KR20170104385A - Method for starting-up an automated clutch system - Google Patents

Abstract

The present invention relates to a method for starting an operation of an automatic clutch system, and in a case of the method above, the determination of a pressure-based clutch characteristic curve is performed, and hydraulic sections (6, 8, 10) of the clutch system are depressurized before the determination of the clutch characteristic curve. In a method in which a soaking effect is reliably compensated, if the determination of the pressure-based characteristic curve is required in a category for starting an operation of the clutch system, a parameter is transmitted to the clutch system, wherein the parameter sets, in advance, the number of times of a cycle required for the depressurization of the hydraulic sections (6, 8, 10) as the cycle for opening and tightening a clutch (11) of the clutch system.

Description

[0001] METHOD FOR STARTING-UP AN AUTOMATED CLUTCH SYSTEM [0002]

The invention relates to a method for starting an automatic clutch system, in which the determination of the pressure-based clutch characteristic curve is carried out and the hydraulic section is depressurized before the determination of the clutch characteristic curve.

Automated clutch systems usually operate the clutch through a hydraulic section. Due to the expansion processes of the pressure medium (e.g. oil or brake fluid) contained in the hydraulic section as a result of the heating of the hydraulic section, the hydraulic section must be depressurized in relation to the expansion periodically, Undesired displacement of the clutch characteristic curve of the clutch system occurs. This depressurization is carried out through the positioning of the operating piston within the hydraulic section, at a position where the hydraulic section is in communication with the storage tank or low pressure line associated with the exchange of the pressure medium. The process by which the high pressure line communicates with the low pressure line or storage tank is referred to as sniffing and the communication opening is referred to as the sniffing bore. In this case, the fluid can flow in both directions.

There are hydraulic systems in which the effect of varying the hydraulic section referred to as the "soaking" effect occurs when the low pressure line or the sniffing bore communicating the reservoir with the hydraulic section is opened for a relatively longer period of time. In this "soaking" effect, the sealing portion of the sniffing bore loses elasticity. The variation influences the determination of the pressure-based clutch characteristic curve to be executed in the future. However, since the hydraulic section is depressurized before the determination of the pressure-based clutch characteristic curve, the "soaking" effect always occurs.

It is an object of the present invention to specify a method for starting operation of an automatic clutch system in which the "soaking" effect can be compensated.

The problem is solved by the present invention in that when the determination of the pressure-based characteristic curve in the range of the start of operation of the clutch system is required according to the present invention, the number of times of the period required for the depressurization of the hydraulic section as the period for opening and tightening the clutch of the clutch system The preset parameter is solved by being transmitted to the clutch system. Depending on the predetermined number of clutch actuation, the hydraulic section is sufficiently depressed and the "soaking" effect is compensated for, nevertheless. Accordingly, the subsequent determination of the pressure-based clutch characteristic curve can be reliably performed.

In a preferred manner, the parameters are automatically transferred from the external device to the clutch system. In this case, the manual intervention of the operator with respect to the external device can be ruled out, since the transmission of the number of cycles is performed automatically.

In one embodiment, a diagnostic tester is used as an external device. Since the diagnostic tester is essentially provided at the start of operation at the factory or at the start of re-operation after repair at the workshop, the instruction of the diagnostic tester for starting operation includes only the number of cycles of opening and fastening the clutch of the clutch system It only needs to be extended by an additional parameter. As a result, a particularly simple method for compensating for the "soaking" effect is provided.

In one variation, a high pressure is created inside the hydraulic section to open and fasten the clutch, and the hydraulic section is depressurized in a short time after each cycle of opening and fastening the clutch. Thus, the system-specific multiple iterations simply compensates for the "soaking" effect.

In one improvement, the execution of a predetermined number of cycles of opening and closing the clutch of the clutch system is performed immediately prior to determination of the pressure-based clutch characteristic curve. Thereby, it is ensured that no time for variation of the hydraulic section is provided, so that immediately subsequent determination of the clutch characteristic curve achieves accurate determination of the clutch characteristic curve.

In one embodiment, the pressure-based clutch characteristic curve is provided in the automated clutch system and is formed as a pressure-displacement characteristic curve of the clutch actuator that actuates the clutch. To this end, only two sensors are required to measure the pressure in the hydraulic section and the corresponding displacement in which the clutch actuator travels, and the desired clutch characteristic curve is determined from the pressure and displacement.

In one embodiment, the determination of the pressure-based clutch characteristic curve is performed through the detection of the contact point. The contact point represents a node of the clutch characteristic curve and represents the position of the clutch at which the clutch starts transmitting clutch torque. By virtue of the contact points, the inherent default characteristic curve is displaced through the displacement of the clutch actuator.

In a preferred manner, the determination request of the pressure-based clutch characteristic curve is performed through the upper control unit. Since the control units are essentially provided in the vehicle, the starting-up routine can be executed simply.

The present invention allows for a number of embodiments. One embodiment thereof will be described in more detail with reference to the single figure shown in the drawings.

1 is a schematic view showing a hydrostatic clutch operating system including an hydraulic hydraulic transmission section;

Fig. 1 shows the construction of a hydrostatic clutch actuator 1 for use in, for example, a twin clutch system (dry or wet). The positive hydraulic clutch actuator 1 includes a clutch control unit 3 for controlling the positive hydraulic clutch actuator 1 on the master side 2.

The clutch actuator 1 is kinematically connected to the piston 5 of the master cylinder 6 via the transmission 4. [ When the position of the clutch actuator 1 and thus the position of the piston 5 in the master cylinder 6 following the displacement of the actuator to the right are changed, the volume of the master cylinder 6 is varied so that the master cylinder 6 The pressure p transmitted through the pressure medium 7 to the slave side 9 via the hydraulic line 8 is formed. At the slave side 9, the pressure p of the pressure medium 7 in the slave cylinder 10 causes a displacement fluctuation to be transmitted to the clutch 11 to actuate the clutch. The master cylinder 6 is in communication with the compensation tank 12 and the communication opening 13 of the master cylinder 6 is connected to the piston 5 of the master cylinder 6 if the piston 5 is at this predetermined position. Lt; / RTI > The piston 5 reaches this position by being further moved to the left from the position shown. In this position, the pressure medium 7 is not normally operated and the pressure p in the master cylinder 6 is minimum. By opening the communication opening 13, it becomes possible to compensate the pressure and / or the volume and / or the temperature of the pressure medium 7. This process is also referred to as sniffing, and the position of the piston 5 in which the communication opening 13, which is referred to as the sniffing bore, is open is referred to as the sniffing position.

The clutch control unit 3 is connected to the diagnostic unit 14 when the clutch system is started or restarted. The diagnostic unit 14 transmits operation start signals to the clutch control unit 3 so that the clutch 11 can execute the corresponding operation start process. For example, in the case of the automatic clutch 11 operated by the clutch actuator 1, the actuator displacement of the clutch actuator 1 is assigned to the pressure p occurring in the hydraulic section in the form of a clutch characteristic curve, The contact point of the clutch 11 indicating the displacement point of the clutch actuator at which the clutch 11 starts to transmit torque is determined. The signal output by the diagnostic unit 14 is expanded by parameters according to the present invention. The parameter includes the number of cycles required for the elimination of the "soaking" effect as the period for opening or fastening the clutch 11 of the clutch system. The cycles for opening and fastening the clutch system are performed immediately prior to determination of the pressure-based clutch characteristic curve, i. E., The determination of the pressure-displacement characteristic curve, and the short-time sniffing is immediately followed each time the cycle ends. During each cycle, a high pressure p is generated within the hydraulic sections 6, 8, 10 to quickly actuate the clutch 11. [ Through the request by the diagnostic unit 14, the periods are automatically carried out through the automatic clutch system and the "soaking" effect is compensated.

1: Hydrostatic Clutch Actuator
2: Master side
3: clutch control unit
4: Transmission
5: Piston
6: Master cylinder
7: Pressure medium
8: Hydraulic line
9: Slave side
10: Slave cylinder
11: Clutch
12: Compensation tank
13:
14: Diagnostic unit

Claims (8)

A method for initiating an activation of an automatic clutch system in which a determination of a pressure based clutch characteristic curve is performed and before the determination of a clutch characteristic curve, the hydraulic sections (6, 8, 10) of the clutch system are depressurized,
If the determination of the pressure-based characteristic curve is required in the category of the start of operation of the clutch system, it is necessary to determine the pressure-based characteristic curve of the period of time required for the depressurization of the hydraulic sections 6, 8, 10 as a period for opening and tightening the clutch 11 of the clutch system. Characterized in that a parameter for presetting the number is transmitted to the clutch system. 2. A method as claimed in claim 1, characterized in that the parameter is automatically transmitted from the external device (14) to the clutch system. A method as claimed in claim 2, characterized in that a diagnostic tester (14) is used as said external device. 4. A device according to any one of the preceding claims, characterized in that a high pressure is created inside the hydraulic sections (6, 8, 10) to open and engage the clutch (11) ) Is depressurized in a short time after each cycle. A method as claimed in at least one of the preceding claims, characterized in that a predetermined number of cycles for opening and fastening the clutch (11) of the clutch system are carried out immediately prior to determination of the pressure-based clutch characteristic curve / RTI > A method according to at least one of claims 1 to 5, characterized in that the pressure-based clutch characteristic curve is formed as a pressure-displacement characteristic curve. A method according to at least one of claims 1 to 6, characterized in that the determination of the pressure-based clutch characteristic curve is carried out through the detection of the contact point of the clutch (11). A method according to at least one of claims 1 to 7, characterized in that the determination request of the pressure-based clutch characteristic curve is carried out via the upper control unit.

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