초록 ▼

A lock-up clutch control apparatus for controlling a lock-up clutch (6) provided in a torque converter (5) installed between an engine (3) and a transmission (4), is disclosed. The lock-up clutch control apparatus has a differential pressure generator (7,8) which engages, causes a slip of or disenga

A lock-up clutch control apparatus for controlling a lock-up clutch (6) provided in a torque converter (5) installed between an engine (3) and a transmission (4), is disclosed. The lock-up clutch control apparatus has a differential pressure generator (7,8) which engages, causes a slip of or disengages the lock-up clutch by adjusting the differential pressure supplied to the lock-up clutch (6); a sensor (11/15) for detecting a rotational speed of the engine; a sensor (16) for detecting an input rotational speed to the transmission; and a controller (1). The controller (1) conducts proportional integration control by using a command signal to the differential pressure generator (7,8), so that an actual slip rotational speed, which is the difference between the engine rotational speed (Np) and input rotational speed (Ni) to the transmission, becomes a target slip rotational speed (Nt). The controller is programmed to conduct integration accumulating the difference (ΔN) between the target slip rotational speed (Nt) and the actual slip rotational speed (SN); to determine whether the accumulated integrated value (I) is equal to or higher than a predetermined integration value (It); and to stop the integration when the accumulated integration value (I) is equal to or higher than the predetermined integration value (It).

대표청구항 ▼

What is claimed is: 1. A lock-up clutch control apparatus for controlling a lock-up clutch provided in a torque converter installed between an engine and a transmission in a vehicle, comprising: a differential pressure generator which engages, causes a slip of or disengages the lock-up clutch by ad

What is claimed is: 1. A lock-up clutch control apparatus for controlling a lock-up clutch provided in a torque converter installed between an engine and a transmission in a vehicle, comprising: a differential pressure generator which engages, causes a slip of or disengages the lock-up clutch by adjusting differential pressure supplied to the lock-up clutch; a sensor for detecting a rotational speed of the engine; a sensor for detecting an input rotational speed to the transmission; and a controller for conducting proportional integration control by using a command signal to the differential pressure generator, in order that an actual slip rotational speed, which is a difference between the engine rotational speed and the input rotational speed to the transmission, can become a target slip rotational speed, wherein the controller is programmed: to calculate a variation rate of the target slip rotational speed and determine whether the absolute value of the variation rate is equal to or less than a predetermined target slip rotational speed variation rate; to conduct integration accumulating a difference between the target slip rotational speed and the actual slip rotational speed; to determine whether an accumulated integration value is equal to or higher than a predetermined integration value; and to stop the integration when the accumulated integration value is equal to or higher than the predetermined integration value and when the absolute value of the variation rate of the target slip rotational speed is equal to or less than the predetermined target slip rotational speed variation rate, while the vehicle moves at a constant speed. 2. The lock-up clutch control apparatus as defined in claim 1, wherein the controller is further programmed: to calculate a variation rate of the actual slip rotational speed and determine whether the variation rate is equal to or less than a predetermined actual slip rotational speed variation rate; and to stop the integration when the accumulated integration value is equal to or higher than the predetermined integration value and the variation rate of the actual slip rotational speed is equal to or less than the predetermined actual slip rotational speed variation rate. 3. The lock-up clutch control apparatus as defined in claim 1, comprising a sensor for detecting opening and closing of a throttle valve which adjusts a flow rate of air supplied to the engine, wherein the controller is further programmed: to determine whether the throttle valve opening is less than a predetermined opening; and to stop the integration when the accumulated integration value is equal to or higher than the predetermined integration value and the throttle valve opening is less than the predetermined opening. 4. The lock-up clutch control apparatus as defined in claim 1, comprising a sensor for detecting an idle state of the engine, wherein the controller is further programmed to stop the integration when the accumulated integration value is equal to or higher than a prescribed integration value and the engine is not in the idle state. 5. A lock-up clutch control apparatus for controlling a lock-up clutch provided in a torque converter installed between an engine and a transmission in a vehicle, comprising: differential pressure generator means which engages, causes a slip of or disengages the lock-up clutch by adjusting differential pressure supplied to the lock-up clutch; detecting means for detecting a rotational speed of the engine; detecting means for detecting an input rotational speed to the transmission; and control means for conducting proportional integration control by using a command signal to the differential pressure generator, in order that an actual slip rotational speed, which is a difference between the engine rotational speed and the input rotational speed to the transmission, can become a target slip rotational speed, said control means comprising: calculating means for calculating a variation rate of the target slip rotational speed; determining means for determining whether the absolute value of the variation rate is equal to or less than a predetermined target slip rotational speed variation rate; conducting means for conducting integration accumulating a difference between the target slip rotational speed and the actual slip rotational speed; determining means for determining whether an accumulated integration value is equal to or higher than a predetermined integration value; and stopping means for stopping the integration when the accumulated integration value is equal to or higher than the predetermined integration value and when the absolute value of the variation rate of the target slip rotational speed is equal to or less than the predetermined target slip rotational speed variation rate, while the vehicle moves at a constant speed. 6. A lock-up clutch control method for use with a control device for controlling a lock-up clutch provided in a torque converter installed between an engine and a transmission in a vehicle, the control device comprising: a differential pressure generator which engages, causes a slip of or disengages the lock-up clutch by adjusting differential pressure supplied to the lock-up clutch; a sensor for detecting a rotational speed of the engine; a sensor for detecting an input rotational speed to the transmission; and a controller for conducting proportional integration control by using a command signal to the differential pressure generator, in order that an actual slip rotational speed, which is a difference between the engine rotational speed and the input rotational speed to the transmission, can become a target slip rotational speed, the lock-up clutch control method comprising: calculating a variation rate of the target slip rotational speed and determining whether the absolute value of the variation rate is equal to or less than a predetermined target slip rotational speed variation rate; conducting integration accumulating a difference between the target slip rotational speed and the actual slip rotational speed; determining whether an accumulated integration value is equal to or higher than a predetermined integration value; and stopping the integration when the accumulated integration value is equal to or higher than the predetermined integration value and when the absolute value of the variation rate of the target slip rotational speed is equal to or less than the predetermined target slip rotational speed variation rate, while the vehicle moves at a constant speed. 7. The lock-up clutch control apparatus as defined in claim 1, comprising a sensor for detecting an idle state of the engine, wherein the controller is further programmed to stop the integration when the accumulated integration value is equal to or higher than the predetermined integration value and the engine is not in the idle state.