KR101551108B1 - Apparatus and Method for Controlling of Vehicle - Google Patents

Abstract

The present invention relates to an apparatus for controlling a vehicle and a method therefor. The apparatus comprises: a transmission realizing a speed change gear; and a control unit confirming at least one among a steering angle value and a transverse acceleration value when a request for changing speeds occurs in the transmission and controlling conversion of a driving mode in accordance with a confirmation result to change speeds. Other embodiments can be applied to the present invention.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

Various embodiments of the present invention relate to a vehicle control apparatus and method for preventing wheel spin due to a shift shock generated during an upshift.

 Generally, the faster the response speed of the vehicle when the upshift occurs in the running of the vehicle, the better, but the shifting shock occurs at the time of shifting. The shifting shock may be transmitted to the tire through the drive system of the vehicle, causing temporary wheel spin. Accordingly, when the vehicle is turning, the spin of the vehicle may be caused by the generation of the wheel spin, which may lead to a serious accident.

In order to solve such conventional problems, various embodiments of the present invention provide a vehicle control apparatus and method capable of confirming a running state of a vehicle and performing a shift control of the vehicle so as to correspond to a driver's will at the time of occurrence of a shift will be.

A vehicle control apparatus according to an embodiment of the present invention includes a transmission that implements a shift gear stage, at least one of a steering angle value and a lateral acceleration value when a shift request is generated in the transmission, So as to perform the shifting.

Further, the control unit can confirm that an upshift transmission request is generated in the state that the driving mode is the manual mode.

The control unit may change the running mode to the automatic mode regardless of the value of the lateral acceleration and perform the upshift in the automatic mode when it is confirmed that the vehicle is turning in accordance with the determined steering angle value .

In addition, if it is confirmed that the vehicle is not turning according to the confirmed steering angle value, the control unit can confirm the verified lateral acceleration value.

Further, the control unit may change the driving mode to the automatic mode and perform the upshift in the automatic mode when the verified lateral acceleration value exceeds a predetermined maximum value.

The control unit may perform the upshift in a state in which the running mode is maintained in the manual mode when the verified lateral acceleration value is less than a preset maximum value.

According to another aspect of the present invention, there is provided a method of controlling a vehicle, comprising: confirming that a shift request is generated; checking at least one of a steering angle value and a lateral acceleration value when the shift request is generated; And controlling shifting of the traveling mode and performing shifting in response to the shifting request.

Also, the step of confirming that the shift request is generated may be a step of confirming that an upshift request is generated in a state that the driving mode is the manual mode.

The shifting according to the shift request may further include changing the driving mode to the automatic mode regardless of the lateral acceleration value when it is determined that the vehicle is turning according to the determined steering angle value And performing the upshift in the automatic mode.

The step of performing the shifting according to the shift request may further include confirming the verified lateral acceleration value when it is confirmed that the vehicle is not turning according to the confirmed steering angle value, Shifting the traveling mode to the automatic mode when the predetermined maximum value is exceeded, and performing the upshift in the automatic mode.

The shifting according to the shift request may include performing the upshift in a state in which the driving mode is maintained in the manual mode when the verified lateral acceleration value is less than a predetermined maximum value .

As described above, according to the present invention, the shift state of the vehicle is checked and the shifting control of the vehicle is performed so as to correspond to the driver's will when the shift occurs, thereby improving the shift response of the vehicle, .

1 is a block diagram showing a main configuration of a vehicle control apparatus according to an embodiment of the present invention.
2 is a flowchart for explaining a vehicle control method according to an embodiment of the present invention.

Best Mode for Carrying Out the Invention Various embodiments of the present invention will be described below with reference to the accompanying drawings. The various embodiments of the present invention are capable of various changes and may have various embodiments, and specific embodiments are illustrated in the drawings and the detailed description is described with reference to the drawings. It should be understood, however, that it is not intended to limit the various embodiments of the invention to the specific embodiments, but includes all changes and / or equivalents and alternatives falling within the spirit and scope of the various embodiments of the invention. In connection with the description of the drawings, like reference numerals have been used for like elements.

1 is a block diagram showing a main configuration of a vehicle control apparatus according to an embodiment of the present invention.

Referring to FIG. 1, a vehicle control apparatus 100 according to the present invention can confirm at least one of a steering angle value and a lateral acceleration value when a shift request is generated from a driver. The vehicle control apparatus 100 can control the traveling mode conversion based on at least one of the identified steering angle value and the lateral acceleration value and perform the shifting according to the traveling mode. The vehicle control apparatus 100 shifts the driving force of the engine 110 of the automatic transmission vehicle and the motor 120 and the engine 110 and the motor 120 to drive the wheels WH through a driving system A clutch 140 which is located between the engine 110 and the motor 120 and joins or disconnects the engine 110 and the motor 120; (ISG 150) and the engine 110, the motor 120, the transmission 130, the clutch 140, and the ISG 150, which are connected to each other, And a control unit 170 for controlling an input torque intervention execution time point of the clutch 140 by checking these states while controlling the drive. The vehicle control apparatus 100 may include a sensor unit 160 that can sense a steering angle value and a lateral acceleration value of the vehicle.

The engine 110, the motor 120, the transmission 130, the clutch 140, and the ISG 150 are components generally included in the automatic transmission vehicle, and thus detailed description thereof will be omitted.

The sensor unit 160 may include a steering sensor and an acceleration sensor so as to sense the steering angle value and the lateral acceleration value of the vehicle. The sensor unit 160 may provide the sensed steering angle value and the lateral acceleration value to the control unit 170.

The control unit 170 is formed of one or more microprocessors operated by the set program, and the set program is formed of a series of commands for controlling the input torque intervention execution timing of the clutch 140 according to the embodiment of the present invention to be described later .

The control unit 170 can confirm at least one of the steering angle value and the lateral acceleration value when a gear shift request is made in the transmission 130, and perform the shift by controlling the change of the travel mode according to the confirmation result. In this case, the shift request may mean an upshift, and in the embodiment of the present invention, the shift from the first stage to the second stage in the manual mode is described as an example. However, this is only an embodiment and can be equally applied to all Power / On upshifts.

When the control unit 170 generates a shift request from the first stage to the second stage in the transmission 130 while the vehicle is traveling in the manual mode, for example, the control unit 170 can confirm that an upshift transmission request is generated. The control unit 170 can confirm the steering angle value provided from the sensor unit 160 at the time of the shift request. The control unit 170 can recognize that the vehicle is turning when the steering angle value exceeds the predetermined maximum value or the steering angle value is less than the preset minimum value. The control unit 170 can change the running mode to the automatic mode regardless of the lateral acceleration value of the vehicle if the vehicle is turning. The control unit 170 can perform the upshift from the first stage to the second stage so as to correspond to the shift request in the state in which the running mode is changed to the automatic mode. In this manner, when the vehicle is turned while the vehicle is running in the manual mode, the automatic shift mode can be changed so that a large torque change does not occur in the drive wheels due to the shift, thereby performing the upshift. As a result, it is possible to prevent the wheel WH, which may occur during shifting, from spinning.

The control unit 170 can recognize that the vehicle is straight ahead if the steering angle value provided from the sensor unit 160 is confirmed within a range between a predetermined maximum value and a preset minimum value. The control unit 170 can be provided with the lateral acceleration value at the sensor unit 160 when an upshift request is issued while the vehicle is running straight. The control unit 170 may change the running mode to the automatic mode if the lateral acceleration value provided by the sensor unit 160 exceeds the pre-stored maximum value. The fact that the lateral acceleration value exceeds the pre-stored maximum value during the straight ahead may be a phenomenon that occurs when the driving situation is dangerous, such as when the vehicle is running on the ice sheet. The control unit 170 may perform the upshift from the first stage to the second stage in response to the shift request in the state of being changed to the automatic mode to prevent the wheel WH spin which may occur during shifting.

The control unit 170 can be provided with the lateral acceleration value at the sensor unit 160 when an upshift request is issued while the vehicle is running straight. The control unit 170 can maintain the running mode in the manual mode if the lateral acceleration value provided by the sensor unit 160 is less than the pre-stored maximum value. The control unit 170 can perform the upshift according to the shift request in the manual mode. Thus, when an upshift occurs while the vehicle is traveling in the manual mode and the value of the lateral acceleration during straight running is below the threshold value, the control unit 170 can perform the upshift from the first stage to the second stage while maintaining the manual mode . The control unit 170 can control the running of the vehicle to correspond to the driver's acceleration demand by performing the upshift in the manual mode.

2 is a flowchart for explaining a vehicle control method according to an embodiment of the present invention.

1 and 2, if the upshift request is made through the transmission 130 in the traveling state in the manual mode, for example, the shift request from the first stage to the second stage is generated in step 11, Step can be performed. The control unit 170 may terminate the process if an upshift request does not occur. However, the present invention is not necessarily limited to this, and the control unit 170 may wait for an upshift request.

In step 13, the control unit 170 can confirm the steering angle value of the vehicle sensed by the sensor unit 160. [ In step 15, the control unit 170 can check the lateral acceleration value of the vehicle sensed by the sensor unit 160. In step 17, the control unit 170 can maintain the driving mode of the vehicle in the manual mode or convert the driving mode into the automatic mode based on the determined steering angle value and the lateral acceleration value. The control unit 170 may control the conversion of the traveling mode of the vehicle and perform the upshift according to the transmission request based on the converted traveling mode.

According to one embodiment, the control unit 170 may recognize that the vehicle is turning if the identified steering angle value exceeds a preset maximum value or is less than a preset minimum value. If it is confirmed that the vehicle is turning, the control unit 170 can change the running mode operating in the manual mode to the automatic mode regardless of the magnitude of the lateral acceleration value. The control unit 170 may perform the upshift according to the shift request after changing the running mode to the automatic mode so as to prevent the wheel WH spin which may be generated at the time of shifting. In this manner, when the vehicle is turned while the vehicle is running in the manual mode, the automatic shift mode can be changed so that a large torque change does not occur in the drive wheels due to the shift, thereby performing the upshift. As a result, it is possible to prevent the wheel WH, which may occur during shifting, from spinning.

According to one embodiment, the control unit 170 may recognize that the vehicle is straight ahead if the identified steering angle value is between a predetermined maximum value and a minimum value. If it is confirmed that the vehicle is going straight, the control unit 170 can check the lateral acceleration value. The control unit 170 can change the running mode in the manual mode to the automatic mode when the verified lateral acceleration value exceeds a predetermined maximum value. The control unit 170 can perform the upshift according to the shift request after changing the running mode to the automatic mode, thereby preventing the wheel WH spin which may occur at the time of shifting.

According to one embodiment, the control unit 170 may recognize that the vehicle is straight ahead if the identified steering angle value is between a predetermined maximum value and a minimum value. If it is confirmed that the vehicle is going straight, the control unit 170 can check the lateral acceleration value. The control unit 170 can maintain the running mode in operation in the manual mode if the verified lateral acceleration value is less than the preset maximum value. The control unit 170 can perform the upshift according to the shift request while maintaining the manual mode.

As described above, according to the present invention, even when the vehicle is turning or running straight, the running mode in the manual mode is changed to the automatic mode so that a large torque change is not generated in the drive wheels due to the shift when the lateral acceleration exceeds the threshold value Shift upshift can be performed. Thus, the present invention can minimize the spin that can be generated at the time of turning, thereby improving the vehicle stabilization.

Further, the present invention can perform the upshift while maintaining the driving mode in the manual mode when the vehicle is running straight ahead and the lateral acceleration value is below the threshold value. Accordingly, it is possible to minimize the energy waste of the vehicle and to maximize the power performance according to the shift occurring during straight driving, thereby improving the satisfaction with the request of the driver who desires to accelerate the vehicle in the straight ahead.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. Therefore, the scope of the present invention should be construed as being included in the scope of the present invention without departing from the scope of the present invention.

100: vehicle control device 110: engine
120: motor 130: transmission
140: clutch 150: ISG
160: sensor unit 170: control unit

Claims (11)

A transmission that implements a shift position;
A sensor unit for sensing a steering angle value;
When the upshift shift request is issued to the transmission in a state where the drive mode is in the manual mode, it is determined whether the vehicle is turning by using the steering angle value. If it is confirmed that the vehicle is turning, A control unit for changing to an automatic mode and performing an upshift in the automatic mode;
And the vehicle control device. delete delete The method according to claim 1,
The sensor unit
Sensing the lateral acceleration value,
The control unit
And confirms the lateral acceleration value when it is confirmed that the vehicle is not turning. 5. The method of claim 4,
The control unit
Shifts the traveling mode to the automatic mode and performs the upshift in the automatic mode when the lateral acceleration value exceeds a preset maximum value. 5. The method of claim 4,
The control unit
And performs the upshift in a state in which the running mode is maintained in the manual mode when the lateral acceleration value is equal to or less than a preset maximum value. Confirming that an upshift request is generated while the drive mode is in the manual mode;
Confirming a steering angle value when the shift request is generated;
Confirming whether the vehicle is turning using the steering angle value;
Changing the driving mode to the automatic mode regardless of the lateral acceleration value when it is confirmed that the vehicle is turning; And
Performing an upshift in the automatic mode;
The vehicle control method comprising: delete delete 8. The method of claim 7,
Confirming the lateral acceleration value if it is confirmed that the vehicle is not turning;
Changing the driving mode to the automatic mode if the lateral acceleration value exceeds a predetermined maximum value; And
And performing the upshift in the automatic mode. 11. The method of claim 10,
The step of performing the shift according to the shift request
And performing the upshift in a state in which the running mode is maintained in the manual mode if the lateral acceleration value is equal to or less than a preset maximum value.

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