Class / Patent application number | Description | Number of patent applications / Date published |
477077000 | Clutch, engine, and transmission controlled | 41 |
20080207393 | Clutch Controller, Straddle-Type Vehicle, and Method for Controlling Clutch - Appropriate torque is transmitted via a clutch that does not spend too much time on its engaging operation. A clutch controller controls a degree of engagement of the clutch by actuating a clutch actuator based on a difference between actual transmission torque that is transmitted from a drive-side member of a clutch to a driven-side member of the clutch, and target transmission torque that is supposed to be transmitted from the drive-side member to the driven-side member. The clutch controller also determines whether or not a difference in rotational speed between the drive-side member and the driven-side member of the clutch is reduced at an appropriate rate, and depending on the determination result, corrects the target transmission torque. | 08-28-2008 |
20090069150 | DUAL-CYLINDER GASOLINE ENGINE WITH A CENTRIFUGAL CLUTCH - A dual-cylinder gasoline engine comprising a gasoline engine box, a cylinder I, a cylinder II, a centrifugal clutch and a gear box, wherein the cylinder I and the cylinder II are mounted with the gear box; the centrifugal clutch is installed on one side of the gear box the cylinders are located; the gear box is mounted at the rear of the gear box; and the output shaft of the centrifugal clutch is connected with gears in gear box. When in operation, the crankshaft drives the driving wheel of the clutch to rotate. Thus, the belt is driven and it drives the driven wheel of the clutch to rotate, whereby transferring power to vehicle wheels via the gearbox. The clutch is oil-free. The advantages of the invention include reliable use, convenient maintenance, and smooth operation. | 03-12-2009 |
20090075780 | METHOD AND APPARATUS TO MONITOR A VALVE ADAPTED TO CONTROL MODE TO GEAR TRANSITIONS DURING OPERATION OF AN ELECTRO-MECHANICAL TRANSMISSION - Monitoring operation of an electromechanical transmission having a hydraulic circuit with flow management valves and pressure control solenoids to actuate clutches and pressure monitoring devices to monitor the hydraulic circuit is provided. The transmission operates in fixed gear and continuously variable operating range states. The method comprises controlling position of one of the flow management valves to control operation in one of the operating range states. A fault is detected in the one of the flow management valves based upon outputs of the pressure monitoring devices during steady state operation in one of the continuously variable operating range states. A fault is detected in the one of the flow management valves based upon the output of one of the pressure monitoring devices during a transition in the flow management valve. | 03-19-2009 |
20090105042 | Driving Unit for Vehicle - A driving unit for a vehicle includes a transmission, a motor generator and a centrifugal release mechanism. The transmission is employed for transmitting a driving torque outputted from an engine to an output shaft operatively connected to a plurality of driving wheels. The motor generator is connected to the output shaft via a force transmitting mechanism. The motor generator functions as a motor for driving the output shaft in cooperation with the engine when supplied with electric current and functions as a generator when driven by the output shaft. The centrifugal release mechanism is provided at the force transmitting mechanism. The centrifugal release mechanism interrupts a force transmission between the output shaft and the motor generator in a predetermined driving state of the vehicle in which a running resistance applied to the driving wheels exceeds a driving force of the motor generator applied to the driving wheels. | 04-23-2009 |
20090233761 | Overrun Prevention System for an Automatic Transmission - A system and method for overrun prevention is disclosed. Overrun of a one-way clutch may be prevented by determining a current torque value. When a current torque value approaches a negative value, a shift to a gear without a one-way clutch may be performed. Driving control may be increased by shifting from a gear associated with a one-way clutch when a current torque value approaches a negative value or another shifting parameter determines a shift is necessary. | 09-17-2009 |
20090270223 | Dual stage input lever transmission downshift system - A two stage clutch and shift actuation paddle assembly provides clutch disengagement through a first range of movement of a manually operated control lever or paddle and electronic shifting of a transmission upon movement through a second range. A return spring force generator causes a lower return force to be exerted on the generator paddle in a range of motion wherein the clutch is disengaged and a pronounced increased spring force to be exerted in advanced range of motion wherein the transmission shift actuation occurs. | 10-29-2009 |
20090325759 | CONTROL DEVICE FOR POWER TRANSMISSION DEVICE FOR VEHICLES - A power transmission device for a vehicle having a clutch | 12-31-2009 |
20100099536 | DRIVE UNIT FOR A MOTOR VEHICLE - A drive unit for a motor vehicle, comprising an engine, a transmission or gearbox, a clutch aggregate for transmitting torque, the clutch aggregate including at least two friction clutches that are assigned to an input shaft of the transmission or gearbox, wherein at least one of the at least two friction clutches features an energy accumulator operatively arranged to generate a lock-up force required for torque transmission through the clutch aggregate, and a control unit operatively arranged to control an automatic activation of the at least two friction clutches and the transmission or gearbox, wherein in the event of a malfunction of the activation of the friction clutch, the stored energy in the accumulator creates an interruption of torque transmission within a section of the drive unit connected downstream of the clutch aggregate. | 04-22-2010 |
20100151991 | METHOD FOR OPERATING AN AUTOMATIC TRANSMISSION - A method of operating an automatic transmission of a motor vehicle. The automatic transmission, when the motor vehicle is driven with an actuated accelerator and an engaged starting clutch, and then coasts with the accelerator not actuated and the starting clutch engaged, during coasting with the engaged starting clutch the transmission remaining in the gear in which it was previously driven with the gas pedal actuated. When the transmission input speed of the automatic transmission drops below a limit value, during coasting, the starting clutch is disengaged. During coasting with a disengaged starting clutch in the automatic transmission, a gear is shifted that matches the current speed of the motor vehicle so that, when the starting clutch is subsequently engaged, a gear is available that matches the speed of the motor vehicle prevailing at the time the starting clutch is subsequently engaged. | 06-17-2010 |
20110015035 | CONTROL METHOD FOR CARRYING OUT A GEAR UPSHIFTING IN AN AUTOMATIC MANUAL TRANSMISSION HAVING A DUAL-CLUTCH GEARBOX - An embodiment of a control method for carrying out a gear shifting in an automatic manual transmission having a dual-clutch gearbox to pass from a current shorter gear to a successive longer gear; the embodiment includes the steps of: receiving a gear shifting command; opening a first clutch associated to the current gear; closing a second clutch associated to the successive gear in a same first moment; finishing the opening of the first clutch associated to the current gear and finishing the closure of the second clutch associated to the successive gear in a same closing moment; keeping the rotation speed of the drive shaft of the engine constant and equal to an initial value imposed by the gear ratio of the current gear until the closing moment in which the opening of the first clutch is completed; after the closing moment, progressively decreasing the rotation speed of the drive shaft of the engine from the initial value imposed by the gear ratio of the current gear to a final value imposed by the gear ratio of the successive gear; and temporarily overlengthening the second clutch after the closing moment so that the second clutch temporarily transmits an additional torque which determines a progressive reduction of the rotation speed of the drive shaft from the initial value to the final value. | 01-20-2011 |
20110136621 | METHODS AND SYSTEMS FOR ASSISTED DIRECT START CONTROL - Methods and systems are provided for reducing driveline unwinding during successive engine shutdown and restart operations. In one example, during an engine shutdown, torsion is maintained in a transmission gear-train until an engine restart is requested by engaging one or more transmission clutches while applying wheel brakes. | 06-09-2011 |
20110287890 | METHOD FOR OPERATION OF A TRANSMISSION - A method of operating a transmission positioned between a drive aggregate and an axle drive, a transmission input shaft is connected, via a clutch, with the drive aggregate, and a transmission output shaft is connected with the axle drive and power can be diverted from the transmission to drive a power take-off. The PTO is activated by an engine intervention, shifting the transmission to neutral and disengaging the clutch. Thereafter, the clutch is partially engaged at either a position dependent or distance dependent clutch speed while monitoring the input rotational speed and drive aggregate rotational speed. When the input rotational speed approximately equals the drive aggregate rotational speed and the idle rotation speed of the drive aggregate, the clutch is no longer being engaged at the position dependent or distance dependent clutch speed, but is fully engaged at a maximum clutch speed. | 11-24-2011 |
20110287891 | VEHICLE OVERSPEED SYSTEM IMPLEMENTING IMPELLER CLUTCH LOCKOUT - An overspeed system for a vehicle is disclosed. The overspeed system may have a power source, a transmission unit, and a torque converter assembly operatively coupling the power source to the transmission unit. The overspeed system may also have a travel speed sensor configured to generate a signal indicative of a vehicle speed, and a controller in communication with the torque converter assembly and the travel speed sensor. The controller may be configured to prevent a decoupling of the torque converter assembly in response to the signal. | 11-24-2011 |
20110306464 | Power-Off Downshift Engagement Dampening - A method for controlling a power-off downshift in a powershift transmission includes disengaging the current gear, synchronizing engine speed and a speed of the target gear layshaft by increasing a torque capacity of the target gear clutch, disengaging the clutch, engaging the target gear, and reengaging the clutch. | 12-15-2011 |
20120065022 | POWER TRANSMITTING APPARATUSES - A power transmitting apparatus for a vehicle mounted with a torque converter and an idle-stop mechanism can be configured to improve fuel economy without cancelling a fuel-cut-ff during vehicle speed reduction and to reduce the manufacturing cost by eliminating an electrically-driven oil pump. A power transmitting apparatus can comprise a torque converter, a clutch mechanism, an oil pump, a continuously variable transmission, a clutch control device, an engine control device, and a flow control device. The flow control device can be configured to limit or prevent the supply of oil to the torque converter by the oil pump and to prioritize the supply of oil to the clutch mechanism and the continuously variable transmission when the vehicle speed is reduced below a predetermined value with fuel being cut off by the engine control device during vehicle speed reduction. | 03-15-2012 |
20120135838 | METHOD FOR OPERATING A TRANSMISSION DEVICE OF A VEHICLE DRIVETRAIN - A method of operating a transmission of a vehicle drive-train that comprises frictional shifting elements and an interlocking shifting element. In the neutral operating condition of the transmission, and in the case of an operating condition variation of the vehicle drive-train in which, when it is required to establish the force flow in the transmission, the interlocking shifting element is to be changed from a disengaged to an engaged operating condition, by increasing the transmission capacities of at least two frictional shifting elements which have to be engaged for producing the force flow, a rotational speed difference in the area of the interlocking shifting element is determined, and a drive torque of a drive machine is adjusted to a level that brings the speed difference within a predefined range at which the interlocking shifting element is approximately synchronized and can therefore be engaged. | 05-31-2012 |
20120202647 | SPEED CHANGE CONTROL DEVICE OF AUTOMATIC TRANSMISSION - A speed change control device of an automatic transmission comprises a first control section that, upon detecting a speed change instruction for a speed change from a first given speed to a second given speed, carries out the speed change by reducing an engaging pressure of a releasing side frictional element that has established the first given speed and increasing an engaging pressure of an engaging side frictional element that would establish the second given speed; a second control section that carries out a correction processing to increase the engaging pressure of the releasing side frictional element when a throttle open degree is increased during the speed change carried out by the first control section; and a third control section that inhibits the correction processing of the second control section when the engaging pressure of the releasing side frictional element is lower than a given value. | 08-09-2012 |
20120220421 | METHOD FOR CONTROLLING A ROLLING OR COASTING FUNCTION OF A VEHICLE - A method is proposed for controlling a through-connection clutch of a vehicle, in which an interlocking portion of the clutch is opened when the drive-train is virtually free from torque, a shifting operation is then carried out, and after the shifting operation the clutch is closed again. According to the invention, the torque transmitted by the interlocked connection in the clutch is influenced by controlling the motor in order to produce a torque-free condition at the interlocked connection in the clutch, in such manner that the interlocked connection is pre-stressed before the torque-free condition has been reached and separated immediately only when the torque-free condition is reached. | 08-30-2012 |
20130172147 | METHOD FOR OPERATING A MULTI-CLUTCH TRANSMISSION - A method and device for operating a dual clutch transmission connectable to an internal combustion engine provided in a vehicle includes providing a control unit for managing at least the internal combustion engine and the transmission, providing a prediction model including at least one simulated shift sequence for the transmission, predicting the time between a first power upshift/downshift and a second power upshift/downshift for the transmission by using the at least one prediction model, modifying at least one parameter for operating the transmission if the predicted time between the first power upshift/downshift and the second power upshift/downshift for the transmission is shorter than a predetermined time. | 07-04-2013 |
20130172148 | METHOD FOR OPERATING A DRIVETRAIN - A method for operating a drive train having a variable speed transmission connecting a drive unit with an output drive. The transmission has gears that can be selected by the driver and has a clutch that can be manually actuated. The torque intended by the driver is determined based on accelerator pedal actuation and the drive unit is operated on that basis. Whenever the driver disengages the clutch and changes gears, the torque intended by the driver is not used for operating the drive unit, rather the drive unit is automatically operated by a rotational speed control. In a first phase rotational speed control, a target value is automatically determined, that is independent of the current transmission input speed, and used for the rotational speed control. During a second phase, a target value which is dependent on the current transmission input speed is used for the rotational speed control. | 07-04-2013 |
20130260961 | ACTIVE WHEEL HUB TRANSMISSION - A wheel hub transmission for a vehicle driveline is provided. The wheel hub transmission includes an input shaft, a planetary gear arrangement, a casing member, and a clutching device. The input shaft is drivingly engaged with a power source and the planetary gear arrangement. The planetary gear arrangement is drivingly engaged with the input shaft and is in one of driving engagement and selective driving engagement with the casing member. The clutching device may be selectively drivingly engaged with a portion of the planetary gear arrangement, wherein upon engagement of the clutching device the planetary gear arrangement is fixed. The wheel hub transmission facilitates a torque multiplication at the wheel hub transmission, which reduces an amount of torque applied to a portion of the vehicle driveline. | 10-03-2013 |
20140057755 | METHOD FOR STARTING AN ENGINE - A method for improving starting of an engine that may be repeatedly stopped and started is presented. In one example, the method adjusts a desired engine speed to at least two levels during engine speed run-up from cranking to engine idle speed. The method may improve vehicle launch for stop/start vehicles. | 02-27-2014 |
20140106931 | CONTROLLER OF STEPPED AUTOMATIC TRANSMISSION - Disclosed is a controller of a stepped automatic transmission. The stepped automatic transmission has a plurality of lock-up elements and performs downshift during coasting while an engine has a fuel cut-off state by changing over a pair of lock-up elements including an open side lock-up element and a lock-up side lock-up element. Downshift operation includes torque phase control and inertia phase control. The controller includes: a fuel cut-off recovery executing unit that is configured to perform recovery from the fuel cut-off state for an inertia phase control period; and a cylinder number restricting unit that is configured to restrict a count of cylinders recovered from the fuel cut-off state. | 04-17-2014 |
20140187380 | TORQUE ASSIST SYSTEM AND AUTOMATED MANUAL TRANSMISSION UTILIZING THE SAME - The torque assist system of the present invention includes a torque assist shaft having a first terminating part connected to the input shaft, an outer shaft and an inner shaft rotating independently from the outer shaft; a planetary gear set mounted on the inner shaft exposed to a second terminating part of the torque assist shaft; a clutch being disposed adjacent to the planetary gear set and operated by an external force; and an input gear mounted on the exposed inner shaft of the torque assist shaft and connected to the planetary gear set by the clutch to transmit power to an output gear mounted on the output shaft of the vehicle transmission. | 07-03-2014 |
20140235405 | VEHICLE DRIVE SYSTEM - A vehicle drive system includes a transmission, a clutch, and a shift execution portion. The shift execution portion operates the shift actuator to control the connecting portion in an engaged state engaged with the idler gear of a present gear stage to disengage from the idler gear of the present gear stage while gradually decreasing the engine torque while the clutch is still engaged, when a shift operation from the present gear stage to a subsequent gear stage is executed. | 08-21-2014 |
20140256507 | TRANSMISSION CONTROL SYSTEM - A transmission control system can include a main transmission. The transmission control system can also include a sub transmission that has two forward transmission gears mechanically shiftable in response to a shift operation. The transmission control system can further include a controller that shifts the transmission gears of the main transmission by activating a shift control motor, and control the clutches configured to enable and disable transmission of a rotational driving force of an engine. When one forward transmission gear of the sub transmission is shifted to the other forward transmission gear in response to the shift operation, the controller can relax engagement of the clutch if an engine speed exceeds a clutch release speed. | 09-11-2014 |
20140274554 | PROCEDURE FOR OPERATING DECELERATING DOWNSHIFTS WITH THE PARTICIPATION OF A FORM-LOCKING SHIFT ELEMENT OF AN AUTOMATIC TRANSMISSION COMPRISING A TORQUE CONVERTER LOCKUP CLUTCH - A method of carrying out coasting downshifts that involve an interlocking shifting element in an automatic transmission having a torque converter lockup clutch. At the beginning of the coasting downshift, positive action is taken on the torque. The method including the steps of, at the beginning of the coasting downshift, the torque converter lockup clutch is fully or partially disengaged so that the drive-train is fully or partially decoupled from the drive aggregate, and action upon the torque is carried out in such manner that the engine rotational speed only falls below the turbine rotational speed once the synchronous point for the interlocking shifting element is reached. | 09-18-2014 |
20140296029 | POWER UNIT FOR MOTORCYCLE - A power unit for a motorcycle includes an internal combustion engine with a transmission having an input shaft and an output shaft. A clutch with a hydraulic cylinder is provided for changing over the connection/disconnection of power transmission between a crankshaft and the input shaft. A cylinder support member, mounted on the engine body, includes a cylindrical case portion where a portion of the hydraulic cylinder is housed. The power unit can be miniaturized by suppressing the projection of the hydraulic cylinder from the engine body in the axial direction. A cover member is mounted on the engine body for covering and surrounding a projecting end portion of an output shaft from an engine body. A cylinder support member is mounted on the engine body such that a portion of a case portion is arranged in an opening portion formed by cutting away a portion of the cover member. | 10-02-2014 |
20140296030 | POWER UNIT FOR VEHICLE - A transmission partly overlapping clutches as viewed from an axial direction of a crankshaft is disposed below an inclined cylinder axis of an engine main body. A speed change actuator is disposed in a position such that the transmission is interposed between the speed change actuator and the crankshaft. An exhaust pipe connected to a lower side wall of a cylinder head is extended so as to pass above the transmission and partly overlap an upper portion of the speed change actuator as viewed from the axial direction of the crankshaft. | 10-02-2014 |
20140349814 | DRIVE CONTROL DEVICE - In a drive control device in a drive system including a four joint link mechanism type continuously variable transmission having a one-way clutch (OWC) which can transmit only power from a power source to driving wheels, the drive control device is configured to limit a transmission ratio or an output of the power source when an output speed of the continuously variable transmission is lower than a threshold value. The threshold value is represented as an output speed of the continuously variable transmission at an intersection point of a line that represents an output torque where a maximum driving force is achieved and a line that represents a torque outputted when a swing angle of an input member of the OWC which converts rotational power from the power source into swing power becomes a maximum torsion angle. | 11-27-2014 |
20150024905 | METHOD FOR NON-MICROSLIP BASED DUAL CLUTCH TRANSMISSION POWER ON UP SHIFT - A method of controlling a dual clutch transmission power on up shift including an on-coming clutch and an off-going clutch. The method includes implementing a prep phase comprised of decreasing torque on the off-going clutch, monitoring the off-going clutch speed to determine a slip point, and adding a bump torque to the off-going clutch when the off-going clutch reaches the slip point. The method implements a torque phase transferring torque from the off-going clutch to the on-coming clutch by increasing torque on the on-coming clutch towards an engine torque, decreasing torque on the off-going clutch, and simultaneously keeping the combination of torques greater than the slip point. | 01-22-2015 |
20150038293 | DUAL CLUTCH POWERTRAIN ARCHITECTURE - A powertrain architecture includes an engine and a transmission coupled through a launch device that is configured to be selectively mechanically coupled to the engine and to the transmission. A ring gear is positioned at least partially around the launch device. An engine lock up clutch mechanically couples the engine to the ring gear. A turbine lock up clutch mechanically couples the launch device to the ring gear. Ancillary devices are provided to receive power from or transmit power to the ring gear. The engine lock up clutch and the turbine lock up clutch selectively engage the ring gear to power at least one ancillary device. | 02-05-2015 |
20150080176 | INDUSTRIAL VEHICLE - An industrial vehicle includes an accelerator, an accelerator opening sensor which detects an opening of the accelerator, a loading unit, an engine and a torque restriction releasing unit. When the torque restriction releasing unit is set in an Eco-mode in which torque of the engine is restricted, if the opening of the accelerator detected by the accelerator opening sensor is a first predetermined value or greater and at least one of conditions that a speed of the vehicle is a second predetermined value or greater and that the loading unit is in a lifting operation, is satisfied and such conditions of the accelerator and the vehicle speed and/or lifting operation are continued for a predetermined period of time, the torque restriction releasing unit releases the torque restriction. | 03-19-2015 |
20160052504 | TRAVEL CONTROL DEVICE - A travel control device includes: an engine; an automatic transmission including a plurality of engagement elements and a rotary element, the automatic transmission being configured to block power transmission between the engine and a drive wheel of a vehicle and set a transmission gear ratio in accordance with an engagement element to be engaged out of the plurality of engagement elements; and a controller configured to perform free-running by blocking power transmission between the engine and the drive wheel while traveling at a predetermined transmission gear ratio and stopping the engine. The controller is configured to increase speed of a rotary element inside the automatic transmission during the free-running, and start the engine at a time speed of the engine becomes higher than a predetermined speed at a time of returning from the free-running. | 02-25-2016 |
477078000 | Electronic digital control | 7 |
20080293540 | Method and Apparatus for Manual-Mode Shifting Using Voice Commands in Automobile Transmissions - A shift-by-speech transmission system allows a driver or a motorcyclist to choose a desired gear by voice commands. Conventional sequential semi-manual shifting only allows the driver to shift one gear up or down from a current gear using a gearshift lever or a paddle shifter. The level of driver engagement in existing semi-manual shifters leaves much to be desired for many auto enthusiasts. An intuitive and engaging shift-by-speech technology disclosed in the present invention, called “VoiceShift”, allows the driver or the motorcyclist to switch gears by voice commands. VoiceShift also allows the driver or the motorcyclist to skip gears to up-shift and down-shift as desired, as long as a desired gear does not result in mechanically-detrimental situations. | 11-27-2008 |
20090088292 | CONTROL APPARATUS OF VEHICLE - A control apparatus of a vehicle, includes: an internal combustion engine, equipped on the vehicle; a transmission, including a normally open wet clutch for transmitting or interrupting drive force from the internal combustion engine, and a group of gears which are made to mesh with synchronizing mechanisms for attaining a predetermined change of gear; a shift lever, which can select through a manual operation thereof a drive force cut-off position where transmission of drive force from the internal combustion engine to drive road wheels is cut off; an internal combustion engine controller, controlling the internal combustion engine, and stopping the internal combustion engine when receiving a first control stop signal; a transmission controller, controlling the clutch and the synchronizing mechanisms via an actuator which is actuated by a power source driven by the internal combustion engine, when the shift lever is in the drive force cut-off position, the transmission controller disengaging the clutch and meshing the synchronizing mechanism with the group of gears to attain a predetermined change of gear, the transmission controller releasing the meshing of the synchronizing mechanism when receiving a second control stop signal; and a control stop signal controller, transmitting the second control stop signal to the transmission controller when detecting that an ignition switch of the vehicle is switched off, and transmitting the first control stop signal to the internal combustion engine controller after the transmission controller has released the meshing of the synchronizing mechanism. | 04-02-2009 |
20090163319 | Work Machine With Power Limit Control Using An Infinitely Variable Transmission - A work machine includes an internal combustion (IC) engine, and an infinitely variable transmission (IVT) coupled with the IC engine. The IVT includes an adjustable module and a mechanical module, with an adjustable input/output (I/O) ratio. A clutch is coupled with the mechanical module and has an output. An adjustable operator input device provides an output signal representing a power limit control. At least one electrical processing circuit is coupled with the operator input device and configured for controlling a selected combination of the I/O ratio and the clutch output, dependent upon the output signal from the operator input device. | 06-25-2009 |
20090186742 | Dual Clutch transmission and method for controlling it - The invention relates to a dual clutch transmission with two friction clutches and a method for controlling it, where the two friction clutches are actuated by means of electromechanical disengaging units. To counteract lockup of the dual clutch transmission in the event of a failure of an electric motor, the functional capability of the electric motors is monitored. If the function of an electric motor is deficient or lacking, a signal is generated in the control device that brings about in the program sequence of the transmission control system a disengagement of all of the gears that are situated in a sub-drivetrain whose friction clutch is actuated by the affected electric motor. In this way it is possible to prevent lockup of the dual clutch transmission during a malfunction of an electric motor during a state in which torque is being transmitted to the sub-drivetrain, even if the disengaging device is of self-holding design or is locked up during the malfunction. | 07-23-2009 |
20090247357 | METHOD FOR ACTIVATING AN ACTUATING MEANS - A method for controlling an actuating device in an automated shifting system of a motor vehicle. The position of the actuating device is determined by a path measurement system. The actuating device can be controlled by a pressure regulation device, including a pressure medium reservoir, at least two pressure lines and a switching valve for connecting a first pressure line to a pressure medium line leading to the pressure chamber of the actuating device, and a pressure regulating device for adapting the pressure level of the main pressure line to the control pressure level of the actuating device. By appropriately controlling the pressure regulation device before the piston of the actuating device moves in the intended direction, it is moved in the direction opposite to the intended movement direction. When this movement direction is registered the movement direction is changed to the intended movement direction. | 10-01-2009 |
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 |
20130045835 | METHOD FOR CRANKSHAFT TORQUE MODIFICATION DURING TRANSMISSION SHIFTS USING MULTIPLE TORQUE ACTUATORS AND CONTROL SYSTEM FOR SAME - A method of controlling engine crankshaft torque on a vehicle requests crankshaft torque modification using multiple types of torque actuators prior to and during a single commanded shift, such as an upshift. Appropriate levels of torque modification for the request, as well as appropriate times to make determinations regarding actuator type and make crankshaft torque reduction requests are determined in light of timing of key events during the shift. | 02-21-2013 |