GETRAG Getriebe- und Zahnradfabrik Hermann Hagenmeyer GmbH & Cie KG Patent applications |
Patent application number | Title | Published |
20140190309 | MOTOR VEHICLE DRIVE TRAIN AND METHOD OF OPERATING A DRIVE TRAIN - A drive train for a motor vehicle, having a drive unit which comprises a prime mover, a multi-step transmission and a power-splitting device which distributes the driving power between a first and a second drive shaft of a driven axle. The transmission comprises a transmission input and a first sub-transmission and a second sub-transmission. The prime mover is directly connected to the transmission input, wherein each of the two drive shafts is assigned a first and a second friction clutch. The first friction clutches connect the respective drive shaft to the first sub-transmission. The second friction clutches connect the respective drive shaft to the second sub-transmission. The first friction clutches and the second friction clutches form the power-splitting device. | 07-10-2014 |
20140080666 | CLUTCH ARRANGEMENT AND DRIVETRAIN FOR A MOTOR VEHICLE - A clutch arrangement for a drivetrain of a motor vehicle. The clutch arrangement has a first clutch, a second clutch, and a hydraulic actuator arrangement. The actuator arrangement has a first hydraulic cylinder for actuating the first clutch and a second hydraulic cylinder for actuating the second clutch. The actuator arrangement has an actuator pump which is driven by means of an electric motor and which can be operated in two directions of rotation. The actuator pump has a first port, which is connected to the first hydraulic cylinder, and a second port, which is connected to the second hydraulic cylinder. The actuator arrangement actuates the first or the second clutch depending on the direction of rotation of the actuator pump. | 03-20-2014 |
20140073480 | METHOD FOR CONTROLLING A HYBRID DRIVETRAIN - Method for controlling a hybrid drivetrain which has a drive engine and a dual-clutch gearbox which, to establish two power transmission paths, has a first and a second friction clutch and a first and a second component gearbox. An electric machine is connected to the second power transmission path downstream of the second friction clutch in the power flow direction. Purely electric driving operation can be realized by means of the second component gearbox assigned to the second friction clutch. In the event of a gear change in the second component gearbox during purely electric driving operation, a fill-in torque is provided. The fill-in torque is provided from inertial energy of the previously cranked, non-fired drive engine, wherein the drivetrain also has an electric starter motor, and wherein the starter motor is used to crank the drive engine. | 03-13-2014 |
20140060994 | PARKING LOCK ARRANGEMENT - Parking lock arrangement, having a parking lock mechanism, which can be moved between a parking lock position and a release position, and having an operating device which is supported so that it can rotate about a first axis and which is designed, through rotation, to operate the parking lock mechanism. The parking lock arrangement further has an actuating mechanism and a coupling device which couples the operating device to the actuating mechanism. The actuating mechanism is supported so that it can rotate about a second axis relative to a drum, which by means of a drive is rotatable about the second axis. | 03-06-2014 |
20140050592 | TEMPERATURE DETECTION METHOD IN A HYDRAULIC ARRANGEMENT - Method for determining the temperature of a fluid in a hydraulic arrangement for a motor vehicle. The hydraulic arrangement has a pump arrangement, which is driven by means of a drive motor, and a pressure sensor, which is connected to a discharge port of the pump arrangement and is used to measure the pressure of the fluid. The pump arrangement is connected to a tank via a leakage point. The temperature of the fluid is determined on the basis of a relationship between a state variable of the drive motor and the temperature of the fluid at a predetermined pressure of the fluid, said relationship being specific to the hydraulic arrangement. | 02-20-2014 |
20140041986 | ACTUATOR ARRANGEMENT FOR A DRIVE TRAIN - Actuator arrangement for a drive train. The actuator arrangement has an actuator pump driven by electric motor, and a clutch actuator, which is designed for actuation of a friction clutch of the drive train and which is connected to a discharge port of the actuator pump. The actuator arrangement has a parking lock actuator, which is designed for actuation of a parking lock arrangement of the drive train. The parking lock actuator has an open position, in which the parking lock arrangement is released, and a closed position, in which the parking lock arrangement is closed. The parking lock actuator is likewise connected to the discharge port of the actuator pump. The parking lock arrangement can be retained in at least one of the open position and the closed position by means of a retaining device. | 02-13-2014 |
20140033844 | STEP-VARIABLE TRANSMISSION FOR A MOTOR VEHICLE - Step-variable transmission for a motor vehicle. The transmission has a gearbox inlet, which can be connected to a drive motor, and has a gearbox outlet, which can be connected to a driven axle of the motor vehicle. The step-variable transmission is designed for establishing at least a first gear and a further gear. Power in the first gear is transmitted from the gearbox inlet to the gearbox outlet by way of a first clutch arrangement. Power in the further gear is transmitted from the gearbox inlet to the gearbox outlet by way of a second clutch arrangement. The second clutch arrangement comprises a powershift clutch. The first clutch arrangement comprises an overrunning clutch. | 02-06-2014 |
20140012452 | METHOD FOR OPERATING A HYBRID DRIVETRAIN - A method for operating a hybrid drivetrain for a motor vehicle. Power is provided by an internal combustion engine in a first operating mode. Power is provided by an electric machine in a second operating mode. A change from one operating mode into the other operating mode is carried out according to the state of at least one of the drivetrain and the motor vehicle. The change of operating mode is controlled according to at least one switching variable, which is a function of a requested power target value. | 01-09-2014 |
20130306431 | ACTUATOR ARRANGEMENT FOR A MOTOR VEHICLE DRIVE TRAIN - Actuator arrangement for a drive train, which has at least one friction clutch for transmitting drive torque and has a transmission. The friction clutch can be actuated by means of a hydraulic clutch cylinder, which is connected directly to a pump port of a pump driven by an electric motor in order to actuate the friction clutch, such that the friction clutch can be actuated by varying the speed of the pump. The actuator arrangement has a parking lock actuator device for actuating a parking lock arrangement of the drive train. The parking lock actuator device has at least one hydraulic parking lock cylinder, which can be connected to the pump, such that the parking lock arrangement can be actuated by varying at least one of the direction of rotation or the speed of the pump. | 11-21-2013 |
20130298709 | DUAL COUPLING GEAR MECHANISM - Dual coupling gear mechanism for a motor vehicle, having a first input shaft and a second input shaft and having a first and a second countershaft, the input shafts and the counter-shafts being connected to each other by means of a plurality of shiftable wheel sets in order to establish at least seven forward gear stages and at least one reverse gear stage. At least one wheel set has a fixed wheel which is connected to one of the input shafts and two loose wheels which are rotatably supported on the first and on the second counter-shaft, respectively, and which are in engagement with the fixed wheel. An electric engine is connected to a loose wheel of one of the wheel sets or can be connected thereto by means of a shift clutch. | 11-14-2013 |
20130256089 | PARKING-LOCK ARRANGEMENT AND MOTOR VEHICLE TRANSMISSION - Parking-lock arrangement for a motor-vehicle transmission. The parking-lock arrangement has a parking-lock wheel which is mounted such that it can be rotated about a first axis. The parking-lock arrangement has a parking-lock pawl which is mounted such that it can be moved between a locking position and a release position. The parking-lock arrangement has an actuating arrangement which actuates the parking-lock pawl and is mounted such that it can be rotated about a second axis over an angular range. The angular range has a first angular section, within which the parking-lock pawl can be actuated, and a second angular section, within which the parking-lock pawl is held in a position. | 10-03-2013 |
20130130861 | CLUTCH ARRANGEMENT FOR A VEHICLE DRIVE TRAIN - A clutch arrangement has a rotary element which is mounted on a housing so as to be rotatable about a longitudinal axis and which defines a cavity. A clutch has a first clutch element and a second clutch element which can be coupled thereto, which clutch is arranged in the cavity. The first clutch element or the second clutch element is coupled to the rotary element. A fluidic actuator arrangement has a first and a second actuator element which can move relative to one another in order to activate the clutch. At least the first actuator element can be secured in a rotationally fixed fashion to the housing and extends from outside the rotary element into the cavity. | 05-23-2013 |
20130104683 | SHIFT ARRANGEMENT FOR A MOTOR VEHICLE GEARBOX | 05-02-2013 |
20130059668 | SHAFT ARRANGEMENT FOR A TRANSMISSION - A shaft arrangement for a transmission comprises a shaft having an axial bore connected to an oil supply system, at least one loose wheel rotatably supported on the shaft via a bearing, and a shift clutch arrangement which connects the loose wheel for rotation with the shaft. The shift clutch arrangement comprises a guide sleeve connected for rotation with the shaft via a tooth engagement. The axial bore supplies oil to the bearing and shift clutch arrangement via a transversal bore in an area of the tooth engagement between the guide sleeve and the shaft. A channel in at least one of an area of a toothing of the guide sleeve and an area of the toothing of the shaft, which, together with the guide sleeve toothing, forms the tooth engagement connects the transversal bore with an area between the guide sleeve and the bearing. | 03-07-2013 |
20130056322 | CLUTCH ARRANGEMENT, MOTOR VEHICLE DRIVE TRAIN AND CLUTCH ACTIVATION METHOD - A clutch arrangement for connecting two components, which can rotate relative to one another, of a motor vehicle drive train, in particular for connecting two shafts of a transmission or a shaft to an idler gear rotatably mounted on the shaft. The clutch arrangement has a clutch and an actuator arrangement. The clutch is opened in a first actuator position of an actuator section of the actuator arrangement. The clutch arrangement has a locking device for locking the actuator section in a locked position to keep the clutch closed. The locking device has a slotted-link guide with a first guide section and a second guide section for the actuator section, wherein the locked position can be reached from the first actuator position via the first guide section, and wherein the first actuator position can be reached from the locked position via the second guide section. | 03-07-2013 |
20130055851 | CLUTCH ARRANGEMENT AND METHOD FOR ACTUATING SAME - Clutch arrangement for a motor vehicle drive train. The clutch arrangement has a first and a second clutch which are embodied as normally open clutches. The first clutch can be activated from an open position into a closed position by means of a first actuator arrangement. The second clutch can be activated from an open position into a closed position by means of a second actuator arrangement. The clutch arrangement has a locking device for locking a clutch in the closed position. Only the second clutch can be locked in the closed position by means of the locking device, while the first clutch cannot be locked in the closed position. Thus, the first actuator arrangement has to be supplied with energy in order to secure the first clutch in the closed position. | 03-07-2013 |
20130036863 | HYBRID DRIVETRAIN - A hybrid drivetrain for a motor vehicle has an internal combustion engine, an electric machine, and a transmission arrangement for setting at least two different gears. The internal combustion engine and the electric machine are coupled to an input element of the transmission arrangement. A differential is coupled to an output of the transmission arrangement and is adapted to distribute motive power to two drive shafts. The electric machine and the internal combustion engine are coupled to a transmission input shaft of the transmission arrangement by way of a spur gear train. | 02-14-2013 |
20120325048 | HYBRID DRIVE TRAIN AND GEAR-CHANGING METHOD - A hybrid drive train for a motor vehicle, having an internal combustion engine for making available internal-combustion-engine drive power. A multi-step transmission has a transmission input and a transmission output. The transmission input can be connected to the internal combustion engine. The multi-step transmission is designed to set up a multiplicity of different forward gear ratios. An electric machine makes available electromotive driver power. | 12-27-2012 |
20120316023 | MOTOR VEHICLE DRIVE TRAIN - Drive train for a motor vehicle, having an electric machine for providing motive power, and a transmission arrangement. The transmission arrangement has a transmission input shaft and a first and a second gear stage. The transmission input shaft is connected to the electric machine. The drive train has a differential, which is connected to an output of the transmission and is set up to distribute motive power to two drive shafts. The differential is connected to a helically toothed driving gear, which is in engagement with a helically toothed pinion of the transmission output. A pressure pad arrangement absorbs axial forces arising from the helical toothing. | 12-13-2012 |
20120258831 | ELECTRIC MACHINE FOR AN ELECTRIC AXLE OF A MOTOR VEHICLE - An electric machine arrangement for an electric axle of a motor vehicle has an electric machine. The electric machine is connected via a gearbox to at least one drive shaft which can be connected to a driven wheel of the motor vehicle. Further, the machine arrangement has a machine housing. The electric machine has a stator fixed to the housing and a rotor which is connected to an input element of the gearbox. The rotor is rotatably mounted on the machine housing by means of a first and a second rotor bearing section. The first rotor bearing section is connected to a machine output shaft which is connected to the input element of the gearbox. The machine output shaft is guided through the second rotor bearing section in a contactless fashion. | 10-11-2012 |
20120227394 | HYBRID DRIVE TRAIN - A drive train for a motor vehicle has an internal combustion engine and a hydraulically shiftable transmission unit. The input of the transmission can be connected via a clutch arrangement to a crankshaft of the internal combustion engine. The output of the transmission can be connected to driven wheels of the motor vehicle. The crankshaft is connected to a pump shaft which drives a pump arrangement for a hydraulic arrangement, by means of which the transmission unit is shifted and/or lubricated. The pump shaft is connected to an electric machine. The pump shaft is connected to the crankshaft via a constrained motion mechanism. The electric machine is arranged in the axial direction between the constrained motion mechanism and a pump of the pump arrangement. | 09-13-2012 |
20120132022 | Drive Unit for a Motor Vehicle - A drive unit comprises a clutch arrangement and a transmission which is connected to the clutch arrangement by way of a shaft arrangement. A fluid supply device is arranged radially inside the clutch arrangement and around the shaft arrangement, in order to supply the clutch arrangement with fluid. The shaft arrangement extends into the transmission. The transmission comprises a plurality of transmission components along the shaft arrangement. The components are supplied with fluid for at least one of lubrication and cooling purposes. | 05-31-2012 |
20120129614 | SHAFT ARRANGEMENT - Shaft arrangement having a shaft and at least one component, which is arranged on the shaft and which is to be lubricated and/or cooled by means of a fluid, a fluid feed device being designed to feed the fluid to the shaft arrangement radially from outside. | 05-24-2012 |
20110278129 | METHOD FOR ACTUATING A FRICTION CLUTCH - A method for actuating a friction clutch, in particular for a motor vehicle drivetrain. The friction clutch is acted on with a clutch pressure generated by a hydraulic actuator arrangement which has an electrically actuable fluid source and which has a hydraulic actuator whose state is characterized by an actuator actual value. The actuator actual value is related to the clutch pressure. The method has the steps: forming a regulation-oriented model of the actuator arrangement, which model has at least one fluid source actuating variable as an input and at least the actuator actual value as a flat output and which model can be inverted; forming an inverse model of the actuator arrangement; and inputting an actuator nominal value into the inverse model and using the model actuating variable which emerges therefrom for actuating the fluid source. | 11-17-2011 |
20110138959 | SHIFT ARRANGEMENT - A shift arrangement for a motor vehicle transmission has a multiplicity of gear stages. The shift arrangement has a shift shaft which is aligned in an axial direction and has a multiplicity of shift members which are designed to engage on shift sleeves which can be displaced axially in order to shift the gear stages. The shift shaft is mounted so as to be rotatable in order to select in each case one of the shift sleeves and so as to be axially displaceable in order to shift the gear stages. The shift members have in each case one driver device for coupling to the shift shaft. The shift shaft has a coupling arrangement which is designed to engage, depending on the rotational position of the shift shaft, in each case with a driver device of one of the shift members in order to couple that shift member axially to the shift shaft. The driver devices have in each case a multiplicity of at least three lugs which are aligned in the axial direction and which make it possible for the associated shift member and the shift shaft to be coupled to one another in a multiplicity of axial relative positions. | 06-16-2011 |
20110125378 | METHOD FOR ADAPTING THE KISS POINT - A method for setting the engagement point of a friction clutch of a multi-step transmission for a motor vehicle. The friction clutch can be activated, controlled, by means of a clutch actuator. A set point value of the clutch actuator is set for the engagement point of the friction clutch as a function of a time profile of a physical variable which occurs starting from a transition state after activation of the friction clutch to a transition value. An electric machine is connected to the multi-step transmission. Influencing of the multi-step transmission by the electric machine is taken into account in the setting of the engagement point of the friction clutch. | 05-26-2011 |
20110057522 | HYBRID DRIVE TRAIN AND ELECTRICAL MACHINE - The present invention relates to a hybrid drive train for a motor vehicle, comprising a clutch arrangement having a first rotatable clutch part and a second rotatable clutch part, which clutch parts can be separated from one another and which can be connected to one another, and comprising an electrical machine which is arranged concentrically with respect to the first clutch part and has a rotor, wherein the rotor is connected with the first clutch part and comprises a plurality of magnetic flux influencing portions, the magnetic flux influencing portions being arranged distributed over the circumference of the rotor with a predetermined rotor pitch. Here, the first clutch part comprises a shaft toothing that is adapted to the rotor pitch. | 03-10-2011 |
20110010061 | APPARATUS AND METHOD FOR PREVENTING INCORRECT GEAR SHIFTS IN AUTOMATIC TRANSMISSIONS OF MOTOR VEHICLES | 01-13-2011 |
20110004383 | METHOD FOR MONITORING A DRIVE TRAIN - A method for monitoring an automated drive train of a motor vehicle, in particular of a passenger car. The drive train comprises a drive engine, a friction clutch arrangement and a multi-speed transmission. The friction clutch arrangement connects or disconnects the drive engine to/from the multi-speed transmission. The method comprises the step of determining at least one rotational speed parameter of the drive train; checking whether the rotational speed parameter is greater than a first threshold value for a first predetermined time interval, and initiating a measure in the drive train in order to lower the rotational speed parameter if the rotational speed parameter is greater than the first threshold value for the first predetermined time interval. | 01-06-2011 |
20100326223 | RATTLE-FREE COMPONENT PAIRING - A component pairing comprises a first component with a first component toothing and comprises a second component with a second component toothing which is in engagement with the first component toothing in order to be able to transmit a drive force in a drive direction via the component toothings. The first component is also assigned a first anti-rattle toothing. An anti-rattle component is fastened to the second component, which anti-rattle component has a second anti-rattle toothing which is in engagement with the first anti-rattle toothing. The anti-rattle component is mounted so as to be displaceable relative to the second component in the drive direction. The second component and the anti-rattle component are assigned in each case one friction section. The friction sections are in frictional engagement with one another. | 12-30-2010 |
20100282561 | METHOD FOR KISS POINT ADAPTATION - A method for adjusting the point of engagement of a friction clutch of a step-variable transmission for a motor vehicle, in particular a friction clutch of a dual clutch transmission. The friction clutch is controllably actuated by means of a clutch actuator and at least one synchronizer shifting clutch is controllably actuated by means of a shift actuator for the engagement and disengagement of a gear ratio of the spur-gear transmission. A set-point of the clutch actuator for the point of engagement of the friction clutch is adjusted as a function of a speed gradient value, which ensues from a transitional state with the friction clutch actuated and the shifting clutch actuated, once the shifting clutch is opened. The transitional state is established by setting the clutch actuator and the shift actuator to a respective transitional value substantially at the same time or, at least in sections, in parallel. | 11-11-2010 |
20100241325 | SYSTEM AND METHOD FOR OPERATING A DUAL CLUTCH TRANSMISSION DURING FAILURE OF AN ENGINE SPEED SENSOR OR A BUS CONNECTION BETWEEN CONTROL MODULES - It is disclosed a system and method for maintaining the operation of an automated transmission ( | 09-23-2010 |
20100240465 | SHAFT ARRANGEMENT FOR A TRANSMISSION - A shaft arrangement for a transmission comprises a shaft having an axial bore into which oil can be introduced via an oil supply system, at least one loose wheel which is rotatably supported on the shaft via a bearing, and a shift clutch arrangement which is arranged for connecting the loose wheel with the shaft in a rotationally fixed manner. The shift clutch arrangement comprises a guide sleeve which is connected with the shaft via a tooth engagement in a rotationally fixed manner. The axial bore is connected via at least one transversal bore with the outer circumference of the shaft, so as to supply oil to the bearing and to the shift clutch arrangement. The transversal bore is arranged in an area of the tooth engagement between the guide sleeve and the shaft. A channel is provided in at least one of an area of a toothing of the guide sleeve and an area of the toothing of the shaft, which, together with the guide sleeve toothing, forms the tooth engagement. The channel connects the transversal bore with an area between the guide sleeve and the bearing. | 09-23-2010 |
20100187067 | ACTUATING MECHANISM FOR ENGAGING AND DISENGAGING A SEPARATING CLUTCH, WITH ROTATABLE CAM SEGMENT - The invention relates to an actuating mechanism for engaging and disengaging a separating clutch of a single-clutch or multiple-clutch transmission, which has a housing, for a motor vehicle, having: an actuating drive; a cam segment which has a curved recess and which is rotatable about a first bearing, said first bearing being fixed with respect to the housing, and which can be rotated by the actuating drive in an engagement rotational direction or a disengagement rotational direction; and an engagement fork which is rotatable about a second bearing, said second bearing being fixed with respect to the housing, and which is coupled at one side of the fork to the cam segment by means of a cam follower and which can be coupled on an opposite side of the fork to the separating clutch in such a way that the separating clutch is closed in the event of a rotation of the cam segment in the engagement rotational direction and the separating clutch is opened in the event of a rotation of the cam segment in the disengagement rotational direction. The cam follower engages into the curved recess and being guided by a contour of the curved recess in the event of a rotation of the cam segment; with the contour being shaped such that the cam follower is offset in a radial direction of the cam segment in the event of an actuation of the actuating drive (FIG. | 07-29-2010 |
20100187026 | ELECTRICAL AXLE ASSEMBLY - An electrical axle assembly for a motor vehicle comprises a first electric machine, which is rotationally fixed to a first input shaft, and a second electric machine, which is rotationally fixed to a second input shaft. The first input shaft and the second input shaft are arranged coaxially along an input axle. The axle assembly further comprises a first output shaft, which can be connected to a first driving wheel, and a second output shaft, which can be connected to a second driving wheel. The first output shaft and the second output shaft are arranged coaxially along an output axle. Further, they are connected to the associated input shaft via at least one transmission stage, in such a way that the driving wheels can be driven independently of one another by the electric machines. At least one of the shafts here has a bearing journal, which is radially supported in an axial bore of a shaft coaxial therewith. | 07-29-2010 |
20100184561 | METHOD FOR CONTROLLING AN UPSHIFT PROCESS IN A DUAL-CLUTCH GEARBOX - The invention relates to a method for controlling a shift process in a dual-clutch gearbox having a dual-clutch gearbox input shaft connected to a drive engine, having two friction clutches and having two partial gearboxes. The method comprises the steps of detecting a demand for a shift from a source gear into a target gear, with the source gear and the target gear being assigned to one of the two partial gearboxes, opening the friction clutch which is assigned to the one partial gearbox and closing the friction clutch assigned to the other partial gearbox in order to transmit drive power via an intermediate gear of the other partial gearbox, disengaging the source gear and temporarily exerting pressure in the friction clutch assigned to the one partial gearbox before the engagement of the target gear, with the rotational speed of the one partial gearbox being reduced as a result of the pressure-exerting operation by virtue of a drag torque, opening the friction clutch assigned to the other partial gearbox and closing the friction clutch assigned to the one partial gearbox in order to transfer drive power to the target gear without an interruption in tractive force. | 07-22-2010 |
20100160113 | METHOD FOR SHIFTING A GEAR IN A MULTI-STAGE GEARBOX OF A MOTOR VEHICLE AS A FUNCTION OF THE DRIVE INPUT SHAFT ROTATIONAL SPEED - Method for shifting, in particular engaging and/or disengaging, gears in an automatic multi-stage gearbox of a motor vehicle, wherein the gearbox comprises a drive input shaft ( | 06-24-2010 |
20100152986 | METHOD FOR CONTROLLING A DUAL CLUTCH TRANSMISSION - A method for controlling dual clutch transmission with at least two partial drive trains, each arranged to be coupled with an engine by means of a clutch, in that, a first clutch of an actively operated partial drive train currently transmitting torque is opened, whereas a second clutch of the partial drive train not actively operated is closed in the already engaged gear and determining a reduction of a maximum possible lateral guiding force of at least one drive wheel and determining torque transmitted by the clutches, wherein, in the case of reduction of the maximally possible lateral guiding force below a default value and in the case that torque is transmitted by both clutches, the torque of one of the clutches is reduced. | 06-17-2010 |
20100139454 | STEP VARIABLE TRANSMISSION FOR A MOTOR VEHICLE - A step variable transmission for a motor vehicle has a plurality of forward gear stages and at least one reverse gear stage. The transmission comprising: a drive input shaft arrangement, a drive output shaft arrangement, and a plurality of wheel sets which have loose wheels and shift wheels, wherein the shift wheels are rotatably mounted on a shaft arrangement and can be rotationally fixedly connected to the associated shaft arrangement by means of respective shift clutches. | 06-10-2010 |
20090255773 | ACTUATOR ARRANGEMENT FOR A MOTOR VEHICLE CLUTCH - An actuator arrangement for a clutch of a drive train for motor vehicles. The clutch is prestressed into an opened position and can be activated electromechanically. An electric motor can be coupled to the clutch in order to activate it. A control unit actuates the electric motor. The actuator arrangement has a safety device which is connected to the electric motor parallel to the control unit. The safety device is configured, in the case of a fault state, to supply electrical power to the electric motor independently of the control unit in order to open the clutch. | 10-15-2009 |