CN113156327A - Charging pile verification method and device based on wireless communication - Google Patents

Abstract

The invention provides a charging pile verification method and device based on wireless communication, wherein the method comprises the following steps: receiving at least one verification task, and connecting verification equipment with a charging pile to be detected according to the verification task; establishing wireless connection between a mobile control terminal and the verification equipment, performing error determination on the to-be-detected charging pile based on the verification equipment, and uploading verification data information of the to-be-detected charging pile to a cloud end system through the mobile control terminal; and processing the verification data information based on the cloud system to generate a verification report. According to the method, the mobile control terminals are wirelessly connected with the verification equipment, so that a verification worker can simultaneously control the mobile control terminals, and the simultaneous control of multiple verification processes is realized, thereby improving the verification efficiency and realizing the automatic determination of the charging pile to be verified.

Description

Charging pile verification method and device based on wireless communication

Technical Field

The invention belongs to the technical field of charging pile verification, and particularly relates to a charging pile verification method and device based on wireless communication.

Background

Under the trend that environmental protection requirements are more strict in the processes of automation, intellectualization, sharing and networking, the development of the electric automobile is a necessary way for China to step from the automobile kingdom to the automobile compulsory country. Under the promotion of technical progress and relevant policies, the holding capacity of electric vehicles is rapidly increased, a large number of electric vehicle charging facilities are also rapidly installed and used in streets, shopping malls, communities and public parking lots of cities, and the metering service requirements of the charging facilities are increasingly increased. Meanwhile, the electric vehicle charging pile is already listed in a measuring instrument catalogue of mandatory certification of a market supervision bureau and must be subjected to the mandatory certification.

The existing electric vehicle charging pile verification system method comprises the following steps: the verification equipment is connected and controlled in a wired mode, the upper computer reads data, the equipment is started and stopped manually, the data are recorded, the data are sorted and manually recorded into a background system, and a verification report is issued after verification is finished. By using the method, at least two verification personnel are required to participate in field verification of each charging pile simultaneously, verification data are all required to be checked and issued through a certificate system manually entered into a background, personnel participation degree is high, manual errors or data loss can be easily caused, only one charging facility can be verified at the same time, and verification efficiency is extremely low.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: aiming at the problems in the prior art, the invention provides a method for improving the verification efficiency of a charging pile.

In order to solve the technical problems, the invention adopts the technical scheme that:

the invention provides a charging pile verification method based on wireless communication, which comprises the following steps:

receiving at least one verification task, and connecting verification equipment with a charging pile to be detected according to the verification task;

establishing wireless connection between a mobile control terminal and the verification equipment, performing error determination on the to-be-detected charging pile based on the verification equipment, and uploading verification data information of the to-be-detected charging pile to a cloud end system through the mobile control terminal;

and processing the verification data information based on the cloud system to generate a verification report.

Further, the error measurement at least comprises a clock error, an appearance error, an insulation resistance experiment, a working error, a value indication error and a payment amount error.

Further, based on the verification equipment is right wait to examine and fill electric pile and carry out error determination and include:

detecting a first detection point of the charging pile to be detected based on the detection equipment, simultaneously obtaining an average error value of the first detection point according to preset standard parameters required by the working error, and sending the average error value to the mobile control terminal;

judging whether the average error value of the first detection point is out of tolerance or not through the mobile control terminal;

if so, then detect again wait to examine the first fixed point of examining of stake of charging, if not, then continue to detect wait to examine the second fixed point of examining of stake of charging, until the working error examination is accomplished.

Further, based on the verification equipment is right wait to examine and fill electric pile and carry out error determination still includes:

measuring the indicating value error of the charging pile to be detected, unloading the load, and simultaneously screenshot and importing indicating value settlement information to obtain measuring data of the indicating value error of the charging pile to be detected and sending the measuring data to the mobile control terminal;

and the mobile control terminal calculates indication error data of the indication error according to preset standard parameters required by the indication error.

Further, based on the verification equipment is right wait to examine and fill electric pile and carry out error determination and include:

detecting a first detection point of the charging pile to be detected for the first time based on the detection equipment, unloading a load, simultaneously screenshot and importing first settlement information, acquiring first measurement data and sending the first measurement data to the mobile control terminal;

restarting the charging pile to be detected, detecting the first detection point of the charging pile to be detected for the second time based on the detection equipment, unloading the load, simultaneously screenshot and importing second settlement information, acquiring second measurement data and sending the second measurement data to the mobile control terminal;

the mobile control terminal calculates an average error value of the first detection point according to a preset standard parameter required by the working error, the first measurement data and the second measurement data, and judges whether the error value of the first detection point is out of tolerance or not;

if so, then detect again wait to examine the first fixed point of examining of stake of charging, if not, then continue to detect wait to examine the second fixed point of examining of stake of charging, until the working error examination is accomplished.

Further, based on the verification equipment is right wait to examine and fill electric pile and carry out error determination still includes:

and the first group of measurement data of which the first detection point in the working error is not out of tolerance is indicating error data.

Further, if, then detect again wait to examine and wait to examine electric pile first verification point includes:

based on mobile control terminal reminds the examination personnel to inspect wait to examine the line connection who fills electric pile, and restart wait to examine and wait to fill electric pile.

Further, the receiving at least one certification task comprises:

obtaining through the cloud system; or

Manually inputting information of the charging pile to be added, and synchronizing the information to the cloud system; or

And acquiring nameplate information of the charging pile to be added based on the mobile control terminal, identifying and inputting the nameplate information, and synchronizing to the cloud system.

Further, processing the verification data information based on the cloud system, and generating a verification report specifically includes:

and allowing an auditor to log in the cloud system through the account information of the cloud system, and auditing the to-be-inspected charging pile according to the verification data information to generate a verification report.

In another aspect, the present invention provides a charging pile calibration apparatus based on wireless communication, the apparatus comprising:

the receiving device: the system comprises a verification device, a verification task receiving device, a verification device and a charging pile to be detected, wherein the verification device is used for receiving at least one verification task and connecting verification equipment with the charging pile to be detected according to the verification task;

a calibrating device: the system comprises a mobile control terminal, a verification device, a cloud end system and a verification device, wherein the mobile control terminal is used for establishing wireless connection between the mobile control terminal and the verification device, performing error determination on the to-be-detected charging pile based on the verification device, generating verification data information of the to-be-detected charging pile, sending the verification data information to the mobile control terminal, and uploading the verification data information to the cloud end system through the mobile control terminal;

a processing device: and the verification data information is processed based on the cloud system to generate a verification report.

The invention provides a charging pile verification method based on wireless communication, which comprises the following steps: receiving at least one verification task, and connecting verification equipment with a charging pile to be detected according to the verification task; establishing wireless connection between a mobile control terminal and the verification equipment, performing error determination on the to-be-detected charging pile based on the verification equipment, and uploading verification data information of the to-be-detected charging pile to a cloud end system through the mobile control terminal; and processing the verification data information based on the cloud system to generate a verification report. According to the method, the mobile control terminals are wirelessly connected with the verification equipment, so that a verification worker can simultaneously control the mobile control terminals, and the simultaneous control of multiple verification processes is realized, thereby improving the verification efficiency and realizing the automatic determination of the charging pile to be verified.

Drawings

The detailed structure of the invention is described in detail below with reference to the accompanying drawings

Fig. 1 is a schematic flow chart of a charging pile verification method based on wireless communication according to the present invention;

fig. 2 is a schematic sub-flow diagram of a charging pile verification method based on wireless communication according to the present invention;

fig. 3 is a schematic flow chart of a specific process of calibrating a working error by a pulse method in the charging pile calibration method based on wireless communication according to the present invention;

fig. 4 is another schematic sub-flow chart of the charging pile verification method based on wireless communication according to the present invention;

fig. 5 is a schematic flow chart of a specific process for calibrating indication errors in the charging pile calibration method based on wireless communication according to the present invention;

fig. 6 is a schematic view of another sub-flow of the charging pile verification method based on wireless communication according to the present invention;

fig. 7 is a schematic flow chart illustrating a specific process of calibrating a working error through a word-walking method in the charging pile calibration method based on wireless communication according to the present invention;

fig. 8 is a schematic block diagram of the charging pile verification apparatus based on wireless communication according to the present invention.

Detailed Description

In order to explain technical contents, structural features, and objects and effects of the present invention in detail, the following detailed description is given with reference to the accompanying drawings in conjunction with the embodiments.

Referring to fig. 1, fig. 1 is a schematic flowchart illustrating a charging pile verification method based on wireless communication according to an embodiment of the present application, where the method includes:

step 101, receiving at least one verification task, and connecting verification equipment with a to-be-detected charging pile according to the verification task.

In this embodiment, the task that at least one examination was filled electric pile is received from mobile control terminal to the examination personnel, and according to the examination task of receiving, examination personnel goes to the scene of filling electric pile, confirms to wait to examine and fill electric pile to with examine the calibration equipment and wait to examine and fill electric pile and be connected. The verification task at least comprises information such as basic parameter information, production information, a use manufacturer and a specific address of the charging pile to be detected, and the mobile control terminal can be a notebook computer, a tablet computer, a mobile phone and the like, but not only the above-listed information.

102, establishing wireless connection between the mobile control terminal and the verification equipment, and performing error determination on the to-be-detected charging pile based on the verification equipment to generate verification data information of the to-be-detected charging pile, and uploading the verification data information to a cloud end system through the mobile control terminal.

In this embodiment, the mobile control terminal and the verification equipment are connected through bluetooth, but the mobile control terminal and the verification equipment are not only connected through bluetooth, and compared with the current verification mode through wired control, the method is more convenient and flexible. After the calibration equipment is connected with the to-be-detected charging pile, the to-be-detected charging pile is opened through a mobile control terminal code scanning, after the to-be-detected charging pile is opened, calibration parameters of the to-be-detected charging pile are set, error calibration is carried out on the to-be-detected charging pile, after calibration is completed, calibration data information of the to-be-detected charging pile is generated and sent to a cloud system through the mobile control terminal, after all calibration items are completed, calibration data original records are automatically generated, after clicking confirmation, the mobile control terminal automatically uploads the calibration data original records and related screenshots of the to-be-detected charging pile to a cloud system.

And 103, processing the verification data information based on the cloud system to generate a verification report.

In this embodiment, the cloud system allocates the audit task of the charging pile to be checked to the auditor, and the auditor performs audit on the verification data information of the charging pile to be checked based on the cloud system and generates a verification report.

The embodiment of the application provides a charging pile verification method based on wireless communication, which comprises the following steps: receiving at least one verification task, and connecting verification equipment with a charging pile to be detected according to the verification task; establishing wireless connection between a mobile control terminal and the verification equipment, performing error determination on the to-be-detected charging pile based on the verification equipment, and uploading verification data information of the to-be-detected charging pile to a cloud end system through the mobile control terminal; and processing the verification data information based on the cloud system to generate a verification report. According to the method, the mobile control terminals are wirelessly connected with the verification equipment, so that a verification worker can simultaneously control the mobile control terminals, and the simultaneous control of multiple verification processes is realized, thereby improving the verification efficiency and realizing the automatic determination of the charging pile to be verified.

Further, the error measurement at least comprises a clock error, an appearance error, an insulation resistance experiment, a working error, a value indication error and a payment amount error.

In this embodiment, the calibration equipment sequentially tests the charging pile to be tested to perform clock error calibration, appearance measurement, insulation resistance experiment measurement, working error measurement, indication error measurement and payment error measurement.

In this embodiment, the process of clock error measurement is: firstly, the time of adjustable time software in the control software of the mobile control terminal is adjusted to be consistent with the time of the charging pile to be detected, then the equipment to be detected is measured, standard time is obtained from the verification equipment, the standard time is differed with the time in the adjustable time software, the clock error can be calculated, and clock error information is generated.

In this example, the procedure of the appearance error measurement is: on the appearance inspection page of the control software, all items of appearance inspection of the charging pile to be inspected are listed, each item is inspected according to the sequence, qualified items are selected in a checking mode, unqualified items are picked up, the unqualified part of the charging pile to be inspected is photographed and sampled by calling a camera of the mobile control terminal, and appearance error information is generated.

In this embodiment, the insulation resistance test measurement procedure is as follows: and applying voltage between circuits which are not connected in the charging pile to be detected by adopting the insulation resistance meter, reading the value on the insulation resistance meter after the reading is stable, filling the measurement result on the mobile control terminal, generating insulation resistance experiment error information and finishing the insulation resistance experiment.

In this embodiment, the procedure of the working error measurement is as follows: selecting a working error measuring method according to the specification and model of the charging pile to be detected, and selecting a pulse method to measure the working error when the charging pile to be detected contains pulse output; and when the detected charging pile does not contain pulse output, selecting a 'word walking method' to measure the working error and generating working error information.

In this embodiment, the procedure of error measurement of the payment amount is as follows: the data required for determining the error of the payment amount directly adopts the data adopted by the indicating error. Dividing the measuring time period into M time periods (M is 1 and 2) automatically according to different rates, and automatically filling corresponding tables and calculating when the billing information contains rates of each time period; when the billing information does not contain the rate of each time period, the rate of each time period needs to be manually filled in. And finally, accumulating the sum of each time interval to obtain the actual consumption sum, and calculating to obtain the payment sum error by making a difference with the bill sum.

Further, referring to fig. 2, fig. 2 is a schematic sub-flow diagram of a charging pile verification method based on wireless communication in the embodiment of the present application, in this embodiment, the performing error determination on the to-be-detected charging pile based on the verification device includes:

step 201, detecting a first detection point of the charging pile to be detected based on the detection equipment, meanwhile, obtaining an average error value of the first detection point according to a preset standard parameter required by the working error, and sending the average error value to the mobile control terminal;

step 202, judging whether the average error value of the first detection point is out of tolerance or not through the mobile control terminal;

and 203, if so, re-detecting the first detection point of the to-be-detected charging pile, and if not, continuously detecting the second detection point of the to-be-detected charging pile until the work error detection is finished.

In this embodiment, step 2 is to determine the working error by using a pulse method, insert the charging gun of the charging pile to be detected into the interface of the calibration equipment, and load the parameters of all calibration points in the working error calibration, so that the calibration parameters of all calibration points can be manually set at a time, or the calibration parameters of all calibration points can be automatically imported, and there is no need to set individual manual parameters for each calibration point. The charging pile is started to start detection, the verification equipment starts to detect the first verification point of the charging pile to be detected, the average error value of the first verification point is obtained according to the parameters of the first verification point loaded in advance, the average error value is sent to the mobile control terminal, and the mobile control terminal automatically judges whether the average error value is out of tolerance or not. And if the average error value of the first verification point is out of tolerance, re-detecting the average error value of the first verification point according to the method, and if the average error value of the first verification point is not out of tolerance, re-detecting the second detection point of the to-be-detected charging pile according to the method until all verification points are verified.

In this embodiment, please refer to fig. 3, and fig. 3 is a specific flowchart illustrating a method for calibrating a working error by a pulse method in a charging pile calibration method based on wireless communication according to the embodiment of the present application, where parameters of a calibration point in the working error are set in advance, a calibration device is connected to a charging pile to be detected, and the charging pile is started. And starting to detect the detection point, loading preset parameters of the detection point, detecting the first detection point twice to obtain an average error value of the two detections, sending the average error value to the mobile control terminal, and judging whether the working error value of the first detection point is out of tolerance by the mobile control terminal. If the line connection is out of tolerance, the line connection is checked firstly, the first verification point is measured again after the line connection is checked, if the line connection is not out of tolerance, the second verification point is automatically measured, and the verification of the second verification point and the third verification point is judged by repeating the process.

Further, referring to fig. 4, fig. 4 is another schematic sub-flow diagram of a charging pile verification method based on wireless communication in the embodiment of the present application, in the embodiment, the performing error determination on the to-be-detected charging pile based on the verification device further includes:

301, measuring an indication error of the to-be-detected charging pile, unloading a load, and simultaneously screenshot and importing indication settlement information to obtain measurement data of the indication error of the to-be-detected charging pile and sending the measurement data to the mobile control terminal;

and 302, calculating indication error data of the indication error by the mobile control terminal according to preset standard parameters required by the indication error.

In this embodiment, when the work error of waiting to examine electric pile of filling adopts the pulse method to survey, the indicating value error should adopt the method of walking words to measure, when examining the indicating value error of waiting to examine electric pile of filling, automatic uninstallation load, the load can automatic loading and uninstallation, need not artifical the participation, remind on-the-spot verification personnel after the load uninstallation is accomplished, screenshot and leading-in indicating value settlement information, obtain the survey data of waiting to examine the indicating value error of electric pile of filling, and send mobile control terminal, mobile control terminal is according to preset standard parameter and survey data, automatic calculation obtains the indicating value error of waiting to examine electric pile of filling, mobile control terminal accessible image recognition mode obtains the information in the settlement screenshot, need not manual input.

In this embodiment, please refer to fig. 5, where fig. 5 is a specific flowchart illustrating a calibration indication error in the charging pile calibration method based on wireless communication in the embodiment of the present application, in which parameters for calibrating the indication error are preset, the charging pile to be calibrated is started, calibration of the charging pile to be calibrated is started, the parameters are loaded, and the charging is waited to be completed, and during the waiting period, a calibration worker does not need to be at this point all the time. After the measurement is finished, the verification equipment can prompt a verification worker through the light of the verification equipment, the mobile control terminal can also send a prompt short message, settlement information is input after the measurement is finished, measurement data are obtained, and indication errors can be calculated according to the preset standard parameters.

Further, referring to fig. 6, fig. 6 is a schematic view of another sub-flow of a charging pile verification method based on wireless communication in the embodiment of the present application, in the embodiment, the performing error determination on the to-be-detected charging pile based on the verification equipment includes:

step 401, detecting a first detection point of the to-be-detected charging pile for the first time based on the detection equipment, unloading a load, simultaneously screenshot, importing first settlement information, acquiring first measurement data and sending the first measurement data to the mobile control terminal;

step 402, restarting the to-be-detected charging pile, detecting the first detection point of the to-be-detected charging pile for the second time based on the detection equipment, unloading a load, simultaneously screenshot, importing second settlement information, acquiring second measurement data and sending the second measurement data to the mobile control terminal;

step 403, the mobile control terminal calculates an average error value of the first fixed point according to a preset standard parameter required by the working error, the first measurement data and the second measurement data, and determines whether the error value of the first fixed point is out of tolerance;

and step 404, if so, re-detecting the first detection point of the to-be-detected charging pile, and if not, continuously detecting the second detection point of the to-be-detected charging pile until the work error detection is completed.

In this embodiment, step 4 above adopts a walking method to determine the working error, the charging gun of the to-be-detected charging pile is inserted into the interface of the calibration device, parameters of all calibration points in the working error calibration are loaded, the charging pile is started to start detection, the calibration device starts to detect the first calibration point of the to-be-detected charging pile for the first time, the first calibration point is also the maximum current calibration point, when the first measurement is completed, the load can be automatically unloaded, a field calibration worker is reminded to capture a picture and import first settlement information, the first measurement data of the first calibration point is obtained and sent to the mobile control terminal, and the control software in the mobile control terminal can automatically extract the electric quantity information in the first settlement information. After the first measurement is completed, the charging pile to be detected is restarted, the second measurement of the first detection point is carried out, the load can be automatically unloaded, the field verification personnel is reminded to capture the screen and import second settlement information, the second measurement data of the first detection point is obtained and sent to the mobile control terminal, the control software in the mobile control terminal can automatically extract the electric quantity information in the second settlement information, the working error data of the first detection point is calculated, and whether the working error data of the first detection point is out of tolerance or not is judged. If the working error data of the first detected point is out of tolerance, the average error value of the first detected point is detected again according to the method, the third measurement of the Nth (N is 1, 2, 3) point is started, the previous processes are repeated, the third and fourth measurement and data import of the first detected point are completed, and the working error of the detected point is calculated. And if the average error value of the first detection point is not out of tolerance, automatically loading the setting parameters of the second detection point to the detection equipment, reminding the detection equipment to start charging piles, starting the measurement of the Nth (N is 2, 3) detection point, and finishing the measurement of the second and the third points according to the steps.

In this embodiment, please refer to fig. 7, where fig. 7 is a schematic diagram illustrating a specific process of verifying a working error through a wording method in a charging pile verification method based on wireless communication in the embodiment of the present application, where verification parameters of the working error are set in advance, a to-be-verified charging pile starts to be verified, the parameters are loaded, and charging is waited to be completed, and during the waiting period, a verification worker does not need to be at this point all the time. After the measurement is finished, the verification equipment can prompt a verification worker through light of the verification equipment, the mobile control terminal can also send a prompt short message, settlement information is input after the measurement is finished, measurement data is obtained, the first measurement of the first verification point is calculated, first measurement data is obtained, the first measurement data displays a test process in real time and comprises test voltage, current, electric quantity, temperature and humidity, and then first error data is calculated. Restarting the charging pile to be detected, completing the second measurement of the first detection point, obtaining second measurement data, calculating second error data of the first detection point, obtaining the average working error of the first detection point according to the first error data and the second error data of the first detection point, sending the average error value of the first detection point to the mobile control terminal, and automatically judging whether the average error value is out of tolerance or not by the mobile control terminal. And if the average error value of the first verification point is out of tolerance, re-detecting the average error value of the first verification point according to the method, and if the average error value of the first verification point is not out of tolerance, re-detecting the second detection point of the to-be-detected charging pile according to the method until all verification points are verified.

Further, based on the verification equipment is right wait to examine and fill electric pile and carry out error determination still includes:

and the first group of measurement data of which the first detection point in the working error is not out of tolerance is indicating error data.

In this embodiment, when the working error is determined by the walking method, the indicating error directly adopts the first group of data in the non-out-of-tolerance working error data of the first detection point (maximum current detection point) of the working error as the indicating error data of the to-be-detected charging pile.

Further, if, then detect again wait to examine and wait to examine electric pile first verification point includes:

based on mobile control terminal reminds the examination personnel to inspect wait to examine the line connection who fills electric pile, and restart wait to examine and wait to fill electric pile.

Further, the receiving at least one certification task comprises:

obtaining through the cloud system; or

Manually inputting information of the charging pile to be added, and synchronizing the information to the cloud system; or

And acquiring nameplate information of the charging pile to be added based on the mobile control terminal, identifying and inputting the nameplate information, and synchronizing to the cloud system.

In this embodiment, the verification personnel not only can directly obtain the task from the high in the clouds, still can directly type in the information that fills electric pile on the scene to upload to cloud system, convenient management.

Further, processing the verification data information based on the cloud system, and generating a verification report specifically includes:

and allowing an auditor to log in the cloud system through the account information of the cloud system, and auditing the to-be-inspected charging pile according to the verification data information to generate a verification report.

In this embodiment, the original record of the verification data of the verification site can be automatically uploaded to the cloud end without manual entry.

Further, referring to fig. 8, fig. 8 is a schematic block diagram of a charging pile calibration apparatus based on wireless communication in an embodiment of the present application, and another aspect of the embodiment of the present application provides a charging pile calibration apparatus 200 based on wireless communication, where the apparatus 200 includes:

the reception device 501: the system comprises a verification device, a verification task receiving device, a verification device and a charging pile to be detected, wherein the verification device is used for receiving at least one verification task and connecting verification equipment with the charging pile to be detected according to the verification task;

the verification device 502: the system comprises a mobile control terminal, a verification device, a cloud end system and a verification device, wherein the mobile control terminal is used for establishing wireless connection between the mobile control terminal and the verification device, performing error determination on the to-be-detected charging pile based on the verification device, generating verification data information of the to-be-detected charging pile, sending the verification data information to the mobile control terminal, and uploading the verification data information to the cloud end system through the mobile control terminal;

the processing device 503: and the verification data information is processed based on the cloud system to generate a verification report.

The charging pile calibrating device 200 based on wireless communication provided by the embodiment of the application can realize that: receiving at least one verification task, and connecting verification equipment with a charging pile to be detected according to the verification task; establishing wireless connection between a mobile control terminal and the verification equipment, performing error determination on the to-be-detected charging pile based on the verification equipment, and uploading verification data information of the to-be-detected charging pile to a cloud end system through the mobile control terminal; and processing the verification data information based on the cloud system to generate a verification report. According to the method, the mobile control terminals are wirelessly connected with the verification equipment, so that a verification worker can simultaneously control the mobile control terminals, and the simultaneous control of multiple verification processes is realized, thereby improving the verification efficiency and realizing the automatic determination of the charging pile to be verified.

It should be noted that, for the sake of simplicity, the above-mentioned method embodiments are described as a series of acts or combinations, but those skilled in the art should understand that the present invention is not limited by the described order of acts, as some steps may be performed in other orders or simultaneously according to the present invention. Further, those skilled in the art will appreciate that the embodiments described in the specification are presently preferred and that no acts or modules are necessarily required of the invention.

In the above embodiments, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to related descriptions of other embodiments.

In the above description of the charging pile verification method and apparatus based on wireless communication provided by the present invention, for those skilled in the art, according to the ideas of the embodiments of the present application, the specific implementation manner and the application scope may be changed, and in summary, the content of the present description should not be construed as limiting the present invention.

Claims (10)

1. A charging pile verification method based on wireless communication is characterized by comprising the following steps:

receiving at least one verification task, and connecting verification equipment with a charging pile to be detected according to the verification task;

establishing wireless connection between a mobile control terminal and the verification equipment, performing error determination on the to-be-detected charging pile based on the verification equipment, and uploading verification data information of the to-be-detected charging pile to a cloud end system through the mobile control terminal;

and processing the verification data information based on the cloud system to generate a verification report.

2. The method of claim 1, wherein the error measurements include at least clock errors, appearance errors, insulation resistance tests, operational errors, indication errors, payment errors.

3. The method according to claim 2, wherein the error determination of the to-be-detected charging pile based on the verification equipment comprises:

detecting a first detection point of the charging pile to be detected based on the detection equipment, simultaneously obtaining an average error value of the first detection point according to preset standard parameters required by the working error, and sending the average error value to the mobile control terminal;

judging whether the average error value of the first detection point is out of tolerance or not through the mobile control terminal;

if so, then detect again wait to examine the first fixed point of examining of stake of charging, if not, then continue to detect wait to examine the second fixed point of examining of stake of charging, until the working error examination is accomplished.

4. The method according to claim 3, wherein the error determination of the to-be-detected charging pile based on the verification equipment further comprises:

measuring the indicating value error of the charging pile to be detected, unloading the load, and simultaneously screenshot and importing indicating value settlement information to obtain measuring data of the indicating value error of the charging pile to be detected and sending the measuring data to the mobile control terminal;

and the mobile control terminal calculates indication error data of the indication error according to preset standard parameters required by the indication error.

5. The method according to claim 2, wherein the error determination of the to-be-detected charging pile based on the verification equipment comprises:

detecting a first detection point of the charging pile to be detected for the first time based on the detection equipment, unloading a load, simultaneously screenshot and importing first settlement information, acquiring first measurement data and sending the first measurement data to the mobile control terminal;

restarting the charging pile to be detected, detecting the first detection point of the charging pile to be detected for the second time based on the detection equipment, unloading the load, simultaneously screenshot and importing second settlement information, acquiring second measurement data and sending the second measurement data to the mobile control terminal;

the mobile control terminal calculates an average error value of the first detection point according to a preset standard parameter required by the working error, the first measurement data and the second measurement data, and judges whether the error value of the first detection point is out of tolerance or not;

if so, then detect again wait to examine the first fixed point of examining of stake of charging, if not, then continue to detect wait to examine the second fixed point of examining of stake of charging, until the working error examination is accomplished.

6. The method of claim 5, wherein the error determination of the to-be-detected charging pile based on the verification equipment further comprises:

and the first group of measurement data of which the first detection point in the working error is not out of tolerance is indicating error data.

7. The method according to claim 3 or 5, wherein if yes, the re-detecting the first verification point of the to-be-detected charging pile comprises:

based on mobile control terminal reminds the examination personnel to inspect wait to examine the line connection who fills electric pile, and restart wait to examine and wait to fill electric pile.

8. The method of claim 1, wherein said receiving at least one certification task comprises:

obtaining through the cloud system; or

Manually inputting information of the charging pile to be added, and synchronizing the information to the cloud system; or

And acquiring nameplate information of the charging pile to be added based on the mobile control terminal, identifying and inputting the nameplate information, and synchronizing to the cloud system.

9. The method of claim 1, wherein the processing the certification data information based on the cloud system to generate the certification report specifically comprises:

and allowing an auditor to log in the cloud system through the account information of the cloud system, and auditing the to-be-inspected charging pile according to the verification data information to generate a verification report.

10. The utility model provides a fill electric pile calibrating installation based on wireless communication which characterized in that, the device includes:

the receiving device: the system comprises a verification device, a verification task receiving device, a verification device and a charging pile to be detected, wherein the verification device is used for receiving at least one verification task and connecting verification equipment with the charging pile to be detected according to the verification task;

a calibrating device: the system comprises a mobile control terminal, a verification device, a cloud end system and a verification device, wherein the mobile control terminal is used for establishing wireless connection between the mobile control terminal and the verification device, performing error determination on the to-be-detected charging pile based on the verification device, generating verification data information of the to-be-detected charging pile, sending the verification data information to the mobile control terminal, and uploading the verification data information to the cloud end system through the mobile control terminal;

a processing device: and the verification data information is processed based on the cloud system to generate a verification report.

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