| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 074335000 | Control mechanism | 77 |
| 20090193918 | TWIN CLUTCH TRANSMISSION - A twin clutch transmission for reducing the frequency of hit noise occurring in a dog clutch when shifting from neutral to a first speed. The twin clutch transmission includes a plurality of pairs of gears according to the number of speed stages between dual-structured main shafts and a countershaft. A twin clutch is disposed on the main shafts wherein a rotational drive force of an engine is transferred or blocked. A transmission between adjacent speed change gears on each shaft by a dog clutch occurs with a shift drum for switching between an engagement condition of the dog clutch by driving a shift fork. The patterns of guide grooves in the shift drum are formed wherein the dog clutches for a first speed gear and a second speed gear engage simultaneously when the shift drum is rotated by predetermined angles to shift from neutral to the first speed. | 08-06-2009 |
| 20130081492 | MULTI-CLUTCH TRANSMISSION FOR A MOTOR VEHICLE - A multi-clutch transmission for a motor vehicle is provided where a central synchronizing unit includes an axially movable synchronizing member that is arranged on and rotationally locked with a countershaft. In actuated states of the central synchronizing unit, the synchronizing member is displaced axially into engagement with mating portions of two gearwheels that are rotatably arranged on the countershaft. The synchronizing member includes an internal and an external cortical friction surface that axially overlap each other, and the mating portions on the two of the gearwheels are mating conical surfaces. | 04-04-2013 |
| 20090165583 | SHIFT DRUM DRIVE SYSTEM FOR TRANSMISSION - A shift drum drive system for a transmission includes a drive member and a power transmission device configured to transmit the rotational power of the drive member to a shift drum. The drive member and at least a part of the power transmission device being disposed on a lateral side of a crankcase on the side of one end in the axial direction of the shift drum, to reduce the area occupied by the shift drum drive system inclusive of the drive member on a lateral side of the crankcase on the side of one end in the axial direction of the shift drum, and thereby to contrive a reduction in engine size. The drive member and the shift drum are disposed so as to at least partly overlap with each other when viewed along the axial direction of the shift drum. | 07-02-2009 |
| 20090120222 | SHIFT RANGE CHANGE SYSTEM - A motor needs to provide a first torque at the time of releasing a shift range from a parking range and needs to provide a second torque smaller than the first torque at the time of placing the shift range into the parking range. Also, the motor needs to provide a third torque smaller than the second torque at the time of changing the shift range from one non-parking range to another non-parking range and needs to provide a fourth torque smaller than the third torque at the time of executing the parking range wall abutment learning. When the parking range wall abutment learning is executed from the parking range, a motor control apparatus controls the torque to the third or fourth torque. When the parking range wall abutment learning is executed from any non-parking range, the motor control apparatus controls the torque to the first or second torque. | 05-14-2009 |
| 20090301242 | HYDRAULICALLY ACTUATED SHIFT ACTUATOR ASSEMBLY - Arrangement of a hydraulically actuated shift actuator, comprising a shift cylinder ( | 12-10-2009 |
| 20090301241 | TRANSMISSION CONFIGURATION - A transmission system including a gear train ( | 12-10-2009 |
| 20120216640 | METHOD FOR SHIFTING A SEMI-AUTOMATIC POWERSHIFT TRANSMISSION - A method for shifting a semi-automatic powershift transmission used in a motor vehicle during a manually triggered traction upshift involves the shift phases of the charging of an actuator of a clutch to be engaged, an overlap of the charging of the actuator of the clutch to be engaged and the emptying of an actuator of a clutch to be disengaged, and also involves an engine rotational speed alignment. The charging, the overlap and the engine rotational speed alignment are carried out simultaneously. In the shift process during a manually triggered shift, the driver perceives a change in engine rotational speed with only a minimal delay after the shift command. | 08-30-2012 |
| 20120216641 | ARRANGEMENT AND METHOD FOR DAMPING OF A PISTON MOVEMENT - Arrangement for damping of a piston movement in a compressed air cylinder ( | 08-30-2012 |
| 20130068056 | HYBRID HYDRAULIC DRIVE SYSTEM ARCHITECTURE - A vehicle drivetrain has a first driver, a first clutch to selectively couple the first driver with an engine, an energy storage device coupled to the first driver, a second driver coupled to the energy storage device and connected to a driveshaft, and a second clutch that selectively couples the first and second drivers. In one embodiment, the first clutch is opened and the second clutch is closed during a vehicle operating condition requiring high torque, the first clutch is closed and the second clutch is opened during a transient vehicle operating condition, and the first clutch and the second clutch are closed during a steady-state vehicle operating condition. Additional clutches may be included to reduce energy losses or provide multiple mechanical ratios. The drivers themselves may be pumps, motors, generators, combined pump/motors, or combined motor/generators, making the invention suitable for both hydraulic implementation and electric implementation. | 03-21-2013 |
| 20090013810 | Work Vehicle Controller - A device is provided which eliminates uncomfortable operation feeling, improves the working efficiency, and reduces thermal load on a clutch and transmission shock. It is determined whether the current travel direction of the vehicle body is a forward travel direction F or a reverse travel direction R based on an operation position selected by a travel operation lever, clutch oil pressure of the forward clutch or reverse clutch, and a detected vehicle body speed. Braking force of a brake device is controlled such that the brake device is activated on the conditions that the travel direction position selected by the travel operation lever and the travel direction determined by a travel direction flag are opposite to each other, and the detected vehicle body speed is equal to or greater than a predetermined threshold value. | 01-15-2009 |
| 20080295628 | Gearbox actuation system and method for adjusting a gearbox actuation system - A method for adjusting the gearbox actuation system of an automatic gearbox of a vehicle, whereby at least one reference travel is made with the gear engaged. The invention further relates to a gearbox actuation system for selecting and engaging gears in an automatic gearbox of a vehicle, especially for carrying out the inventive method, whereby at least one reference travel is made for the purpose of adjustment. | 12-04-2008 |
| 20100269614 | DECELERATION DEVICE FOR POWER TURRET CLUTCH - A deceleration device for a power turret clutch, which outputs dynamic power to a spindle connector, comprises a deceleration gear assembly, a slide gear shaft, a displacement driving unit, and a transmission spindle. The displacement driving unit and the transmission spindle respectively drive the slide gear shaft to slide axially and rotate, whereby the slide gear shaft can supply dynamic power. The slide gear shaft has a gear. The gear engages with the deceleration gear assembly or the spindle connector according to the position the slide gear shaft slides to. According to whether the slide gear shaft engages with the deceleration gear assembly or the spindle connector, one of two rotation speeds is selected to output dynamic power via the single transmission spindle. | 10-28-2010 |
| 20100101344 | SPEED CHANGING TRANSMISSION MECHANISM OF SHEET LAMINATING APPARATUS - A speed changing transmission mechanism of a sheet laminating apparatus includes a reverse module, a power output shaft, a first power output roller, a second power output roller, a first belt, a second belt, a power input module and a shift module. By means of the reverse module, the power input module and the shift module, the speed changing transmission mechanism is capable of hot laminating the sheet article and withdrawing the jammed sheet article. | 04-29-2010 |
| 20090145253 | SHIFTING CONTROL SYSTEM - A shifting control system has two gear shift stage groups, two clutches, a clutch release detection section, a pre-shift controller, a clutch oil level detection section and a pre-shift inhibiting section. The clutches are alternately engaged to selectively transmit power from an engine to a wheel. The clutch release detection section detects a release-side clutch which corresponds to the clutch that is in a released state. The pre-shift controller operates a meshing mechanism of the gear shift stage group corresponding to the release-side clutch, so as to undergo pre-shifting when the other clutch is engaged as an engage-side clutch. The clutch oil level detection section determines whether an oil level in the release-side clutch is equal to or greater than a preset oil level. The pre-shift inhibiting section inhibits pre-shifting while the oil level in the release-side clutch is equal to or greater than a preset oil level. | 06-11-2009 |
| 20080264190 | RANGE-SWITCHING DEVICE OF AUTOMATIC TRANSMISSION, AND CONTROL METHOD OF THE DEVICE - A range-switching device of an automatic transmission has a control device that executes a fail-safe process of prohibiting the changing to the parking range if a parking load greater than or equal to a predetermined value occurs when the vehicle is at rest. | 10-30-2008 |
| 20120186376 | TRANSMISSION DEVICE AND METHOD FOR OPERATING A TRANSMISSION DEVICE - A transmission device has at least one electro-hydraulic transmission control unit and a method of operating the transmission device having a plurality of gear wheel that can be engaged and disengaged from a force flow by fluidically actuated shifting elements. A piston space of a first shifting element, delimited by a second functional surface of the actuating piston of the first shifting element, is made separate from a piston space of a second shifting element, delimited by the first functional surface of the actuating piston, and an area of the second shifting element, that carries an actuating pressure, or an area of the first shifting element, that carries an actuating pressure, is, or can be, connected to the piston space delimited by the second functional surface of the actuating piston of the first shifting element. | 07-26-2012 |
| 20090255357 | TRANSMISSION LAYOUT - A transmission system including first and second shafts ( | 10-15-2009 |
| 20090139355 | Duel Clutch Transmission - A dual clutch transmission may include: a control bar including a hole; a first rail and a second rail that are respectively disposed along the control bar; first springs biasing the first rail and the second rail respectively; a first stopper and a second stopper that are mounted in respective inner grooves of the first rail and the second rail; second springs that elastically support the stoppers and insert the stoppers into the hole according to the movement of the rails; and a first release rug and a second release rug selectively holding the stoppers. | 06-04-2009 |
| 20090090205 | CONTROL ARRANGEMENT AND GEARBOX - The invention relates to a control device for controlling the engagement of selected gears of a gearbox for a motor vehicle, which control device comprises a control rod with a respective locking arrangement. The locking arrangement includes a locking element provided with one or more grooves or recesses which each define a predetermined setting position of the control rod. The locking arrangement further includes two locking balls, a control ball and a spring arranged in a hollow space in the control rod. The locking balls are movable radially in the hollow space in mutually opposite directions, perpendicular to the control rod's longitudinal axis, against the action of the spring in order for the locking balls to be brought into and out of engagement with the grooves/recesses. The control ball is movable in the hollow space in the control rod's axial direction and is preloaded by the spring against the locking balls so that the locking balls, through the action of the spring and the control ball, are thereby preloaded to assume a protruded position in order to engage in one of the grooves/recesses. The invention also relates to a gearbox including such a control device. | 04-09-2009 |
| 20080236316 | VEHICLE TRANSMISSION - An outer circumference of a shift drum of a vehicle transmission is provided with at least one particular lead groove among multiple lead grooves which continuously extends beyond one circle of the shift drum. Two ends of the particular lead groove are arranged so as to be out of alignment with each other in the axial direction of the shift drum. A common shift position adapted to establish gear trains with two shift stages different from each other is set at one position corresponding to the two ends of the particular lead groove along the circumferential direction of the shift drum. The resulting configuration prevents an increase in the diameter of a shift drum and eliminates the significant change of the shape of a lead groove, even as the number of shift positions set on the shift drum is increased. | 10-02-2008 |
| 20080210034 | Synchromesh automatic transmission - A synchromesh automatic transmission includes a lug lock portion which is engaged with a shift lug separately from a shift finger and enables a shift fork to be controlled so as to be located at a neutral position, a shift selector mechanism which achieves a target shift stage by engaging the shift finger with the shift lug of the shift fork corresponding to the target shift stage and displacing this shift fork in a shift direction, and an interlock mechanism which controls a shift fork that is different from the target shift stage so as to be located at a neutral position by displacing the lug lock portion following movement of the shift finger in a selection direction and engaging this lug lock portion with the shift lug of the shift fork that is different from the target shift stage. | 09-04-2008 |
| 20080276738 | Automatic transmission control system - An automatic transmission control system equipped with a shift lever position sensor which includes a plurality of switches which output binary signals following a shifting motion of a gear shift lever. Patterns of combinations of the switch outputs are preselected so as to represent positions to which the gear shift lever is manually shiftable. The switches are broken down into two groups each of which produces a binary code carrying information about the position of the gear shift lever to monitor a failure in operation of the shift lever position sensor. The control system also works to perform a deemed D-position hydraulic transmission control to ensure the running of the vehicle even if the shift lever position sensor is failing. | 11-13-2008 |
| 20090031835 | SHIFT DEVICE OF TRANSMISSION - A shift control ECU includes the steps of storing a position of a shift lever; starting a count-up timer when the shift lever comes to a neutral position; and recognizing a driver's request for the neutral position when a count-up timer value attains TN( | 02-05-2009 |
| 20080257084 | Selector mechanism for dual-clutch transmissions - An embodiment provides a method shifting a multispeed transmission. The multispeed transmission includes multiple gear paths having alternating speed ratios and a plurality of shift members. Each shift member is selectively moveable to engage a speed ratio of the transmission. The method includes directing a shift finger to contact a first shift member, moving the first shift member generally in a first generally orthogonal direction to engage a first gear, and moving the shift finger in a second generally orthogonal direction to an intermediate configuration. The shift finger will not contact a selector rail when moved in the first direction when the shift finger is in the intermediate configuration. The method also includes moving the shift finger generally in the second generally orthogonal direction to a second engaged configuration. The shift finger will contact a second shift member when moved in the first direction when the shift finger is in the second engaged configuration. | 10-23-2008 |
| 20090038423 | TRANSMISSION - A transmission, includes: a shift member, adapted to be moved in a shifting direction and a selecting direction; a plurality of shift lugs, each of which has a pair of first claw portions spaced apart from each other in the shifting direction, and which are arranged in the selecting direction; and a plurality of shift forks, connected to the shift lugs via shift rails. On a predetermined shift lug of the plurality of the shift lugs, a second claw portion is provided in such a manner as to project from one of the first claw portions in the selecting direction so that, in a shifting position, the second claw portion accommodates a displacement of the shift member from the adjacent shift lug side in the selecting direction, and the second claw portion is brought into abutment with the shift member in association with the shift member being displacement from the displacement accommodated state in the shifting direction so as to cause the corresponding shift fork to move from the shifting position to a neutral position. | 02-12-2009 |
| 20090071275 | RANGE SWITCHING DEVICE - A parking switching valve includes a spool that is movable to a first position and to a second position. The parking switching valve also has an oil chamber that generates a biasing force from a difference in the pressure receiving area between the land portions of the spool. The oil chamber has a second input port to which a line pressure is input while the spool is in the second position. Because the line pressure is input to the second input port, a biasing force is generated so that the spool is held in the second position against a spring. As a result, a parking device is held in a parking release state. | 03-19-2009 |
| 20090100952 | Speed Change Device for Traveling Vehicle - 1. A speed change device for a traveling vehicle comprising: | 04-23-2009 |
| 20090000411 | Shift range change apparatus - A shift range change mechanism changes a shift range of an automatic transmission of a vehicle. A parking change mechanism disables rotation of a drive axle of the vehicle by engaging a park pole supported by a stationary member against a parking gear, which is rotated synchronously with the drive axle of the vehicle, at time of setting the shift range to parking. The parking change mechanism enables the rotation of the drive axle by disengaging the park pole from the parking gear at time of parking release of the shift range. An electric rotatable actuator drives the shift range change mechanism and the parking change mechanism. An SBW ECU controls power supply to an electric motor of the rotatable actuator. The SBW ECU increases an output torque of the electric motor only at the time of the parking release. | 01-01-2009 |
| 20080210033 | SHIFT CONTROL SYSTEM, SHIFT CONTROL METHOD, AND SHIFT SWITCHING DEVICE - A shift control system rotates an actuator to cause a wall of a detent plate to contact a roller of a detent spring, and detects the position of contact so as to detect the position of the wall of the detent plate. This wall position is set as a reference position of the actuator. Accordingly, the rotation of the actuator can appropriately be controlled even if an encoder which can only detect relative positional information is employed, and thus the shift range can appropriately be switched. | 09-04-2008 |
| 20090078072 | TWIN CLUTCH TYPE SPEED CHANGE CONTROL SYSTEM - A twin clutch type speed change control system changes over the gear position by switching between a pair of clutches, to reduce the collision sound generated between a free gear and a slide member at the time of changeover of the gear position. In the twin clutch type speed change control system designed to perform gear position changeovers between odd-ordinal gear positions and even-ordinal gear positions through a process in which an engaged clutch is disengaged whereas a disengaged clutch is engaged, the formerly disengaged clutch is supplied with a minute oil pressure P | 03-26-2009 |
| 20090078073 | TRANSMISSION AND METHOD OF UP-SHIFTING FOR TRANSMISSION - The driving force can be transmitted at the time of both acceleration and deceleration in an engaged state where a first engagement face of a strut is forced to protrude inside a cutaway of a gear. The driving force is transmitted at the time of acceleration and the transmission of the driving force can be cut off at the time of deceleration in a one-way state where the first engagement face of the strut and the cutaway of the gear are made either to engage with or to disengage from each other in accordance with the rotational direction of the gear relative to the rotational shaft. The transmission of the driving force can be cut off at the time of both acceleration and deceleration in a disengaged state where the first engagement face of the strut is forced to withdraw from the cutaway of the gear. In addition, the decreasing of the transmission efficiency caused by friction between the strut and the gear can be prevented. | 03-26-2009 |
| 20100162841 | GEARBOX FOR BICYCLES AND GEAR CHANGE SYSTEM - The invention relates to a set of devices for changing the gear ratio in a gearbox without false neutral positions. A casing includes: on a first axis, the shaft of the crankset including a primary sprocket, a tertiary shaft including fixed tertiary sprockets and tertiary sprockets on a free wheel; on a second axis, a secondary shaft includes a primary sprocket and secondary sprockets with inner flutes capable of free rotation on a smooth cylindrical bearing of the secondary shaft. The claims also relate to the following devices: each secondary sprocket has associated thereto one or more ratchets urged by a spring into a flute of the smooth bearing. A shuttle controlled by the user and moving inside the shaft applies a pressure, via spring loaded tabs, on the ratchets of the associated sprocket, which permits the engagement of two neighbouring sprockets during a gear change without any blocking or false neutral position. The largest tertiary sprockets are mounted on a free wheel in order to limit the overdrive of the small secondary sprockets when using the longest gear ratios. | 07-01-2010 |
| 20090151491 | Power transmission apparatus for vehicle - A power transmission apparatus for a vehicle includes: a first shift unit; a second shift unit; an electric motor connected to a rotating element of the first shift unit or the second shift unit so that the rotational speed changes in accordance with a gear-shift of the first shift unit or the second shift unit; and a control unit that controls at least one of start timings of inertia phases of the gear-shifts of the first and second shift units using the electric motor, when the gear-shifts of the first and second shift units are performed simultaneously and gear ratios of the first and second shift units are changed in opposite directions. With this control, in the simultaneous gear-shift, the gear-shift of one of the shift units is started and completed in a period from start of the gear-shift of the other shift unit until completion of this gear-shift. | 06-18-2009 |
| 20090038424 | Method for shifting a neutral state of an automatic multi-Stage Transmission - Method for shifting a neutral state of an automatic multi-stage transmission of a motor vehicle, where, to engage and to disengage gear stages of the transmission, shift couplings, at least one of which is equipped with a synchronizing device, can be actuated by a transmission actuator. | 02-12-2009 |
| 20080229854 | VEHICLE TRANSMISSION - A vehicle transmission includes first and second main shafts that enable switching of power transmission from an engine; a counter shaft connected to a drive wheel; and gear trains with a plurality of shift stages provided between each of the first and second main shafts and the counter shaft. The vehicle transmission also includes shifters which switch between engagement with and disengagement from a gear constituting part of each of the gear trains so as to switch the established states of the gear trains, and to prevent, during running at the most frequently used shift stage, the occurrence of gear rattle produced by a gear train other than the gear train with such a shift stage. With this configuration, in the running state of using a particular gear train with the highest frequency of the established states among the gear trains, the gear trains, excluding the particular gear train, are in the non-established state. | 09-25-2008 |
| 20090071276 | SERVO-ASSISTED CONTROL SYSTEM FOR THE GEARS OF A DOUBLE CLUTCH GEARBOX OF A MOTOR VEHICLE - The control system comprises: a first hydraulically-operated actuator device for controlling the engagement of a first set of gears by selection and engagement movements; a second hydraulically-operated actuator device for controlling the engagement of a second set of gears by selection and engagement movements; a first solenoid valve of the ON/OFF type arranged to put the first or the second actuator device alternatively into communication with a supply of fluid under pressure; a second solenoid valve of the ON/OFF type arranged to control the selection movements of the actuator device which from time to time is in communication with the fluid supply; a distributor interposed between the fluid supply and the two actuator devices and displaceable under the control of the first solenoid valve between a first working position in which it puts the fluid supply into communication with the first actuator device and a second working position in which it puts the fluid supply into communication with the second actuator device; a third proportional pressure solenoid valve and a fourth proportional pressure solenoid valve arranged to control the engagement movements of the actuator device which from time to time is in communication with the fluid supply. With such a control system the gear change operation thus requires the intervention of at most four solenoid valves. | 03-19-2009 |
| 20090071274 | METHOD FOR SHIFTING ACTUATION OF AN AUTOMATED TRANSMISSION - A method for shifting an automated transmission situated in a drive train of a motor vehicle between an engine and a drive axle and having at least one multi-speed main transmission and a two-speed range change group rear-mounted thereon. The main transmission has at least one counter-shaft with an transmission brake. A clutch engages the prime mover and the main transmission and the range change group is shifted via unsynchronized dog clutches, which are combined in pairs in a common shift set having two shift positions and one neutral position such that during a range change gearshift, both in the main transmission and in the range change group, a change between two ratio stages occurs. A range change up-shift and down-shift each include active synchronization of the dog clutch by way of the transmission brake and of the separating clutch. | 03-19-2009 |
| 20090031834 | Automated Transmission Control Apparatus, Power Unit Provided With Automatic Transmission Control Apparatus, and Straddle-Type Vehicle - An automatic transmission control apparatus that shortens the time from starting to finishing a shift motion and suppresses overload applied to a shift actuator. A transmission apparatus has a plurality of shift gear pairs with different transmission gear ratios, and a gear selecting mechanism that selects a shift gear pair transmitting power. A shift motor drives the gear selecting mechanism. A shift power transmission mechanism transmits power of the motor to the gear selecting mechanism. A mechanical fuse within the shift power transmission mechanism generates an irreversible state change such that the transmission power becomes equal to or less than a predetermined value if the transmission power exceeds the predetermined value. | 02-05-2009 |
| 20120198953 | PASSENGER RESTRAINT DEVICE FOR VEHICLES - A vehicle occupant restraint system that shortens the time from when the actuation of the motor is started to when the actual winding of the seatbelt around the spindle is started. This vehicle occupant restraint system includes a clutch mechanism that connects or disconnects an electric actuator and a spindle, and a power transmission mechanism that can transmit motive power from the electric actuator to the clutch mechanism | 08-09-2012 |
| 20090000410 | Mothod for controlling, and a control device of, an automated, non-synchromesh multispeed motor vehicle transmission - In a method for controlling, and a control device of, an automated non-synchromesh multi-speed motor vehicle transmission, wherein, upon selection of a target gear, a form-fitting connection is to be established between shift elements of the target gear, wherein, however, with a certain rotational speed difference between the shift elements which causes chattering, no engagement takes place during actuation of the shift actuator for the target gear, when, upon monitoring, a certain chattering of the shift elements is detected, and, as a result, the engagement of the target gear is aborted in order to prevent the transmission from being damaged. | 01-01-2009 |
| 20080245168 | Automatic Transmission and Shift Control Method For Said Transmission - The invention concerns an automated manual transmission of a motor vehicle, having an input shaft, an output shaft arranged co-axially with reference to the input shaft, and several gears, which can be selectively shifted via allocated shifting clutches, in which the input shaft is connected to a driving motor via a motor clutch, which can be engaged and disengaged, and an additional controllable friction clutch is provided as power shift clutch if required for bridging at least one of the shifting clutches. In an arrangement, which is improved operationally and from the point of view of a retrofitting of an existing manual transmission, the power shift clutch (K′) operates directly between the driving motor (M) and the output shaft (W | 10-09-2008 |
| 20120144942 | TRANSMISSION - A transmission that is able to perform shift operation and select operation using the driving force of a single electric motor is provided. A shift/select actuating device includes: an electric motor; a first conversion mechanism; a second conversion mechanism; and a changing unit that changes a destination, to which the rotational driving force of the electric motor is transmitted, between the first conversion mechanism and the second conversion mechanism. The changing unit includes: a first electromagnetic clutch that transmits the rotational driving force of the electric motor to the first conversion mechanism or interrupts the rotational driving force; and a second electromagnetic clutch that transmits the rotational driving force to the second conversion mechanism or interrupts the rotational driving force. | 06-14-2012 |
| 20120144941 | SEQUENTIAL GEARBOX - Embodiments of the invention provide a gearbox including a housing, first and second shafts projecting from the housing, and at least one lay shaft contained within the housing. The first and the second shafts may be connected together by means of gearwheels and the at least one lay shaft in a plurality of transmission configurations. The gearbox also includes a control device movable among multiple consecutive working positions that define different transmission configurations. The control device includes a control shaft able to assume multiple successive angular positions. In some cases the control shaft includes multiple radial recesses spaced circumferentially from each other. At least one poppet ball is pushed radially against the control shaft to engage the radial recesses. Co-operation of the poppet ball with each of the recesses defines a stable equilibrium position for the control shaft. | 06-14-2012 |
| 20080236315 | SYNCHRONIZER ACTUATING SYSTEM - A synchronizer actuating system for use in an automated manual transmission or a dual clutch transmission includes an apply finger and a fork mounted on a shifting rail. The fork grips and actuates a synchronizer sleeve. A piston is operable to engage and actuate the apply finger. The piston has an opening with a dual frusto-conical inner surface. The opening receives an extension of the apply finger therein. The dual frusto-conical inner surface allows the apply finger to be engaged by the piston at the center of the piston even if the apply finger or shifting rail is bent relative to the piston. | 10-02-2008 |
| 20110303033 | GEAR SELECTOR APPARATUS AND CONTROL FOR A VEHICLE TRANSMISSION - A gear selector apparatus for a transmission having a first gear and a second gear selectively engageable to a shaft through a synchronizer. The gear selector apparatus includes a hydraulic actuator, a gear selection fork engaged with the actuator, a guide bar fixed for common movement to the gear selection fork, a detent mechanism disposed in contact with a first edge of the guide bar, a position sensor disposed in contact with a second edge of the guide bar, a first and a second pressure control valve in communication with the hydraulic actuator, a controller in electrical communication with the position sensor and the first and second pressure control valve. The controller includes a control logic sequence. | 12-15-2011 |
| 20080210032 | ELECTRO-HYDRAULIC CONTROL SYSTEM FOR A MOTOR-VEHICLE DUAL-CLUTCH TRANSMISSION - The electro-hydraulic control system comprises a gear shift control device and a hydraulic control circuit. The gear shift control device includes four shift forks, operatively associated each to a respective engagement sleeve of the transmission to cause this latter to move between first and second engagement positions, and an operating unit comprising four double-acting hydraulic actuators arranged to control each the displacement of a respective shift fork. The hydraulic control circuit comprises a supply unit, a distributor valve adapted to select every time one of the four hydraulic actuators and two solenoid valves adapted to control the hydraulic actuator selected by the distributor valve. The distributor valve has four operating positions, each of which corresponds to the selection of a respective hydraulic actuator. The two solenoid valves are arranged to be connected each to a respective pressure chamber of the hydraulic actuator selected by the distributor valve. | 09-04-2008 |
| 20120042743 | DRIVE ASSEMBLY FOR A MOTOR VEHICLE, COMPRISING A POWER TAKE-OFF CLUTCH - A drive assembly for a motor vehicle with a clutch device on the input side. The drive assembly includes a transmission having input and output shafts, loose and fixed gearwheels, shifting devices for coupling the loose gearwheels to the transmission shafts, a power take-off (PTO) gearwheel that can be driven by the input of the clutch device, and a PTO clutch for engaging the PTO gearwheel in the torque flow. The PTO clutch is arranged in the torque flow after and axially adjacent a starting and shifting clutch. The clutch device comprises the starting and shifting clutch, the PTO clutch and two actuators. The starting and shifting clutch is a friction clutch and the PTO clutch is a claw clutch. The two clutches have a clutch cover and a common actuator housing, and the coupling device of the PTO clutch is arranged radially outside the clutch cover. | 02-23-2012 |
| 20110088495 | Tong Gear Shift System - A power tong having a ring gear, a gear train, a motor and a gear shift mechanism. The gear shift mechanism further includes a linear actuator and a shift arm connect to the linear actuator. A drive gear is positioned on a drive shaft extending from the motor and this drive gear includes an upper and lower set of drive teeth having beveled top portions. The shift arm engages the drive gear between the upper and lower set of drive teeth and movement of the linear actuator causes the drive gear to engage one of at least two gears in the gear train. | 04-21-2011 |
| 20120160045 | GEAR CLASH LOGIC - A system and method for selectively engaging and disengaging auxiliary equipment to avoid gear clash in a vehicle is disclosed. The system includes a transmission, a transfer case, and a transmission controller. The transmission has a plurality of gears and the transfer case is coupled to the transmission by an output shaft. The controller includes control logic for controlling the engagement and disengagement of the auxiliary equipment. The control logic has a first control logic for determining whether an operator has actuated a selector switch, a second control logic for actuating a torque transmitting device to engage or disengage the auxiliary equipment and avoid gear clash, a third logic for monitoring the engagement or disengagement of the auxiliary equipment, and a fourth control logic determining whether the auxiliary equipment has been engaged or disengaged. | 06-28-2012 |
| 20120312111 | POWER TRANSMISSION APPARATUS - A power switcher mechanism ( | 12-13-2012 |
| 20120186377 | TRANSMISSION SHIFT DEVICE - A transmission shift device is provided that includes, but is not limited to a shifting shaft, which is mounted so it is axially immovable and rotatable in a transmission shift housing and is mechanically connected to a shift lever. Furthermore, the transmission shift device includes, but is not limited to a selector lever, which is mounted so it is axially displaceable on the shifting shaft and is mechanically connected to a selector lever. The selector lever is held in a spring-elastic manner in a middle axial selection position on the shifting shaft by at least one spring element. | 07-26-2012 |
| 20080302196 | Shift apparatus - A shift apparatus includes a shift lever operable to select a first mode of a transmission when the shift lever is disposed at a first position and to select a second mode of the transmission when the shift lever is disposed at a second position, and a base supporting the shift lever. The shift lever automatically returns to a home position after selecting the first mode or the second mode. When moving the shift lever from the home position to the first position to select the first mode, the shift lever is moved in a first direction and then in a second direction which is different from and not directly opposite to the first direction. When moving the shift lever from the first position to the second position to select the second mode, the shift lever is moved in a third direction which is different from the first and second directions and not directly opposite to the second direction. | 12-11-2008 |
| 20120260757 | Gearshift device - In a gear shift device and a method for operating a manual gearshift device of a motor vehicle including a control unit which, in a gear shift mode is adapted to resolve a recognized tooth butt condition of a gear shift device which is to be engaged positively by a starting clutch, the control unit is adapted to select a starting mode for resolving the tooth butt condition by setting a startup readiness parameter which determines a startup readiness condition as established before the tooth butt condition is resolved for initiating clutch engagement and thereby resolving the tooth butt condition and, at the same time, starting movement of the vehicle | 10-18-2012 |
| 20080210031 | SERVO-ASSISTED GEARSHIFT CONTROL DEVICE FOR A MOTOR-VEHICLE DUAL-CLUTCH TRANSMISSION - The device comprises four shift forks, each slidable among a first engagement position, a second engagement position and an intermediate neutral position between the two engagement positions, and an operating unit comprising four double-acting hydraulic actuators identical to each other and arranged to control each the displacement of a respective shift fork among the two engagement positions and the neutral position. The operating unit further comprises a support plate having holes for fixing to the gear case, and an actuator block accommodating the hydraulic actuators. The support plate and the actuator block are integrated to form a single body. In the assembled condition of the operating unit on the gear case, the actuator block is disposed on the side of the support plate facing towards the inside of the gear case. | 09-04-2008 |
| 20120090417 | POWER TRANSMISSION CONTROL APPARATUS FOR VEHICLE - A sleeve stroke SSt of a specific sleeve is gradually increased from “0” (after t | 04-19-2012 |
| 20130008271 | GROUP TRANSMISSION DEVICE - In a group transmission arrangement, in particular a commercial vehicle group transmission arrangement, comprising a main group with a central synchronizing unit for synchronizing at least two main group shifting units for changing a main group transmission ratio, includes at least one auxiliary group with at least one auxiliary group shifting unit for changing an auxiliary group ratio, wherein a control unit is provided to actuate in a shifting operation the auxiliary group shifting unit and a central synchronizing unit in order to change an overall gear ratio, the control unit is adapted to actuate the auxiliary group shifting unit and the central synchronizing unit in parallel at least intermittently. | 01-10-2013 |
| 074000000 | Automatic | 10 |
| 074336000 | Speed responsive | 9 |
| 20090095102 | Dual Clutch Transmission - A dual clutch transmission includes a group of odd-numbered speed drive trains, including at least a first speed drive train to be driven for setting a first speed serving as the lowest speed; a first clutch to be engaged for driving any one of the odd-numbered speed drive trains including the first speed drive train; a group of even-numbered speed drive trains, including at least a second speed drive train to be driven for setting a second speed serving as the second lowest speed; a second clutch to be engaged for driving any one of the even-numbered speed drive trains including the second speed drive train; an automatic speed control system for selecting one of all the odd-and-even numbered speed drive trains to be driven, and for selecting either the first or second clutch to be engaged for driving the selected speed drive train in correspondence to a traveling speed of a vehicle equipped with the dual clutch transmission; and a manual selection device for selecting any one of all the odd-and-even numbered speed drive trains, including the second speed drive train and excluding the first speed drive train, as a starting-and-stopping speed drive train to be driven when the vehicle starts and immediately before the vehicle stops. | 04-16-2009 |
| 20100024581 | DUAL CLUTCH TRANSMISSION - A dual clutch transmission includes a first and second input shaft, an output shaft, a dual clutch having a first clutch and a second clutch, a first and second gear transmission mechanisms, and a control device connected to an accelerator opening degree sensor, detecting an accelerator opening degree, and a rotational speed sensor, detecting a rotational speed of an engine, and is provided with a pre-shift control device pre-selecting the shift stage gear set for establishing the shift stage, which is one stage upper or lower than the shift stage established by the selected shift stage gear set from one of the first and second gear transmission mechanisms, when values of the accelerator opening degree, the rotational speed, and the rotation acceleration, becomes equal to or more than predetermined upper shift stage pre-shift setting values or equal to or less than predetermined lower shift stage pre-shift setting values. | 02-04-2010 |
| 20090288513 | ARRANGEMENT OF POSITION TRANSMITTERS ON A SELECTOR ROD - An arrangement of position transmitters on a selector rod for automatic speed change transmissions in motor vehicles, which interact with housing-mounted position sensors of an electrical speed detection circuit, at least one selector rod on its end regions being movably supported in cross walls of the housing of the transmissions and being actuated by means of a preferably electrohydraulically controlled speed selection unit where the selector rod projects through a through an opening in a cross wall of the transmission, which wall separates the oil compartment into the gear chamber which holds at least the speed selection unit and the position sensors, and the position transmitters are attached directly to the selector rod such that the selector rod with the position transmitters can be mounted through the through the opening as a mounting unit. | 11-26-2009 |
| 20090165584 | Dual Clutch Transmission - A dual clutch transmission includes odd-numbered forward traveling speed drive trains to be activated by engaging a first clutch, even-numbered forward traveling speed drive trains to be activated by engaging a second clutch, and a plurality of backward traveling speed drive trains including at least one backward traveling train to be activated by engaging either the first or second clutch. While a reverse mode is set and when a reverser operation means is shifted between a forward traveling position and a backward traveling position, the first and second clutches are alternately engaged/disengaged for a forward/backward traveling speed shift between a backward traveling speed set by at least one backward traveling speed drive train and a forward traveling speed set by any one forward traveling speed drive train activated by engaging the first or second clutch which is different from the first or second clutch adapted to be engaged for activating the at least one backward traveling speed drive train. | 07-02-2009 |
| 20090071277 | METHOD FOR SHIFTING ACTUATION OF AN AUTOMATED GROUP TRANSMISSION - A method for shifting an automated transmission situated in a drive train of a motor vehicle between an engine and a drive axle and having at least one multi-speed main transmission and a two-speed range change group rear-mounted thereon. The main transmission has at least one counter shaft with a transmission brake. A clutch engages the prime mover and the main transmission and the range change group is shifted via unsynchronized dog clutches which are combined in pairs in a common shift set and have two shift positions and one neutral position such that, during a range change gear shift both in the main transmission and the range change group a change between two ratio stages occurs. A range change up-shift includes synchronizing the input shaft and the target gear utilizing the transmission brake and passively synchronizing the dog shifted transmission parts by the edge beveling of the concerned dog clutches. | 03-19-2009 |
| 20080314175 | Engine synchronizer - Engine synchronization apparatus and system for multi-engine vehicles such as boats and aircraft providing limited authority throttle cable trim effected by an apparatus interposed between the throttle plate and throttle cable of a slave engine and mounted in a floating configuration. An actuator is mounted to the apparatus to trim the distance between the throttle plate and throttle cable attachment thereby trimming the throttle cable. A system is provided in which a difference signal derived from master and slave engine tachometer signals is used to control the actuator and synchronize the engines within a predetermined range. | 12-25-2008 |
| 20090193919 | Automated shift transmission - In an automated split path transmission with at least six forward speeds and three characteristic transmission steps (s | 08-06-2009 |
| 20120036953 | Gearbox Shifting Point For Producing A Rotationally Fixed Connection Between At Least One Gearwheel And One Shaft - A gearbox shifting point for producing a rotationally fixed connection between at least one gearwheel and one shaft. The gearbox shifting point comprises a shaft, a shifting sleeve and two gearwheels. The two gearwheels are each rotatably mounted in relation to the shaft. The shifting sleeve is mounted in a rotationally secured fashion on the shaft. The shifting sleeve and the gearwheels are embodied in such a way that a positively locking, rotationally fixed connection can be produced between the shifting sleeve and in each case one gearwheel. In order to improve problems with respect to a gearshifting hole or blockage of the gearbox, the shifting sleeve interacts with the two gearwheels in such a way that at least one positively locking, rotationally fixed connection is always produced between the shifting sleeve and one of the gearwheels. | 02-16-2012 |
| 20120103117 | TRANSMISSION DEVICE FOR AN AUXILIARY OR ACCESSORY OF A VARIABLE-SPEED ENGINE, AN ENGINE EQUIPPED THEREWITH AND USES THEREOF - A transmission device mounted between a supercharger compressor and a pulley designed to drive it from the vehicle motor. Two successive modules each capable of a direct engagement ratio through a free wheel, or of an overdrive ratio by locking the planet gear by means of a clutch are clamped by a spring or released by the action of centrifugal counter-weights. The action is at least compensated by the axial thrust of the teeth F | 05-03-2012 |
| 074337000 | Torque responsive | 1 |
| 20090038425 | Automated Shift Control Device and Straddle-Type Vehicle Equipped With the Same - An automated shift control device suppresses overload of the shift motor and reduces the time from beginning to completion of a gear shifting operation. A transmission has a plurality of pairs of speed change gears and a gear selecting mechanism. A shift motor drives the gear selecting mechanism. A shift power transmission mechanism transmits power from the shift motor to the gear selecting mechanism. A torque limiter has a third reduction gear and a third shaft forming a part of the shift power transmission mechanism. The torque limiter transmits power from the shift motor as torque. When the transmitted torque is not more than a predetermined limit torque, the third reduction gear co-rotates with the third shaft. When the transmitted torque exceeds the predetermined limit torque, the third reduction gear rotates relative to the third shaft to limit the transmitted torque to the predetermined limit torque or less. | 02-12-2009 |
| 074337500 | Cam operated | 11 |
| 20100107792 | SHIFT MECHANISM, AND VEHICLE EQUIPPED THEREWITH - A shift mechanism that provides a shift mechanism for enabling smooth gear shifting by a transmission, and a vehicle equipped therewith. With this mechanism, a shift drum, to which shift forks are connected via grooves on an outer periphery, is held every predetermined rotation angle. When differences are produced in the degree of rotation between a third rotating member that rotates by motor rotation and a second rotating member that rotates in accordance with the third rotating member, bias is accumulated in a torsion spring. Bias that is accumulated is released when the rotation angle of the third rotating member equals or exceeds a predetermined angle of rotation, rotating a first rotating member via a second rotating member, and rotating the shift drum quickly. | 05-06-2010 |
| 20080264191 | Adjusting Device for a Transmission - An adjusting device for a transmission is described. The device has at least one movable adjusting element, a plurality of sensors for detecting a position of the at least one movable adjusting element, which are arranged substantially parallel to one another, and a plurality of cam paths having sections of different heights, assigned to corresponding ones of the plurality of sensors. The device also includes a plurality of scanning elements coupled to the plurality of sensors for mechanically scanning the sections of different height, and at least one catch of each of the plurality of cam paths in which a latching element is engageable, wherein the plurality of sensors and the latching element are designed as a common component. The plurality of cam paths result in comparable stroke movements arising for each of the plurality of scanning elements. | 10-30-2008 |
| 20090266192 | Shift control device for vehicle transmission - A shift control device for a vehicle transmission is provided in which drive means for making a shift drum pivot is connected to the shift drum, wherein the drive means ( | 10-29-2009 |
| 20110011193 | MULTI-STAGE TRANSMISSION - Disclosed is a constantly-meshing-type multi-stage transmission which can be operated with small forces, does not need a clutch for gear shift, has no loss of changeover time at the time of gear shift, and in which a loss of the driving force is prevented. Driven gears n | 01-20-2011 |
| 20110041636 | MULTI-STAGE TRANSMISSION - A multi-stage transmission has driving gears m and driven gears n supported on a hollow driven gear shaft | 02-24-2011 |
| 20100071492 | MULTISTAGE TRANSMISSION - A multistage transmission is provided that smoothly operates with a small force without the necessity of a shift clutch, that does not cause a loss of switching time during shifting, and that does not cause escape of a driving force as well as provides a small shift shock. When shift drive means executes upshift to a one-step-upper speed-change stage reduced in reduction ratio by one stage, normal rotation odd-numbered stage cam rods Cao and normal rotation even-numbered stage cam rods Cae alternately operate normal rotation odd-numbered stage engaging members Rao and the normal rotation odd-numbered stage engaging members Rae for shifting. | 03-25-2010 |
| 20120240702 | TRANSMISSION FOR SADDLE TYPE VEHICLE - In a transmission for a saddle type vehicle wherein a shift position sensor for detecting the angular position of a shift drum has a sensor shaft disposed coaxially with the shift drum and wherein an engaging pin disposed along a plane orthogonal to the center axis of the sensor shaft and inserted and passed through and fixed to the sensor shaft is engaged with an engagement groove provided at one axial end of the shift drum, to restrain abrasion or torsion from occurring between the engagement groove and the engaging pin even if a radial load is exerted on the shift drum at the time of a shift change and thereby to promise enhanced durability. The longitudinal direction of the engagement groove is set in a direction orthogonal to the direction in which the greatest one of radial loads on the shift drum is exerted. | 09-27-2012 |
| 20110023639 | MULTISTAGE TRANSMISSION - A multistage transmission includes a lost motion mechanism for regulating the operation for a downward shift in acceleration and for an upward shift in deceleration. Regulating rods are integrally moved with a control rod. A cutout into which a pin can be fitted together with a cam groove of the slidingly touched cam rod is formed corresponding to each cam groove in the regulating rods. The cutout of the regulating rods corresponding to the cam groove of the cam rod for normal rotation is formed longer than the corresponding cam groove on the reverse side to a moving direction of the control rod in an upward shift in a state in which shifted speed is established. The cutout of the regulating rods corresponding to the cam groove of the cam rod for reverse rotation is formed longer than the corresponding cam groove on the reverse side to a moving direction. | 02-03-2011 |
| 20120144943 | MULTI-SHAFT DRIVE DEVICE - Output gears are disposed so as to be movable toward and counter to plural second input gears to which rotation of the motor is transmitted, and so as to be biased toward the plural second input gears. A cam, which has plural recesses provided at the periphery thereof, is disposed at the inside of the output gear. The cam is rotated, and a pin of the output gear enters the recess, so that the output gear is moved toward the second input gear, and the output gear is engaged with the second input gear. | 06-14-2012 |
| 20100071493 | MULTISTAGE TRANSMISSION - A multistage transmission includes a swing claw member having a pin-receiving portion adapted to receive a pin member and an engaging claw portion on respective sides opposite to each other with respect to swing center, and swung by the advancement and retraction of the pin member to allow the engaging claw portion to establish engagement and release the engagement; and biasing means for biasing the swing claw member in a swing direction of bringing the engaging claw portion into engagement. The biasing means is a compression spring interposed between the inner surface of the engaging claw portion of the swing claw member and the opposing surface of the gear shaft. The multistage transmission uses multiple swing claw members of the same kind, instead of swing claw members of different kinds. | 03-25-2010 |
| 20110308344 | MECHANICAL, MULTI-STEP AUTOMATIC GEARBOX - Multiple gear changes can easily be achieved by means of a straightforward and simple mechanical method, power transmission efficiency and the gear-changing sensation can be improved as compared with the prior at, and, in addition, fuel consumption can actually be reduced even as power performance is increased. | 12-22-2011 |
