Control system for hybrid vehicle
First Claim
1. A control system for a hybrid vehicle comprising an engine, which can be stopped temporarily on a predetermined drive condition, a torque converter, which is connected to an output shaft of said engine, a speed change mechanism, which is connected to an output shaft of said torque converter to change output rotation of said torque converter, frictionally engaging means, which is placed in said speed change mechanism to set a speed ratio, wheels, which are driven by output rotation of said speed change mechanism, and an electrically driven motor, which can drive said wheels or other wheels;
- said control system comprising engine-rotation control means, which controls rotation of said engine, and engagement control means, which controls engagement of said frictionally engaging means in correspondence to control executed by said engine-rotation control means;
wherein;
when drive mode is switched from motor-driven mode, in which said wheels or said other wheels are driven by said electrically driven motor, to engine-driven mode, in which said wheels are driven by said engine, said engine-rotation control means sets a target speed ratio for said speed change mechanism, calculates a vehicle-speed corresponding rotational speed that would arise at the output shaft of said engine if current rotation of said wheels were transmitted through said speed change mechanism set at said target speed ratio and through said torque converter with a speed ratio of substantially 1.0, and controls the rotation of said engine to bring the output rotational speed of said engine closer to said vehicle-speed corresponding rotational speed; and
while the rotation of said engine is being controlled by said engine-rotation control means, if deviation of the output rotational speed of said engine from said vehicle-speed corresponding rotational speed becomes and remains equal to or smaller than a predetermined value for a predetermined time period, then said engagement control means engages said a frictionally engaging means to establish said target speed ratio.
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Accused Products
Abstract
A hybrid vehicle comprises a torque converter TC, which is connected to an engine E, a gear-type speed change mechanism, shift clutches 13c and 14c, a drive power transmission system, which transmits output rotation to drive wheels 6, and a second motor generator 2, which can drive the drive wheels 6. A control system for this hybrid vehicle comprises a throttle controller TH and a shift control valve CV. When the drive mode is switched from motor-driven mode to engine-driven mode, the control system sets a target speed ratio and calculates a vehicle-speed corresponding rotational speed that would arise at the output shaft of the engine if the current rotation of the drive wheels were transmitted with this target speed ratio and through the torque converter with a speed ratio of 1.0. Then, the control system controls the rotation of the engine to bring the output rotational speed of the engine closer to the vehicle-speed corresponding rotational speed. If the deviation of the output rotational speed of the engine from the vehicle-speed corresponding rotational speed becomes and remains equal to or smaller than a predetermined value for a predetermined time period, then the control system engages the frictionally engaging means to establish the target speed ratio.
23 Citations
7 Claims
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1. A control system for a hybrid vehicle comprising an engine, which can be stopped temporarily on a predetermined drive condition, a torque converter, which is connected to an output shaft of said engine, a speed change mechanism, which is connected to an output shaft of said torque converter to change output rotation of said torque converter, frictionally engaging means, which is placed in said speed change mechanism to set a speed ratio, wheels, which are driven by output rotation of said speed change mechanism, and an electrically driven motor, which can drive said wheels or other wheels;
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said control system comprising engine-rotation control means, which controls rotation of said engine, and engagement control means, which controls engagement of said frictionally engaging means in correspondence to control executed by said engine-rotation control means;
wherein;
when drive mode is switched from motor-driven mode, in which said wheels or said other wheels are driven by said electrically driven motor, to engine-driven mode, in which said wheels are driven by said engine, said engine-rotation control means sets a target speed ratio for said speed change mechanism, calculates a vehicle-speed corresponding rotational speed that would arise at the output shaft of said engine if current rotation of said wheels were transmitted through said speed change mechanism set at said target speed ratio and through said torque converter with a speed ratio of substantially 1.0, and controls the rotation of said engine to bring the output rotational speed of said engine closer to said vehicle-speed corresponding rotational speed; and
while the rotation of said engine is being controlled by said engine-rotation control means, if deviation of the output rotational speed of said engine from said vehicle-speed corresponding rotational speed becomes and remains equal to or smaller than a predetermined value for a predetermined time period, then said engagement control means engages said a frictionally engaging means to establish said target speed ratio. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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Specification