Hybrid vehicle control device

摘要

A hybrid vehicle control device includes an engine start control unit which, at engine start, starts slipping a second clutch, sets a first clutch to a slip-engaged state, and sets the second clutch transmission torque capacity to less than or equal to a set torque limit value during cranking, maintains the slip state and cranks the engine, and when the engine is put in a drive state, controls the first clutch and the second clutch towards a fully engaged state. The engine start control unit is provided with a second clutch torque increase gradient control unit which, when performing cranking processing, performs first increasing processing for increasing the second clutch transmission torque capacity command value at a first increase gradient, and second increasing processing for increasing said value at a second increase gradient more gradual that the first increase gradient.

主权项

1. A hybrid vehicle control apparatus comprising:
an engine and a motor provided as drive sources of a vehicle; first and second clutches disposed in a driveline from the drive sources to a driving wheel, wherein the first clutch is disposed between the engine and the motor, and configured to vary a transmitted torque therebetween, and wherein the second clutch is disposed between the motor and the driving wheel, and configured to vary a transmitted torque therebetween; an engine start control part configured to start the engine by bringing the first clutch into slip-engaged state, and allowing the second clutch to slip, and increasing a driving torque of the motor, in response to a determination by an engine start request determination means that an engine start request is present in an EV mode, wherein the determination is based on a running state and an operating state of the vehicle, and wherein the EV mode allows driving by the driving torque of the motor with the first clutch disengaged and the second clutch engaged; the engine start control part being configured to perform:
a slip start operation to cause the second clutch to slip;a cranking operation to crank the engine by bringing the first clutch into slip-engaged state, and maintaining the second clutch in slipping state by setting transmitted torque capacity of the second clutch smaller than or equal to a set cranking-condition torque limit value; anda clutch engagement operation to control the first clutch and the second clutch into completely engaged state in response to a condition that the engine is in driving state; and a second clutch torque increase gradient control part included in the engine start control part, and configured to perform the following while the cranking operation is being performed:
a first increase operation to increase the transmitted torque capacity of the second clutch at a predetermined first increase gradient from the state of starting to slip; anda second increase operation to increase the transmitted torque capacity of the second clutch at a second increase gradient smaller than the first increase gradient.