KR100242053B1 - Test controller & test control method for automobile battery - Google Patents

Abstract

Characteristic tests of the battery divided into several items are executed sequentially by the control operation by one control device, and the test conditions varying for each test item can be controlled simultaneously, thereby reducing the time and space required for the test. In order to provide a vehicle battery characteristic test control device and a method for improving reliability of test results, the test operation of each corresponding item is sequentially controlled, and the test environment is set according to the conditions set for each corresponding item. Operation control means for outputting a corresponding control signal so that this can be determined; A test environment control means for changing an operation state according to a control signal output from the operation control means so that an environment of a test room 30 can be set for a test operation to be executed; A battery for performing a corresponding control operation according to a control signal applied from the outside in the test room 30 in which an environment is set to a corresponding state according to a control signal output from the test environment control means; And a battery tester configured to change an operation state according to a control signal output from the operation control means and to control the operation of the battery in each set state to execute a test operation of the corresponding item.

Description

Control device for testing characteristics of automotive battery and its method

1 is a block diagram of a characteristic test control apparatus for a vehicle battery according to an embodiment of the present invention,

2 is an operational flowchart of a method for testing characteristics of a vehicle battery according to an embodiment of the present invention.

The present invention relates to a characteristic test control apparatus and a method of a vehicle battery, and more specifically, a plurality of characteristic test operations performed when testing the characteristics of a battery used in a vehicle and an environment setting suitable for the characteristic test A characteristic test control apparatus for an automobile battery which can be controlled by a control apparatus.

After carrying out a number of characteristic tests on the vehicle, only products that meet the conditions of all the tests carried out are to be treated as good.

In addition, when developing new products or enhancing performance, tests for each set of conditions are performed.

The conventional battery characteristic test executed as described above is executed by dividing each item to be executed.

Therefore, after one test item has been executed, another test item is moved to a place where the test of another item is performed, and another test is performed after satisfying the required test condition again.

Therefore, since several items are not sequentially made in the same place, a lot of time or space is wasted, resulting in economic losses.

In addition, since the control device for forming the test conditions set for each test item and the control device for controlling the operation of the test are not compatible with each other and individually controlled, a test environment that does not match the condition of the battery or the test conditions is set so that each If the battery's characteristic test is not progressed, there is a problem of outputting a wrong result.

Therefore, an object of the present invention is to solve the above-mentioned conventional problems, and is a test condition in which a characteristic test of a battery divided into several items by a control operation by one control device is executed sequentially and changed for each test item. The present invention is to provide an apparatus and method for controlling characteristic tests of a vehicle battery that can be controlled at the same time to reduce the time and space required for the test and to improve the reliability of the test results.

As a means for achieving the above object, the configuration of the present invention sequentially controls the test operation of each corresponding item, and outputs the corresponding control signal so that the test environment can be set according to the conditions set for each corresponding item. Control means; It includes a battery tester for performing a test operation to change the operation state in accordance with the control signal output from the operation control means to be set in accordance with the test operation is executed in the environment of the laboratory.

Another configuration of the present invention for achieving the above object, the test environment control means and the battery tester to sequentially control the test operation of each corresponding item, the test environment can be set according to the conditions set for each corresponding item Outputting a control signal of a state corresponding to each; If the test result satisfies all set conditions for each item, determining the state of the battery as a normal state and ending the test operation; When the set conditions are not satisfied, the method includes determining that the state of the battery is in a bad state without executing the test of the next corresponding item, and then ending the test operation.

Hereinafter, with reference to the accompanying drawings will be described in detail the most preferred embodiment of the present invention.

1 is a block diagram of a characteristic test control apparatus for a vehicle battery according to an embodiment of the present invention, and FIG. 2 is an operation flowchart of a characteristic test control method for a vehicle battery according to an embodiment of the present invention.

Referring to FIG. 1, a configuration of an embodiment of the present invention will be described. An operation control unit 10 for controlling a test operation of each corresponding item and allowing a test environment to be set up according to conditions set for each corresponding item, and A test environment controller 20 for changing a state of operation according to a control signal output from the operation controller 10 to form a test environment of a corresponding state, and a control signal output from the test environment controller 20 The operating state is changed according to the control signal output from the battery 40 and the operation control unit 10 and the battery 40 in which the corresponding control operation is performed in the laboratory 30 in which the environment is set to the corresponding state according to each set state. It consists of a tester 50 for controlling the operation of the battery 40 to perform a test operation of the item.

The operation of the present invention made as described above is as follows.

First, when power required for the operation of each device is supplied, each component performs the corresponding operation.

Therefore, when the operation of the operation control unit 10 is started (S10), the variable CNT counting the number of tests of the test item to be executed first is initialized to 0 (S11).

The operation control unit 10 determines the conditions of the test item to be executed first, and outputs corresponding control signals to the test environment control unit 20 so that the environment of the test room 30 can be set according to the test item conditions. The control signal is output to the battery tester 50 such that the first test item suitable for the test environment is performed.

Then, the test environment controller 20 sets the environment of the first test item according to the control signal of the operation controller 10, and the battery tester 50 performs the operation of the first test item. That is, the laboratory temperature is set to 25 ° (S12), the laboratory temperature is maintained for 12 hours (S13), the battery is discharged at 80% (S14), and again, the test environment controller 20 sets the laboratory temperature to 0. If it is set to ° (S15), and held for 12 hours (S16), the battery 40 tester 50 is charged for 10 minutes while the battery voltage is 14.4V (S17).

Therefore, after completion of the test of the first item to be executed, it is determined whether the test result satisfies the set condition (S18), and when the set condition is satisfied, the state of the battery 40 is determined to have passed the first test item. The control operation for executing the test operation of the next item is executed.

However, when the result of the test item that is executed first does not satisfy the setting condition, the operation control unit 10 repeatedly increases the test operation of the item by the set number of times while increasing the variable CNT indicating the number of tests by one. To execute (S12 to S19, S110, S111).

Therefore, when the test result satisfies the set condition, the operation control unit 10 determines that the first test item has passed and executes the test operation of the next corresponding item.

However, when the test of the item is repeatedly executed as many times as the set number of times, when the setting condition is not satisfied at all, the test operation is terminated after determining the state of the battery 40 as a bad state (S1000).

Therefore, if the test passed through one test item is passed as described above, the test operation of the next item is executed.

Also, the operation controller 10 initializes the value of the variable CNT counting the test count to “0” (S21), and then controls the battery tester 50 to charge the battery 130% of the discharge amount (S21). S22), the test environment control unit 20 controls to maintain the laboratory temperature at 25 ° 12 hours (S23), and then controls the battery tester 50 to discharge the battery (S24). Then, the operation control unit 10 determines whether the test setting conditions of the process (S21 ~ S24) is satisfied (S25), and if the satisfactory, the next test, and if not satisfied 130% of the discharge amount Charge (S26) and increase the number of tests (CNT) by 1 to determine whether the number of tests is 3 (S27, S28).

If the test result satisfies the setting condition, the variable (CNT) is also initialized to “0” to execute the characteristic test of the next item, and then the characteristic test of each corresponding item is executed.

However, if the set condition is not satisfied even after the test operation is executed for the set number of times, the battery state test operation is terminated after the bad state of the battery is processed (S1000).

The operation control unit 10 performs the test environment control unit 20 and the battery tester 50 executing the test operation of the corresponding item so as to sequentially execute the battery characteristic test of each corresponding item that is already set in the same manner as the above operation. (S31 to S38, S41 to S48).

Therefore, when a test operation of all items for testing low temperature startability, charge importability, or a storage capacity state of a battery is performed to satisfy setting conditions of all items, the operation control unit 10 returns the state of the battery 40 to a normal state. After determining that the test operation is terminated (S2000).

According to the control operation of the operation control unit 10 as described above, the test operation that is executed in each step is continuously executed, and the test environment that changes in each step is also controlled, so move to the corresponding place for the next test operation to be performed. Therefore, there is an effect that can significantly reduce the space consumption due to unnecessary waste of time and laboratory conditions to be installed for each item.

In addition, since the test environment and the corresponding test operation are controlled together according to the control operation of one control device, the test operation can perform a corrective operation such as a test environment according to the change of the battery state, thereby improving the accuracy of the characteristic test. The effect may occur.

Claims (2)

Operation control means for sequentially controlling a test operation of each corresponding item, and outputting a corresponding control signal so that a test environment can be set according to a condition set for each corresponding item; Test environment control means for changing an operation state according to a control signal output from the operation control means so that an environment of a laboratory can be set for a test operation executed; A battery in which a corresponding control operation is performed according to a control signal applied from the outside in a laboratory in which an environment is set to a corresponding state according to a control signal output from the test environment control means; And a battery tester configured to change the operation state according to the control signal output from the operation control means to control the operation of the battery in each set state and to perform a test operation of the corresponding item. Test control device. Sequentially controlling a test operation of each corresponding item, and outputting a control signal of a state corresponding to each of the test environment control means and the battery tester so that the test environment can be set according to the conditions set for each corresponding item; If the test result satisfies all set conditions for each item, determining the battery state as a normal state and ending the test operation; And if the set conditions are not satisfied, determining the state of the battery as bad without executing the test of the next corresponding item, and then terminating the test operation. Device.