VEHICULAR POWER TRANSMISSION CONTROL APPARATUS
First Claim
1. A vehicular power transmission control apparatus that is applied to a vehicle including an internal combustion engine and an electric motor as power sources, and that includes:
- a transmission mounted between an output shaft of the internal combustion engine and a driving wheel of the vehicle; and
a clutch that is mounted between the output shaft of the internal combustion engine and an input shaft of the transmission, and that can adjust a clutch torque, which is a maximum torque that the clutch can transmit, whereinan output shaft of the electric motor is connected to the input shaft or the output shaft of the transmission,the power transmission control apparatus comprising;
a control unit that controls a torque of the internal combustion engine and a torque of the electric motor based upon a driving condition of the vehicle, and controls the clutch torque to have a value greater than the torque of the output shaft of the internal combustion engine; and
a determining unit that determines whether a driver requests a deceleration of the vehicle based upon a driver'"'"'s operation for an acceleration operation member of the vehicle, whereinthe control unit is configured such that,when it is determined that the driver requests the deceleration of the vehicle,it keeps the torque of the electric motor to be zero,estimates a deceleration torque stabilized value, which is the stabilized value, in the deceleration direction, of the torque of the internal combustion engine after it is changed from a value in the acceleration direction to a value in the deceleration direction,adjusts the clutch torque to be a value based upon the deceleration torque stabilized value, before the torque of the internal combustion engine reaches the deceleration torque stabilized value, andwhen the torque of the internal combustion engine reaches the deceleration torque stabilized value, it gradually decreases the clutch torque from the value based upon the deceleration torque stabilized value, as well as gradually increases a regeneration torque of the electric motor from zero.
1 Assignment
0 Petitions
Accused Products
Abstract
When it is determined that a driver requests a deceleration of a vehicle (t1), a motor torque is kept to be zero. A value in the deceleration direction (deceleration torque stabilized value A) at which an engine torque is stabilized after it changes from a value in the acceleration direction to the value in the deceleration direction is predicted. Before the engine torque reaches the deceleration torque stabilized value A, the clutch torque is adjusted to be the deceleration torque stabilized value A. When the engine torque reaches the deceleration torque stabilized value A (t3), the clutch torque is gradually decreased from the deceleration torque stabilized value A, and a regeneration torque is gradually increased from zero. A decreasing slope of a vehicle torque is kept constant over a period (t1 to t3) when the vehicle torque decreases. Therefore, the vehicle can smoothly be decelerated during the deceleration of the vehicle. Thus, during the deceleration of a hybrid vehicle with clutch, the clutch torque and the regeneration torque are appropriately adjusted, whereby the vehicle can smoothly be decelerated.
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Citations
4 Claims
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1. A vehicular power transmission control apparatus that is applied to a vehicle including an internal combustion engine and an electric motor as power sources, and that includes:
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a transmission mounted between an output shaft of the internal combustion engine and a driving wheel of the vehicle; and a clutch that is mounted between the output shaft of the internal combustion engine and an input shaft of the transmission, and that can adjust a clutch torque, which is a maximum torque that the clutch can transmit, wherein an output shaft of the electric motor is connected to the input shaft or the output shaft of the transmission, the power transmission control apparatus comprising; a control unit that controls a torque of the internal combustion engine and a torque of the electric motor based upon a driving condition of the vehicle, and controls the clutch torque to have a value greater than the torque of the output shaft of the internal combustion engine; and a determining unit that determines whether a driver requests a deceleration of the vehicle based upon a driver'"'"'s operation for an acceleration operation member of the vehicle, wherein the control unit is configured such that, when it is determined that the driver requests the deceleration of the vehicle, it keeps the torque of the electric motor to be zero, estimates a deceleration torque stabilized value, which is the stabilized value, in the deceleration direction, of the torque of the internal combustion engine after it is changed from a value in the acceleration direction to a value in the deceleration direction, adjusts the clutch torque to be a value based upon the deceleration torque stabilized value, before the torque of the internal combustion engine reaches the deceleration torque stabilized value, and when the torque of the internal combustion engine reaches the deceleration torque stabilized value, it gradually decreases the clutch torque from the value based upon the deceleration torque stabilized value, as well as gradually increases a regeneration torque of the electric motor from zero. - View Dependent Claims (2, 3, 4)
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Specification