CN111239614A - Method for realizing object distribution on interactive interface by managing test object - Google Patents

Abstract

The invention discloses a method for managing test objects to realize object distribution on an interactive interface, which comprises the following steps: the system comprises a main frame structure module, a single-channel module and a multi-channel module, wherein the single-channel module and the multi-channel module are integrated with a test module and matched with hardware; a shortcut channel module which can enter the shortcut page through the general frame structure module; a communication channel module which can enter the communication page through the main frame structure module; and the extension module can enter other pages through the general framework module, and the test module upgrading system is established through the extension module. The current information is fed back in real time aiming at reasonable utilization and storage of result data, the operation is flexible and understandable, and the function utilization maximization is achieved aiming at different operation authorities of different personnel. The test software and the test hardware are more reasonably matched, and the operation requirements of users are better met. Aiming at single channel and multiple channels, all required information is displayed as much as possible.

Description

Method for realizing object distribution on interactive interface by managing test object

Technical Field

The invention relates to the technical field of battery testing, in particular to a method for managing a test object to realize object distribution on an interactive interface.

Background

At present, the problems of energy shortage and increasingly worsened environment become worldwide problems, and in order to alleviate the problems, various strategies are actively researched in all countries around the world, wherein all the large automobile companies invest a large amount of capital to research and develop new energy electric automobiles which are more energy-saving and environment-friendly, so that people can clearly see eosin; the pure electric vehicle can realize the environmental protection characteristics of low emission, even zero emission, low heat dissipation, low noise and the like, so the market share of the pure electric vehicle is increased year by year.

The power battery, the driving motor and the electric control form three major components of a power system of the electric automobile, however, compared with the traditional fuel automobile, the technology of the electric automobile is not mature, and the defects exist; the problems of short endurance mileage, slow charging, difficult charging and the like can be said to be the most critical factors restricting the rapid development of the electric automobile; the defects of the electric automobile are closely related to the performance of a power battery of the automobile, and the economy, safety and dynamic property of the automobile are closely related to the power battery; therefore, to solve these drawbacks fundamentally, the performance of the power battery must be fully understood; the technical problems existing in the aspect of batteries are as follows: the specific energy of the battery is low, the cycle life is limited, the quality of the battery pack is overlarge, the endurance mileage is limited, and the like; under the existing power battery technology, if the power battery can be used correctly, the value of the power battery can be maximized. The best mode is to test relevant parameters of the power battery and record the change rule of the relevant parameters under the working condition of the electric automobile, however, the whole system of the electric automobile is too complex, and when the battery is tested, the tested signal is inevitably interfered by other communication signals on the automobile, so that each item of real data of the power battery is difficult to accurately detect.

The power battery is a core part as a power source of the electric automobile, and the power performance of the electric automobile directly depends on the performance of the power battery, so research and development of the power battery have been devoted to research and development by researchers all over the world. The detection test is used as an important ring in the development process of the power battery, and the importance of the detection test is self-evident, so that the detection test is indispensable for testing various parameter performances of the power battery.

Disclosure of Invention

Aiming at the defects in the prior art, the technical problem to be solved by the invention is to provide a method for managing the test objects to realize object distribution on an interactive interface.

In order to solve the technical problem, the invention is realized by the following scheme: a method for managing test objects to achieve object allocation on an interactive interface, comprising:

the system comprises a main frame structure module, a single-channel module and a multi-channel module, wherein the single-channel module and the multi-channel module are integrated with a test module and matched with hardware;

a shortcut channel module which can enter the shortcut page through the general frame structure module;

a communication channel module which can enter the communication page through the main frame structure module;

and the extension module can enter other pages through the general framework module, and the test module upgrading system is established through the extension module.

Further, the method of the invention also comprises the following steps:

a detail page display module, for displaying all test results of the test module, comprising:

at least one detailed list module, the detailed list module including item or channel names, lower data limits for testing, upper data limits for testing, and final results for testing;

the item or channel name at least comprises:

the unit for visually displaying whether the product passes the test item or not can accurately judge whether the product meets the test standard or not;

the error code unit is used for judging whether an error code phenomenon occurs in the test process;

the probe residual unit is used for determining the residual quantity of the test probes;

the adapter plate residual unit is used for determining the residual quantity of the adapter plates;

and the number of the first and second groups,

DATAFLASH comparison unit for displaying the memory size of the memory;

a CONTROL STATUS1 unit for displaying whether the test is in a normal test state;

a FLAGS1 unit for displaying the programming number used by the test;

a measuring temperature unit for displaying the average temperature in the testing process;

a temperature measurement precision unit for determining the deviation value of the test temperature;

the testing module is used for testing the used open-circuit actual voltage value;

the testing module tests the set open-circuit voltage value;

the open-circuit voltage measurement precision unit is used for setting an open-circuit voltage precision value and judging the floating proportion of the voltage according to the voltage precision value;

an open circuit current unit for setting an open circuit current parameter;

a charging actual current unit which is a current value actually generated in the charging process;

a charging measurement current unit for measuring a current value during a charging process;

the charging current precision unit is used for setting a current precision value and judging the floating proportion of the current according to the precision value;

a discharge actual current unit which is a discharge current value actually generated in a discharge process;

a discharge measurement current unit for measuring a current value during a discharge process;

the discharging current precision unit is used for setting a current precision value and judging the floating proportion of the current according to the precision value;

an open circuit voltage unit-1 for displaying the magnitude of the open circuit voltage;

an alternating current impedance unit which displays the impedance of the test battery;

a discharge voltage unit displaying a voltage value at the time of discharge;

a discharge current unit for displaying a current value at the time of discharge;

the direct current impedance unit displays the impedance value of a test product when the test product passes through direct current voltage;

the discharge overcurrent delay unit is used for displaying the delay time of the test product in discharge overcurrent;

the discharging overcurrent current unit is used for displaying the current value of the test product during discharging overcurrent;

the discharging overcurrent voltage unit is used for displaying the voltage value of the test product during discharging overcurrent;

the short-circuit protection delay unit is used for displaying the time when the test product recovers after short circuit;

the short-circuit voltage unit is used for displaying a voltage value generated in the short circuit process;

the voltage unit after short circuit recovery is used for displaying the voltage value after short circuit recovery;

the voltage difference unit before and after short circuit is used for displaying the voltage difference value before and after short circuit;

the charging voltage unit is used for displaying the voltage during charging;

the charging current unit is used for displaying the current magnitude during charging;

an open circuit voltage unit-2 for displaying an open circuit voltage;

and the number of the first and second groups,

a SEAL authentication information unit;

a CONTROL STATUS unit 2 for displaying whether the test is in a normal test state;

and a flag unit 2, configured to display a programming number used in the test.

Further, the lower data limit of the test is the lowest value used for setting the product data parameters in the test process, and the upper data limit of the test is the highest value used for setting the product data parameters in the test process.

Further, the method of the invention also comprises the following steps:

a simplified interface module for displaying the main test result of the test module comprises: project or channel name and final result of test;

the unit for visually displaying whether the product passes the test item or not can accurately judge whether the product meets the test standard or not; directly displaying whether the test is passed or not;

the error code unit is used for judging whether an error code phenomenon occurs in the test process; directly displaying whether the test is passed or not;

the probe residual unit is used for determining the residual quantity of the test probes;

the adapter plate residual unit is used for determining the residual quantity of the adapter plates;

and the number of the first and second groups,

DATAFLASH comparison unit, directly display whether pass test;

a status bit 1 unit for directly displaying whether the test is passed;

the temperature precision unit directly displays whether the test is passed or not;

an open circuit voltage precision unit for directly displaying whether the test is passed;

a charging precision unit for directly displaying whether the test is passed;

a discharge precision unit for directly displaying whether the test is passed;

an open circuit voltage unit-1 for directly displaying whether the test is passed;

the alternating current impedance unit directly displays whether the test is passed or not;

a discharge test unit directly displaying whether the test is passed;

the discharging overcurrent unit directly displays whether the test is passed or not;

a short circuit test unit for directly displaying whether the test is passed;

a charging test unit for directly displaying whether the test is passed;

a locking unit directly displaying whether the test is passed;

the state bit unit 2 directly displays whether the test is passed or not;

and the open circuit voltage unit 2 directly displays whether the test is passed or not.

Furthermore, each unit parameter can be independently set, and the sequence and the number of each item or channel name can be matched and combined at will.

Further, the method of the invention also comprises the following steps: and the project data authority module is used for setting the operation authorities of different personnel and setting the operation authorities by displaying the data quantity of the test module.

Compared with the prior art, the invention has the beneficial effects that: the current information is fed back in real time aiming at reasonable utilization and storage of result data, the operation is flexible and understandable, and the function utilization maximization is achieved aiming at different operation authorities of different personnel. The test software and the test hardware are more reasonably matched, and the operation requirements of users are better met. Aiming at single channel and multiple channels, all required information is displayed as much as possible.

Drawings

FIG. 1 is a schematic block diagram of a method for managing test objects to implement object allocation on an interactive interface according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, so that the advantages and features of the present invention can be more easily understood by those skilled in the art, and thus the protection scope of the present invention is more clearly and clearly defined. It should be apparent that the described embodiments of the present invention are only some embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, a method for managing test objects to implement object allocation on an interactive interface according to the present invention includes:

the system comprises a main frame structure module, a single-channel module and a multi-channel module, wherein the single-channel module and the multi-channel module are integrated with a test module and matched with hardware;

a shortcut channel module which can enter the shortcut page through the general frame structure module;

a communication channel module which can enter the communication page through the main frame structure module;

and the extension module can enter other pages through the general framework module, and the test module upgrading system is established through the extension module.

A preferred technical solution of this embodiment: the method of the invention also comprises the following steps:

a detail page display module, for displaying all test results of the test module, comprising:

at least one detailed list module, the detailed list module including item or channel names, lower data limits for testing, upper data limits for testing, and final results for testing;

the item or channel name at least comprises:

the unit for visually displaying whether the product passes the test item or not can accurately judge whether the product meets the test standard or not;

the error code unit is used for judging whether an error code phenomenon occurs in the test process;

the probe residual unit is used for determining the residual quantity of the test probes;

the adapter plate residual unit is used for determining the residual quantity of the adapter plates;

and the number of the first and second groups,

DATAFLASH comparison unit for displaying the memory size of the memory;

a CONTROL STATUS1 unit for displaying whether the test is in a normal test state;

a FLAGS1 unit for displaying the programming number used by the test;

a measuring temperature unit for displaying the average temperature in the testing process;

a temperature measurement precision unit for determining the deviation value of the test temperature;

the testing module is used for testing the used open-circuit actual voltage value;

the testing module tests the set open-circuit voltage value;

the open-circuit voltage measurement precision unit is used for setting an open-circuit voltage precision value and judging the floating proportion of the voltage according to the voltage precision value;

an open circuit current unit for setting an open circuit current parameter;

a charging actual current unit which is a current value actually generated in the charging process;

a charging measurement current unit for measuring a current value during a charging process;

the charging current precision unit is used for setting a current precision value and judging the floating proportion of the current according to the precision value;

a discharge actual current unit which is a discharge current value actually generated in a discharge process;

a discharge measurement current unit for measuring a current value during a discharge process;

the discharging current precision unit is used for setting a current precision value and judging the floating proportion of the current according to the precision value;

an open circuit voltage unit-1 for displaying the magnitude of the open circuit voltage;

an alternating current impedance unit which displays the impedance of the test battery;

a discharge voltage unit displaying a voltage value at the time of discharge;

a discharge current unit for displaying a current value at the time of discharge;

the direct current impedance unit displays the impedance value of a test product when the test product passes through direct current voltage;

the discharge overcurrent delay unit is used for displaying the delay time of the test product in discharge overcurrent;

the discharging overcurrent current unit is used for displaying the current value of the test product during discharging overcurrent;

the discharging overcurrent voltage unit is used for displaying the voltage value of the test product during discharging overcurrent;

the short-circuit protection delay unit is used for displaying the time when the test product recovers after short circuit;

the short-circuit voltage unit is used for displaying a voltage value generated in the short circuit process;

the voltage unit after short circuit recovery is used for displaying the voltage value after short circuit recovery;

the voltage difference unit before and after short circuit is used for displaying the voltage difference value before and after short circuit;

the charging voltage unit is used for displaying the voltage during charging;

the charging current unit is used for displaying the current magnitude during charging;

an open circuit voltage unit-2 for displaying an open circuit voltage;

and the number of the first and second groups,

a SEAL authentication information unit;

a CONTROL STATUS unit 2 for displaying whether the test is in a normal test state;

and a flag unit 2, configured to display a programming number used in the test.

A preferred technical solution of this embodiment: the lower data limit of the test is the lowest value used for setting the product data parameters in the test process, and the upper data limit of the test is the highest value used for setting the product data parameters in the test process.

A preferred technical solution of this embodiment: the method of the invention also comprises the following steps:

a simplified interface module for displaying the main test result of the test module comprises: project or channel name and final result of test;

the unit for visually displaying whether the product passes the test item or not can accurately judge whether the product meets the test standard or not; directly displaying whether the test is passed or not;

the error code unit is used for judging whether an error code phenomenon occurs in the test process; directly displaying whether the test is passed or not;

the probe residual unit is used for determining the residual quantity of the test probes;

the adapter plate residual unit is used for determining the residual quantity of the adapter plates;

and the number of the first and second groups,

DATAFLASH comparison unit, directly display whether pass test;

a status bit 1 unit for directly displaying whether the test is passed;

the temperature precision unit directly displays whether the test is passed or not;

an open circuit voltage precision unit for directly displaying whether the test is passed;

a charging precision unit for directly displaying whether the test is passed;

a discharge precision unit for directly displaying whether the test is passed;

an open circuit voltage unit-1 for directly displaying whether the test is passed;

the alternating current impedance unit directly displays whether the test is passed or not;

a discharge test unit directly displaying whether the test is passed;

the discharging overcurrent unit directly displays whether the test is passed or not;

a short circuit test unit for directly displaying whether the test is passed;

a charging test unit for directly displaying whether the test is passed;

a locking unit directly displaying whether the test is passed;

the state bit unit 2 directly displays whether the test is passed or not;

and the open circuit voltage unit 2 directly displays whether the test is passed or not.

A preferred technical solution of this embodiment: the parameters of each unit can be independently set, and the sequence and the number of the items or the channel names can be matched and combined at will.

A preferred technical solution of this embodiment: the system also comprises an item data authority module, wherein the item data authority module is used for setting the operation authorities of different personnel and setting the operation authorities by displaying the data size of the test module.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (6)

1. A method for managing test objects to realize object distribution on an interactive interface is characterized in that: the method comprises the following steps:

the system comprises a main frame structure module, a single-channel module and a multi-channel module, wherein the single-channel module and the multi-channel module are integrated with a test module and matched with hardware;

a shortcut channel module which can enter the shortcut page through the general frame structure module;

a communication channel module which can enter the communication page through the main frame structure module;

and the extension module can enter other pages through the general framework module, and the test module upgrading system is established through the extension module.

2. The method of claim 1, further comprising:

a detail page display module, for displaying all test results of the test module, comprising:

at least one detailed list module, the detailed list module including item or channel names, lower data limits for testing, upper data limits for testing, and final results for testing;

the item or channel name at least comprises:

the unit for visually displaying whether the product passes the test item or not can accurately judge whether the product meets the test standard or not;

the error code unit is used for judging whether an error code phenomenon occurs in the test process;

the probe residual unit is used for determining the residual quantity of the test probes;

the adapter plate residual unit is used for determining the residual quantity of the adapter plates;

and the number of the first and second groups,

DATAFLASH comparison unit for displaying the memory size of the memory;

a CONTROL STATUS1 unit for displaying whether the test is in a normal test state;

a FLAGS1 unit for displaying the programming number used by the test;

a measuring temperature unit for displaying the average temperature in the testing process;

a temperature measurement precision unit for determining the deviation value of the test temperature;

the testing module is used for testing the used open-circuit actual voltage value;

the testing module tests the set open-circuit voltage value;

the open-circuit voltage measurement precision unit is used for setting an open-circuit voltage precision value and judging the floating proportion of the voltage according to the voltage precision value;

an open circuit current unit for setting an open circuit current parameter;

a charging actual current unit which is a current value actually generated in the charging process;

a charging measurement current unit for measuring a current value during a charging process;

the charging current precision unit is used for setting a current precision value and judging the floating proportion of the current according to the precision value;

a discharge actual current unit which is a discharge current value actually generated in a discharge process;

a discharge measurement current unit for measuring a current value during a discharge process;

the discharging current precision unit is used for setting a current precision value and judging the floating proportion of the current according to the precision value;

an open circuit voltage unit-1 for displaying the magnitude of the open circuit voltage;

an alternating current impedance unit which displays the impedance of the test battery;

a discharge voltage unit displaying a voltage value at the time of discharge;

a discharge current unit for displaying a current value at the time of discharge;

the direct current impedance unit displays the impedance value of a test product when the test product passes through direct current voltage;

the discharge overcurrent delay unit is used for displaying the delay time of the test product in discharge overcurrent;

the discharging overcurrent current unit is used for displaying the current value of the test product during discharging overcurrent;

the discharging overcurrent voltage unit is used for displaying the voltage value of the test product during discharging overcurrent;

the short-circuit protection delay unit is used for displaying the time when the test product recovers after short circuit;

the short-circuit voltage unit is used for displaying a voltage value generated in the short circuit process;

the voltage unit after short circuit recovery is used for displaying the voltage value after short circuit recovery;

the voltage difference unit before and after short circuit is used for displaying the voltage difference value before and after short circuit;

the charging voltage unit is used for displaying the voltage during charging;

the charging current unit is used for displaying the current magnitude during charging;

an open circuit voltage unit-2 for displaying an open circuit voltage;

and the number of the first and second groups,

a SEAL authentication information unit;

a CONTROL STATUS unit 2 for displaying whether the test is in a normal test state;

and a flag unit 2, configured to display a programming number used in the test.

3. The method as claimed in claim 2, wherein the lower data limit of the test is the lowest value used for setting the product data parameter during the test, and the upper data limit of the test is the highest value used for setting the product data parameter during the test.

4. The method of claim 2, further comprising:

a simplified interface module for displaying the main test result of the test module comprises: project or channel name and final result of test;

the unit for visually displaying whether the product passes the test item or not can accurately judge whether the product meets the test standard or not; directly displaying whether the test is passed or not;

the error code unit is used for judging whether an error code phenomenon occurs in the test process; directly displaying whether the test is passed or not; the probe residual unit is used for determining the residual quantity of the test probes;

the adapter plate residual unit is used for determining the residual quantity of the adapter plates;

and the number of the first and second groups,

DATAFLASH comparison unit, directly display whether pass test;

a status bit 1 unit for directly displaying whether the test is passed;

the temperature precision unit directly displays whether the test is passed or not;

an open circuit voltage precision unit for directly displaying whether the test is passed;

a charging precision unit for directly displaying whether the test is passed;

a discharge precision unit for directly displaying whether the test is passed;

an open circuit voltage unit-1 for directly displaying whether the test is passed;

the alternating current impedance unit directly displays whether the test is passed or not;

a discharge test unit directly displaying whether the test is passed;

the discharging overcurrent unit directly displays whether the test is passed or not;

a short circuit test unit for directly displaying whether the test is passed;

a charging test unit for directly displaying whether the test is passed;

a locking unit directly displaying whether the test is passed;

the state bit unit 2 directly displays whether the test is passed or not;

and the open circuit voltage unit 2 directly displays whether the test is passed or not.

5. The method as claimed in claim 4, wherein the unit parameters can be set independently, and the sequence and number of the item or channel names can be matched and combined arbitrarily.

6. The method for managing the distribution of the test objects on the interactive interface according to any one of claims 1 to 5, further comprising a project data authority module, wherein the project data authority module is used for setting the operation authority of different personnel, and the operation authority is set by displaying the data size of the test module.

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