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CN-122019372-A - Test method of vehicle fuel filler cap and electronic equipment

CN122019372ACN 122019372 ACN122019372 ACN 122019372ACN-122019372-A

Abstract

The embodiment of the application provides a test method of a vehicle filler cap and electronic equipment, wherein the method comprises the steps of obtaining identification information of the vehicle filler cap; the method comprises the steps of responding to a first operation instruction acting on a user interaction interface, generating at least one oil filler cap test case based on application case configuration information corresponding to the first operation instruction, generating a target test task based on the at least one oil filler cap test case, wherein the target test task is used for representing a test task represented by an automatic test script, and controlling a mechanical arm to test an oil filler cap based on the target test task and identification information. The application solves the technical problems of complexity and high test cost of the vehicle filler cap in the related technology.

Inventors

  • SHI YE
  • WANG ZHIBIN
  • LIN XINLEI
  • WANG SHUANGJIN
  • CHENG SHUO

Assignees

  • 安徽智界新能源汽车有限公司
  • 奇瑞汽车股份有限公司

Dates

Publication Date
20260512
Application Date
20260119

Claims (10)

  1. 1. A method of testing a fuel filler cap for a vehicle, comprising: acquiring identification information of a filler cap of a vehicle; responding to a first operation instruction acting on a user interaction interface, and generating at least one oil filler cap test case based on application case configuration information corresponding to the first operation instruction; Generating a target test task based on the at least one oil filler cap test case, wherein the target test task is used for representing a test task represented by an automatic test script; And controlling the mechanical arm to test the filler cap based on the target test task and the identification information.
  2. 2. The method of claim 1, wherein generating at least one filler cap test case based on the case configuration information corresponding to the first operating instruction comprises: Acquiring initial test case parameters corresponding to the oil filler cap, wherein the initial test case parameters are used for indicating recommended parameters for controlling the movement of the mechanical arm aiming at the oil filler cap; displaying the initial test case parameters on the user interaction interface; And responding to a determining instruction aiming at the initial test case parameter, and generating the at least one oil filler cap test case based on the initial test case parameter, wherein the first operating instruction comprises the determining instruction.
  3. 3. The method of claim 2, wherein obtaining initial test case parameters corresponding to the filler cap comprises: Acquiring structural feature information of the fuel filler cap and electronic information of a vehicle body, wherein the electronic information of the vehicle body is used for representing electronic information of interaction between a vehicle body system of the vehicle and the fuel filler cap; and generating the initial test case parameters based on the structural feature information and the vehicle electronic information.
  4. 4. The method of claim 3, wherein generating the initial test case parameters based on the structural feature information and the vehicle electronics information comprises: generating corresponding recommended parameters under at least one test action based on the structural feature information and the vehicle electronic information, wherein the at least one test action comprises at least one of an unlocking action, an opening action, a closing action and a pressing action on the filler cap; summarizing the recommended parameters corresponding to the at least one test action to obtain the initial test case parameters.
  5. 5. The method of claim 3, wherein obtaining vehicle electronic information of the filler cap comprises: connecting test equipment with the vehicle-mounted system, and configuring bus channel parameters between the test equipment and the vehicle-mounted system; under the condition that the bus channel parameter configuration is completed, matching the test equipment with a communication protocol of a fuel filler cap control module of the vehicle; And under the condition that the communication protocol is successfully matched, acquiring the electronic information of the vehicle body by using the testing equipment.
  6. 6. The method of any one of claims 1 to 5, wherein, in the event that the number of the at least one filler cap test case is a plurality, generating a target test task based on the at least one filler cap test case comprises: displaying a plurality of fuel filler cap test cases on the user interaction interface; Responding to a second operation instruction acting on the user interaction interface, and determining task configuration information corresponding to the second operation instruction, wherein the task configuration information is used for representing arrangement information of the plurality of filler cap test cases; And generating the target test task based on the task configuration information and the plurality of filler cap test cases.
  7. 7. The method according to any one of claims 1 to 5, characterized in that after acquiring the identification information of the filler cap of the vehicle, the method further comprises: And responding to a third operation instruction acting on the user interaction interface, and calling a target test task corresponding to the filler cap from a historical database, wherein the third operation instruction is used for indicating to recheck the filler cap belonging to the same batch with the filler cap, and a mapping relation is stored in the historical database in advance and is obtained by mapping batch identification information of the filler cap with the target test task.
  8. 8. The method of any one of claims 1 to 5, wherein controlling a robotic arm to test the filler cap based on the target test task comprises: acquiring execution progress information of the target test task in the process of testing the filler cap based on the target test task; and displaying the execution progress information on the user interaction interface.
  9. 9. The method of claim 8, wherein after obtaining the execution progress information of the target test task, the method further comprises: Acquiring condition information of the oil filler cap and preset standard condition information corresponding to the execution progress information; determining a deviation value between the condition information and the preset standard condition information; And executing an exception handling mechanism under the condition that the deviation value is larger than a preset deviation value.
  10. 10. An electronic device, comprising: A memory storing an executable program; a processor for executing the program, wherein the program when run performs the method of any of claims 1 to 9.

Description

Test method of vehicle fuel filler cap and electronic equipment Technical Field The embodiment of the application relates to the technical field of vehicles, in particular to a test method of a vehicle fuel filler cap and electronic equipment. Background In the field of vehicle technology, the filler cap is an important component for ensuring the safety of fuel filling, and the performance of the filler cap is related to the safety and the use experience of the vehicle. However, conventional filler cap testing schemes face multiple challenges. For example, the manual operation tests each action of the filler cap, which is long in time consumption and difficult to adapt to the mass production rhythm, and the extension of the test period becomes a common problem when facing the requirements of complex and changeable working conditions. Because of subjectivity of manual operation, different testers have different forces, speeds and angles when executing the same test action, so that uncertainty of test results is caused, and accuracy of product quality assessment is affected. The existing automatic test equipment is often designed for a specific filler cap, and when the structure changes or the test requirements are increased, the equipment is high in transformation cost and limited in flexibility and adaptability. Therefore, the conventional filler cap test scheme has the problems of complexity in testing the filler cap of the vehicle and high test cost. There is currently no good solution to the above problems. Disclosure of Invention The embodiment of the application provides a testing method and electronic equipment for a vehicle filler cap, which are used for at least solving the technical problems of complexity and high testing cost of testing the vehicle filler cap in the related technology. According to one aspect of the embodiment of the application, the test method for the fuel filler cap of the vehicle comprises the steps of obtaining identification information of the fuel filler cap of the vehicle, responding to a first operation instruction acting on a user interaction interface, generating at least one fuel filler cap test case based on case configuration information corresponding to the first operation instruction, generating a target test task based on the at least one fuel filler cap test case, wherein the target test task is used for representing the test task represented by an automatic test script, and controlling a mechanical arm to test the fuel filler cap based on the target test task and the identification information. According to the embodiment of the application, at least one oil filler cap test case is generated based on application case configuration information corresponding to a first operation instruction, and the method comprises the steps of obtaining initial test case parameters corresponding to an oil filler cap, wherein the initial test case parameters are used for indicating recommended parameters for controlling movement of a mechanical arm aiming at the oil filler cap, displaying the initial test case parameters on a user interaction interface, responding to a determining instruction aiming at the initial test case parameters, and generating at least one oil filler cap test case based on the initial test case parameters, wherein the first operation instruction comprises the determining instruction. In the embodiment of the application, the initial test case parameters corresponding to the fuel filler cap are acquired, wherein the acquisition of the structural feature information of the fuel filler cap and the electronic information of the vehicle body is performed, the electronic information of the vehicle body is used for representing the electronic information of interaction between a vehicle body system of the vehicle and the fuel filler cap, and the initial test case parameters are generated based on the structural feature information and the electronic information of the vehicle body. In the embodiment of the application, the initial test case parameters are generated based on the structural feature information and the vehicle electronic information, and the initial test case parameters are generated based on the structural feature information and the vehicle electronic information, wherein the at least one test action comprises at least one of an unlocking action, an opening action, a closing action and a pressing action of the filler cap, and the recommended parameters corresponding to the at least one test action are summarized to obtain the initial test case parameters. In the embodiment of the application, the vehicle electronic information of the fuel filler cap is acquired, and the method comprises the steps of connecting test equipment with a vehicle system, configuring bus channel parameters between the test equipment and the vehicle system, matching communication protocols of the test equipment and a fuel filler cap control module of a target vehicle under