CN113919455A

CN113919455A - Vehicle repair detection method and device, vehicle and storage medium

Info

Publication number: CN113919455A
Application number: CN202111116655.1A
Authority: CN
Inventors: 李峰
Original assignee: Beijing CHJ Automotive Information Technology Co Ltd
Current assignee: Beijing CHJ Automotive Information Technology Co Ltd
Priority date: 2021-09-23
Filing date: 2021-09-23
Publication date: 2022-01-11

Abstract

The embodiment of the application relates to a vehicle repair detection method, a device, a vehicle and a storage medium, wherein the method comprises the steps of obtaining a repair query instruction, wherein the repair query instruction comprises information of a vehicle to be repaired; determining a repair detection item corresponding to the vehicle according to the information of the vehicle included in the repair query instruction, wherein the repair detection item is a failed item in off-line detection; updating a component corresponding to the repair detection item in the vehicle to be repaired; and acquiring a repair detection instruction, and re-detecting the detection item corresponding to the repair detection instruction according to the repair detection instruction. The embodiment of the application can save the link of printing the failed item of the paper receipt mark on each detection station, and improve the repair detection efficiency.

Description

Vehicle repair detection method and device, vehicle and storage medium

Technical Field

The embodiment of the application relates to the technical field of automobiles, in particular to a vehicle repair detection method and device, a vehicle and a storage medium.

Background

In order to ensure the offline quality of the finished automobile, the automobile manufacturer generally performs an End of Line (EOL) detection on the automobile at the End of the finished automobile assembly Line, and performs necessary adjustment on the faulty components or lines of the automobile. Currently, EOL detection of a vehicle is generally realized by an EOL handheld detection device, that is, after the vehicle reaches a designated station at the end of an assembly line, a detection person operates the EOL handheld detection device to perform EOL detection on the vehicle.

When a detection person operates the EOL handheld detection equipment to detect the EOL of the vehicle, if the detection does not pass, the detection person needs to print a receipt to identify a failed item. In the mode, when the vehicle enters the repair area for maintenance subsequently, maintenance personnel need to check the receipt to determine a failure project, and then control the vehicle to enter the repair area for maintenance. If the receipt is lost, a maintenance person needs to inquire and determine a failed item from the server or the EOL handheld detection equipment, so that the repair detection rhythm is influenced.

Disclosure of Invention

In order to solve at least one problem existing in the prior art, at least one embodiment of the present disclosure provides a vehicle repair detection method, apparatus, vehicle, and storage medium.

In a first aspect, an embodiment of the present application provides a vehicle repair detection method, including:

acquiring a repair query instruction, wherein the repair query instruction comprises information of a vehicle to be repaired;

determining a repair detection item corresponding to the vehicle according to the information of the vehicle included in the repair query instruction, wherein the repair detection item is a failed item in off-line detection;

updating a component corresponding to the repair detection item in the vehicle to be repaired;

and acquiring a repair detection instruction, and re-detecting the detection item corresponding to the repair detection instruction according to the repair detection instruction.

In some embodiments, optionally, the repair query instruction includes a repair detection area trigger instruction sent by the management device; and the repair detection area triggering instruction is generated by the management equipment according to the vehicle identification code of the vehicle to be repaired and the repair detection area information after the vehicle to be repaired enters the repair detection area.

In some embodiments, optionally, the updating the component corresponding to the rework detection item in the vehicle to be reworked includes:

sending an update request to the management device; so that the management equipment sends an update file to the vehicle to be repaired according to the update request;

and acquiring an update file sent by the management equipment according to the update request, and updating the component corresponding to the repair detection item in the vehicle to be repaired according to the update file.

In some embodiments, optionally, the determining, according to the information of the vehicle included in the rework inquiry instruction, a rework detection item corresponding to the vehicle includes:

sending a query request to management equipment according to the information of the vehicle included in the repair query instruction;

and acquiring a repair detection item corresponding to the vehicle, which is determined by the management equipment according to the query request.

and inquiring and determining a repair detection item corresponding to the vehicle in a detection result file stored in the vehicle to be repaired according to the information of the vehicle included in the repair inquiry instruction.

In some embodiments, optionally, the rework detection item comprises an electronic control unit software version detection item.

In some embodiments, optionally, after obtaining a rework detection instruction and re-detecting a detection item corresponding to the rework detection instruction according to the rework detection instruction, the method further includes:

and updating the detection result file of the detection item corresponding to the repair instruction in the vehicle to be repaired into the detection result file generated by re-detection.

In some embodiments, optionally, the obtaining a repair query instruction, and determining a repair detection item corresponding to a vehicle according to information of the vehicle included in the repair query instruction includes:

acquiring a repair query instruction input by a detection person, and querying and displaying a detection failure item to indicate the detection person to maintain the detection failure item; the detection failure item refers to an item failed in offline detection;

the acquiring of the repair detection instruction and the re-detecting of the detection item corresponding to the repair detection instruction according to the repair detection instruction include: and acquiring a repair detection instruction input by a detection person, and re-detecting the detection item corresponding to the repair detection instruction according to the repair detection instruction.

In some embodiments, optionally, the obtaining a rework query instruction input by a detection person, and querying an item showing a detection failure includes:

acquiring a repair query instruction input by a detection person, and displaying a repair detection main interface; the repair detection main interface comprises a detection result query menu;

acquiring a detection result query menu trigger instruction input by a detection person, and displaying a detection station detection result query interface; the detection station detection result query interface displays a detection station list, and marks a detection failure detection station and a detection passing detection station;

acquiring a detection station query instruction input by a detection person, and displaying a detection item detection result query interface of the detection station; and the detection item detection result query interface displays a detection item list of the detection station, marks detection failure items and detection passing items.

In some embodiments, optionally, after acquiring a detection workstation query instruction input by a detection person and displaying a detection item detection result query interface of the detection workstation, the method further includes:

and acquiring a detection failure item triggering instruction input by a detection person, and displaying a detection result of the detection component corresponding to the detection failure item.

In some embodiments, optionally, the rework detection main interface further includes a query menu for detecting communication anomalies; the method further comprises the following steps:

and acquiring a detection communication abnormity query menu trigger instruction input by a detection person, and displaying a detection communication abnormity result.

In some embodiments, optionally, the rework detection main interface further includes a rework detection execution menu;

before obtaining a repair detection instruction input by a detection person and re-detecting a detection item corresponding to the repair detection instruction according to the repair detection instruction, the method further comprises the following steps:

acquiring a repair detection execution menu triggering instruction input by a detection person, and displaying a detection item execution list to indicate the detection person to trigger a repair detection instruction according to the detection item execution list.

In some embodiments, optionally, after obtaining a rework detection instruction input by a detection worker, and re-detecting a detection item corresponding to the rework detection instruction according to the rework detection instruction, the method further includes:

In some embodiments, optionally, the rework detection interface further includes a detection update menu;

the method further comprises the following steps:

acquiring a detection update menu triggering instruction input by a detection person;

when the version number of the detection execution file stored in the vehicle to be detected is inconsistent with the version number of the detection execution file stored in the management equipment, sending a request for downloading the detection execution file to the management equipment;

acquiring a detection execution file issued by the management equipment according to the detection execution file downloading request;

and taking the detection execution file as an updated detection execution file.

In a second aspect, an embodiment of the present application further provides a vehicle repair detection device, including:

the system comprises a repair query instruction acquisition module, a repair query instruction processing module and a repair query instruction processing module, wherein the repair query instruction acquisition module is used for acquiring a repair query instruction which comprises information of a vehicle to be repaired;

a repair detection item determination module, configured to determine a repair detection item corresponding to the vehicle according to vehicle information included in the repair query instruction, where the repair detection item is a failed item in offline detection;

the updating module is used for updating the parts corresponding to the repair detection items in the vehicle to be repaired;

and the re-detection module is used for acquiring a repair detection instruction and re-detecting the detection item corresponding to the repair detection instruction according to the repair detection instruction.

In a third aspect, an embodiment of the present application further provides a vehicle, including: a processor and a memory; the memory stores programs or instructions; the processor executes a program or instructions stored in the memory to implement the vehicle rework detection method of any of the embodiments of the first aspect.

In a fourth aspect, the present application further provides a storage medium, where a program or instructions are stored, and when the program or instructions are executed by a processor, the steps of the vehicle repair detection method according to any embodiment of the first aspect are implemented.

Therefore, in at least one embodiment of the present disclosure, the vehicle end to be repaired may obtain the repair query instruction, and determine the repair detection item corresponding to the vehicle according to the vehicle information included in the repair query instruction. Wherein, the repair detection item is an item failed in offline detection. Therefore, after the repair detection item corresponding to the vehicle is determined, the component corresponding to the repair detection item in the vehicle to be repaired can be updated, the repair detection instruction is obtained after the component is updated, and the detection item corresponding to the repair detection instruction is detected again according to the repair detection instruction. Therefore, the link of printing the failed item of the paper receipt mark on each detection station can be omitted, and the repair detection efficiency is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present disclosure, and other drawings can be obtained by those skilled in the art according to the drawings.

Fig. 1 is a schematic flow chart of a vehicle repair detection device method according to an embodiment of the present disclosure;

fig. 2 is a schematic flow chart of another vehicle repair detection apparatus method according to an embodiment of the present disclosure;

FIG. 3 is a schematic flow chart illustrating another vehicle rework detection apparatus method provided by an embodiment of the present application;

FIG. 4 is a schematic flow chart illustrating another vehicle rework detection apparatus method provided by an embodiment of the present application;

FIG. 5 is a schematic flow chart illustrating another vehicle rework detection apparatus method provided by an embodiment of the present application;

fig. 6 is a schematic diagram of a rework detection host interface according to an embodiment of the disclosure;

fig. 7 is a display example of a detection station detection result query interface provided in the embodiment of the present application;

fig. 8 is a display example of a detection result query interface of a detection item of a detection station according to an embodiment of the present application;

fig. 9 is a schematic flow chart illustrating another vehicle repair detection method according to an embodiment of the present disclosure;

FIG. 10 is a schematic flow chart illustrating another method for detecting vehicle rework provided by an embodiment of the present application;

FIG. 11 is a schematic structural diagram of a vehicle offline detection system according to an embodiment of the present application;

fig. 12 is a block diagram of a vehicle repair detection device according to an embodiment of the present application.

Detailed Description

In order that the above objects, features and advantages of the present disclosure can be more clearly understood, the present disclosure will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the embodiments described are only a few embodiments of the present disclosure, and not all embodiments. The specific embodiments described herein are merely illustrative of the disclosure and are not intended to be limiting. All other embodiments derived by one of ordinary skill in the art from the described embodiments of the disclosure are intended to be within the scope of the disclosure.

It is noted that, in this document, relational terms such as "first" and "second," and the like, may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions.

When a detection person operates the EOL handheld detection equipment to detect the EOL of the vehicle, if the detection does not pass, the detection person needs to print a receipt to identify a failed item. In the mode, when the vehicle enters the repair area for maintenance subsequently, maintenance personnel need to check the receipt to determine a failure project, and then control the vehicle to enter the repair area for maintenance. If the receipt is lost, the maintenance personnel is required to inquire and determine the failed item from the server or the EOL handheld detection equipment.

In view of the above-mentioned shortcomings of the prior art, embodiments of the present application provide a vehicle repair detection apparatus and method. Fig. 1 is a schematic flow chart of a vehicle repair detection device method according to an embodiment of the present application. The execution main body of the vehicle repair detection device method provided by the embodiment of the application is a vehicle to be repaired. As shown in fig. 1, the vehicle repair detection apparatus method includes S110 to S140:

s110, obtaining a repair query instruction, wherein the repair query instruction comprises information of the vehicle to be repaired.

After the vehicle to be repaired enters the repair detection area, other external equipment can send a repair query instruction to the vehicle to be repaired, and a detection person can trigger the repair query instruction on the vehicle to be repaired. The repair inquiry command comprises information of the vehicle to be repaired. For example, the identification code of the vehicle to be repaired or the identification code of the vehicle to be repaired may be the only identification code that can be used to distinguish the vehicle.

S120, determining a repair detection item corresponding to the vehicle according to the information of the vehicle included in the repair query instruction, wherein the repair detection item is an item failed in offline detection.

After the vehicle to be repaired acquires the repair query instruction, repair detection items corresponding to the vehicle can be automatically queried according to the information of the vehicle included in the repair query instruction, wherein the repair detection items are items failed in offline detection. For example, the electronic control unit software version number of the vehicle is not incorrect.

And S130, updating the parts corresponding to the repair detection items in the vehicle to be repaired.

After the vehicle to be repaired determines the repair detection item (i.e., the item failed in the offline detection), the component corresponding to the repair detection item in the vehicle to be repaired may be automatically updated, for example, the electronic control unit software that does not pass the detection of the electronic control unit software version number is updated.

S140, a repair detection instruction is obtained, and the detection item corresponding to the repair detection instruction is re-detected according to the repair detection instruction.

After the parts corresponding to the repair detection items in the vehicle to be repaired are updated, in order to ensure the stable performance of the vehicle, the repair detection instruction can be obtained, and the detection items corresponding to the repair detection instruction are redetected according to the repair detection instruction so as to verify whether the detection items corresponding to the repair detection instruction pass the detection.

According to the embodiment of the application, the failed item in offline detection can be inquired at the vehicle end to be repaired according to the repair inquiry instruction, the part corresponding to the repair detection item in the vehicle to be repaired is automatically updated, the repair detection instruction can be acquired after the update, and the detection item corresponding to the repair detection instruction is redetected according to the repair detection instruction. Therefore, the link of printing the failed item of the paper receipt mark on each detection station can be omitted, the determination of the repair detection item, the updating of the part corresponding to the repair detection item and the re-detection after the updating can be directly carried out in the repair detection area after the off-line detection, so that the manual participation of detection personnel in the repair detection area is reduced, and the repair detection efficiency is improved.

In some embodiments, optionally, the rework inquiry instruction includes a rework detection zone trigger instruction sent by the management device. The repair detection area triggering instruction is generated by the management equipment according to the vehicle identification code of the vehicle to be repaired and the repair detection area information after the vehicle to be repaired enters the repair detection area.

In some other embodiments, the rework detection area triggering instruction may also be generated by a user through a center control screen of the vehicle to be reworked or by other means of manual triggering.

The rework detection area may be provided with vehicle identification equipment that is used to collect vehicle identification codes of vehicles to be reworked. The Vehicle Identification Number (VIN) may also be another Identification code of the Vehicle to be repaired, as long as the Identification code is a unique Identification code that can be used to distinguish the Vehicle. Vehicle identification equipment can send the management equipment with the vehicle identification code of waiting to reprocess the vehicle, and management equipment can be according to the vehicle identification code of waiting to reprocess the vehicle and reprocess detection zone information generation and reprocess detection zone trigger instruction after getting into the reprocess detection zone waiting to reprocess the vehicle.

Optionally, the vehicle identification device may further store the location information (i.e., the rework detection area information). The vehicle identification device may transmit the vehicle identification code of the vehicle to be reworked and the rework detection area information to the management device. In some embodiments, the vehicle identification device may send only the vehicle identification number of the vehicle to be repaired to the management device, and the management device may automatically resolve the location where the vehicle identification device is located, i.e., the repair detection area information, from the vehicle identification device that received the vehicle identification number. Therefore, the management equipment can generate a repair detection zone trigger instruction according to the vehicle identification code of the vehicle to be repaired and the repair detection zone information.

Optionally, the management positioning device may be further communicatively connected to the vehicle identification device through the positioning device. Because the vehicle identification equipment is arranged in the repair detection area, if the vehicle identification equipment is in close-range communication with a module communicated with the vehicle identification equipment, and the space distance between the vehicle identification equipment and the management equipment is far, in order to avoid influencing the communication effect, the positioning equipment can be arranged to receive the vehicle identification code of the vehicle to be repaired and the repair detection area information transmitted by the vehicle identification equipment, and the vehicle identification code and the repair detection area information are forwarded to the management equipment. In addition, the communication between each vehicle identification device and the management device can be managed in a unified mode conveniently by arranging the positioning device.

In some embodiments, the management device may be an information management device of a manufacturing enterprise workshop, and the management device may manage the entire vehicle data file and may also manage the detection execution file. The vehicle data file includes, for example, vehicle configuration words, vehicle baseline information, ECU version numbers, vehicle related key files, and write-in parameters of each controller.

In some embodiments, as shown in fig. 2, the updating, by S130, the component corresponding to the rework detection item in the vehicle to be reworked may include:

s131, sending an updating request to a management device, so that the management device sends an updating file to the vehicle to be repaired according to the updating request.

S132, obtaining an update file sent by the management equipment according to the update request, and updating the component corresponding to the repair detection item in the vehicle to be repaired according to the update file.

After determining the rework detection items corresponding to the vehicle according to the information of the vehicle included in the rework inquiry instruction, an update request may be sent to the management apparatus first. The update request may include, for example, a software update request by the electronic control unit corresponding to the detection item. The update request is used for controlling the management equipment to send an update file to the vehicle to be repaired according to the update request. The management equipment stores an update file for updating the component corresponding to the repair detection item in the vehicle to be repaired, so that the management equipment can send the update file to the vehicle to be repaired according to the update request. And then, after the vehicle to be repaired acquires the update file sent by the management device according to the update request, updating the component corresponding to the repair detection item in the vehicle to be repaired according to the update file.

In some embodiments, as shown in fig. 3, the determining, by S120, a rework detection item corresponding to the vehicle according to the information of the vehicle included in the rework inquiry command may include:

and S121, sending an inquiry request to management equipment according to the information of the vehicle included in the repair inquiry command.

And S122, acquiring the repair detection items corresponding to the vehicle, which are determined by the management equipment according to the query request.

According to the embodiment of the application, after the repair inquiry command is received, an inquiry request can be sent to the management device according to the information of the vehicle included in the repair inquiry command. The detection result files of all detection items can be uploaded to the management equipment after the vehicle to be repaired is subjected to offline detection, so that the detection result files of all detection items are stored in the management equipment. The vehicle to be reworked can send an inquiry request to the management device according to the information of the vehicle included in the rework inquiry command. And the management equipment determines a repair detection item corresponding to the vehicle according to the query request and sends the vehicle to be repaired.

In some embodiments, optionally, the step S120 of determining the rework detection item corresponding to the vehicle according to the information of the vehicle included in the rework inquiry instruction includes:

After the vehicle to be repaired is subjected to offline detection, the detection result files of all the detection items can also be stored in the vehicle to be repaired, so that the vehicle to be repaired can inquire and determine the repair detection items corresponding to the vehicle in the detection result files stored in the vehicle to be repaired according to the information of the vehicle included in the repair inquiry instruction.

In some embodiments, optionally, the rework detection items may include electronic control unit software version detection items.

With the rapid development of the automobile industry, Electronic Control Units (ECUs) in automobiles are more and more, and the functions are more and more powerful. In order to meet the requirement of fast update iteration of automobile software in the era of intelligent networking, an ECU in an electronic product in an automobile needs to be upgraded. And the ECU software version has a plurality of states, and the offline vehicle states are inconsistent due to frequent change (non-uniform states), so that ECU software version detection items need to be performed in the offline detection process. According to the method and the device, after the fact that the electronic control unit software version detection item fails in the offline detection process of the vehicle is determined, the software version of the electronic control unit corresponding to the electronic control unit software version detection item is updated, the repair detection instruction is obtained after the update, and the electronic control unit software version detection item is redetected according to the repair detection instruction.

And after the re-detection of the detection items is completed in the repair detection area, a re-detected detection result file is generated. And if the detection result file generated at each detection station before the repair detection area and stored in the vehicle to be repaired has the same detection item as the detection item for re-detection, updating the detection result file of the detection item corresponding to the repair instruction in the vehicle to be repaired into the detection result file generated by the re-detection, namely finishing the updating and replacing of the detection result file.

In some embodiments, optionally, the obtaining a repair query instruction, and determining a repair detection item corresponding to a vehicle according to information of the vehicle included in the repair query instruction includes: acquiring a repair query instruction input by a detection person, and querying and displaying a detection failure item to indicate the detection person to maintain the detection failure item; the detection failure item refers to an item failed in offline detection;

As shown in fig. 4, the vehicle repair detection apparatus method includes S210 to S220:

s210, obtaining a repair query instruction input by a detection worker, and querying and displaying a detection failure item to instruct the detection worker to maintain the detection failure item; and the detection failure item is an item failed in offline detection.

During the detection period of the vehicle to be repaired at each detection station, a detection result file is generated aiming at each detection item and is stored in the vehicle to be repaired. After the vehicle to be repaired enters the repair detection area, a detection person can input a repair query instruction into the vehicle to be repaired, and after the vehicle to be repaired acquires the repair query instruction, a detection result file stored in the vehicle to be repaired can be queried to determine a detection failure item and be displayed in the vehicle to be repaired. The item failed in detection is an item failed in offline detection. The detection personnel can check specific detection failure items, so that the vehicle to be repaired is controlled to go to the repair area to be repaired, and the repair is carried out on the detection failure items.

S220, obtaining a repair detection instruction input by a detection person, and re-detecting a detection item corresponding to the repair detection instruction according to the repair detection instruction.

And after the vehicle is repaired, returning to the repair detection area for retesting. After the vehicle to be repaired enters the repair detection area, a detection person can input a repair detection instruction in the vehicle to be repaired, and the vehicle to be repaired detects the detection item corresponding to the repair detection instruction again according to the repair detection instruction after acquiring the repair detection instruction so as to verify whether the vehicle to be repaired passes the detection after being repaired.

The method and the device for detecting the failed items of the vehicle can inquire the failed items of the vehicle to be repaired, after a detection person inputs a repair inquiry command to the vehicle to be repaired, the vehicle to be repaired can automatically inquire and display the failed items of the detection so as to indicate the detection person to maintain the failed items of the detection, and when the repair detection command input by the detection person is obtained, the detection item corresponding to the repair detection command is redetected according to the repair detection command. Therefore, the link of printing the failed item of the paper receipt mark on each detection station can be omitted, and the repair detection efficiency is improved.

In some embodiments, optionally, the vehicle to be reworked may include a Head Unit (HU) including a Human Machine Interface (HMI). And the detection personnel can input a repair query instruction and a repair detection instruction through the human-computer interaction interface HMI. The vehicle to be repaired can also display the detection failure items to the detection personnel through the human-computer interaction interface HMI.

In some embodiments, optionally, as shown in fig. 5, the step S210 of obtaining a rework query instruction input by the inspection personnel, and querying and presenting items with failed inspection may include:

s211, acquiring a repair query instruction input by a detection worker, and displaying a repair detection main interface; the repair detection main interface comprises a detection result query menu.

After the vehicle to be repaired enters the repair detection area, if a repair query instruction input by a detection person is obtained, a repair detection main interface can be displayed firstly. The repair detection main interface comprises a detection result query menu.

Fig. 6 is a schematic view of a rework detection main interface provided in an embodiment of the present application, and as shown in fig. 6, the rework detection main interface may include a detection result query menu, and in some embodiments, the rework detection main interface may further include other result query menus. Such as a non-rework detection area electro-inspection execution menu. At some detection stations for example fill detection station soon, fill detection station etc. slowly, need the testing personnel cooperation to go on sometimes, consequently can set up non-repair detection zone electricity and examine the execution menu on the repair detection main interface of waiting to repair the vehicle, testing personnel find corresponding detection station in non-repair detection zone electricity and click to carry out subsequent detection. Optionally, a vehicle identification code of the vehicle may also be displayed on the rework detection main interface, as shown in fig. 6, the vehicle identification code VIN of the vehicle to be reworked is LW433B102K 1000865.

S212, acquiring a detection result query menu trigger instruction input by a detection person, and displaying a detection station detection result query interface; and the detection station detection result query interface displays the detection station list, marks the detection failure detection station and marks the detection passing detection station.

If the detection personnel click the detection result query menu on the repair detection main interface, the vehicle to be repaired acquires a detection result query menu trigger instruction, and the vehicle to be repaired can display the detection station detection result query interface. The detection station detection result query interface displays the list of the detection stations, so that a detector can visually check whether each detection station of the final assembly workshop passes the detection at the vehicle end to be repaired. For example, fig. 7 provides an example of a detection station detection result query interface, as shown in fig. 7, the detection station detection result query interface displays a detection station list, which includes, for example, a key learning station, a software upgrading station, a whole vehicle electrical inspection station, a quality detection station, a four-wheel positioning station, an exhaust optical pick station, a driving assistance calibration station, a Head-Up Display (HUD) calibration station, a 360 calibration station, a slow charging detection station, a fast charging detection station, a darkroom station, a road test, a traffic report station, and the like. The detection station detection result interface also marks a detection failure detection station and a detection passing detection station, for example, the whole vehicle electric detection station has a detection failure item, and then the whole vehicle electric detection station is marked as the detection failure detection station. The marking as a detection failure detection station can be of various forms, including, but not limited to, marking the detection failure detection station and the detection as different colors for display through the detection station. For example, green indicates a pass and red indicates a fail. It should be noted that fig. 7 only exemplarily provides an example of a detection station detection result query interface, and in an actual use process, the detection station detection result query interface may be designed according to actual requirements of a production line.

Optionally, an exit key is further arranged on the detection result interface of the detection station, so that the detection personnel can conveniently return to the previous layer to check.

S213, acquiring a detection station query instruction input by a detection person, and displaying a detection item detection result query interface of the detection station; and the detection item detection result query interface displays a detection item list of the detection station, marks detection failure items and detection passing items.

A detection worker can click a detection failure detection station on a detection station detection result query interface to input a detection station query instruction, and a to-be-repaired vehicle can display a detection item detection result query interface of the detection station after acquiring the detection station query instruction. The detection item detection result query interface displays a detection item list of the detection station, marks detection failure items and detection passing items, so that a detector can check which specific detection items on the detection station fail to pass the detection. For example, fig. 8 provides an example of a display of a detection item detection result query interface of a detection station, and as shown in fig. 8, after a detection person clicks a complete vehicle electrical inspection station on the detection station detection result query interface, the detection item detection result interface of the complete vehicle electrical inspection station is displayed. The detection item detection result query interface of the whole vehicle electrical detection station displays a detection item list, for example, detection items such as general information writing, general information verification, battery management system data consistency verification, regional control unit/inertial sensor calibration, charging port cover calibration, tail gate learning, main driving seat learning, auxiliary driving seat learning, PNG setting activation, PNG calibration value writing, vehicle body controller hardware detection, seat module detection, air conditioning system detection, fault code reading and the like are included. The detection item detection result query interface can also mark detection failure items and detection passing items, for example, if the data consistency check items of the battery management system are detection failure items, the detection failure items can be represented by red, and other detection passing items can be represented by green. It should be noted that there are various forms of marking the item that fails to be detected and the item that passes through detection, for example, a manner of adding an identification code after detecting the name of the item, and the like, and this is not limited in this application. Fig. 8 only exemplarily provides a display example of a detection item detection result query interface of a detection station, and in an actual use process, the detection item detection result query interface of the detection station may be designed according to actual requirements of a production line.

In some embodiments, optionally, as shown in fig. 9, after acquiring a detection workstation query instruction input by a detection person and displaying a detection item detection result query interface of the detection workstation in S213, the method may further include:

s214, acquiring a detection failure item triggering instruction input by a detection person, and displaying a detection result of the detection component corresponding to the detection failure item.

The detection personnel can click the detection failure item on a detection item detection result query interface of the detection station of the vehicle to be repaired so as to input a detection failure item triggering instruction, so that the vehicle to be repaired can display the detection result of the detection part corresponding to the detection failure item. For example, if the detection of the hardware detection item of the vehicle body controller fails, after the hardware detection item of the vehicle body controller is clicked, the vehicle to be repaired can display the detection results of the detection components corresponding to the hardware detection item of the vehicle body controller, so that a detection person can know which detection component fails.

In some embodiments, optionally, the rework detection main interface may further include a query menu for detecting communication anomalies. The vehicle repair detection method provided by the embodiment of the application further comprises the following steps: and acquiring a detection communication abnormity query menu trigger instruction input by a detection person, and displaying a detection communication abnormity result.

As shown in fig. 6, the rework detection main interface may further include a query menu for detecting communication anomalies. After the detection communication abnormity query menu triggering instruction input by the detection personnel, the vehicle to be repaired can display a detection communication abnormity result, such as whether the transmission of a detection result file between the vehicle to be repaired and the management equipment is abnormal or not, the reason of the abnormity, and the like.

In some embodiments, optionally, the rework detection home interface may further include a rework detection execution menu. Correspondingly, before acquiring a rework detection instruction input by a detection person in S220 and re-detecting a detection item corresponding to the rework detection instruction according to the rework detection instruction, the method further includes:

As shown in fig. 6, the repair detection main interface may further include a repair detection execution menu, and the detection personnel inputs the repair detection execution menu to click on the repair detection main interface, and triggers to generate a repair detection execution menu trigger instruction, and the to-be-repaired vehicle displays a detection item execution list. The displayed detection item execution list is a detection item list which can be detected in the repair detection area so as to indicate detection personnel to trigger a repair detection instruction according to the detection item execution list. For example, the detection items executable in the repair detection area include detection items such as vehicle body controller anti-theft authentication, vehicle body controller anti-theft information erasing, key learning, vehicle software version number writing, audio and video system key injection, vehicle control computing unit key injection, bluetooth key injection, advanced driving assistance system key injection, equipment registration, controller upgrading, general information writing, general information verification, battery management system data consistency verification, charging port cover mark and the like.

In some embodiments, optionally, as shown in fig. 10, after acquiring a rework detection instruction input by a detection person in S220 and re-detecting a detection item corresponding to the rework detection instruction according to the rework detection instruction, the method further includes:

and S230, updating the detection result file of the detection item corresponding to the repair instruction in the vehicle to be repaired into the detection result file generated by re-detection.

And after the re-detection of the detection items is completed in the repair detection area, a re-detected detection result file is generated. If the detection result files generated at the detection stations before the repair detection area and stored in the vehicle to be repaired have the same detection items as the detection items for re-detection, the detection result files of the detection items corresponding to the repair instructions in the vehicle to be repaired are updated to the detection result files generated by the re-detection (the detection result files of the vehicle to be repaired having the same detection items as the detection items for re-detection are updated to the detection result files for re-detection), and then the updating and the replacement of the detection result files are completed. After the detection result file is updated and replaced, the detection failure detection station and the detection passing detection station displayed on the detection station detection result query interface are updated accordingly, and the detection failure items and the detection passing items in the detection item detection result query interface of the detection station are updated accordingly.

In some embodiments, optionally, the updated detection result file may also be uploaded to the management device in the embodiments of the present application, so that the management device manages and uniformly manages and analyzes the detection result file.

In some embodiments, optionally, the rework detection interface may also include a detection update menu. The detection personnel can click the detection update menu to generate a detection update menu trigger instruction, and correspondingly, the vehicle repair detection method provided by the embodiment of the application can further comprise the following steps:

a1, acquiring a detection update menu trigger instruction input by a detection person;

a2, when the version number of the detection execution file stored in the vehicle to be repaired is inconsistent with the version number of the detection execution file stored in the management device, sending a request for downloading the detection execution file to the management device;

a3, acquiring a detection execution file issued by the management device according to the detection execution file downloading request;

and A4, using the detection execution file as an updated detection execution file.

The embodiment of the application can be rotated according to actual needs and whether the update of the detection execution file in the vehicle to be repaired is triggered in the repair detection area. Wherein the detection execution file is a file for executing the detection item. If the version number of the detection execution file stored in the vehicle to be repaired is not consistent with the version number of the detection execution file stored in the management device, the detection execution file of the vehicle to be repaired is not the latest version and needs to be updated. And after the management equipment acquires the download request of the detection execution file, the management equipment issues the detection execution file to the vehicle to be repaired. And after receiving the detection execution file, the vehicle to be repaired takes the detection execution file as an updated detection execution file so that the vehicle to be repaired can execute detection according to the updated detection execution file.

Optionally, whether the version number of the detection execution file stored in the vehicle to be repaired is consistent with the version number of the detection execution file stored in the management device or not may be executed by the management device. The vehicle to be repaired sends the version number of the detection execution file stored in the vehicle to be repaired to the management device, and the management device detects whether the version number of the detection execution file stored in the vehicle to be repaired sent by the vehicle to be repaired is consistent with the version number of the detection execution file stored in the management device. And if the vehicle information is inconsistent with the vehicle information, the management equipment sends an updating instruction to the vehicle to be repaired. And after the vehicle to be repaired acquires the updating instruction sent by the management equipment, sending a request for downloading the detection execution file to the management equipment.

In other embodiments, whether the detection execution file version number stored in the vehicle to be repaired is consistent with the detection execution file version number stored in the management device may also be executed by the vehicle to be repaired. The method comprises the steps that a vehicle to be repaired can obtain a detection execution file version number stored in the vehicle to be repaired and a detection execution file version number stored in management equipment, then the vehicle to be repaired detects whether the detection execution file version number stored in the vehicle to be repaired is consistent with the detection execution file version number stored in the management equipment, and if not, the vehicle to be repaired sends a detection execution file downloading request to the management equipment. The obtaining of the version number of the detection execution file may be that the vehicle to be repaired initiatively requests the management device to obtain the version number, or the management device issues the version number to the vehicle to be repaired after the vehicle to be repaired enters a certain set detection station.

Wherein detecting the execution file comprises detecting a baseline script and/or a workstation configuration file. Each detection station can select one to more detection baseline scripts to form an execution sequence of the detection station according to actual needs. Each test baseline script may contain one to more test items. In order to realize the functional flexibility and expandability of the whole vehicle detection, the management design of the detection baseline script can be carried out in the management equipment. When the final assembly workshop detects the vehicle, generally design the detection station according to the production beat, every detection station accomplishes all detection items that set up in advance in limited production beat. In order to realize that the detection items of each detection station can be flexibly adjusted, the management design of the station configuration file is carried out on the management equipment. The workstation configuration file specifies an execution order of the plurality of inspection baseline scripts in each inspection workstation. The method comprises the steps that the execution sequence of detection items of all detection stations can be dynamically designed on a management equipment side, and when a station configuration file downloading request sent by a vehicle to be repaired is received, a remote station configuration file is issued to the vehicle to be repaired for use.

In some embodiments, the management device may include an informatization management device and a diagnosis management device. The information management equipment is equipment for generating a station triggering instruction according to a detection station where a vehicle to be detected is located. The diagnosis management apparatus is an apparatus that manages a detection execution file. The information management device communicates with the vehicle to be detected through the diagnosis management device.

The informatization management equipment is common management equipment for manufacturing enterprise workshops, and is generally used for managing finished automobile data files. In order to avoid redevelopment of the information management equipment and influence on other services of the whole vehicle, the management equipment in the embodiment of the application can further comprise diagnosis management equipment, and the information management equipment is communicated with the vehicle to be detected through the diagnosis management equipment. The diagnosis management equipment serves as a bridge for data interaction between the information management equipment and the vehicle to be detected. The diagnosis management apparatus can manage the test execution file and support the creation and update of the test execution file.

The principle of executing detection on each detection station of the vehicle to be repaired in front of the repair detection area is as follows:

for example, referring to fig. 11, the vehicle offline detection system may include a vehicle identification device 10, a locating device 20, and a management device 30. The positioning device 20 is communicatively connected to the vehicle recognition device 10, and the management device 30 is communicatively connected to the positioning device 20 and the vehicle to be repaired 40, respectively. The vehicle off-line detection system may be configured with a detection station 50. The vehicle identification apparatus 10 may be disposed on the inspection station 50. The vehicle identification device 10 is used for acquiring a vehicle identification code of the vehicle 40 to be repaired, and sending the vehicle identification code of the vehicle 40 to be repaired and the detection station information where the vehicle identification device 10 is located to the positioning device 20. The positioning device 20 is used for sending the vehicle identification code of the vehicle 40 to be repaired and the detected station information to the management device 30. The management device 30 is configured to send a station triggering instruction to the vehicle to be repaired 40 according to the vehicle position information of the vehicle to be repaired 40 and the vehicle identification code. The vehicle to be repaired 40 can query the detection execution file according to the station triggering instruction to determine a detection instruction for detection.

If the vehicle to be repaired enters the detection station 50, the vehicle identification device 10 disposed in the detection station 50 may collect the vehicle identification code of the vehicle to be repaired, and transmit the vehicle identification code and the information of the detection station to the positioning device 20. The Vehicle Identification code may be a Vehicle Identification Number (VIN) of the Vehicle 40 to be repaired, or may be another Identification code of the Vehicle 40 to be repaired, as long as the Identification code is a unique Identification code that can be used to distinguish the vehicles.

Alternatively, for example, the vehicle identification device 10 may store a detection station code, and if the vehicle identification device 10 detects that the vehicle 40 to be repaired enters the detection station where the vehicle identification device 10 is located, the vehicle identification device 10 may accurately acquire the vehicle identification code of the vehicle to be repaired, and send the vehicle identification code of the vehicle to be repaired and the detection station code to the positioning device 20.

The positioning device 20 can communicate with all the vehicle identification devices 10, and receive the vehicle identification code of the vehicle to be repaired and the detection station code transmitted by the vehicle identification devices 10 and forward the vehicle identification code and the detection station code to the management device 30.

The management device 30 may determine a station triggering instruction according to the vehicle identification code of the vehicle 40 to be repaired and the detected station information, so as to send the vehicle 40 to be repaired, and control the vehicle 40 to be repaired to query the detection execution file according to the station triggering instruction to determine the detection instruction. For example, the vehicle 40 to be repaired is at the first inspection station, the management device 30 may generate the first inspection station trigger station command corresponding to the vehicle to be repaired according to the inspection station code and the vehicle identification code. The vehicle 40 to be repaired may be pre-stored with a detection execution file before assembly, and after receiving the trigger station instruction, the vehicle 40 to be repaired may query and determine the detection instruction from the detection execution file according to the trigger station instruction, and then perform detection according to the detection instruction.

Optionally, the vehicle identification device 10 comprises a vehicle identification reading device. The vehicle identification reading device may be disposed at any position of the inspection station, and the vehicle identification area of the vehicle identification reading device may be disposed facing the vehicle to be repaired within the inspection station, for example, the vehicle identification reading device may be disposed above the inspection station. For example, the vehicle Identification reading device may collect the vehicle Identification code through a Radio Frequency Identification (RFID) technology.

Optionally, the locating device 20 comprises an automatic vehicle identification system server. The automatic vehicle recognition system server may communicate with the vehicle recognition devices 10 at all detection stations of the final assembly plant, receive the vehicle identification codes of the vehicles to be repaired transmitted by the vehicle recognition modules 10 and the vehicle position information of the vehicles to be repaired, and accurately forward the vehicle identification codes and the vehicle position information to the management device 30.

Optionally, the vehicle offline detection system may further include an identification code storage device 60 disposed on the vehicle to be repaired 40. Wherein, the vehicle identification code is stored in the identification code storage device 60, and the vehicle identification device 10 collects the vehicle identification code by scanning the identification code storage device 60. Alternatively, the identification code storage device 60 may be a Radio Frequency Identification (RFID) memory and the vehicle identification module 10 may be an RFID reader. In the disclosed embodiment, the identification code storage module 60 may be mounted on a surface of the vehicle to be repaired 40 facing the vehicle identification area of the vehicle identification module 10, for example, the vehicle identification device 10 may be disposed above the inspection station, and the identification code storage device 60 may be mounted on a roof of the vehicle to be repaired 40.

Alternatively, the management device 30 may include an informatization management device 31 and a diagnostic service device 32. The information management device 31 is in communication connection with the positioning device 20, and the diagnosis service device 32 is in communication connection with the information management device 31 and the vehicle to be repaired 40 respectively. The information management device 31 is configured to receive the vehicle identification code of the vehicle to be repaired and the information of the detected station where the vehicle to be repaired is located, and generate a station triggering instruction according to the vehicle identification code of the vehicle to be repaired 40 and the information of the detected station where the vehicle is located. The diagnostic service equipment 32 is used to send a trigger station command to the vehicle to be reworked 40.

The informatization management device 31 is a common management device for manufacturing enterprise workshops, and the informatization management device 31 is generally used for managing finished automobile data files. In order to avoid redevelopment of the information management device 31 and influence on other services of the whole vehicle, the management device 30 in the embodiment of the present application may further include a diagnosis management device 32, and the information management device 31 communicates with the vehicle to be detected through the diagnosis management device 32. The diagnosis management device 32 serves as a bridge for data interaction between the information management device 31 and the vehicle 40 to be detected. The diagnosis management device 32 can manage the test execution file and support the creation and update of the test execution file.

The embodiment of the present application further provides a vehicle repair detection device, and fig. 12 is a block diagram of a structure of the vehicle repair detection device provided in the embodiment of the present application. As shown in fig. 12, the vehicle rework detection apparatus includes a rework inquiry instruction acquisition module 11, a rework detection item determination module 12, an update module 13, and a redetection module 14.

The repair query instruction obtaining module 11 is configured to obtain a repair query instruction, where the repair query instruction includes information of a vehicle to be repaired. The rework detection item determination module 12 is configured to determine a rework detection item corresponding to the vehicle according to the vehicle information included in the rework query instruction, where the rework detection item is an item that fails in offline detection. The updating module 13 is configured to update a component corresponding to the repair detection item in the vehicle to be repaired. The re-detection module 14 is configured to obtain a repair detection instruction, and re-detect a detection item corresponding to the repair detection instruction according to the repair detection instruction.

The above explanation of the embodiment of the vehicle repair detection method is also applicable to the vehicle repair detection device of the present embodiment. The specific manner in which each module in the vehicle rework detection device embodiment performs an operation has been described in detail in relation to the embodiment of the method, and will not be elaborated upon here.

The embodiment of the application also provides a vehicle. The vehicle includes a processor and a memory; the memory stores programs or instructions. The processor executes a program or instructions stored in the memory to implement the vehicle rework detection method as described in any of the embodiments above.

The embodiment of the present application further provides a storage medium, where a program or an instruction is stored, and when the program or the instruction is executed by a processor, the steps of the vehicle repair detection method according to any of the embodiments described above may be implemented.

It should be noted that examples of readable storage media include, but are not limited to, electronic, magnetic, optical, electromagnetic, infrared, or semiconductor systems, apparatuses, or devices, or any combination thereof. More specific examples (a non-exhaustive list) of the readable storage medium include: an Electrical connection having one or more wires, a portable computer diskette, a hard disk, a Random Access Memory (RAM), a Read-Only Memory (ROM), an erasable Programmable Read-Only Memory (EPROM), an optical fiber, a portable Compact Disc Read-Only Memory (CD-ROM), an optical storage device, a magnetic storage device, or any suitable combination of the foregoing. In the context of this document, a readable storage medium may be any tangible medium that can contain, or store a program for use by or in connection with an instruction execution system, apparatus, or device.

The storage medium provided by the above-mentioned embodiment of the present application and the vehicle repair detection method provided by the embodiment of the present application have the same beneficial effects as the method adopted, operated or realized by the application program or the instruction stored in the storage medium, based on the same inventive concept.

From the above description of the embodiments, it is obvious for those skilled in the art that the present application can be implemented by software and necessary general hardware, and certainly can be implemented by hardware, but the former is a better embodiment in many cases. Based on this understanding, the technical solutions of the present application may be embodied in the form of a software product, which may be stored in a storage medium, or a part that contributes to the prior art.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. A vehicle repair detection method, characterized by comprising:

2. The vehicle rework detection method according to claim 1, wherein the rework inquiry instruction includes a rework detection zone trigger instruction sent by a management device; and the repair detection area triggering instruction is generated by the management equipment according to the vehicle identification code of the vehicle to be repaired and the repair detection area information after the vehicle to be repaired enters the repair detection area.

3. The vehicle repair detection method according to claim 1, wherein the updating of the component corresponding to the repair detection item in the vehicle to be repaired includes:

4. The vehicle rework detection method according to claim 1, wherein the determining a rework detection item corresponding to the vehicle according to the information of the vehicle included in the rework inquiry command includes:

5. The vehicle rework detection method according to claim 1, wherein the determining a rework detection item corresponding to the vehicle according to the information of the vehicle included in the rework inquiry command includes:

6. The vehicle rework detection method according to claim 1, wherein the rework detection items include electronic control unit version software detection items.

7. The vehicle repair detection method according to claim 1, further comprising, after acquiring a repair detection instruction and re-detecting a detection item corresponding to the repair detection instruction according to the repair detection instruction:

8. A vehicle repair detection device, characterized by comprising:

9. A vehicle, characterized by comprising: a processor and a memory; the memory stores programs or instructions; the processor executes a program or instructions stored in the memory to implement the vehicle rework detection method of any of claims 1-7.

10. A storage medium characterized in that the storage medium has stored thereon a program or instructions which, when executed by a processor, implement the steps of the vehicle repair detection method according to any one of claims 1 to 7.