KR100391655B1 - A method for damper clutch controlling of automatic transmission in vehicle - Google Patents

Abstract

To control the damper clutch when the power is turned off in an urban operating condition where the throttle valve opening degree changes frequently due to the acceleration pedal operation;

Determining, at the vehicle, that the power-off driving condition is satisfied; Determining a damper clutch operating condition; Cutting off fuel supply according to the damper clutch operating condition, and performing damper clutch operating duty control; The step of determining the damper clutch operation release conditions, there is an effect that can improve the fuel economy.

Description

A METHOD FOR DAMPER CLUTCH CONTROLLING OF AUTOMATIC TRANSMISSION IN VEHICLE}

The present invention relates to a damper clutch control method of an automatic transmission for a vehicle, and more particularly, to a damper clutch control method of an automatic transmission for a vehicle that can improve fuel efficiency by operating the damper clutch during power-off driving.

In general, the operation control determination of the damper clutch is programmed in the memory of the shift control apparatus 200 and the operating slip amount and the target slip amount, and according to the throttle valve opening Th and the turbine rotation speed Nt according to the vehicle driving state change. The operation control is judged to determine the damper clutch operation.

The slip amount of the damper clutch is calculated by a preset program by the engine speed Ne and the turbine speed Nt, and is controlled to approach the target slip amount.

In addition, when the damper clutch non-operation request signal is input while the vehicle is driving, the shift control apparatus 200 stops the operation of the damper clutch.

As described above, in order to operate the damper clutch in a vehicle that is driven in a power-off state in an automatic transmission vehicle that controls the operation and non-operational state of the damper clutch according to the driving state, the driving condition is a power-on condition while driving in a conventional power-off condition. The damper clutch was activated when driving after changing to.

However, in the conventional method described above, the damper clutch operating condition at power-on is that the damper clutch operates only when the throttle valve opening (Th) variation is less than a predetermined reference value, so that the change in the throttle valve opening according to the accelerator pedal is frequently changed. There is a problem in that the fuel economy of the vehicle is lowered as the frequency of operating the power-off damper clutch is not generated under the urban driving conditions.

Accordingly, an object of the present invention is to solve the above problems, and the damper clutch of the automatic transmission for a vehicle for operating the damper clutch when the power off in the urban operating conditions where the throttle valve opening degree changes frequently due to the acceleration pedal operation It is to provide a control method.

The present invention for achieving the above object,

Determining, at the vehicle, that the power-off driving condition is satisfied;

Determining a damper clutch operating condition;

Cutting off fuel supply according to the damper clutch operating condition, and performing damper clutch operating duty control;

And determining the damper clutch operation release condition.

1 is a block diagram of a damper clutch control device of the automatic transmission for a vehicle according to the present invention.

Figure 2a, Figure 2b is a flow chart of the damper clutch control method operation of the automatic transmission for a vehicle applied to the present invention.

Figure 3 is a damper clutch control duty pattern diagram of an automatic transmission for a vehicle according to the present invention.

Figure 4 is a damper clutch duty correction graph of the automatic transmission for a vehicle according to the present invention.

<Description of Symbols for Main Parts of Drawings>

100: vehicle driving state detection means 110: throttle valve opening degree detection unit

120: output shaft speed detection unit 130: engine speed detection unit

140 turbine speed detection unit 150 shift lever position detection unit

160: oil temperature detection unit 200: shift control means

300: driving means

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram illustrating a damper clutch control apparatus of an automatic transmission for a vehicle according to the present invention. The vehicle driving state detecting apparatus 100 detects a vehicle driving state that is variably output according to an operation state of a vehicle, and the shift control means 200 ) Outputs a predetermined control signal to the vehicle operating state detecting means to receive the signal detected by the vehicle driving state detecting apparatus 100, and outputs a throttle valve degree, an output shaft rotational speed, When the engine speed, turbine speed, shift lever position and oil temperature are input, the damper clutch operating condition is judged according to the power-off driving condition satisfactory condition in the driving vehicle, and when the damper clutch operating condition is satisfied, the fuel supply is cut off. Outputs the damper clutch operation duty control signal.If the damper clutch operation release condition is satisfied, fuel supply is executed at the same time. The damper clutch operation duty control is terminated, and the driving device 300 is duty controlled by a predetermined shift control duty signal output from the shift control device 200 to supply and release the hydraulic pressure discharged from the oil pump to the friction element. To shift.

The vehicle driving state detecting apparatus 100 may include: a throttle valve opening amount detecting unit 110 applied to detect an opening amount of a throttle valve to be interlocked according to a driver's accelerator pedal operation state and to determine a shift stage; An output shaft rotation speed detection unit (120) applied as a signal corresponding to the vehicle speed of the vehicle being driven, for detecting the rotational speed of the output shaft of the automatic transmission and determining a shift stage; An engine speed detection unit (130) which is applied when the speed of the engine is determined by determining the speed of the engine of the running vehicle; A turbine rotation speed detection unit 140 applied to determine a speed change stage by detecting a turbine rotation speed that varies according to a vehicle driving state change; A shift lever position detection unit 150 for detecting a position changed according to a driver's shift lever operating state; It is provided with an oil temperature detection unit 160 is applied to determine the shift stage by detecting the oil temperature varies according to the vehicle driving state.

2A, 2B, 3 and 4 attached to the shift control operation of the vehicle automatic transmission having the above-described configuration will be described in detail.

The vehicle driving state detecting apparatus 100 detects a throttle valve opening degree, an output shaft rotation speed, an engine rotation speed, a turbine rotation speed, a shift lever position, an oil temperature, and the like, which vary according to the vehicle driving state.

Accordingly, the shift control apparatus 200 outputs a predetermined control signal to the vehicle driving state detecting apparatus 100, and the vehicle driving state detecting apparatus 100 is applied to the predetermined control signal output from the shift control apparatus 200. The throttle valve opening degree, the output shaft rotation speed, the engine rotation speed, the turbine rotation speed, the shift lever position, the oil temperature, and the like detected in synchronization with each other are output.

The shift control apparatus 200 receives a throttle valve opening degree, an output shaft rotation speed, an engine rotation speed, a turbine rotation speed, a shift lever position, and an oil temperature output from the vehicle driving state detection device 300, and powers the vehicle in driving. It is determined whether or not the off-driving conditions are satisfied (S100 and S105).

In the above, the power-off driving condition is equal to or less than the throttle valve opening degree Th setting reference value, and when the output shaft rotation speed No is equal to or less than the predetermined setting value, the shift control apparatus 200 determines the power-off.

When the power-off driving condition is satisfied in the above, the shift control apparatus 200 determines a state in which the power-off damper clutch operating condition is satisfied (S110).

In the above, the power-off damper clutch operating condition is that the gear stage has a three-speed or four-speed oil temperature. Throttle valve opening degree (Th) <4th setpoint engine speed (Ne)> 5th setpoint (1200rpm) 6th setpoint (350rpm)> Target slip amount (Ne-Nt)> 7th setpoint (150rpm) All conditions must be met.

When the power-off damper clutch operating condition is satisfied, the shift control apparatus 200 outputs a fuel cut request signal CASE # 1 as shown in FIG. 3 (S115).

In FIG. 3, CASE # 2 is a fuel cut request signal detected after the damper clutch operating condition is satisfied.

However, if the power off driving condition is not satisfied or the power off damper clutch operating condition is not satisfied, the shift control apparatus 200 returns to the main routine.

Thereafter, the shift control apparatus 200 outputs a duty control signal for controlling the damper clutch as shown in FIG. 3, and outputs the damper clutch control duty from 0% to 100% and provides a predetermined initial fill time. Maintain for a time (S120).

The driving device 300 is the hydraulic pressure discharged from the oil pump (not shown) in synchronization with the duty control signal output from the shift control device 200 is coupled to the damper clutch (not shown) The line pressure is controlled so that the damper clutch control valve (not shown) can be shifted.

At this time, the hydraulic pressure discharged from the oil pump (not shown) is coupled to the damper clutch via the torque converter hydraulic control valve (not shown) and the damper clutch control valve (not shown). It is supplied to the side (not shown).

As the 100% damper clutch control duty is output, the shift control apparatus 200 compares and determines whether the target slip amount Ne-Nt < the eighth set value 35 rpm is satisfied, and thus the target slip amount Ne If it is determined that the <8th set value 35rpm is satisfied, the damper clutch control duty of 100% is corrected by the following damper clutch correction equation to reduce and control Da1 (S125 and S130).

Da1 _n = Da1 _n-1 + ΔD1

In the above, D1 _n is the current damper clutch control duty, D1 _n-1 is the previous damper clutch control duty, and ΔD1 is the correction duty.

The correction duty DELTA D1 may be obtained as DELTA D1 compared to T1-T as shown in FIG. 4.

T in the T1-T is a time from the point at which the target slip amount Ne-Nt < the eighth set value 35 rpm is satisfied.

The timing at which the target slip amount Ne-Nt < the eighth set value 35 rpm is satisfied is when the damper clutch is operated.

Subsequently, the shift control apparatus 200 reduces and outputs the damper clutch duty to Da1 and starts counting a predetermined time t. The shift control apparatus 200 controls the rising of the damper clutch duty Da1 to Da2 with a rising slope of α% / sec. In addition, it is determined whether the counted time t reaches a predetermined set reference time Tda (S145).

When it is determined that the counting time t reaches the predetermined set reference time Tda, the shift control apparatus 200 uses the damper clutch control duty Da1 as Da2 to dD as shown in FIG. 3. The rising control (S150).

The driving means 300 controls the damper clutch control valve (not shown) to the line pressure in synchronization with the duty control signal output from the shift control device 300 to the damper clutch engagement side (not shown in the figure). To adjust the hydraulic pressure supplied.

Subsequently, the shift control apparatus 200 maintains the damper clutch control duty increased to dD and determines whether the damper clutch operation releasing condition is satisfied (S155).

In the above, the damper clutch operation releasing condition is a shift stage 2 speed or 1 speed OR oil temperature <ninth set value (10 ° C) OR engine speed <tenth set value (1000 rpm) OR throttle valve opening (Th)> predetermined fourth Set value OR Turbine speed (Nt) <10th set value (1000 rpm) or turbine speed (Nt)> Eleventh set value (3000 rpm) OR Engine speed change rate (dNo) <12th set value (-2 rev / sec ² ) The condition is released if only one of the conditions is satisfied.

When it is determined that the damper clutch operation releasing condition is satisfied, the shift control apparatus 200 outputs a fuel supply signal, controls the damper clutch control duty to 0%, and releases the damper clutch engagement (S160 and S165).

However, if the damper clutch operation release condition is not satisfied in the above, the shift control apparatus 200 maintains the damper clutch operation and continuously compares and determines whether the damper clutch release condition is satisfied.

As a result, the fuel-off damper clutch operation control is performed even in the city driving state where the accelerator pedal operation is frequent, thereby improving fuel economy.

As described above, the damper clutch control method of the automatic transmission for a vehicle according to the present invention can improve fuel economy by operating the damper clutch when the power is turned off in an urban operating condition where the throttle valve opening degree changes frequently due to the acceleration pedal operation. It works.

Claims (15)

Determining, at the vehicle, that the power-off driving condition is satisfied; Determining a damper clutch operating condition; Cutting off fuel supply according to the damper clutch operating condition, and performing damper clutch operating duty control; The damper clutch control method of an automatic transmission for a vehicle, characterized in that the step of determining the damper clutch operation release condition. The damper clutch control method for an automatic transmission according to claim 1, wherein the power-off driving condition is a condition that is equal to or less than the throttle valve opening degree Th setting reference value and the output shaft rotation speed No is equal to or less than the predetermined setting value. The method of claim 1, further comprising: determining a damper clutch operating condition if the power-off driving condition is satisfied; And if the power-off driving condition is not satisfied at the step, returning to the main routine. The damper clutch operating condition is a gear stage having a three-speed or four-speed oil temperature. The first set value <the second set value <turbine rotation speed (Nt) <the third set value Throttle valve opening degree Th <fourth setpoint engine speed Ne> fifth setpoint sixth setpoint> target slip amount Ne-Nt> seventh setpoint A damper clutch control method for an automatic transmission for a vehicle. The method of claim 1, further comprising: outputting a fuel cut request signal and performing damper clutch operation duty control when the damper clutch operating condition is satisfied; If the damper clutch operating conditions are not satisfied in the step, the damper clutch control method of the automatic transmission for a vehicle, characterized in that comprising the step of returning to the main routine. 6. The damper clutch duty control according to any one of claims 1 to 5, further comprising the steps of: controlling the damper clutch control duty from 0% to 100% when the damper clutch operating condition is satisfied and maintaining it for a predetermined initial fill time time; ; Comparing and determining whether the target slip amount Ne-Nt < the eighth set value is satisfied as the damper clutch control duty of 100% is output in this step; If it is determined in the step that the target slip amount Ne-Nt < the eighth set value is satisfied, correcting and controlling the damper clutch control duty of 100%; Performing a control with the damper clutch duty corrected in the above step and simultaneously counting a predetermined time and controlling an increase inclination of the damper clutch correction duty α% / sec; Comparing and determining whether the time counted in the step reaches a predetermined reference time; If it is determined that the counted time reaches the predetermined reference time, increasing the damper clutch correction duty to a predetermined duty value; And determining the damper clutch operation releasing condition satisfying condition while maintaining the duty value with the predetermined damper clutch duty raised in the step. 7. The damper clutch control method according to claim 6, wherein the timing at which the target slip amount Ne-Nt < the eighth set value is satisfied is the timing at which the damper clutch operation is completed. 7. The damper clutch duty correction according to claim 6, wherein the damper clutch duty correction is corrected Da1 _n = Da1 _n-1 + DELTA D1, wherein Da1 _n is the current damper clutch control duty, Da1 _n-1 is the previous damper clutch control duty, and D1 is corrected. A damper clutch control method for an automatic transmission for a vehicle, characterized in that the duty. 9. The method of claim 8, wherein the correction duty ΔD1 is set in the memory map table preset to ΔD1 compared to T1-T, wherein T in T1-T is a target slip amount Ne-Nt < The damper clutch control method of an automatic transmission for a vehicle, characterized in that the time from. The damper clutch deactivation condition is a gear stage 2 speed or 1 speed OR oil temperature <9th set value OR engine speed <10th set value OR Throttle valve opening degree Th> The predetermined 4th set value OR Turbine rotational speed Nt <10th set value or turbine rotational speed Nt> 11th setpoint value OR Engine speed change rate dNo <12th setting value It is a condition which is canceled when only one condition is satisfied. A damper clutch control method for an automatic transmission for a vehicle. The method of claim 1, further comprising: executing fuel supply and terminating the damper clutch operation duty control when the damper clutch release condition is satisfied; And if the damper clutch release condition is not satisfied in the step, maintaining a predetermined damper clutch duty value, and determining a damper clutch release condition satisfaction state. The method of claim 4, wherein the first set value is 20 ℃, the second set value is 1000rpm, the third set value is 3000rpm, the fifth set value is 1200rpm, the sixth set value is 350rpm and the seventh set value is 150rpm Damper clutch control method of an automatic transmission for a vehicle including. The damper clutch control method according to claim 6, wherein the eighth set value is 35 rpm. 10. The method of claim 9, wherein the eighth set value is 35 rpm. The method of claim 10, wherein the ninth set value is 10 ° C., the tenth set value is 1000 rpm, the eleventh set value is 3000 rpm, and the twelfth set value is −2 rev / sec ² .