtaining whether the target vehicle meets a specified refitting requirement.

As shown in fig. 2, step S101 includes the following steps:

s201, obtaining an interactive instruction to electrify the charging pile, and obtaining an electrifying signal;

s202, acquiring an acquisition instruction based on the power-on signal;

and S203, acquiring data information of the vehicle based on the acquisition instruction.

In the actual application, firstly, a charging interface of the electric vehicle is found, then, a plug of a charging gun is inserted into the charging interface of the electric vehicle, after the charging pile is successfully connected with the electric vehicle, a charging starting button on a screen of the charging pile is selected by a motor, according to different requirements of users, a proper charging mode is selected, a corresponding button on the screen is clicked, a charging magnetic card is placed in an induction area, the system can automatically read data in the card, an interaction instruction is obtained, a charging program is started to start charging of a target vehicle, and meanwhile, a power-on signal is obtained.

In the practical application of steps S202 to S203, when the charging pile starts to supply power to the electric vehicle, the system may recognize that the charging pile is in a power supply state, the background server obtains a collection instruction based on the power-on signal, and the collection device collects data of the target vehicle based on the collection instruction.

The vehicle color acquisition equipment can scan the colors of the target vehicle to obtain image information, further acquire the color type of the outer surface of the body of the target vehicle and the occupied area information of the local outer surface color of the body based on the image information, and then obtain the type number of the outer surface color of the body and the occupied ratio of the local outer surface color of the body; the vehicle type acquisition equipment can acquire the length and the width of the vehicle body of the target vehicle to obtain corresponding vehicle body information; extracting number information of the license plate based on the image information; the vehicle weight acquisition equipment can measure the weight of the target vehicle and then acquire the weight information of the target vehicle; the vehicle battery acquisition equipment can detect the capacity of the power battery of the target vehicle to obtain specific data information of the battery capacity.

As shown in fig. 3, step S101 includes the following steps:

s301, establishing an information form based on the data information type;

s302, matching is carried out on the basis of the information form and the data information to obtain a matching result;

s303, acquiring corresponding data information based on the matching result;

s304, importing the data information into an information form;

and S305, storing the information form in an information base.

Step 301, in actual application, a corresponding information form is established based on the data information type of the target vehicle, the information form sets a text box based on the specific category of the data information of the target vehicle, attribute information corresponding to the target vehicle is set in the text box, and the attribute information includes: the overall snapshot image of the target vehicle, the type of the colors of the meter, the number of the colors of the meter, the ratio of the colors of the meter, the length of the vehicle body, the width of the vehicle body, the number plate, the weight of the vehicle and the capacity of the power battery.

In actual application, the step S302 to the step S303 are carried out, corresponding data information is matched based on attribute information in an information form text box, and overall image information of the vehicle is obtained based on overall snapshot image matching of the target vehicle; obtaining vehicle meter color number information based on vehicle meter color number matching; obtaining vehicle meter color proportion information based on vehicle meter color proportion matching; obtaining the width information of the target vehicle length based on the vehicle body length and the vehicle body width; license plate number information of the target vehicle is obtained based on license plate number matching; obtaining weight information of the target vehicle based on vehicle weight matching; and obtaining the capacity information of the power battery of the target vehicle based on the power battery capacity matching.

Step S304 to step S305 are carried out in actual application, a vehicle overall picture is obtained based on overall image information of a target vehicle, and the vehicle overall picture is led into a text box corresponding to an overall snapshot image in an information form; obtaining the number of the colors of the vehicle meter based on the information of the number of the colors of the vehicle meter, and importing the number of the colors of the vehicle meter into a text box corresponding to the number of the colors of the vehicle meter in the information form; obtaining the proportion of the vehicle meter color based on the vehicle meter color proportion information, and importing the proportion of the vehicle meter color into a text box corresponding to the proportion of the vehicle meter color in the information form; obtaining a vehicle length and width value based on the vehicle length and width information, and importing the vehicle length and width value into a text box corresponding to the vehicle length and width in the information form; obtaining a license plate number based on the license plate number information, and importing the license plate number into a text box corresponding to the license plate number in the information form; obtaining the weight of the whole vehicle based on the weight information of the vehicle, and importing the weight of the whole vehicle into a text box corresponding to the weight of the vehicle in an information form; and acquiring the capacity of the power battery based on the capacity information of the power battery, and importing the capacity of the power battery into a text box corresponding to the capacity of the power battery in the information form.

As shown in fig. 4, step S103 includes the following steps:

s401, capturing vehicle management information in a vehicle management database based on an information form;

s402, analyzing the data information based on the vehicle management information to obtain an analysis result.

In actual application, capturing corresponding vehicle management information in a vehicle management database based on attribute information of a target vehicle in an information form, wherein the vehicle management information comprises standard rules for safety management of the electric vehicle, confirming information of a registered person of the target vehicle based on a license plate number in the information form, and analyzing data information of the target vehicle based on the vehicle management information after confirming the identity of the registered person of the vehicle to obtain an analysis result of the target vehicle.

As shown in fig. 5, step S402 includes the following steps:

s501, acquiring a threshold interval based on vehicle management information;

s502, judging whether the data information is positioned in a threshold interval;

s503, if the abnormal result exceeds the preset threshold value, obtaining an abnormal analysis result;

and S504, if the result is not exceeded, obtaining a preliminary normal analysis result.

In actual operation, the threshold interval is a safety standard specified for the electric vehicle in the electric vehicle safety management standard rule, and the corresponding threshold interval in the vehicle management information is acquired based on the acquired target vehicle data information in step S501. The threshold value interval comprises a vehicle meter color number threshold value interval, a vehicle meter color ratio threshold value interval, a vehicle length and width threshold value interval, a vehicle weight threshold value interval and a battery capacity threshold value interval.

In practical application, comparing and analyzing the number of the colors of the vehicle meter in the information form with a threshold interval of the number of the colors of the vehicle meter to obtain an analysis result of the number of the colors of the vehicle meter; comparing and analyzing the vehicle meter color proportion in the information form with a vehicle meter color proportion threshold interval to obtain a vehicle meter color proportion analysis result; comparing and analyzing the vehicle length and the vehicle width threshold interval in the information list to obtain a vehicle length and vehicle width analysis result; comparing and analyzing the vehicle weight in the information form with the vehicle weight threshold interval to obtain a vehicle weight analysis result; and analyzing the power battery capacity and the battery capacity threshold interval in the information form to obtain a power battery capacity analysis result.

If the number of the vehicle exterior colors of the target vehicle is within the threshold range of the number of the vehicle exterior colors, a normal analysis result is obtained, otherwise, an abnormal analysis result is obtained, for example, if the threshold range of the number of the vehicle exterior colors is 1 to 3, if the number of the vehicle exterior colors of the target vehicle is 2, a normal analysis result is obtained, and if the number of the vehicle exterior colors is 5, an abnormal analysis result is obtained.

If the meter color ratio of the target vehicle is within the meter color ratio threshold interval, a normal analysis result is obtained, otherwise, an abnormal analysis result is obtained, for example, if the meter color ratio threshold interval is 1% -30%, if the meter color ratio of the target vehicle is 20%, a normal analysis result is obtained, and if the meter color ratio of the target vehicle is 35%, an abnormal analysis result is obtained.

If the vehicle length and the vehicle width of the target vehicle are within the vehicle length and vehicle width threshold interval, a normal analysis result is obtained, otherwise, an abnormal analysis result is obtained, for example, the vehicle length and the vehicle width threshold interval are 0-4CM and 0-5CM, if the vehicle length of the target vehicle exceeds the original vehicle length by 2CM, a normal analysis result is obtained, and if the vehicle length of the target vehicle exceeds the original vehicle length by 6CM, an abnormal analysis result is obtained.

If the vehicle weight of the target vehicle is in the vehicle weight threshold interval, a normal analysis result is obtained, otherwise, an abnormal analysis result is obtained, for example, if the vehicle weight threshold interval is 0.75 to 4.5 tons, if the vehicle weight of the target vehicle is 3.8 tons, a normal analysis result is obtained, and if the vehicle weight of the target vehicle is 5 tons, an abnormal analysis result is obtained.

If the battery capacity of the target vehicle is within the battery capacity threshold interval, a normal analysis result is obtained, otherwise, an abnormal analysis result is obtained, for example, if the battery capacity threshold interval is 54-60Ah, if the battery capacity of the target vehicle is 58 Ah, a normal analysis result is obtained, and if the battery capacity of the target vehicle is 40Ah, an abnormal analysis result is obtained.

As shown in fig. 6, the vehicle management information includes identity information of a vehicle owner, and the following steps are included after analyzing data information in the information base based on the vehicle management database and obtaining an analysis result:

s601, associating the analysis result with identity information of the owner of the vehicle;

and S602, obtaining a data analysis report by taking the identity information of the vehicle owner as an index and an analysis result.

In actual application, the obtained analysis results are associated with the identity information of the target vehicle owner, the identity information of the target vehicle owner is used as an index, and the corresponding analysis results are used for obtaining a vehicle data information analysis report, so that the specific content of the vehicle data information analysis report can be obtained through the identity information of the target vehicle owner, and the query, the record and the storage are facilitated.

The implementation principle of the charging pile data acquisition method in the embodiment of the application is as follows: the method comprises the steps of collecting data information of a vehicle, wherein the data information comprises vehicle color data information, vehicle type data information, license plate data information, vehicle weight data information and vehicle battery data information of a target vehicle, establishing a corresponding information form according to the type of the data information, importing the data information into a corresponding attribute information text box in the information form, storing the imported information form in an information base, capturing corresponding vehicle management information from a vehicle management database according to the attribute information of the target vehicle in the information form, analyzing the data information of the target vehicle according to the vehicle management information to obtain a corresponding analysis result, and obtaining a data analysis report based on the analysis result. The charging pile data acquisition method can acquire the problem of illegal modification or not by acquiring the vehicle information of the electric automobile in real time.

The embodiment of the application also discloses a charging pile data acquisition system, which comprises an acquisition module 1, a storage module 2 and an analysis module, wherein the acquisition module 1 is used for acquiring data information of a vehicle, and the data information comprises vehicle color data information, vehicle type data information, license plate data information, vehicle weight data information and vehicle battery data information; the storage module 2 is used for establishing an information base based on the data information and storing the data information in the information base; the processing module 3 is used for processing the data information based on the vehicle management database to obtain a processing result. The data information of the target vehicle is acquired based on the acquisition module 1, the data information is recorded and stored in the information base through the storage module 2, corresponding vehicle management information is acquired from the vehicle management database based on the data information, and then the vehicle management database and the acquired data information are analyzed through the analysis module to obtain a corresponding analysis result.

In practical application, the data information of the target vehicle is acquired through the acquisition module 1, and the data information comprises vehicle color data information, vehicle type data information, license plate data information, vehicle weight data information and vehicle battery data information. The vehicle color data information refers to the type information of the external surface color of the vehicle body and the area information occupied by the local external surface color of the vehicle body, the vehicle type data information refers to the vehicle body and frame structure information of the vehicle, the license plate data information refers to the license plate number information of the target vehicle, the vehicle weight data information refers to the weight information of the vehicle, and the vehicle battery data information refers to the power battery model and the battery capacity of the vehicle.

As shown in fig. 7, the acquisition module 1 includes a shooting unit 11, a weight measuring unit 12, a detection unit 13, and an identification unit 14. The photographing unit 11 is used for photographing the whole image of the vehicle, the weight measuring unit 12 is used for measuring the weight of the vehicle, the detecting unit 13 is used for detecting the capacity of the power battery of the vehicle, and the identifying unit 14 is used for acquiring corresponding data information based on the whole image of the vehicle, the weight and the capacity of the battery.

It should be noted that the shooting unit 11 may be configured as a camera, and the target vehicle is captured by the camera; the weighing unit 12 may be configured to be a wagon balance, through which the weight of the target vehicle is obtained when the target vehicle is driven on the wagon balance; the measuring unit can be set as a battery capacity measuring instrument, and the capacity value of the power battery can be measured by the battery capacity measuring instrument while the target vehicle is charged; the number value of the meter color, the ratio of the meter color, the vehicle length and the vehicle width of the target vehicle in the captured picture of the target vehicle can be identified through the identification unit 14, the weight value of the target vehicle measured through the wagon balance can be identified through the identification unit 14, and the battery capacity value measured by the battery capacity measuring instrument can be identified through the identification unit 14.

As shown in fig. 7, the storage module 2 includes a matching unit 21, an obtaining unit 22, and an importing unit 23, where the matching unit 21 is configured to match the acquired data information based on the information form to obtain a matching result; the obtaining unit 22 is configured to obtain corresponding data information based on the matching result; the import unit 23 is used to import data information into the information form.

In practical application, the overall snapshot image of the target vehicle is matched through the matching unit 21 to obtain an overall image of the vehicle; matching through a matching unit 21 based on the number of the colors of the vehicle meter to obtain a number value of the colors of the vehicle meter; matching through a matching unit 21 based on the vehicle meter color ratio to obtain a vehicle meter color ratio; obtaining a vehicle length and width value of a target vehicle through a matching unit 21 based on the vehicle length and width; matching through a matching unit 21 based on the vehicle weight to obtain a weight value of the target vehicle; the capacity value of the power battery of the target vehicle is obtained by matching by the matching unit 21 based on the capacity of the power battery.

In actual application, the number value of the vehicle table color of the target vehicle is obtained through the obtaining unit 22, and the number value of the vehicle table color is imported into a text box corresponding to the number of the vehicle table color in the information form through the importing unit 23; the obtaining unit 22 obtains the vehicle meter color ratio, and the importing unit 23 imports the vehicle meter color ratio into a text box corresponding to the vehicle meter color ratio in the information form; acquiring a license plate number through an acquisition unit 22, and importing the license plate number into a text box corresponding to the license plate number in an information form through an importing unit 23; the vehicle weight value is obtained through the obtaining unit 22, and the vehicle weight value is imported into a text box corresponding to the vehicle weight in the information form through the importing unit 23; the capacity value of the power battery is obtained through the obtaining unit 22, and the capacity value of the power battery is imported into a text box corresponding to the capacity of the power battery in the information form through the importing unit 23.

As shown in fig. 7, the analysis module includes a capturing unit 31 and an analysis unit 32, where the capturing unit 31 is configured to capture corresponding vehicle management information in a vehicle management database; the analysis unit 32 is configured to analyze the threshold interval and the data information to obtain an analysis result.

In practical application, corresponding vehicle management information in a vehicle management database is captured by the capturing unit 31 based on attribute information of a target vehicle in an information form, the vehicle management information comprises standard rules for safety management of the electric vehicle, registered person information of the target vehicle is confirmed based on a license plate number in the information form, after the registered person identity of the vehicle is confirmed, data information of the target vehicle is analyzed based on the vehicle management information, and an analysis result of the target vehicle is obtained.

The threshold section is a safety standard specified for the electric vehicle in the electric vehicle safety management standard rules, and the corresponding threshold section in the vehicle management information is acquired based on the acquired target vehicle data information. The threshold value interval comprises a vehicle meter color number threshold value interval, a vehicle meter color ratio threshold value interval, a vehicle length and width threshold value interval, a vehicle weight threshold value interval and a battery capacity threshold value interval.

In practical application, the number of the colors of the vehicle meter in the information form is compared with the threshold interval of the number of the colors of the vehicle meter by the analysis unit 32, so as to obtain the analysis result of the number of the colors of the vehicle meter; comparing and analyzing the vehicle meter color ratio in the information form with a vehicle meter color ratio threshold value interval to obtain a vehicle meter color ratio analysis result; comparing and analyzing the vehicle length and the vehicle width threshold interval in the information list to obtain a vehicle length and vehicle width analysis result; comparing and analyzing the vehicle weight in the information form with the vehicle weight threshold interval to obtain a vehicle weight analysis result; and analyzing the power battery capacity and the battery capacity threshold interval in the information form to obtain a power battery capacity analysis result.

If the number of the vehicle exterior colors of the target vehicle is within the threshold range of the number of the vehicle exterior colors, a normal analysis result is obtained, otherwise, an abnormal analysis result is obtained, for example, if the threshold range of the number of the vehicle exterior colors is 1 to 3, if the number of the vehicle exterior colors of the target vehicle is 2, a normal analysis result is obtained, and if the number of the vehicle exterior colors is 5, an abnormal analysis result is obtained.

If the meter color ratio of the target vehicle is within the meter color ratio threshold interval, a normal analysis result is obtained, otherwise, an abnormal analysis result is obtained, for example, if the meter color ratio threshold interval is 1% -30%, if the meter color ratio of the target vehicle is 20%, a normal analysis result is obtained, and if the meter color ratio of the target vehicle is 35%, an abnormal analysis result is obtained.

If the vehicle length and the vehicle width of the target vehicle are within the vehicle length and vehicle width threshold interval, obtaining a normal analysis result, otherwise obtaining an abnormal analysis result, for example, if the vehicle length and the vehicle width threshold interval are 0-4CM and 0-5CM, if the vehicle length of the target vehicle is 2CM higher than the original vehicle length, obtaining a normal analysis result, and if the vehicle length of the target vehicle is 6CM higher than the original vehicle length, obtaining an abnormal analysis result.

If the vehicle weight of the target vehicle is in the vehicle weight threshold interval, a normal analysis result is obtained, otherwise, an abnormal analysis result is obtained, for example, if the vehicle weight threshold interval is 0.75 to 4.5 tons, if the vehicle weight of the target vehicle is 3.8 tons, a normal analysis result is obtained, and if the vehicle weight of the target vehicle is 5 tons, an abnormal analysis result is obtained.

If the battery capacity of the target vehicle is within the battery capacity threshold interval, a normal analysis result is obtained, otherwise, an abnormal analysis result is obtained, for example, if the battery capacity threshold interval is 54-60Ah, if the battery capacity of the target vehicle is 58 Ah, a normal analysis result is obtained, and if the battery capacity of the target vehicle is 40Ah, an abnormal analysis result is obtained.

The implementation principle of the charging pile data acquisition system in the embodiment of the application is as follows: the method comprises the steps that vehicle color data information, vehicle type data information and license plate data information of a target vehicle are obtained through a shooting unit 11, vehicle weight data information of the target vehicle is obtained through a weight measuring unit 12, and vehicle battery data information of the target vehicle is obtained through a detection unit 13; establishing a corresponding information form according to the type of the data information, matching the data information with the matching unit 21 to obtain data information corresponding to the information form, obtaining the matched data information with the obtaining unit 22, importing the obtained data information into a corresponding attribute information text box in the information form with the importing unit 23, and storing the imported information form in an information base; corresponding vehicle management information is captured from a vehicle management database through the capturing unit 31 based on the attribute information in the information form, data information of the target vehicle is analyzed through the analyzing unit 32 according to the vehicle management information to obtain a corresponding analysis result, and a data analysis report is obtained based on the analysis result. The application provides a fill electric pile data acquisition system can be through the vehicle information of gathering electric automobile in real time, obtain whether there is illegal repacking problem.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. A charging pile data acquisition method is characterized by comprising the following steps:

collecting data information of a vehicle, wherein the data information comprises vehicle color data information, vehicle type data information, license plate data information, vehicle weight data information and vehicle battery data information;

storing the data information in an information base;

and analyzing the data information in the information base based on the vehicle management database to obtain an analysis result.

2. The charging pile data acquisition method according to claim 1, wherein the step of acquiring data information of the vehicle comprises the following steps:

acquiring an interactive instruction to electrify the charging pile and acquiring an electrifying signal;

acquiring an acquisition instruction based on the power-on signal;

and acquiring data information of the vehicle based on the acquisition instruction.

3. The charging pile data acquisition method according to claim 1, wherein the step of storing the data information in an information base comprises the following steps:

establishing an information form based on the data information type;

matching is carried out on the basis of the information form and the data information to obtain a matching result;

acquiring corresponding data information based on the matching result;

importing the data information into the information form;

and storing the information form in the information base.

4. The charging pile data acquisition method according to claim 1, wherein the step of analyzing the data information in the information base based on the vehicle management database to obtain an analysis result comprises the following steps:

capturing vehicle management information in the vehicle management database based on the information form;

and analyzing the data information based on the vehicle management information to obtain an analysis result.

5. The charging pile data acquisition method according to claim 4, wherein the step of analyzing the data information based on the vehicle management information to obtain an analysis result comprises the following steps:

acquiring a threshold interval based on the vehicle management information;

judging whether the data information is positioned in the threshold interval or not;

if the abnormal result exceeds the preset threshold value, obtaining an abnormal analysis result;

if not, obtaining a normal analysis result.

6. The charging pile data acquisition method according to claim 1, wherein the vehicle management information comprises identity information of a vehicle owner, and the data information in the information base is analyzed based on a vehicle management database, and the method further comprises the following steps after the analysis result is obtained:

associating the analysis result with identity information of the vehicle owner;

and obtaining a data analysis report by taking the identity information of the vehicle owner as an index and the analysis result.

7. A charging pile data acquisition system, comprising:

the system comprises an acquisition module (1), a storage module and a display module, wherein the acquisition module (1) is used for acquiring data information of a vehicle, and the data information comprises vehicle color data information, vehicle type data information, license plate data information, vehicle weight data information and vehicle battery data information;

a storage module (2), wherein the storage module (2) is used for storing the data information in the information base;

the analysis module (3) is used for analyzing the data information in the information base based on a vehicle management database to obtain an analysis result.

8. A charging pile data acquisition system according to claim 6, characterised in that the acquisition module (1) comprises:

a photographing unit (11), the photographing unit (11) being used for photographing an overall image of a vehicle;

a weight measuring unit (12), the weight measuring unit (12) being configured to measure the weight of the vehicle;

a detection unit (13), the detection unit (13) being used for detecting the capacity of a vehicle power battery;

an identification unit (14), the identification unit (14) being configured to acquire the corresponding data information based on an overall image of the vehicle, a weight, and a capacity of a battery.

9. A charging pile data acquisition system according to claim 6, characterised in that the storage module (2) comprises:

the matching unit (21) is used for matching the information form with the acquired data information to obtain a matching result;

an acquisition unit (22), wherein the acquisition unit (22) is used for acquiring the corresponding data information based on the matching result;

an importing unit (23), wherein the importing unit (23) is used for importing the data information into the information form.

10. A charging pile data acquisition system according to claim 6, characterised in that the analysis module (3) comprises:

a grasping unit (31), wherein the grasping unit (31) is used for grasping corresponding vehicle management information in the vehicle management database;

and the analysis unit (32) is used for analyzing the threshold interval and the data information to obtain an analysis result.

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