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CN-122019396-A - Modularized environment adaptation method and system for intelligent fusion terminal production test

CN122019396ACN 122019396 ACN122019396 ACN 122019396ACN-122019396-A

Abstract

The invention discloses a modularized environment adaptation method and a modularized environment adaptation system for intelligent fusion terminal production test, which are applied to the technical field of intelligent test, wherein the method comprises the steps of burning a main APP and a corresponding configuration file into an intelligent fusion terminal before module welding is carried out in the production stage of the intelligent fusion terminal; the automatic welding equipment performs module welding according to the configuration files, reads the configuration files through the standardized interaction interface, reads corresponding test templates from the localized template library according to the terminal model, writes the configuration files into the configuration files, performs testing according to the configuration files, and performs remote testing according to the configuration files when a main APP receives remote testing instructions to perform remote testing during operation of the intelligent fusion terminal. The invention realizes the integrated process of production, test and operation and maintenance through a set of configuration files, can effectively monitor and trace the faults, effectively reduces the production test time and greatly improves the production test efficiency of the fusion terminal.

Inventors

  • HAN WEIHUA
  • TAN JINLONG
  • WEN HAIKANG
  • DAI HUI
  • WANG JIAN

Assignees

  • 成都汉度科技有限公司

Dates

Publication Date
20260512
Application Date
20260413

Claims (10)

  1. 1. The modularized environment adaptation method for the intelligent fusion terminal production test is characterized by comprising the following steps of: the method comprises the steps of burning a main APP and a corresponding configuration file into an intelligent fusion terminal before module welding is carried out in the production stage of the intelligent fusion terminal, wherein the main APP is an APP program operated in the operation stage of the intelligent fusion terminal, and the configuration file comprises flow data and operation data required by the operation of the main APP, wherein the flow data comprises a terminal model, a function module list, a module starting state and material specification parameters; in a module welding stage of the intelligent fusion terminal, reading the configuration file and synchronizing the configuration file to automatic welding equipment, wherein the automatic welding equipment performs module welding according to the configuration file; In a module testing stage of the intelligent fusion terminal, reading the configuration file through a standardized interaction interface, reading a corresponding test template from a localized template library according to the terminal model, writing the test template into the configuration file, and then testing according to the configuration file; and in the operation stage of the intelligent fusion terminal, when the main APP receives a remote test instruction to carry out remote test in operation, carrying out remote test according to the configuration file.
  2. 2. The modular environment adaptation method for intelligent fusion terminal production test according to claim 1, further comprising: after the welding is finished, synchronizing the equipment ID of the automatic welding equipment for executing the welding into the configuration file; and when the fault is found by the test or the remote test, performing fault tracing through the equipment ID.
  3. 3. The modular environment adaptation method for intelligent fusion terminal production testing according to claim 1, wherein performing module welding further comprises: reading the configuration file through a standardized interaction interface of the intelligent fusion terminal and synchronizing the configuration file to automatic welding equipment; and the automatic welding equipment acquires the module to be welded according to the function module list and the module starting state of the configuration file, and invokes the material according to the material specification parameters to perform module welding.
  4. 4. The modular environment adaptation method for the production test of the intelligent fusion terminal according to claim 1, wherein the test template comprises test data of independent test of each module and test data of cooperative test of the modules, wherein the test data comprises a module interface type, a power supply requirement, test conditions and fault characteristics; testing according to the configuration file comprises the following steps: and constructing a testing environment according to the type of the module interface, the power supply requirement and the testing condition, performing independent testing and module cooperative testing of each module, and identifying corresponding faults according to fault characteristics.
  5. 5. The method for modular environment adaptation for intelligent fusion terminal production testing according to claim 4, wherein performing the remote testing comprises: And the main APP carries out intelligent fusion terminal operation environment detection according to the module interface type, the power supply requirement and the test condition, and identifies corresponding faults according to the fault characteristics.
  6. 6. The utility model provides an intelligent fusion terminal production test's modularization environment adaptation system which characterized in that includes: The system comprises a burning unit, a burning unit and a control unit, wherein the burning unit is configured to burn a main APP and a corresponding configuration file into an intelligent fusion terminal before module welding is carried out in the production stage of the intelligent fusion terminal, the main APP is an APP program operated in the operation stage of the intelligent fusion terminal, the configuration file comprises flow data and operation data required by the operation of the main APP, and the flow data comprises a terminal model, a function module list, a module starting state and material specification parameters; the welding unit is configured to read the configuration file and synchronize the configuration file to automatic welding equipment in a module welding stage of the intelligent fusion terminal, and the automatic welding equipment performs module welding according to the configuration file; The testing unit is configured to read the configuration file through a standardized interaction interface in a module testing stage of the intelligent fusion terminal, read a corresponding testing template from a localized template library according to the terminal model, write the configuration file into the testing template, and then test the testing template according to the configuration file; The main APP is further configured to perform remote testing according to the configuration file when a remote testing instruction is received to perform remote testing in the operation stage of the intelligent fusion terminal in operation.
  7. 7. The modular environment adaptation system for intelligent fusion terminal production testing of claim 6, wherein the welding unit is further configured to: after the welding is finished, synchronizing the equipment ID of the automatic welding equipment for executing the welding into the configuration file; and when the fault is found by the test or the remote test, performing fault tracing through the equipment ID.
  8. 8. The modular environment adaptation system for intelligent fusion terminal production testing of claim 6, wherein the welding unit is further configured to: reading the configuration file through a standardized interaction interface of the intelligent fusion terminal and synchronizing the configuration file to automatic welding equipment; and the automatic welding equipment acquires the module to be welded according to the function module list and the module starting state of the configuration file, and invokes the material according to the material specification parameters to perform module welding.
  9. 9. The modular environment adaptation system for intelligent fusion terminal production test according to claim 6, wherein the test template comprises test data for independent test of each module and test data for collaborative test of the modules, wherein the test data comprises module interface type, power supply requirement, test condition and fault characteristics; The test unit is further configured to: and constructing a testing environment according to the type of the module interface, the power supply requirement and the testing condition, performing independent testing and module cooperative testing of each module, and identifying corresponding faults according to fault characteristics.
  10. 10. The modular environment adaptation system for intelligent fusion terminal production testing of claim 9, wherein the master APP is further configured to: And detecting the running environment of the intelligent fusion terminal according to the type of the module interface, the power supply requirement and the test condition, and identifying corresponding faults according to the fault characteristics.

Description

Modularized environment adaptation method and system for intelligent fusion terminal production test Technical Field The invention relates to the technical field of intelligent production test, in particular to a modularized environment adaptation method and system for intelligent fusion terminal production test. Background The intelligent fusion terminal integrates a plurality of functional modules such as Bluetooth, 485, loRa, GPS, 4G and the like, is widely applied to the fields such as the Internet of things, industrial control and the like, and the production test link is required to verify the functional integrity and the cooperative stability of each module, so that the intelligent fusion terminal is a key for guaranteeing the delivery quality of the terminal. The existing scheme mainly faces the following technical bottlenecks that firstly, in the aspect of test environment construction, multiple sets of special test environments are needed to be manually built aiming at different terminal models, hardware connection and software parameters are needed to be repeatedly adjusted, configuration is extremely complex and time-consuming, in the aspect of test flow, the existing tool only supports individual configuration test conditions item by item, quick switching and collaborative verification among multiple modules cannot be achieved, and a production program and a formal APP are needed to be burnt twice, so that flow redundancy is complex. In the material management and fault diagnosis layers, material welding is not combined with the actual function requirements of the terminals, so that material waste of irrelevant nodes is caused, log positioning is needed to be manually analyzed when faults occur, the average diagnosis time is more than 30 minutes, hidden faults are easy to miss due to the fact that cross influences of cooperative work among modules are ignored, meanwhile, the material welding lacks an effective error prevention and tracing mechanism, miswelding and missing welding risks exist, and the problem sources are difficult to trace after the faults. Disclosure of Invention In order to at least overcome the defects in the prior art, the application aims to provide a modularized environment adaptation method and a modularized environment adaptation system for intelligent fusion terminal production test. In a first aspect, an embodiment of the present application provides a modular environment adaptation method for production test of an intelligent fusion terminal, including: the method comprises the steps of burning a main APP and a corresponding configuration file into an intelligent fusion terminal before module welding is carried out in the production stage of the intelligent fusion terminal, wherein the main APP is an APP program operated in the operation stage of the intelligent fusion terminal, and the configuration file comprises flow data and operation data required by the operation of the main APP, wherein the flow data comprises a terminal model, a function module list, a module starting state and material specification parameters; in a module welding stage of the intelligent fusion terminal, reading the configuration file and synchronizing the configuration file to automatic welding equipment, wherein the automatic welding equipment performs module welding according to the configuration file; In a module testing stage of the intelligent fusion terminal, reading the configuration file through a standardized interaction interface, reading a corresponding test template from a localized template library according to the terminal model, writing the test template into the configuration file, and then testing according to the configuration file; and in the operation stage of the intelligent fusion terminal, when the main APP receives a remote test instruction to carry out remote test in operation, carrying out remote test according to the configuration file. In one possible implementation, the method further includes: after the welding is finished, synchronizing the equipment ID of the automatic welding equipment for executing the welding into the configuration file; and when the fault is found by the test or the remote test, performing fault tracing through the equipment ID. In one possible implementation, performing the module weld further includes: reading the configuration file through a standardized interaction interface of the intelligent fusion terminal and synchronizing the configuration file to automatic welding equipment; and the automatic welding equipment acquires the module to be welded according to the function module list and the module starting state of the configuration file, and invokes the material according to the material specification parameters to perform module welding. In one possible implementation, the test template comprises test data of each module independently tested and test data of module cooperative test, wherein the test data comprises a module interf