KR102531056B1 - Method for calibrating clutch in automatic transmission - Google Patents

Abstract

The present invention relates to a method for correcting a clutch of an automatic transmission, and more particularly, by detecting and correcting deviations in the fill-up time due to wear of parts in the clutch of an automatic transmission, which may occur in an automatic transmission A clutch correction method for an automatic transmission capable of suppressing shift shock or response time delay and improving shift quality.
In the present invention, the control unit 160, the shear clutch fastening step of controlling the shear clutch 110 to be fastened (S100); An input shaft speed measurement step (S200) of measuring an input shaft speed of the rear clutch 120 while applying hydraulic pressure to the rear clutch 120 at a predetermined fill-up pressure; an increase/decrease time point detection step (S300) of detecting a first time point at which the speed of the input shaft of the rear clutch 120 increases and then decreases; and a hydraulic pressure filling time calculation step (S400) of calculating a loss filling time for the rear clutch 120 from the first time point.

Description

Method for calibrating clutch in automatic transmission {Method for calibrating clutch in automatic transmission}

The present invention relates to a method for correcting a clutch of an automatic transmission, and more particularly, by detecting and correcting deviations in the fill-up time due to wear of parts in the clutch of an automatic transmission, which may occur in an automatic transmission A clutch correction method for an automatic transmission capable of suppressing shift shock or response time delay and improving shift quality.

In general, as shown in FIG. 1, in an agricultural vehicle 1 such as a tractor, a transmission 50 that changes gear engagement according to forward, backward or traveling speed in order to transmit the output of the engine 2 to the driving wheels. ) is provided.

Conventionally, manual transmissions having a simple structure and excellent fuel efficiency have been mainly used in agricultural vehicles 1 such as tractors, but the manual transmissions have disadvantages in that a driver's operation is difficult and shift shock may occur during gear shifting.

Accordingly, in recent years, there are increasing cases in which an automatic transmission is mounted on an agricultural vehicle 1 such as a tractor so that the driver can drive and work more conveniently.

More specifically, in the automatic transmission, the clutch valve is controlled by the controller to control the flow rate flowing into the clutch, instead of engaging or disengaging the clutch according to the driver's direct manipulation. Forward, reverse, or gear shifting is performed.

At this time, in the automatic transmission, the oil fill-up time, which is the time when oil passes through the clutch valve and flows into the clutch cylinder to fill the oil loss, and the driving pressure, which is hydraulic pressure that transfers the driving force through friction when the clutch friction plates come into contact with each other is set and using this, the engagement and release operations of the clutch are performed.

However, the fill-up time for the clutch is related to the volume of the loss, and the volume of the loss varies due to processing errors of the clutch or wear caused by the use of the clutch, and overfilling or underfilling the loss Shift shock or response time delay may be caused during shifting due to filling, and thus, a problem of deterioration in shift quality experienced by the user may appear.

Republic of Korea Patent Publication No. 10-2008-0097550

The present invention has been made to solve the above problems, and shifting that may occur while a deviation occurs in the fill-up time of the clutch due to a processing error of the clutch or wear caused by the use of the clutch in an automatic transmission. An object of the present invention is to provide a clutch correction method in an automatic transmission capable of improving shift quality by preventing heavy shift shock or response time delay.

Other detailed objects of the present invention will be clearly identified and understood by experts or researchers in the art through the specific contents described below.

A clutch correction method of an automatic transmission 100 according to an embodiment of the present invention for solving the above problems includes a front-end clutch fastening step of controlling the front-end clutch 110 to be fastened in the control unit 160 (S100); An input shaft speed measurement step (S200) of measuring an input shaft speed of the rear clutch 120 while applying hydraulic pressure to the rear clutch 120 at a predetermined fill-up pressure; an increase/decrease time point detection step (S300) of detecting a first time point at which the speed of the input shaft of the rear clutch 120 increases and then decreases; and a hydraulic pressure filling time calculation step (S400) of calculating a loss filling time for the rear clutch 120 from the first time point.

At this time, in the shear clutch fastening step (S100), hydraulic pressure of a predetermined first pressure is applied to the shear clutch 110 so that the shear clutch 110 is fastened, but the first pressure fills the loss -up) is preferably greater than the pressure.

Furthermore, the timing at which the hydraulic pressure of the first pressure is applied to the front clutch 110 may be set to be applied simultaneously with the timing at which the hydraulic pressure of the fill-up pressure is applied to the rear clutch 120. there is.

In addition, in the input shaft speed measuring step (S200), after applying the loss filling pressure for a preset loss filling time set value to the rear clutch 120, a driving pressure lower than the loss filling pressure is applied, but the loss filling The time setting value may be set to a value longer than a predetermined loss filling time reference value.

At this time, a maximum configurable value may be set as the lost filling time setting value.

In addition, in the input shaft speed increase/decrease time detection step (S300), a first time point at which the input shaft speed of the rear clutch 120 increases and then decreases after the front clutch 110 is engaged can be detected.

In addition, in the step of detecting the input shaft speed increase/decrease time point (S300), a first time point at which the input shaft speed of the rear clutch 120 increases more than a first predetermined reference value and then decreases more than a second predetermined reference value can be detected. there is.

Furthermore, in the hydraulic pressure filling time calculation step (S400), the loss filling time may be calculated by multiplying the first time point by a predetermined correction value.

In the clutch correction method of an automatic transmission according to an embodiment of the present invention, shift shock and It becomes possible to suppress the occurrence of a reaction time delay and effectively improve the shift quality.

1 is an exemplary view of a typical agricultural work vehicle 1 .
2 is a flow chart of a clutch correction method in an automatic transmission 100 according to an embodiment of the present invention.
3 is a configuration diagram of a clutch correction system in an automatic transmission 100 according to an embodiment of the present invention.
4 and 5 are views illustrating the configuration and operation of a clutch correction system in an automatic transmission 100 according to an embodiment of the present invention.
6 and 7 are diagrams illustrating a hydraulic pressure profile applied to a clutch in a clutch correction method in an automatic transmission 100 according to an embodiment of the present invention.
8 and 9 are views explaining in detail the calculation of the loss filling time in the clutch correction method in the automatic transmission 100 according to an embodiment of the present invention.

The present invention can apply various transformations and can have various embodiments. Hereinafter, specific embodiments will be described in detail based on the accompanying drawings.

In describing the present invention, if it is determined that a detailed description of related known technologies may obscure the gist of the present invention, the detailed description will be omitted.

Terms such as first and second may be used to describe various components, but the components are not limited by the terms, and the terms are used only for the purpose of distinguishing one component from another. used

Hereinafter, exemplary embodiments of the clutch correction method of the automatic transmission 100 according to the present invention will be described in detail with reference to the accompanying drawings.

First, FIG. 2 illustrates a flow chart of a clutch correction method in the automatic transmission 100 according to an embodiment of the present invention. As can be seen in FIG. 2, the clutch correction method of the automatic transmission 100 according to the present invention includes a front-end clutch engagement step (S100), an input shaft speed measurement step (S200), an input shaft speed increase/decrease time detection step (S300), and A hydraulic filling time calculation step (S400) may be included.

In addition, FIG. 3 illustrates a configuration diagram of a clutch correction system in an automatic transmission 100 according to an embodiment of the present invention. As can be seen in FIG. 3, the clutch correction system of the automatic transmission 100 according to the present invention includes a front clutch 110, a rear clutch 120, a first speed sensor 130, and a second speed sensor 140. ) and a controller 160.

Hereinafter, a clutch correction method and system in the automatic transmission 100 according to an embodiment of the present invention will be described in detail with reference to FIGS. 2 and 3 .

First, in the shear clutch fastening step (S100), the controller 160 performs a control process so that the shear clutch 110 is fastened.

Next, in the input shaft speed measuring step (S200), the input shaft speed of the rear clutch 120 is measured while applying hydraulic pressure to the rear clutch 120 at a predetermined fill-up pressure.

Also, in the step of detecting the input shaft speed increase/decrease time point (S300), a first time point at which the input shaft speed of the rear clutch 120 increases and then decreases is detected.

Then, in the hydraulic filling time calculation step (S400), the loss filling time for the rear clutch 120 is calculated from the first time point.

Accordingly, in the clutch correction method of an automatic transmission according to an embodiment of the present invention, by detecting and correcting the deviation of the hydraulic pressure fill-up time in the clutch due to wear of parts or processing errors, It is possible to suppress occurrence of shift shock and response time delay and to effectively improve shift quality.

More specifically, FIG. 4 shows a drawing for explaining the configuration and operation of the clutch correction system in the automatic transmission 100, and FIG. 5 shows the clutch in the automatic transmission 100 according to an embodiment of the present invention. The configuration diagram of is illustrated.

Hereinafter, the correction of the clutch in the automatic transmission 100 according to an embodiment of the present invention will be described in more detail with reference to FIGS. 4 and 5 .

First, as can be seen in Figure 4, in the automatic transmission 100 according to an embodiment of the present invention, the driving force generated by the engine 2 is transmitted to the axle to drive the agricultural work vehicle 1. At this time, the automatic transmission 100 may include a front clutch 110 located on the engine 2 side and a rear clutch 120 located on the axle side.

At this time, as can be seen in FIG. 5, the clutch includes one or more plates 102 and a disk 103, and the plate 102 and the disk 103 are joined and released. Through this, it performs the function of connecting and blocking power.

To this end, the clutch valve 105 composed of a solenoid valve supplies the oil supplied from the hydraulic pump to the clutch to drive the piston 101, thereby reducing the pressure of the plate 102 and the disk 103. connection and disconnection.

However, in the automatic transmission 100, the control unit 160 controls the clutch valve 105 to flow into the clutch without engaging or disengaging the hydraulic clutch 110 according to the driver's direct manipulation. The engagement and release operations of the clutch are controlled by adjusting the flow rate. More specifically, the oil introduced through the clutch valve 105 fills the loss of the clutch (FIG. 5 (A)) and pushes the piston 101 (FIG. 5 (B)), thereby As the plate 102 and the disk 103 are bonded to each other, they perform a function of connecting or blocking power.

To this end, in the control unit 160, the oil fill-up time, which is the time when oil passes through the clutch valve 105 and flows into the clutch cylinder to fill the oil chamber, and the plate 102 and the disk 103 The operation of the clutch is controlled by using a kiss-point pressure, which is a hydraulic pressure at a point in time when the two come into contact with each other and friction starts to occur.

However, an error may occur in the fill-up time and driving pressure of the clutch due to deviation of parts such as the clutch valve 105 or wear caused by the use of the clutch, and accordingly, the automatic transmission 100 A shift shock may occur during shifting or a problem of deteriorating shift quality may occur.

On the other hand, in the clutch correction method of the automatic transmission 100 according to an embodiment of the present invention, the clutch fill-up due to the deviation of parts such as the clutch valve 105 or the wear caused by the use of the clutch By detecting and compensating for the time deviation, it is possible to effectively improve the shift quality by preventing the occurrence of shift shock and response time delay in the automatic transmission 100 .

In particular, the rear clutch 120 located on the axle side directly affects the drive speed of the axle, and the deviation of the fill-up time in the rear clutch 120 is It is important in that it can directly affect the operator's perception of shift quality depending on whether shift shock and response time delay occur.

On the other hand, since the front clutch 110 located on the engine 2 side has a small influence on the driving speed of the axle, the loss in the rear clutch 120 is filled so that it can be engaged at high speed without considering shift shock or the like ( It is possible to control the application of the first pressure higher than the fill-up pressure by turning ON/OFF.

Furthermore, in the clutch correction method and system of the automatic transmission 100 according to an embodiment of the present invention, the speed of the input shaft of the rear clutch 120, which is generally provided for controlling the automatic transmission 100, is measured. Additional parts such as a hydraulic pressure sensor capable of measuring the hydraulic pressure applied to the clutch by using the first speed sensor 130 and the second speed sensor 140 that measures the speed of the output shaft of the rear clutch 120, and Since the clutch correction process of the automatic transmission 100 is performed without changing parts, it is more preferable in that the clutch of the automatic transmission 100 can be corrected without additional costs such as parts cost.

In addition, FIG. 6 illustrates hydraulic profiles applied to the front clutch 110 and the rear clutch 120 in the clutch correction method and system of the automatic transmission 100 according to an embodiment of the present invention.

As can be seen in FIG. 6, hydraulic pressure is applied to the rear clutch 120 at a predetermined fill-up pressure for a set value of the fill-up time, and then, after the set value of the fill-up time has elapsed, a predetermined fill-up pressure is applied. Hydraulic pressure is applied according to the driving pressure.

On the other hand, hydraulic pressure of a predetermined first pressure is applied to the shear clutch 110 to fasten the shear clutch 110, and at this time, the first pressure is preferably greater than the fill-up pressure. .

Accordingly, as can be seen in FIG. 6 , even if hydraulic pressure starts to be applied to the front clutch 110 and the rear clutch 120 at the same time, a higher hydraulic pressure is applied to the front clutch 110 and the front clutch 110 ) is first fastened, and then the rear end clutch 120 is fastened.

Accordingly, the rear clutch 120 applies hydraulic pressure with a predetermined fill-up pressure in a state in which the front clutch 110 is fastened, and at this time, the control unit 160 controls the rear clutch 120 ) using the first speed sensor 130 for measuring the speed of the input shaft and the second speed sensor 140 for measuring the speed of the output shaft of the rear end clutch 120, the speed data of the input shaft and the output shaft of the rear clutch 120 is measured and collected.

Subsequently, the controller 160 detects a first time point at which the speed of the input shaft of the rear clutch 120 measured by the first speed sensor 130 increases and then decreases, and from the detected first time point, the rear clutch 120 After calculating the loss filling time for (120), the automatic transmission 100 is corrected by applying the calculated loss filling time, thereby reducing the processing error of the rear clutch 120 or the use of the rear clutch 120. It is possible to improve shift quality by preventing shift shock or response time delay during shifting, which may occur when a deviation occurs in the fill-up time of the rear clutch 120 due to wear.

In addition, although FIG. 6 describes a case in which hydraulic pressure is simultaneously applied to the front clutch 110 and the rear clutch 120, the present invention is not necessarily limited thereto, and as can be seen in FIG. 7, the After the hydraulic pressure of the first pressure applied to the front clutch 110 starts to be applied first, the hydraulic pressure of the fill-up pressure applied to the rear clutch 120 may be applied.

In this case, since the fastening time of the front clutch 110 can be advanced, it is possible to respond even when the loss filling time for the rear clutch 120 is very short. In addition, in this case, even when the first pressure applied to the front clutch 110 is not significantly higher than the fill-up pressure applied to the rear clutch 120, the front clutch 110 Sufficient time can be secured so that the rear end clutch 120 is engaged first.

Furthermore, in some cases, the hydraulic pressure of the fill-up pressure applied to the rear clutch 120 is first applied, and then the hydraulic pressure of the first pressure applied to the front clutch 110 is applied. It is also possible.

In addition, by setting the first pressure applied to the front clutch 110 to a value higher than the fill-up pressure to the rear clutch 120, the front clutch 110 is able to control the rear clutch 120. ), and it is preferable to control the maximum hydraulic pressure that can be set so that the shear clutch 110 can be fastened as quickly as possible.

Furthermore, after applying the loss filling pressure to the rear clutch 120 for a predetermined loss filling time setting value, a driving pressure lower than the loss filling pressure is applied, but the loss filling time setting value is greater than the predetermined loss filling time reference value. It is desirable to set it to a long value. At this time, it is preferable that the loss filling time reference value is determined to sufficiently include the deviation of the loss filling time that may occur in the clutch, and accordingly, the loss filling time setting value is set to a value longer than the loss filling time reference value, As excessive loss and filling of the clutch occurs, the input shaft speed waveform, which was increased by affecting the driving force of the input shaft of the rear clutch 120, decreases.

Therefore, in the clutch correction method and system of the automatic transmission 100 according to an embodiment of the present invention, after detecting a first time point at which the speed of the input shaft of the rear clutch 120 increases and then decreases, the detected first time point From this, it is possible to calculate the loss filling time for the rear clutch 120.

More specifically, as can be seen in FIG. 8, when the hydraulic pressure for the front clutch 110 and the rear clutch 120 starts to be applied at the time t ₀ , a higher hydraulic pressure is applied to the front clutch 110 Therefore, at the time t ₁ (see FIG. 6), the shear clutch 110 is first engaged.

Then, as the loss of the rear clutch 120 is filled, the speed gradually increases from the state where the input shaft of the rear clutch 120 is stopped or driven at a low speed due to the viscosity of the lubricating oil (FIG. 8 (C ) reference).

Then, as shock occurs due to excessive filling loss in the rear clutch 120, the speed of the input shaft is reduced by affecting the input shaft driving force of the rear clutch 120 (see (D) in FIG. 8).

Accordingly, in the present invention, at a time point after the fastening of the front clutch 110 (t ₁ in FIG. 8 ), a first time point at which the speed of the input shaft of the rear clutch 120 increases and then decreases (t ₃ in FIG. 8 ) is detected (FIG. 8(E)), and the loss filling time for the rear clutch 120 is calculated using the first time point.

More specifically, the input shaft speed data of the rear clutch 120 is differentiated, the slope becomes 0, and the time point at which the sign of the differential value (slope) is changed back and forth is detected as the first time point for the rear clutch 120. can do.

In addition, as can be seen in FIG. 9, since the speed of the input shaft of the rear clutch 120 may increase or decrease irregularly due to measurement errors or external influences (see (F) in FIG. 9), In order to prevent an error according to the above, a first point in time when the speed of the input shaft of the rear clutch 120 increases to a greater extent than a first predetermined reference value and then decreases to a greater extent than a second predetermined reference value may be detected.

Furthermore, since the first time when the speed of the input shaft of the rear clutch 120 increases and then decreases is the time when the speed of the input shaft decreases while shock occurs due to excessive filling loss in the rear clutch 120, the rear clutch 120 ), which may have a slight difference from the optimal value of the loss filling time for ), by calculating the loss filling time by multiplying the detected first time point by a predetermined correction value, more accurate loss for the rear clutch 120 Filling time can be calculated.

Of course, in the present invention, it is not necessary to calculate the lost filling time by multiplying the first time point by a predetermined correction value, and the lost filling time may be calculated using a predetermined function at the first time point. Correction may be performed by using the detected first time point as the loss and filling time for the rear clutch 120 without a separate calculation process if necessary, such as when the difference between the time point and the loss/filling time is small.

Accordingly, in the clutch correction method and system of the automatic transmission 100 according to an embodiment of the present invention, the hydraulic pressure fill-up time of the clutch may vary due to wear caused by the use of the clutch or deviation of parts such as clutch valves. It is possible to effectively improve problems of poor shifting quality, such as shift shock or shift delay during shifting while an error occurs, and to this end, it is possible to accurately correct the clutch without having additional parts such as a hydraulic pressure sensor.

The above description is merely illustrative of the technical idea of the present invention, and various modifications, changes, and substitutions can be made by those skilled in the art within the scope of not departing from the essential characteristics of the present invention. It will be possible. Therefore, the embodiments disclosed in the present invention and the accompanying drawings are not intended to limit the technical idea of the present invention, but to explain, and the scope of the technical idea of the present invention is not limited by these embodiments and the accompanying drawings. . The protection scope of the present invention should be construed by the following claims, and all technical ideas within the equivalent range should be construed as being included in the scope of the present invention.

(1): agricultural work vehicle (2): engine
(50): transmission (100): automatic transmission
(101): Piston (102): Plate
(103): disc (104): return spring
(105): clutch valve (110): front clutch
(120): rear clutch (130): first speed sensor
(140): second speed sensor (160): control unit

Claims (8)

In the controller 160, the shear clutch fastening step of controlling the shear clutch 110 to be fastened (S100);
An input shaft speed measurement step (S200) of measuring an input shaft speed of the rear clutch 120 while applying hydraulic pressure to the rear clutch 120 at a predetermined fill-up pressure;
an input shaft speed increase/decrease time point detection step (S300) of detecting a first time point at which the input shaft speed of the rear clutch 120 increases and then decreases; and
A hydraulic pressure filling time calculation step (S400) of calculating a loss filling time for the rear clutch 120 from the first time point;
including,
In the step of detecting the input shaft speed increase/decrease point (S300),
At the time point after the engagement of the shear clutch 110,
The clutch correction method of the automatic transmission (100), characterized in that detecting a first time point when the speed of the input shaft of the rear clutch (120) increases and then decreases. According to claim 1,
In the shear clutch fastening step (S100),
Applying hydraulic pressure of a predetermined first pressure to the shear clutch 110 so that the shear clutch 110 is fastened,
The clutch correction method of the automatic transmission (100), characterized in that the first pressure is greater than the fill-up pressure. According to claim 2,
When the hydraulic pressure of the first pressure is applied to the shear clutch 110,
The clutch correction method of the automatic transmission (100), characterized in that it is set to be applied at the same time as the hydraulic pressure of the fill-up pressure is applied to the rear clutch (120). According to claim 1,
In the step of measuring the speed of the input shaft (S200),
After applying the loss filling pressure for a predetermined loss filling time set value to the rear clutch 120, a driving pressure lower than the loss filling pressure is applied,
The clutch correction method of the automatic transmission (100), characterized in that the loss filling time setting value is set to a value longer than a predetermined loss filling time reference value. According to claim 4,
A clutch correction method of an automatic transmission (100), characterized in that setting a maximum value that can be set as the loss filling time setting value. delete According to claim 1,
In the step of detecting the input shaft speed increase/decrease point (S300),
Detecting a first time point when the speed of the input shaft of the rear clutch 120 is greatly increased by a predetermined first reference value and then greatly decreased by a predetermined second reference value. Clutch correction method of an automatic transmission (100). According to claim 1,
In the hydraulic filling time calculation step (S400),
The clutch correction method of the automatic transmission (100), characterized in that the loss filling time is calculated by multiplying the first time point by a predetermined correction value.

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