KR20140004956A - Method for diagnosing vehicle of eol production line - Google Patents

Abstract

A method for diagnosing vehicles in an EOL production line is disclosed. According to the present invention, the method for diagnosing vehicles in an EOL production line allows an electronic control unit provided in a vehicle in the production line to receive, from an external scanning device, diagnosis condition information (e.g. input data for checking the driving performance of a vehicle) for executing a production line diagnosis mode of an end of line (EOL) process, enter a preliminary diagnosis mode before switching the production line diagnosis mode to an active state, determine whether to start the production line diagnosis mode and, if there is the possibility of damage to an engine due to the execution of the production line diagnosis mode during the execution of the production line diagnosis mode, based on the determination result, block the production line diagnosis mode, thereby even if coolant is not put into the vehicle or the right amount of coolant enough to cool heat generated by driving the engine is not put thereinto, due to the inexperience of the vehicle assembly work in the vehicle production line, efficiently blocking the production line diagnosis mode of the EOL process and, if the possibility of damage to an engine occurs due to a shortage of coolant even during the execution of the production line diagnosis mode in the EOL process, and blocking the execution of the production line diagnosis mode in the EOL process at the time when the possibility of damage to the engine occurs. [Reference numerals] (AA) Start; (BB) End; (S1) Receive diagnosis condition information; (S11) Switch to a production line diagnosis mode; (S13) Reflect diagnosis condition information in the production line diagnosis mode to execute the production line diagnosis mode; (S15) Are conditions to continue diagnosis of the production line satisfied?; (S17) Release the production line diagnosis mode; (S21) Continue to execute the production line diagnosis mode; (S23) Output the diagnosis result; (S25) Is the production line diagnosis mode terminated?; (S3) Enter a preliminary diagnosis mode; (S5) Are conditions to start diagnosis of a production line satisfied?; (S7) Release the preliminary diagnosis mode; (S9,S19) Output a relevant history

Description

Vehicle diagnosis method in the ELO line {METHOD FOR DIAGNOSING VEHICLE OF EOL PRODUCTION LINE}

The present invention relates to a vehicle diagnostic method in the EOL line, and more particularly, engine damage due to the execution of the production line diagnostic mode for the final check of each function of the vehicle at the end of the line of the production line vehicle The present invention relates to a method for controlling whether or not a production line diagnostic mode is executed in consideration of the possibility.

Typically, the last step of the vehicle production process is an end of line (EOL) process for diagnosing the abnormality of each function for the produced vehicle.

Such end of line (EOL) process is performed on the premise that the vehicle to be inspected is a vehicle ready for inspection when inspecting whether there is an abnormality in each function (eg failure of various sensors) for the vehicle to be inspected. do.

For example, the vehicle ready for inspection may correspond to a vehicle in which coolant for injecting heat generated by driving the engine is injected into the coolant tank in an appropriate amount.

That is, if the coolant is not injected due to inexperience of vehicle assembly work or not injected in an appropriate amount to cool the heat generated by driving the engine, the production line diagnostic mode of the end-of-line process is executed. Lack of means to cool the heat generated by the engine's operation has the potential for engine breakdown.

Accordingly, the present invention was created to solve the above problems, and an object of the present invention is to provide diagnostic condition information (eg, a vehicle) supplied from an external scan device to execute a production line diagnostic mode in an end of line (EOL) process. When input data for driving performance check) is input, the preliminary diagnosis mode is entered before the production line diagnosis mode is activated, and it is determined whether the production line diagnosis mode has been started, and the production line diagnosis mode is selected based on the determination result. The present invention provides a method of diagnosing a vehicle in an EOL line to continuously diagnose an engine damage caused by the execution of a production line diagnostic mode and then allow or block the production line diagnostic mode according to the diagnosis result.

Diagnostic method for a production line vehicle according to an aspect of the present invention for achieving the above object is the production line after receiving the diagnostic condition information for use in the production line diagnostic mode in the electronic control device of the production line vehicle from the external scanning device A first determination step of entering a preliminary diagnosis mode before activation of a diagnosis mode to determine whether a predetermined production line diagnosis start condition is satisfied, and when the production line diagnosis start condition is satisfied, the production line diagnosis mode based on the diagnosis condition information. And a second determination step of determining whether or not a predetermined production line diagnostic continuous condition is satisfied during execution of the production line diagnostic mode and canceling the production line diagnostic mode when the production line diagnostic continuous condition is not satisfied. And an output step of outputting details relating to the release of the diagnostic mode.

Preferably, the production line diagnosis start condition is whether the engine driving the production line vehicle, whether the coolant temperature at the time of the engine drive is higher than a predetermined reference coolant temperature and the remaining coolant level of the coolant tank provided in the production line vehicle It is characterized by including any one or more of whether it is more than this predetermined reference cooling water level.

Preferably, the diagnostic method for the production line vehicle is a step of outputting the details of the unsatisfied items for the production line diagnosis start condition when the switching from the preliminary diagnosis mode to the production line diagnosis mode is blocked. It further comprises.

Preferably, the production line diagnostic continuous condition is a criterion for determining whether the coolant temperature at the time of driving the engine for the production line vehicle is greater than or equal to a predetermined reference coolant temperature and the remaining coolant level of the coolant tank provided in the production line vehicle is predetermined. It characterized by including at least one of whether or not the cooling water level.

Preferably, the second determination step determines whether the production line diagnosis sustaining condition is satisfied at a predetermined predetermined period after the execution of the production line diagnosing mode or when the specific event occurs, satisfying the production line diagnosing continuous condition. It is characterized by determining whether or not.

Preferably, the specific event is generated when the coolant temperature determined from the sensor signal provided from the coolant temperature sensor provided in the production line vehicle is greater than or equal to a predetermined threshold coolant temperature, or the coolant level sensor provided in the production line vehicle. And when the remaining coolant level determined from the sensor signal provided from the sensor is equal to or less than a predetermined threshold coolant level.

Preferably, the diagnostic method for the production line vehicle further comprises the step of outputting a diagnostic result corresponding to the diagnostic condition information when the production line diagnostic mode is completed.

Accordingly, in the present invention, the external scan device includes diagnostic condition information (for example, input data for vehicle driving performance check) for executing a production line diagnostic mode of an end-of-line process in an electronic control device provided in a production line vehicle. After receiving from the system, the preliminary diagnosis mode is entered before the production line diagnosis mode is switched to the active state. If there is a possibility of engine damage due to execution, shut off the production line diagnostic mode so that the coolant is injected in an amount sufficient to cool the heat generated by the engine running due to inadequate vehicle assembly work in the vehicle production line. Even if it is not, the diagnostic mode of the production line of the EOL (End Of Line) process can be effectively blocked. In addition, when the possibility of engine damage occurs due to lack of coolant while the production line diagnostic mode of the EOL (End Of Line) process is running, the production line diagnosis of the EOL (End Of Line) process occurs when the engine damage occurs. There is an advantage that can block execution for the mode.

1 is a view showing a diagnostic system for a production line vehicle according to an embodiment of the present invention as an embodiment, and
FIG. 2 is a diagram illustrating an operation process of a diagnostic system for a production line vehicle illustrated in FIG. 1.

Hereinafter, a preferred embodiment of a diagnostic system for a production line vehicle according to the present invention with reference to the accompanying drawings in more detail.

1 is a diagram illustrating a diagnosis system for a production line vehicle according to an embodiment of the present invention. As shown by way of example only in FIG. 1, a diagnostic system for a production line vehicle includes an external scan device 100 and an external scan device that input a command to initiate a production line diagnostic mode of an End Of Line (EOL) process. In accordance with the command input from 100) has a configuration including an electronic control device 200 to enter the preliminary diagnostic mode for the state before switching the production line diagnostic mode to the active state to determine whether to start the production line diagnostic mode. .

Here, the external scanning device 100 is diagnostic condition information (for example, for checking the vehicle running performance) for executing the production line diagnostic mode of the end of line (EOL) process in the electronic control device 200 provided in the production line vehicle Input data) may be input to the electronic control apparatus 200.

In this case, the electronic control apparatus 200 may enter the preliminary diagnosis mode for the state before switching the production line diagnosis mode to the active state through the reception of the diagnosis condition information and determine whether the predetermined production line diagnosis start condition is satisfied. have.

The production line diagnosis start condition refers to whether the engine is driven to the production line vehicle, whether or not the coolant temperature when the engine is driven is higher than or equal to a predetermined reference coolant temperature, and the remaining coolant level of the coolant tank provided in the production line vehicle is predetermined. It is possible to include any one or more of whether or not it is equal to or higher than the cooling water level.

For example, when the production line diagnosis start condition includes whether the engine is driven to the production line vehicle and whether the coolant temperature at the time of driving the engine is equal to or greater than a predetermined reference coolant temperature, the electronic control apparatus 200 may determine the coolant flowing in and out of the radiator. By receiving a sensor signal from the coolant temperature sensor 300 for measuring the temperature, it is necessary to determine the coolant temperature when the current engine is driven.

That is, the diagnosis system for the production line vehicle for the above case is preferably provided with a configuration including a cooling water temperature sensor (300).

As another example, when the production line diagnosis start condition includes whether the engine is driven for the production line vehicle and whether the remaining coolant level of the coolant tank provided in the production line vehicle is greater than or equal to a predetermined reference coolant level, the electronic controller 200 ) Shall determine the current residual coolant level by receiving a sensor signal from the coolant level sensor for measuring the remaining coolant level in the coolant tank.

That is, it is preferable that the diagnosis system for the production line vehicle in this case is provided with a configuration including a coolant level sensor.

In addition, when the electronic control apparatus 200 satisfies the production line diagnosis start condition by executing the production line diagnosis start condition as a prerequisite for executing the production line diagnosis mode of the end of line (EOL) process, the production line diagnosis mode is entered. In addition to executing, it is possible to continuously determine whether there is a possibility of engine damage due to the execution of the production line diagnostic mode even when the production line diagnostic mode is being executed, and then allow or block the production line diagnostic mode according to the determination result. Do.

That is, the electronic control apparatus 200 determines whether the predetermined production line diagnostic continuous condition is met when the production line diagnostic mode is executed, and if the production line diagnostic continuous condition is not satisfied in the determination result, releases the production line diagnostic mode. If the diagnosis result satisfies the production line diagnosis continuous condition, the production line diagnosis mode can be continued.

For example, the electronic controller 200 receives a sensor signal for measuring the temperature of the coolant flowing in and out of the radiator from the coolant temperature sensor 300 during the production line diagnostic mode, and then uses the present sensor signal based on the provided sensor signal. The production line diagnosis mode may be canceled by measuring the coolant temperature and determining that there is a possibility of engine damage if the measured current coolant temperature is equal to or greater than a predetermined reference coolant temperature.

In this case, when the coolant temperature is higher than a predetermined criterion, it means that the coolant tank lacks the coolant or fails to cool the heat generated by the engine driving due to a specific cause, and thus may be determined as a factor affecting the engine breakdown. .

In addition, the production line diagnostic continuous condition means whether the coolant temperature when the engine is driven to the production line vehicle is higher than or equal to the predetermined reference coolant temperature, and whether the residual coolant level of the coolant tank provided in the production line vehicle is lower than or equal to the predetermined reference coolant level. It may include one or more of whether.

The period for determining the production line diagnostic continuous condition is determined whether the electronic control apparatus 200 meets the production line diagnostic continuous condition at predetermined intervals after the production line diagnostic mode is executed, or after the production line diagnostic mode is executed. In the event of a specific event, it is possible to determine, for a limited time, whether the conditions of the production line diagnostics persist.

The electronic controller 200 generates the specific event when the coolant temperature determined from the sensor signal provided from the coolant temperature sensor 300 is greater than or equal to a predetermined threshold coolant temperature, or is determined from the sensor signal provided from the coolant level sensor. The specific event may be generated when the remaining coolant level is below a predetermined threshold coolant level.

The critical coolant temperature associated with the particular event is preferably set equal to or below the reference coolant temperature in the production line diagnostic start condition or production line diagnostic sustain condition.

If the critical coolant temperature associated with the particular event is set below the reference coolant temperature, it is possible to check whether the current coolant temperature satisfies the production line diagnosis start condition when the reference coolant temperature reaches a predetermined temperature difference range. This setting takes into account the process loading time.

That is, when the critical coolant temperature associated with the specific event is set below the reference coolant temperature, it is possible to block the production line diagnostic mode immediately when it is determined that continuing the production line diagnostic mode in the running state will cause engine damage. It can be called a setting to do this.

In addition, the critical coolant level associated with a particular event is preferably set equal to or greater than the reference coolant level mentioned in the production line diagnostic start condition or production line diagnostic sustained condition.

The reason for this setting is the same as the setting basis for the critical coolant temperature, and thus the description of the related content is omitted.

FIG. 2 is a diagram illustrating an operation process of a diagnostic system for a production line vehicle illustrated in FIG. 1. As shown only as an example in FIG. 2, the diagnostic method for a production line vehicle includes diagnostic condition information (eg, vehicle driving) for executing a production line diagnostic mode of an end of line (EOL) process in the electronic control apparatus 200. The process of receiving input data for performance check) from the external scanning device 100 proceeds (S1).

Thereafter, the electronic control apparatus 200 enters a preliminary diagnosis mode for a state before switching the production line diagnosis mode to an active state through reception of the diagnosis condition information, and determines whether the predetermined production line diagnosis start condition is satisfied. (S3 to S5).

As a result of the determination in step S5, if the production line diagnosis start condition is not satisfied, the preliminary diagnosis mode is released without switching to the production line diagnosis mode and the details of the items that do not meet the production line diagnosis start condition are output. (S7 to S9).

As a result of the determination in step S5, when the production line diagnosis start condition is satisfied, after switching from the preliminary diagnosis mode to the production line diagnosis mode, the production line diagnosis mode is executed by reflecting the diagnosis condition information in the switched production line diagnosis mode (S11). To S13).

Thereafter, the electronic control apparatus 200 determines whether the production line diagnosis sustaining condition is satisfied while executing the production line diagnosis mode (S15).

As a result of the determination in step S15, if the production line diagnosis continuous condition is not satisfied, the running production line diagnosis mode is released, and details about the items that do not meet the production line diagnosis continuous condition are output (S17 and S19).

As a result of the determination in step S15, if the production line diagnostic continuous condition is satisfied, execution of the production line diagnostic mode being executed is continued (S21).

The electronic control apparatus 200 outputs the diagnosis result generated by executing the production line diagnostic mode (S23).

Subsequently, in the case where the electronic control apparatus 200 continuously executes the production line diagnosis mode, the above steps are repeated (S25).

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the present invention as defined by the following claims It can be understood that

Production after receiving diagnostic condition information (for example, input data for vehicle driving performance check) for executing production line diagnostic mode of EOL (End Of Line) process in the electronic control device provided in the production line vehicle Entering the preliminary diagnostic mode before switching the line diagnostic mode to the active state, it is determined whether the production line diagnostic mode is started, and the engine damage due to the execution of the production line diagnostic mode is executed when the production line diagnostic mode is executed based on the determination result. If there is a possibility, by blocking the production line diagnostic mode, the EOL (even if the coolant is not injected in the vehicle production line due to immaturity of the vehicle assembly work or not injected in an adequate amount to cool the heat generated by the engine running) In addition to effectively blocking the production line diagnostic mode of the End Of Line process, EOL (End) If the possibility of engine damage occurs due to lack of coolant while the production line diagnostic mode of the process is running, the execution of the production line diagnosis mode of the end of line (EOL) process can be blocked at the time when such engine damage occurs. In the case of applying a vehicle diagnostic method in the EOL line, the invention is an industrially applicable invention because the possibility of commercialization or sales of the vehicle is not only sufficient, but also practically obvious.

100: external scan device 200: electronic control device
300: cooling water temperature sensor

Claims (7)

After receiving the diagnostic condition information for use in the production line diagnosis mode from the electronic control device of the production line vehicle from the external scanning device, the system enters the preliminary diagnosis mode before activation of the production line diagnosis mode and satisfies the predetermined production line diagnosis start condition. A first determination step of determining whether or not,
A second determination step of executing the production line diagnosis mode based on the diagnosis condition information when the production line diagnosis start condition is satisfied and determining whether a predetermined production line diagnosis sustaining condition is satisfied during execution of the production line diagnosis mode; And
And an output step of releasing the production line diagnosis mode and outputting details relating to the release of the production line diagnosis mode when the production line diagnosis duration condition is not satisfied. The method according to claim 1,
The production line diagnosis start condition is based on whether the engine is driven to the production line vehicle, whether the coolant temperature at the time of driving the engine is higher than or equal to a predetermined reference coolant temperature, and the remaining coolant level of the coolant tank provided in the production line vehicle is predetermined. Vehicle diagnostic method in the EOL line, characterized in that it comprises at least one of whether or not higher than the coolant level. 3. The method according to claim 1 or 2,
The diagnostic method for the production line vehicle further includes the step of outputting the details of the unsatisfied items for the production line diagnosis start condition when the switching from the preliminary diagnosis mode to the production line diagnosis mode is blocked. A vehicle diagnostic method in an EOL line. The method according to claim 1,
The production line diagnosis continuous condition is whether or not the coolant temperature when the engine driving the production line vehicle is more than a predetermined reference coolant temperature and whether the remaining coolant level of the coolant tank provided in the production line vehicle is below a predetermined reference coolant level. Vehicle diagnostic method in the EOL line, characterized in that it comprises at least one of. The method according to claim 1 or 4,
The second judging step may determine whether the production line diagnosis sustaining condition is satisfied at a predetermined predetermined period after the execution of the production line diagnosing mode or when the specific event occurs, determining whether the production line diagnosing continuous condition is satisfied. Vehicle diagnostic method in the EOL line, characterized in that. 6. The method of claim 5,
The specific event is generated when a coolant temperature determined from a sensor signal provided from a coolant temperature sensor provided in the production line vehicle is greater than or equal to a predetermined threshold coolant temperature, or a sensor provided from a coolant level sensor provided in the production line vehicle. And when the residual coolant level determined from the signal is below a predetermined threshold coolant level. The method according to claim 1,
The diagnostic method for the production line vehicle further comprises the step of outputting a diagnostic result corresponding to the diagnostic condition information when the production line diagnostic mode is completed.

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