DE102017114316A1 - Method for avoiding or delaying a short circuit in an electric motor - Google Patents

Abstract

The invention relates to a method for avoiding or delaying a short circuit in an electric motor, which is used to control a hydraulic clutch actuator in a vehicle, preferably a hybrid vehicle, in which the three-phase (U, V, W) controlled electric motor (14). to actuate the clutch actuator with a commutation pattern. In a method in which a short circuit can be avoided or delayed in hydrostatic clutch actuation systems, no phase of the electric motor (14) is actively energized during an interruption of the control of the electric motor (14) with the Kommutierungsmuster.

Description

The invention relates to a method for avoiding or delaying a short circuit in an electric motor, which is used for controlling a hydraulic clutch actuator in a vehicle, preferably a hybrid vehicle, in which the driven over three phases electric motor for actuating the clutch actuator is driven with a commutation pattern.

From the DE 10 2006 058 971 A1 a method for checking a control device of an electric motor is known, wherein the electric motor is used to actuate a transmission, wherein the control device activates a Abschaltmode depending on the operation of the electric motor determining operating parameters, in the proper functioning of the control unit energization of an output stage of the electric motor whose drive is ineffective. To check the shutdown mode, the power stage is energized when the shutdown mode is activated for a start of the electric motor and rated a start of the electric motor as an error.

From the DE 10 2008 050 289 A1 a parallel shift transmission is known, which has two sub-drive trains, each sub-drive train is assigned a friction clutch, which is actuated by an actuator, wherein the actuator is controlled by a control unit. In order to prevent the power supply of the control unit from failing in the event of a line break, a fuse blow or a drop in the plug, it is proposed that the control unit additionally supplied with electrical energy from an external power source by means of a first current-carrying line run parallel to the first line second live line, which is automatically switched on interruption of the first electrical line.

The actuator comprising an electric motor is designed as a clutch actuator, wherein the clutch is actuated via a hydrostatic path. The clutch actuator in this case has a piston in a master cylinder, which is adjusted by means of the electric motor, wherein a liquid in the hydrostatic section actuated by actuation of the piston of the master cylinder, a piston in a slave cylinder. The piston of the slave cylinder acts on lever spring tips, which lift on actuation of a clutch plate of the clutch disc and thus interrupts the transmission of torque via the clutch. Inoperative, the preloaded lever spring closes the clutch. By applying a Kommutierungsmusters the electric motor is forced into a rotational movement, which is converted via a gear arranged in the actuator in the linear movement of the piston.

In such hydrostatic stretches, a leakage in the hydraulic clutch actuator may occur, resulting in a short circuit between the phase terminals of the three windings and ground of the electric motor, as the hydraulic fluid enriched with water and dirt particles penetrates into the hydrostatic actuator.

The invention has for its object to provide a method for avoiding or delaying short circuits in the hydraulic route.

According to the invention the object is achieved in that during a break in the control of the electric motor with the Kommutierungsmuster no phase of the electric motor is energized active. This has the advantage that thus a short circuit can occur only during operation of the engine. The load profile of the motor thus helps that a short circuit can form late, because the clutch is relatively little opened or closed.

Advantageously, to interrupt the Kommutierungsmusters all phase contacts are de-energized by all output stage switch of the electric motor driving output stage remain unactuated. The tamper-evident detection of a short circuit by evaluation of the voltage drop across the output stage switches can thus be dispensed with.

In one embodiment, the drive is turned off to interrupt the Kommutierungsmusters. This is the easiest way to prevent or delay the short circuit.

In an alternative, the output stage switch arranged in a ground path is short-circuited in a low-impedance manner to interrupt the commutation pattern, and the output stage switch arranged in a current-carrying path is short-circuited in a high-impedance manner. This also prevents a short circuit on the paths of the electric motor.

In one variant, there is no energization of the phases of the electric motor with simultaneous interruption of the control with the commutation pattern and the control of the electric motor with the commutation alternately. Due to the fact that the coupling must be opened or closed relatively seldom, activation with the commutation pattern does not have to be very frequent, because only in the case when the activation occurs with the commutation pattern is a movement of the electric motor caused.

In one embodiment, the commutation pattern for the electric motor is generated by a mutual switching of all connected to the supply voltage output stage switch and all of the ground path integrated power amplifier. Such a commutation is usually part of a sinusoidal commutation.

In one embodiment, the control of the electric motor with the commutation pattern takes place after a movement of the electric motor generated by energizing the active phase. A possible short circuit can thus only occur during operation of the electric motor. However, since this takes place only for a short time, an occurrence of the short circuit can be delayed sufficiently.

Advantageously, a non-actuated closed hybrid disconnect clutch is used as a clutch controlled by the hydraulic clutch actuator.

The invention allows numerous embodiments. One of them will be explained in more detail with reference to the figures shown in the drawing.

• 1 eine vereinfachte Darstellung eines Kupplungsbetätigungssystems zur Betätigung einer automatisierten Kupplung,
• 2 eine Darstellung einer Anordnung der Endstufenschalter in einem Steuergerät für den Elektromotor,
• 3 ein erstes Ausführungsbeispiel einer Ansteuerung der Endstufenschalter bei einer Spannung von 0 Volt,
• 4 ein zweites Ausführungsbeispiel zur Ansteuerung der Endstufenschalter mit einer kleinen Spannung,
• 5 ein Ausführungsbeispiel der Ansteuerung der Endstufenschalter ohne wechselseitiges Schalten,
• 6 ein Ausführungsbeispiel des erfindungsgemäßen Verfahrens mit einer Gegenüberstellung des Standes der Technik.

Show it:

• 1 a simplified representation of a clutch actuation system for actuating an automated clutch,
• 2 a representation of an arrangement of the power stage switch in a control unit for the electric motor,
• 3 a first embodiment of a control of the output stage switch at a voltage of 0 volts,
• 4 a second embodiment for driving the output stage switch with a small voltage,
• 5 An embodiment of the control of the power stage switch without mutual switching,
• 6 An embodiment of the method according to the invention with a comparison of the prior art.

In 1 is a clutch actuation system 1 simplified for an automated clutch. The hydraulic clutch actuation system 1 is in a drive train of a motor vehicle of an unactuated closed hybrid disconnect clutch 2 assigned and includes a master cylinder 3 , via a hydraulic line, also referred to as a pressure line 4 with a slave cylinder 5 connected is. In the slave cylinder 5 is a slave piston 6 movable back and forth, via an actuator 7 and an interposition of a warehouse 8th the coupling 2 actuated. The master cylinder 3 is via a connection opening with a surge tank 9 connectable. In the master cylinder 3 is a master piston 10 mounted axially movable. From the master piston 10 go a piston rod 11 out, in the longitudinal extension of the master cylinder 3 together with the master piston 10 is translationally movable. The piston rod 11 of the master cylinder 3 is via a threaded spindle 12 with an electromotive actuator 13 coupled. The electromotive actuator 13 comprises a designed as a commutated DC motor electric motor 14 and a controller 15 , The threaded spindle 12 sets a rotary motion of the electric motor 14 in a longitudinal movement of the piston rod 11 and thus the master piston 10 around. The coupling 2 is thus by the electric motor 14 , the threaded spindle 12 , the master cylinder 3 and the slave cylinder 5 automated.

In 2 is an interconnection of the output stage switch, referred to as H-bridge 16.1 to 16.6 shown as they are in an output stage in the control unit 15 of the electric motor 14 is arranged, is formed. Here are the upper power stage switch 16.1 to 16.3 with a supply voltage and the lower power stage switch 16.4 to 16.6 connected to ground. At each series connection of an upper and a lower output stage switch 16 is in the middle of a phase of the electric motor 14 connected, the phases usually as U . V and W be designated and each phase a winding of the electric motor 14 energized. The phase connection to the supply voltage is called the high side and the phase connection to the ground is called the low side. So that about a phase U . V . W and the winding connected thereto bears a voltage, at least one upper and one lower end stage of the associated winding must be conductive. By applying a Kommutierungsmusters the electric motor 14 forced into a rotary motion. In the present hydraulic-static clutch actuator, a sinusoidal commutation is used as the commutation pattern. This will always be either the upper power stage switch at the same time 16.1 to 16.3 low impedance and the lower output stage switch 16.1 to 16.3 high-impedance or opposite the upper output stage switch 16.1 to 16.3 high impedance and the lower power stage switch 16.4 to 16.6 low impedance switched. This takes place alternately.

As in 3 shown is at a voltage of 0 Voltage at the output stage a so-called break mode applied, in which the windings on the simultaneous switching of the upper three power amplifiers 16.1 to 16.3 or via the simultaneous switching of the lower three output stages 16.4 to 16.6 be shorted. Such a break mode makes it possible to detect short circuits between phase contacts and ground.

In order to avoid or delay a short circuit, it is done according to 4 allowed a current flow on an active phase for a small voltage. In this configuration, a current flow from the power stage switch 16.2 to 16.3 , from 16.2 to 16.4 and from 16.4 to 16.2 respectively. At the same time, as in 5 disclosed, on a mutual switching of the upper 16.1 to 16.3 and the lower power stage switch 16.4 to 16.6 waived. In this case, none of the six power stage switches 16.1 to 16.6 actuated.

In 6a is shown in chronological order of the method according to the invention, in which the Aktorweg shown over time. After setting the vehicle status "Ignition ON", the control unit 15 either switch off the control with the sinusoidal commutation or it will generate a "break mode" at low voltages. Only when the clutch 2 is to be actuated, the sinusoidal commutation is by the control unit 15 created, which is characterized in the range CW / CCW, with a constant change between the circuit of the upper and the lower power stage switch 16.1 to 16.6 he follows. Is the operation of the clutch 2 completed, the control with the sinusoidal commutation is interrupted again and the control unit 15 switched off or the break mode activated by the control unit 15. The state of the art is for comparison in 6b shown where permanently the sinusoidal commutation at the phases of the electric motor 14 is applied.

The load profile of the electric motor 14 helps with this type of unactuated closed clutch 2 that a short circuit can form late, because the clutch 2 relatively rarely closed and opened.

LIST OF REFERENCE NUMBERS

1

Clutch actuation system

2

clutch

3

Master cylinder

4

hydraulic line

5

slave cylinder

6

slave piston

7

actuator

8th

camp

9

surge tank

10

master piston

11

piston rod

12

screw

13

actuator

14

electric motor

15

control unit

16

amplifier switch

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102006058971 A1 [0002]
• DE 102008050289 A1 [0003]

Claims (8)

Method for avoiding or delaying a short circuit in an electric motor, which is used to control a hydraulic clutch actuator in a vehicle, preferably a hybrid vehicle, in which the over three phases (U, V, W) controlled electric motor (14) for actuating the clutch actuator is driven with a commutation pattern, characterized in that during an interruption of the control of the electric motor (14) with the commutation no phase of the electric motor (14) is actively energized. Method according to Claim 1 , characterized in that to interrupt the Kommutierungsmusters all phase contacts are de-energized by all output stage switch (16) of the electric motor (14) driving power output stage remain unactuated. Method according to Claim 1 or 2 , characterized in that the control is switched off to interrupt the Kommutierungsmusters. Method according to Claim 1 or 2 , characterized in that for interrupting the Kommutierungsmusters arranged in a ground path output stage switch (16.4, 16.5, 16.6) low-resistance short-circuited and arranged in a current-carrying path power switch (16.1, 16.2, 16.3) are short-circuited high impedance. Method according to at least one of the preceding claims, characterized in that no energization of the phases (U, V, W) of the electric motor (14) takes place alternately when the control with the commutation pattern is interrupted and the control of the electric motor (14) with the commutation pattern. Method according to Claim 5 , characterized in that the commutation pattern for the electric motor (14) by a mutual switching of all connected to the supply voltage output stage switch (16.1, 16.2, 16.3) and all incorporated in the ground path power switch (16.4, 16.5, 16.6) is generated. Method according to at least one of the preceding claims, characterized in that the control of the electric motor (14) with the commutation pattern takes place after a movement of the electric motor (14) generated by energizing the active phase (U, V, W). Method according to at least one of the preceding claims, characterized in that as an actuated by the hydraulic clutch actuator clutch (2) an unconfirmed closed hybrid disconnect clutch is used.

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