Entries |
Document | Title | Date |
20080207376 | Electric Continuously Variable Transmission and the Driving Method Thereof - Disclosed herein is an electric continuously variable transmission. The transmission of the present invention includes a first rotating plate ( | 08-28-2008 |
20080300084 | Electric Drive Transmission - An electric drive transmission for a skid steered vehicle has a central casing housing a pair of propulsion motors comprising respective stators and rotors, each rotor being coupled to drive a respective through shaft via a respective epicyclic gear change mechanism. The through shafts are coupled at their inboard ends to a controlled differential with an input from a steer motor, and are coupled at their outboard ends to respective epicyclic gear reduction mechanisms. The through shafts are supported in the casing by respective bearings and the propulsion motor rotors are supported on the through shafts by respective bearings. By supporting the rotors on the through shafts rather than in separate bearings to the casing the diameter and speed rating of the requisite rotor bearings can be reduced. | 12-04-2008 |
20090011889 | Locking Differential Assembly - An axle assembly with an electric locking differential that can include a one-piece differential case and a locking device. The locking device includes a dog that is nonrotatably but axially slidably received into a pocket that is formed in an end of the differential case. An actuator is mounted on the differential case. Actuation of the actuator moves the dog into engagement with a second dog that is coupled to a side gear of the differential to thereby lock the side gear to the differential case. | 01-08-2009 |
20090023530 | Control apparatus for hybrid vehicle power transmitting system - A control apparatus for a hybrid vehicle power transmitting system including a switching portion operable to switch a power transmitting path between a power transmitting state and a power cut-off state in response to an operation of a shift lever, the control apparatus including (a) an operating-state estimating portion configured to estimate an operating speed of an electric motor which constitutes a part of the power transmitting path or a rotating speed of a coupling element of the coupling portion, which speed is established after switching of the power transmitting path from one of the power transmitting and cut-off states to the other, and (b) a switching restricting portion configured to restrict a switching operation to switch the power transmitting path between the two states, when the estimated operating or rotating speed of the electric motor or coupling device is higher than a predetermined upper limit. | 01-22-2009 |
20090048050 | CONTROL DEVICE FOR VEHICLE DRIVE DEVICECONTROL DEVICE FOR VEHICLE DRIVE DEVICE - A drive apparatus for vehicle is disclosed having a coupling device (switching clutch B | 02-19-2009 |
20090075774 | VEHICULAR DRIVE SYSTEM - Vehicular drive system which is small-sized and/or improved in its fuel economy. | 03-19-2009 |
20090082154 | Control apparatus for vehicular drive system - A control apparatus for a vehicular drive system including (a) an electrically controlled differential portion having a differential mechanism and operable to control a differential state between its input and output speeds by controlling an operating state of an electric motor connected to a rotary element of the differential mechanism, and (b) a transmission portion which constitutes a part of a power transmitting path between the electrically controlled differential portion and a drive wheel of a vehicle, the control apparatus including a non-iso-power shifting control portion configured to implement a non-iso-power shifting control of the vehicular drive system (differential portion) when a required special shifting action of the transmission portion not according to a shifting boundary line map should be restricted. | 03-26-2009 |
20090156346 | ELECTRONICALLY ACTUATED APPARATUS USING SOLENOID ACTUATOR WITH INTEGRATED SENSOR - A locking differential assembly with a differential case, a gearset, a first dog, a second dog and a thrust member. The differential case has a mounting hub. The gearset is disposed in the differential case and has a side gear. The first dog is coupled to the side gear. The thrust member is slidably supported on the mounting hub and has projections that extend through apertures in the differential case and engage the second dog. | 06-18-2009 |
20090163313 | DIFFERENTIAL ASSEMBLY WITH TWO JOINTLY ACTUATED AXIAL ADJUSTMENT DEVICES - A differential assembly | 06-25-2009 |
20090176613 | ELECTROMECHANICAL DIFFERENTIAL LOCK ASSEMBLY - A differential lock assembly includes a shift collar ( | 07-09-2009 |
20090197730 | ELECTRIC AXLE DRIVE UNIT - A drive unit for transmitting power to wheels of a motor vehicle includes an input driveably connectable to a first power source, a final drive gear set driveably connectable to the wheels, a motor/generator including a stator and a rotor arranged about an axis, the rotor being able to rotate about the axis and to move along the axis relative to the stator, a gear unit arranged about the axis and driveably connected to the gear set for driving the gear set at a speed that is less than a speed of the rotor, and a coupler secured to the rotor for alternately coupling the rotor and the gear unit mutually and transmitting power therebetween and decoupling the rotor and the gear unit mutually. | 08-06-2009 |
20090203481 | Control apparatus for vehicular power transmitting system - A control apparatus for a vehicular power transmitting system including an electrically controlled differential portion having an electric motor, and an automatic transmission portion, the control apparatus including shift control portion operable upon determination that a jump shift-down action of the automatic transmission portion directly to a target gear position while skipping at least one intermediate gear position should take place and upon inhibition of the jump shift-down action, to generate a shifting command to perform the jump shift-down action when total jump-shift-down-action time required for the jump shift-down action is shorter than total sequential-shift-down-operation time required for a sequential shift-down operation consisting of a shift-down action to each intermediate gear position and a shift-down action from the last intermediate gear position to the target gear position, and a shifting command to perform the sequential shift-down operation when the total jump-shift-down-action time is not shorter than the total sequential-shift-down-operation time. | 08-13-2009 |
20090258747 | Control apparatus for vehicular drive system - A vehicular power transmitting system including a transmission portion constituting a part of a power transmitting path, an electric motor connected to the power transmitting path, an electrically controlled differential portion connected to the electric motor and having a differential state controllable according to a change of an operating speed of the electric motor, a casing accommodating the transmission portion, the electric motor and the electrically controlled differential portion, and a support member for supporting a rotor of the electric motor, the support member including a support portion formed in one axial end portion thereof, at which the rotor is supported rotatably about its axis, and a tapered portion having a diameter increasing in an axial direction from the one axial end portion toward the other axial end portion at which the support member is fixed to the casing, and wherein a winding portion of a stator of the electric motor is disposed in a space formed radially outwardly of the tapered portion, while a fluid passage portion for supplying a working fluid to frictional coupling devices of the transmission portion is disposed in a space formed radially inwardly of the tapered portion. | 10-15-2009 |
20090305832 | Vehicle power transmission system - A vehicle power transmission system includes: an electric differential unit that includes a differential mechanism, having an input shaft and an output shaft, and an electric motor and that allows controlling a differential state between the rotational speed of the input shaft coupled to an engine and the rotational speed of the output shaft by controlling an operating state of the electric motor coupled to a rotating element of the differential mechanism; a transmission unit that is arranged in a power transmission path between the electric differential unit and a drive wheel; and a controller that, when the transmission unit is shifting speeds, prelimits an upper limit of the rotational speed of the engine when the rotational speed of the engine increases because of torque reduction control by the electric motor. With the above control, the rotational speed of the engine is prevented from reaching a high rotational speed region. | 12-10-2009 |
20100056314 | Differential Device - A differential device differentially distributes a driving force to first and second axles. The differential device is comprised of a differential gear set configured to allow differential motion between the first and second axles, a casing rotatable about an axis, the casing housing and being drivingly coupled with the differential gear set and including a first end wall, a second end wall axially opposed to the first end wall, and a side wall disposed radially outward, which in combination with the first end wall and the second end wall defines a chamber configured to house the differential gear set, a clutch engageable with the differential gear set, a solenoid configured to drive the clutch, which is disposed adjacent to the first end wall, and a magnetic core fixed to the solenoid. The magnetic core is comprised of a sleeve portion snugly and slidably fitting around an outer periphery of the side wall to radially position the core and the solenoid in place. | 03-04-2010 |
20100137095 | VARIABLE RATIO TRANSMISSION FOR DISTRIBUTING A DRIVE TORQUE TO AT LEAST TWO OUTPUT SHAFTS - A variable-ratio transmission for distributing a drive torque to at least two drive output shafts ( | 06-03-2010 |
20100144478 | DIFFERENTIAL LOCK STRUCTURE - A differential lock structure includes a differential and a lock ring, wherein the case of the differential has at least one locking through hole, and an output gear inside the differential having a recess, and the lock ring has a locking through bolt for passing through the locking through hole in the recess, and has a lock device for forcing the lock ring to stay close to the differential, characterized in that: the lock device includes an arbor which circumferentially has a worm gear and the other end has a spline gear, and a fork has a worm gear hole matching to the worm gear at one end and the other end clamps the lock ring, and a motor gear has a spline gear hole matching to the spline gear; when the motor gear rotates, the arbor is rotated, and the fork presses the lock ring close to the differential. | 06-10-2010 |
20100167863 | Coupling for generator/starter - A coupling system includes a dynamoelectric device selectively operable as either a generator or an electric motor, a gas turbine engine, a main differential operably connected between the dynamoelectric device and the gas turbine engine, a rotationally powered accessory engaged with the main differential, an epicyclic start differential operatively connected to the main differential, and a brake mechanism. The brake mechanism is configured for selectively braking the epicyclic start differential when the dynamoelectric device operates as an electric motor to direct torque transmission to the gas turbine engine, and is further configured to cease braking the epicyclic start differential when the dynamoelectric device operates as a generator such that the main differential transmits torque to power the rotationally powered accessory and to the dynamoelectric device. | 07-01-2010 |
20100240485 | Axle Drive Device for an Axle of a Motor Vehicle, as well as Motor Vehicle - The invention relates to an axle drive device ( | 09-23-2010 |
20100261566 | ELECTRIC DRIVE FOR A MOBILE VEHICLE - An electric drive for a mobile vehicle comprises an electric motor ( | 10-14-2010 |
20100285914 | Two-Speed Transaxle Gearbox For Electric Vehicles - A transmission to transfer power from an electric motor to first and second axles of a vehicle includes an input shaft adapted to be driven by the electric motor and a first planetary gear set. A second planetary gear set has a first member driven by the first planetary gear set, a second member restricted from rotation and a third member. A differential assembly has a first side gear adapted to drive the first axle, a second side gear adapted to drive the second axle and a pair of pinion gears meshed with the first and second side gears. A first clutch is operable to drivingly interconnect the first member and the differential assembly. A second clutch is operable to drivingly interconnect the third member and the differential assembly. | 11-11-2010 |
20100285915 | ELECTRIC DRIVE - An electric drive comprises an electric motor ( | 11-11-2010 |
20100298082 | ELECTRONICALLY CONTROLLED LOCKING DIFFERENTIAL HAVING LOGIC-CONTROL WIRE HARNESS - An electronically controlled locking differential includes an electromagnetic coil and a wire harness adapted to logically control operation of the differential and having a circuit. The circuit has a latching switch that is electrically connected to a first source of power and adapted to provide latching power of the differential. A double-pole, double-throw control relay is electrically connected to the latching switch and includes a first switch, a second switch, and a coil. The second switch is adapted to “jump” the latching switch. The circuit is disabled when power to the harness is turned off and in “standby” mode when power to the harness is turned on. Upon the latching switch being activated, current flows from a starting point of the circuit through the circuit to activate the relay, the first switch closes to energize the differential, the second switch closes such that the current “jumps” the latching switch, and the differential is actuated. | 11-25-2010 |
20100298083 | ELECTRONICALLY CONTROLLED LOCKING DIFFERENTIAL HAVING UNDER-DASH CONTROL SYSTEM - An electronically controlled locking differential includes an electromagnetic coil and a control system adapted to control operation of the differential. The control system has a module adapted to be mounted under a dashboard of a vehicle and a circuit electrically interfacing with the module. The circuit has a latching switch that is electrically connected to first and/or second sources of power and adapted to provide latching power of the differential. A latching component is electrically connected to the latching switch and adapted to provide latching power of the differential. The circuit is disabled when power to the control system is turned off and in “standby” mode when power to the control system is turned on. Upon the latching switch being activated, current flows through the circuit to activate the latching component, and the differential is actuated. | 11-25-2010 |
20100323837 | TRANSMISSION DEVICE - A transmission device, for a motor vehicle, with at least two drive output shafts and two multi-shaft planetary gearsets in active connection with one another. A shaft of a planetary gearset is actively connected with an output shaft and is shifted, between first and second power paths, such that in the first power path, torque of an electric machine is transmitted in equal parts and with the same sign to the output shafts, and in the second power path, torque is transmitted in equal parts but with different signs. One of the two planetary gearsets is made as a four-shaft, reduced coupling transmission with two sun gears and a common planetary gear carrier with radially inner and outer planetary gears that mesh with one another, and which are engaged, on the one hand, with the sun gears and, on the other hand, with a rotationally fixed ring gear. | 12-23-2010 |
20100323838 | TRANSMISSION DEVICE COMPRISING AT LEAST TWO OUTPUT SHAFTS AND AT LEAST TWO MULTI-SHAFT PLANETARY GEAR SETS - A transmission device with at least two output shafts and at least two multi-shaft planetary gearsets being actively connected. A shaft of each gearset can be actively connected with an output shaft. A shifting mechanism is provided, between the two output shafts, for shifting between a first power path and a second power path. In the area of a further shaft of one of the planetary gearsets, torque from an electric machine flows along the first or the second power path. When the first power path is engaged, the torque from the electric machine flows in equal parts and with the same sign to the two output shafts, and when the second power path is engaged, the torque flows to the two output shafts in equal parts but with opposite signs. A motor output shaft of the electric machine is arranged perpendicularly to one of the two output shafts. | 12-23-2010 |
20110009223 | ELECTRONIC LOCKING DIFFERENTIAL WITH DIRECT LOCKING STATE DETECTION SYSTEM - An axle assembly with an electronic locking differential that employs a locking mechanism having components that are fixed to one another along an axis such that they co-translate with one another when the actuator that effects the locking and unlocking of the differential is operated. | 01-13-2011 |
20110105264 | CLUTCH DEVICE - A clutch device is used in combination with a differential device. The clutch device is comprised of: a clutch housed in and rotatable with the differential device and axially movable from a disengaged state into an engaged state; a plunger slidably fit on the differential device and being axially movable from a first position where the plunger does not force the clutch to a second position where the plunger forces the clutch into the engaged state; an anti-rotated solenoid configured to drive the plunger; and a retainer supported by the differential device and in contact with both the plunger at the first position and the solenoid, whereby the plunger is barred from going beyond the first position and the solenoid is axially positioned in place. | 05-05-2011 |
20110124460 | ELECTRIC DRIVE SYSTEM - An electric drive system including an electric motor arranged to rotate a drive shaft. A differential includes a first planetary gear being drivingly connected to a first output assembly. A second planetary gear configuration is in driving engagement with the first planetary gear configuration via an output shaft. The second planetary configuration is drivingly connected to a second output assembly. The motor is disposed between the first and second planetary gear configuration. The first planetary gear configuration is arranged to co-act with the second planetary gear configuration so as to provide a differential function. The ring gears of the first and second planetary gear configurations are engaged via a reversing assembly for the differential function. Also, a motor driven unit, such as a motor vehicle. | 05-26-2011 |
20110136609 | DRIVE TRAIN FOR A MOTOR VEHICLE - A drive train for a motor vehicle, which has a first and a second axle. The drive train has a first drive unit for permanently driving the first axle and an electric drive unit, which is arranged in the region of the second axle and has an electric motor. A shift clutch package contains a first shift clutch for setting up a first transmission ratio and a second shift clutch for setting up a second transmission ratio between the electric motor and an output of the electric drive unit. The electric drive unit is arranged parallel to an input shaft of a transverse differential of the second axle. | 06-09-2011 |
20110136610 | ACTUATOR FOR OPERATING A DIFFERENTIAL LOCK - An actuator for operating a differential lock includes a chassis, a first motor mounted on the chassis and including a first motor pinion, a second motor mounted on the chassis and including a second motor pinion, and a ring gear rotatably mounted on the chassis about a ring gear axis and having a ring gear thread defined about the ring gear axis. The actuator includes an actuator element having an actuator element thread in engagement with the ring gear thread and having a feature for preventing rotation of the actuator element thread, the first motor pinion and second motor pinion being operable to drive the ring gear. | 06-09-2011 |
20110152027 | ELECTRONIC BOOSTER AND OPERATING FORCE TRANSMISSION DEVICE - In an electric booster according to one embodiment of the present invention, a brake pedal is connected to a sun gear of a differential transmission mechanism corresponding to a planetary gear mechanism. An electric motor is connected to a ring gear, and an output rod is connected to a planetary carrier, and the output rod is connected to a piston of a master cylinder. When the brake pedal is operated to rotate the sun gear, planetary pinions rotate and revolve around the sun gear. As a result, the planetary carrier rotates to move the output rod forward to push the piston. As a result, a hydraulic pressure is generated in the master cylinder. At this time, the electric motor is controlled according to the rotation of the sun gear to rotate the ring gear so that the ring gear follows the sun gear. In this manner, a servo force of the electric motor is applied to the rotation of the planetary carrier. | 06-23-2011 |
20110207570 | VEHICLE POWER TRANSMISSION DEVICE - A vehicle power transmission device includes: an input shaft; a planetary gear type speed reducer disposed concentrically to the input shaft to reduce and output rotation input to the input shaft; and a differential gear device disposed adjacently to the input shaft in a shaft center direction, the differential gear device being rotationally driven by the speed reducer to transmit a drive force to a pair of axles disposed on the shaft center while allowing a rotational difference between the axles, the speed reducer including a sun gear that is fit with a shaft end portion of the input shaft in a relatively non-rotatable manner, the sun gear being prevented from relatively moving toward the differential gear device by an annular snap ring fit and attached to an annular snap ring groove formed on an outer circumferential surface of the shaft end portion of the input shaft on the differential gear device side of the sun gear, the differential gear device including a differential case having a cylindrical end portion formed on the sun gear side or a member fixed thereto that is extended to the outer circumferential side of the snap ring, the differential case having a radial distance of an annular gap formed between the cylindrical end portion or the member fixed thereto and the snap ring set smaller than a groove depth of the snap ring groove. | 08-25-2011 |
20110212803 | DRIVE FOR A VEHICLE, AND METHOD FOR PROPELLING A VEHICLE - A drive for a vehicle includes a first electric motor, a second electric motor, and a planetary gear train to couple the first and second electric motors. The planetary gear train has a sun wheel mounted on a drive shaft, and a ring gear mounted on a drive shaft. The drive shaft of the sun wheel is hereby coupled with the first electric motor, and the drive shaft of the ring gear is coupled with the second electric motor. An axle drive unit is operably connected with wheels of the vehicle and coupled with planet wheels of the planetary gear train. Sun wheel and ring gear are rotatable in opposite directions in a startup phase. As a result, the electric motors are operated in a characteristic mapping range with higher torque before the start, thereby positively affecting the acceleration of the chassis when changing the relative rotation speed. | 09-01-2011 |
20110212804 | CONTROL DEVICE FOR VEHICLE POWER TRANSMISSION DEVICE - A control device for a vehicle power transmission device includes: an electric differential portion having a differential mechanism that includes a first rotating element, a second rotating element that functions as an input rotating member coupled to an engine, and a third rotating element that functions as an output rotating member, a first electric motor coupled to the first rotating element, and a second electric motor connected to a power transmission path from the third rotating element to drive wheels in a manner enabling power transmission, the electric differential portion controlling a differential state between a rotation speed of the second rotating element and a rotation speed of the third rotating element by controlling an operation state of the first electric motor, the control device executing inertia torque compensation control that drives the first electrode motor to generate a compensation torque for reducing an inertia torque generated in the first electric motor in association with a change in rotation speed of the second electric motor at the time of acceleration of a vehicle, and the inertia torque compensation control being executed at the start of a vehicle. | 09-01-2011 |
20110218070 | ELECTRIC DRIVE TWO-SPEED TRANSAXLE - An electric drive module for a motor vehicle includes an electric motor, a first input member, a first output member and a two-speed module selectively drivingly interconnecting the first input member and the first output member at one of two different drive ratios. A reduction unit includes a second input member being driven by the first output member and has a second output member being driven at a reduced speed relative to the second input member. A differential assembly has an input driven by said second output member. A first differential output drives a first output shaft, and a second differential output drives a second output shaft. | 09-08-2011 |
20110230294 | Differential wheel group with normal closed breaks at two output sides thereof - The present invention relates to a drive system employing single drive power through the differential wheel group to drive two differential output shafts thereof, in which a normal closed brake is individually installed at each of two differential output ends, to prevent the shortcoming of the ineffective parking function caused by single side sliding when single side being suspended or parking. | 09-22-2011 |
20110245007 | POWER TRANSMISSION DEVICE FOR FRONT AND REAR WHEEL DRIVE VEHICLE - A power transmission device for a front and rear wheel drive vehicle including: an electric type differential portion having a differential state between a rotation speed of a differential input member and a rotation speed of a differential output member controlled by controlling an operational sate of a first rotating machine coupled to a rotating element of a differential mechanism in a power transmittable manner; a second rotating machine disposed for at least one of front and rear wheels in a power transmittable manner; and a front and rear wheel power distribution device having three rotating elements that are an input rotating element, a first output rotating element operatively coupled to a first wheel that is one of the front and rear wheels, and a second output rotating element operatively coupled to a second wheel that is the other of the front and rear wheels, the front and rear wheel power distribution device distributing power to the first output rotating element and the second output rotating element, the power being input from the differential output member to the input rotation element, the front and rear wheel power distribution device being configured such that the input rotating element, the first output rotating element, and the second output rotating element are arranged in series from one end to the other end on a collinear diagram capable of representing rotation speeds of the three rotating elements on a straight line, a gear ratio from the first output rotating element to the first wheel being different from a gear ratio from the second output rotating element to the second wheel. | 10-06-2011 |
20120015773 | Vehicle Power Switching Device - A power switching device includes a power transmission unit and a driving unit. The transmission unit includes a differential, an axle aligned with the differential, and a coupler sleeved movably on one of the differential and the axle. The driving unit includes a controller, a first transmission mechanism driven by the controller, and a second transmission mechanism driven by the first transmission mechanism. The controller is a solenoid or an electric actuator, and is operable to activate the second transmission mechanism. The coupler can be moved by the second transmission mechanism to interconnect the differential and the axle, so as to allow for co-rotation of the axle with the differential. | 01-19-2012 |
20120021862 | Electronic Locking Differential - A differential mechanism includes a case, a gear rotatable about an axis, a lock ring held against rotation relative to the case, a lever contacting the lock ring, and an electromagnetic coil that is displaced axially when energized, pivoting the lever, engaging the lock ring with the side gear, and preventing the gear from rotating relative to the case. | 01-26-2012 |
20120083378 | DEVICE FOR TORQUE VECTORING - A device for torque vectoring in a wheeled vehicle is presented. The device includes a differential mechanism arranged on an axle having a first drive shaft and a second drive shaft, an electrical power source connected to an electrical motor, the electrical motor being connectable to the axle for torque vectoring between the first drive shaft and the second drive shaft, and control means connected to the power source and configured to receive a plurality of variables representing the current vehicle state and to determine drive currents being dependent on the variables, wherein the drive currents are supplied to the electrical motor from the power source for introducing a torque increase to either one of the first or second drive shafts and a corresponding torque decrease to the other one of the first or second drive shafts. | 04-05-2012 |
20120115665 | PARKING LOCK FOR A MOTOR VEHICLE AND METHOD OF OPERATING A PARKING LOCK - A parking lock assembly for a motor vehicle is described that has at least one electrically drivable driving axle. The parking lock comprises an electric drive, a shaft which is arranged in the driveline of a motor vehicle and which is drivable by the electric drive, as well as a locking mechanism which is controllable in the locking sense in order to prevent a rotational movement of the shaft and which is controllable in the opening sense in order to release the shaft. The electric drive is controllable in order to transmit torque to the shaft if, in spite of the locking mechanism being controlled in the opening sense, the shaft is prevented from carrying out a rotational movement. Furthermore, a method of actuating such a parking lock assembly is described. | 05-10-2012 |
20120129644 | TRANSMISSION MEMBER INCLUDING AN ELECTRIC MOTOR HAVING AN INTEGRATED DIFFERENTIAL - A transmission member including a housing, a stator assembly arranged within the housing, and a rotor assembly rotatably mounted relative to the stator assembly within the housing. The rotor assembly includes a hub portion that defines, at least in part, a carrier. A differential gear assembly is arranged within the carrier. The differential gear assembly includes first and second planet gears driven by the carrier, and first and second side gears driven by the first and second planet gears. | 05-24-2012 |
20120129645 | GEAR LASH CONTROL MEMBER FOR A DIFFERENTIAL GEAR SET AND METHOD OF ESTABLISHING GEAR LASH - A differential gear set including a gear housing and a first planet gear rotatably mounted to the gear housing and includes a first end portion having a plurality of planet gear teeth. A second planet gear is rotatably mounted to the gear housing and includes a first end portion having a plurality of planet gear teeth. A side gear is rotatably mounted in the gear housing and includes a plurality of side gear teeth that mechanically engage with the plurality of planet gear teeth of the first planet gear and the plurality of planet gear teeth of the second planet gear. A gear lash control member is interposed between the first and second planet gears and the side gear. The gear lash control member maintains a desired gear lash of the plurality of planet gear teeth and to the plurality of side gear teeth. | 05-24-2012 |
20120157255 | INTEGRATED ELECTRIC POWERTRAIN ASSEMBLY DEVICE AND METHOD - An integrated powertrain assembly, comprising, in combination: an electric motor having a hollow motor shaft extending along the axis of the motor; a continuously variable transmission disposed adjacent to the motor and having a hollow CVT shaft; a differential, and a pair of output shafts extending from the differential through the hollow motor shaft and the hollow CVT shaft; wherein the electric motor, the continuously variable transmission, and the differential are axially aligned along a common axis, is disclosed. | 06-21-2012 |
20120178575 | HIGH EFFICIENCY TRANSFER CASE - A multi-speed power transmission device includes an input shaft, first and second output shafts and a planetary gearset. An axially moveable sleeve fixes the first output shaft and the input shaft for rotation when in a first position and the sleeve fixes the sun gear and the input shaft for rotation when in a second position. A hub is axially moveable and free to rotate relative to the first output shaft when in the first position. The hub is fixed for rotation with the first output shaft when in the second position. A cam plate is continuously fixed for rotation with the carrier and urges the hub toward its second position when in a second axial position. The input shaft drives the first output shaft at a reduced speed via the planetary gearset when the sleeve, hub and cam plate are at their second positions. | 07-12-2012 |
20120238387 | TORQUE TRANSFER UNIT WITH INTEGRATED ELECTRIC DRIVE MOTOR - An axle assembly comprises a power transmission device including a housing having a cylindrically shaped sidewall. The power transmission device selectively communicates rotatable motion from an input member to an output member. A frictional clutch is disposed in the housing and includes a drum. A first and a second axle shaft selectively drive a first and a second drive wheel, respectively. A differential selectively transfers drive torque from the output member to at least one of the first and second axle shafts. An electric motor comprising a coil and a plurality of magnets is provided on the axle assembly. In one example, the coil is disposed on the housing and the magnets are disposed on the drum. The coil is configured to selectively energize to provide one of a positive or negative torque input to the output member. | 09-20-2012 |
20120238388 | POWER INTERRUPTING APPARATUS AND POWER TRANSMITTING APPARATUS - A power interrupting apparatus is provided with: a first rotating member, a second rotating member, a clutch device adapted to interrupt a coupling between the first rotating member and the second rotating member, and an actuator adapted to actuate the clutch device. The actuator is disposed on a radially outer periphery of a part of one of the first rotating member and the second rotating member. | 09-20-2012 |
20120252621 | DIFFERENTIAL ASSEMBLY AND DRIVING ASSEMBLY WITH A DIFFERENTIAL ASSEMBLY - A differential assembly is disclosed, and more particularly a differential assembly for a motor vehicle driving axle drivable by an electric motor. The differential assembly comprises a driving gear; a differential drive with an input part and two output parts, wherein the output parts are drivingly connected to the input part and, relative to one another, have a differential effect; a coupling which is arranged effectively between the driving gear and the differential drive, wherein, in a closed condition of the coupling, torque is transmitted from the driving gear to the differential drive and, in an open condition of the coupling, a transmission of torque is interrupted; a controllable actuator for actuating the coupling and a sensor for determining at least three switched positions of the coupling. Furthermore, a driving assembly with such a differential assembly is also disclosed. | 10-04-2012 |
20120258833 | ASYNCHRONOUS BOOST ASSIST SYSTEM FOR A MOTOR VEHICLE - An asynchronous boost assist system for a motor vehicle includes a first electric motor, a second electric motor positioned opposite the first electric motor and a differential gear system operatively connected to the first and second electric motors. The differential gear system includes a first differential gear set and a second differential gear set. The first differential gear set is operatively connected to the first and second electric motors and the second differential gear set is configured and disposed to operatively connect to first and second vehicle wheels. A controller is operatively connected to each of the first and second electric motors. The controller selectively independently controls an operational speed of each of the first and second electric motors to selectively provide an acceleration boost through the second differential gear set. | 10-11-2012 |
20120283061 | ELECTRIC DRIVE SYSTEM - The present invention relates to an electric drive system comprising an electric motor ( | 11-08-2012 |
20120295750 | DEVICE FOR DRIVING A VEHICLE - A device for driving a vehicle includes a housing, an electric motor; a differential gear unit, and a planetary gear unit. The planetary gear unit includes a sun gear connected to the electric motor, a ring gear coupleable via a first coupling to the housing, a plurality of planetary gears disposed between the ring gear and the sun gear and mounted on a planet carrier coupled to the differential gear unit, the planet carrier coupleable to the ring gear by a second coupling, the second coupling being disposed in a plane with the first coupling parallel to the electric motor. | 11-22-2012 |
20120316023 | MOTOR VEHICLE DRIVE TRAIN - Drive train for a motor vehicle, having an electric machine for providing motive power, and a transmission arrangement. The transmission arrangement has a transmission input shaft and a first and a second gear stage. The transmission input shaft is connected to the electric machine. The drive train has a differential, which is connected to an output of the transmission and is set up to distribute motive power to two drive shafts. The differential is connected to a helically toothed driving gear, which is in engagement with a helically toothed pinion of the transmission output. A pressure pad arrangement absorbs axial forces arising from the helical toothing. | 12-13-2012 |
20120329597 | SPEED REDUCTION MECHANISM AND MOTOR TORQUE TRANSMISSION DEVICE INCLUDING THE SPEED REDUCTION MECHANISM - A reduction-transmission mechanism includes: an input member formed of an external gear that makes circular motion with an eccentric amount; a rotation force applying member formed of an internal gear that is in mesh with the input member; and output members that receive and output rotation force applied to the input member by the rotation force applying member, and that are passed through the respective pin insertion holes. Each of the output members is provided with a needle roller bearing at a portion that is able to contact an inner periphery, which defines a corresponding one of the through-holes, and the input member has third oil supply passages that extend from the center hole to the pin insertion holes, and lubricating oil is supplied to the needle roller bearings through the third oil supply passages by centrifugal force generated in accordance with rotation of the motor shaft. | 12-27-2012 |
20130065722 | BEARING DEVICE, SPEED REDUCTION MECHANISM INCLUDING THE BEARING DEVICE, AND MOTOR TORQUE TRANSMISSION DEVICE - A cage of each of ball bearings arranged on respective outer peripheries of eccentric portions of a motor shaft has an annular base portion interposed between an inner ring and an outer ring and a plurality of partition wall portions for forming pockets together with the base portion. In a first ball bearing, part of the base portion protrudes axially outward from the inner raceway and forms an oil receiving portion that receives lubricating oil from the second rolling bearing side, at a portion around the rotation axis and axially outward of the first rolling bearing. | 03-14-2013 |
20130079187 | COMPOSITE RAMP PLATE FOR ELECTRONICALY-ACTUATED LOCKING DIFFERENTIAL - A cam member for a vehicle differential includes a cam surface made of a high-durability alloy and a clutch surface made of a high-density magnetic alloy. The cam surface and the clutch surface can either be formed into a single component or as separate components that are mechanically coupled together. In one aspect, both the high-durability alloy and the high-density magnetic alloy are powdered metal alloys. As a result, the cam member has different surfaces with optimized characteristics that would ordinarily be difficult to incorporate into a single component. | 03-28-2013 |
20130123057 | DRIVE ARRANGEMENT - In a drive arrangement for wheels of a motor vehicle which are driven by means of an electric machine via a differential, the electric machine includes a rotor and a stator and drives a drive element of the differential whose output shafts output to the wheels of the motor vehicle. In order to achieve a structurally compact construction which enables favorable transmission ratios the rotor outputs to the drive element of the differential and that by interposing a gear mechanism, the drive element and/or the output shafts are supported offset to the rotation axis of the rotor. | 05-16-2013 |
20130123058 | DRIVE ARRANGEMENT - In a drive arrangement for wheels of a motor vehicle which are driven by an electric machine via a differential, an electric machine which has a ring shaped rotor drives a drive element of the differential, whose output shafts output to the wheels of the motor vehicle. The ring shaped rotor of the electric machine outputs to the input element of the differential via a gear mechanism and the differential is integrated in the rotor thereby allowing for a structurally compact construction and enabling favorable transmission ratios. | 05-16-2013 |
20130130857 | ELECTRIC DRIVE FOR A MOTOR VEHICLE - An electric drive for a motor vehicle comprising an electric motor and a drive unit is disclosed. The drive unit has a first gear stage, driveable by the electric motor, a second gear stage, driveable by the first gear stage, and a differential drive, driveable by the second gear stage. The first gear stage has a driving wheel and an output wheel, wherein the driving wheel is arranged coaxially to the output shaft of the electric motor and is rotatingly driveable by the electric motor around a first rotational axis A. The output wheel is drivingly connected to the driving wheel and is rotatingly driveable around a second rotational axis B, wherein the second rotational axis B is arranged parallel off-set to the first rotational axis A. The second gear stage and the differential drive are arranged coaxially to the second rotational axis B. | 05-23-2013 |
20130178319 | SPEED REDUCTION MECHANISM, AND MOTOR TORQUE TRANSMISSION DEVICE INCLUDING THE SAME - When a bearing includes outer and inner rings and the outer ring is fitted to the inner periphery of an input member, which defines a center hole, with a clearance and the inner ring is fitted to an eccentric portion with a clearance, a size between a second axis and a third axis is set to a size that is smaller than or equal to half of a size obtained by adding a diameter difference between an outside diameter of the bearing and an inside diameter of the input member, which defines the center hole, a diameter difference between an inside diameter of the bearing and an outside diameter of the eccentric portion and an operating clearance of the bearing in a state where the input member has been moved to contact the housing on a line perpendicular to the second axis and a fourth axis. | 07-11-2013 |
20130190124 | ELECTRIC DRIVE FOR A MOTOR VEHICLE - An electric drive for a motor vehicle is disclosed that comprises an electric motor and a drive unit drivable by the electric motor. The drive unit has a planetary drive and a differential drive | 07-25-2013 |
20130203543 | AXLE ASSEMBLY WITH TORQUE DISTRIBUTION DRIVE MECHANISM - An axle assembly with a motor, a differential assembly, a housing, a transmission and a reduction gearset. The transmission has a first and second planetary gearsets that have associated (i.e., first and second) ring gears, planet carriers and sun gears. The first planet carrier is coupled to a differential carrier of the differential assembly for common rotation. The second ring gear is non-rotatably coupled to the housing. The second planet carrier is coupled to the second differential output for common rotation. The second sun gear is coupled to the first sun gear for common rotation. The reduction gearset is disposed between an output shaft of the motor and the first ring gear and includes a first gear, which is coupled to the output shaft for rotation therewith, and a second gear that is coupled to the first ring gear for rotation therewith. | 08-08-2013 |
20130260941 | MOTOR DEVICE FORCE TRANSMISSION APPARATUS - In a motor driving force transmission apparatus, a cam mechanism includes an input cam member that rotates upon reception of motor torque from a cam actuating electric motor and an output cam member that outputs cam thrust force through movement due to rotation of the input cam member, and rotation of the output cam member around an axis of a housing is restricted by a restricting member fixed to the housing. | 10-03-2013 |
20130267368 | TRANSMISSION AND DIFFERENTIAL GEARING AS WELL AS MOTOR AND GEARING UNIT - A transmission and differential gearing includes a transmission section and a differential section. The transmission section has an input stage and a load stage. The sun gear of the input stage is connected or coupleable to an input shaft. The ring gear of the bad stage is fixed relative to the housing. The sun gear of the bad stage is connected to the carrier of the input stage. The carrier of the load stage is connected to the ring gear of the input stage. The differential section is a spur gear differential configured as a planetary gear set. The ring gear of the planetary gear set is connected to the carrier of the load stage. The carrier of the planetary gear set and the sun gear of the planetary gear set are connected to a respective one of two output shafts. A motor and gearing unit is also provided. | 10-10-2013 |
20130274050 | DRIVE DEVICE FOR A MOTOR VEHICLE - A drive device for a vehicle includes at least one electric machine having at least one rotor element which is configured to delimit an installation area in a radial direction. Disposed, at least partly, in the installation area, is at least one transmission device which is configured to be driven by the electric machine via the rotor element. | 10-17-2013 |
20130274051 | DRIVE DEVICE FOR A MOTOR VEHICLE - A drive device for a motor vehicle includes at least one electric machine having at least one rotor element which is configured to delimit an installation area in a radial direction. At least one transmission device is disposed, at least partly, in the installation area and configured to be driven by the electric machine via the rotor element. At least two components of the transmission device and/or electric machine are permanently linked to one another such that a detachment of the two components causes destruction. | 10-17-2013 |
20130274052 | DRIVE DEVICE FOR A MOTOR VEHICLE - A drive device for a vehicle includes at least one electric machine having at least one rotor element which is configured to delimit an installation area in a radial direction, and an active rotor part which is operably connected to the rotor element and has a ring structure to guide a magnetic flux of the electric machine. At least one transmission device is disposed, at least partly, in the installation area and configured to be driven by the electric machine via the rotor element. | 10-17-2013 |
20130274053 | DRIVE DEVICE FOR A MOTOR VEHICLE - A drive device for a motor vehicle includes at least one electric machine having at least one rotor element which includes a single-piece, essentially sleeve-shaped rotor carrier to delimit an installation area in a radial direction. At least one transmission device is disposed, at least partly, in the installation area and configured to be driven by the electric machine via the rotor element. | 10-17-2013 |
20130281247 | SYSTEM AND METHOD OF DIFFERENTIATING TORQUE BETWEEN WHEELS OF A VEHICLE - An electric drive unit (EDU) is configured for driving a first and second wheel of a vehicle. The EDU includes a rotor, a stator, a first planetary gear set, a second planetary gear set, and a pair of engagement mechanisms. The first planetary gear set is operatively connected to the rotor and rotates about the drive axis in response to rotation of the rotor to transmit torque to the first wheel. The second planetary gear set is operatively connected to the rotor and rotates about the drive axis in response to rotation of the rotor to transmit torque to the second wheel. Rotation of the rotor causes each of the planetary gear sets to rotate about the drive axis. Each engagement mechanism is selectively engages a respective one of the planetary gear sets to vary the torque transmitted to the respective wheel. | 10-24-2013 |
20130281248 | DIRECT-TYPE DRIVING MODULE OF DIFFERENTIAL GEAR FOR ELECTRIC VEHICLE - Disclosed is a direct-type driving module of a differential gear for an electric vehicle, which is configured to directly connect a driving shaft of a driving motor to a driving bevel gear without a decelerator. In the direct-type driving module according to the present invention, the driving axel of the driving motor is connected to a driving bevel gear geared with the differential gear through a coupler, thereby easily adapting to the change of a driving axel. In addition, a rotator of the driving motor can be prevented from being compressed or applied with a tensile load due to an external force applied to a driving axel installed in a direct-type driving method, thereby increasing durability of the driving motor. | 10-24-2013 |
20130281249 | ELECTRIC THREE-WHEEL VEHICLE - An electric motor and a differential mechanism are placed near a vehicle body left-right center line distributed between the left and right sides of the vehicle body. In addition, at least parts respectively of the electric motor and the differential mechanism are placed on the vehicle body left-right center line. A deceleration mechanism is placed away from the vehicle left-right center line on one of the left and right sides of the vehicle. | 10-24-2013 |
20130281250 | TORQUE VECTORING DEVICE - A torque vectoring device ( | 10-24-2013 |
20130296094 | ELECTRIC DRIVE UNIT WITH MODULAR MOTOR ASSEMBLY - An electric drive module for a motor vehicle includes an electric motor assembly having a cartridge housing containing a stator, a rotor, and a rotor shaft. The rotor shaft is supported by the cartridge housing. The electric motor assembly is positioned within an axle housing. A reduction unit includes an input member being driven by the rotor shaft and includes an output member driven at a reduced speed relative to the input member. A differential assembly includes an input driven by the output member, a first differential output driving a first output shaft, and a second differential output driving a second output shaft. | 11-07-2013 |
20130324342 | MOTOR DRIVING FORCE TRANSMISSION DEVICE - A motor driving force transmission device includes electric motors which produce motor driving force with which a rear differential is operated and a speed reduction and transmission mechanism which reduces the speed of the motor driving force of the electric motors and transmits it to the rear differential. The speed reduction and transmission mechanism has eccentric cams which rotate as the electric motors are driven, transmission members which rotate as the eccentric cams rotate, and is disposed on an outer circumference of the rear differential. | 12-05-2013 |
20140004987 | VEHICULAR DRIVE SYSTEM | 01-02-2014 |
20140024487 | FRICTION ROLLER REDUCER AND DRIVE UNIT FOR ELECTRIC AUTOMOBILE - Construction of a friction roller reducer is achieved wherein displacement of intermediate rollers due to the change in thickness in the axial direction of loading cam apparatuses can be performed smoothly, and excellent transmission efficiency can be obtained. Long guide holes that are long in the radial direction of a sun roller and ring-shaped roller are provided in guide blocks that are fastened to a support frame for supporting the end sections of rotation shafts of intermediate rollers. The outer rings of ball bearings, of which the inner rings are fitted around and fastened to the outside of the end sections of the rotation shafts, engage with the long guide holes so as to be able to displace in the radial direction of the sun roller and the ring-shaped roller. | 01-23-2014 |
20140031161 | TWO-SPEED TRANSMISSION FOR ELECTRIC VEHICLE - A transmission to transfer power from an electric motor to first and second axles of a vehicle includes an input shaft adapted to be driven by the electric motor and a first planetary gear set. A second planetary gear set has a first member driven by the first planetary gear set, a second member restricted from rotation and a third member. A differential assembly has a first side gear adapted to drive the first axle, a second side gear adapted to drive the second axle and a pair of pinion gears meshed with the first and second side gears. A first clutch is operable to drivingly interconnect the first member and the differential assembly. A second clutch is operable to drivingly interconnect the third member and the differential assembly. | 01-30-2014 |
20140051538 | MULTI-SPEED TRANSAXLE FOR ELECTRIC AND HYBRID VEHICLE APPLICATION - An electric drive module for transferring torque to wheels of a motor vehicle a planetary gearset having a first member driven by the rotor and a second member. A synchronizer restricts a third member of the planetary gearset from rotation when the electric drive module operates at a first drive ratio. The synchronizer transfers energy from the rotating rotor to the third member during a shift between the first drive ratio and a second drive ratio to match the rotational speeds of the rotor and the second member. A reduction unit includes an input member being driven by the second member and also includes an output member driven at a reduced speed relative to the input member. A differential assembly includes an input driven by the output member, a first differential output driving a first output shaft, and a second differential output driving a second output shaft. | 02-20-2014 |
20140080653 | DRIVE DEVICE COMPRISING AN ELECTRIC MACHINE - A drive device ( | 03-20-2014 |
20140087906 | AXLE ASSEMBLY HAVING AN ELECTRIC MOTOR MODULE - An axle assembly having an electric motor module. The electric motor module may be coupled to a differential assembly. A rotor of the electric motor module may be coupled to a pinion of the differential assembly with a first coupling. | 03-27-2014 |
20140106921 | TWO-SPEED ELECTRIC DRIVE MODULE FOR ELECTRIC AND HYBRID VEHICLES - An electric drive module for a motor vehicle includes an electric motor, a first input member, a first output member and a two-speed module selectively drivingly interconnecting the first input member and the first output member at one of two different drive ratios. A reduction unit includes a second input member being driven by the first output member and has a second output member being driven at a reduced speed relative to the second input member. A differential assembly has an input driven by said second output member. A first differential output drives a first output shaft, and a second differential output drives a second output shaft. | 04-17-2014 |
20140141918 | REDUCTION DIFFERENTIAL GEAR APPARATUS FOR ELECTRIC VEHICLE - An object is to reduce various losses occurring in a speed-reduction/differential gear apparatus for electric vehicles including a planetary-gear speed reducer and a differential device, thereby improving transmission efficiency of the driving force and increasing travel distance of the electric vehicle per battery charge. A speed-reduction/differential gear apparatus for electric vehicles includes a planetary-gear speed reducer and a differential device. A planetary gear mechanism in the speed reducer includes a speed-reducer-side carrier which has its inner diameter surface supported by a speed-reducer-side carrier support bearing. The invention provides proper mesh between in the pair of engaging teeth, leading to decrease in loss torque. | 05-22-2014 |
20140274527 | DRIVE MODULE HAVING PLANETARY TRANSMISSION WITH NESTED RING GEARS - A drive module with a planetary transmission that includes a transmission housing, a first ring gear and a second ring gear. The first ring gear is rotatably mounted in the transmission housing, the second ring gear is non-rotatably mounted in the transmission housing, and the first ring gear is supported on the second ring gear to thereby align a central axis of the first ring gear to a central axis of the second ring gear. | 09-18-2014 |
20140274528 | TWO-SPEED DRIVE MODULE - A drive module that includes an electric motor and a multi-speed transmission assembly having a two-speed planetary transmission stage. The multi-speed transmission assembly outputs rotary power to a differential assembly. | 09-18-2014 |
20140274529 | TORQUE MANAGEMENT UNIT WITH INTEGRATED HYDRAULIC ACTUATOR - The present disclosure provides an improved, integrated electronically controlled hydraulic-based torque distribution system and related method. The torque distribution system of the present disclosure includes an electric motor that drives a pump that generates hydraulic pressure used to selectively activate a clutch pack to transfer torque to the wheels of a motor vehicle. | 09-18-2014 |
20140274530 | Bi-Directional Overrunning Clutch With Improved Indexing Mechanism - A bi-directional overrunning clutch assembly for engaging secondary driven shafts in a four wheel drive vehicle. The assembly includes a differential housing with a pinion input gear rotatably disposed within it that is engaged to a drive shaft. A bi-directional overrunning clutch housing is engaged to the pinion gear. A roll cage assembly is located inside the clutch housing. A pair of hubs are positioned within the roll cage assembly and connected to the secondary driven shafts. An electromagnetic system controls indexes the roll cage in a first direction relative to the clutch housing a first indexing device for coupling the secondary drive shaft to the secondary driven axles when four wheel drive is needed, and in an opposite direction using a second indexing device when an engine braking condition is needed. A spring assembly is preferably used to bias the roll cage back to a neutral position. | 09-18-2014 |
20140302958 | DRIVE DEVICE HAVING AN ELECTRICAL DRIVE MACHINE - A drive device is particularly suited for driving a vehicle. The device has an electrical drive machine with a rotor. The drive machine is coupled to a drive shaft by way of a gear arrangement. The gear arrangement, which includes a gear mechanism and/or a differential, is integrated within the rotor of the electrical drive machine. | 10-09-2014 |
20140315675 | DRIVE TORQUE DISTRIBUTION APPARATUS - When a first drive shaft and a second drive shaft rotate at equal rotational speeds, a first rotor and a second rotor rotate at equal rotational speeds. On the other hand, a rotational difference is generated between the first drive shaft and the second shaft by generating a torque between the first rotor and the second rotor and consequently, a rotational difference between the first rotor and the second rotor, so that a torque distribution between the first drive shaft and the second drive shaft is adjusted according to the torque generated between the first rotor and the second rotor. With this process, the torque distribution between the first drive shaft and the second drive shaft is adjusted without complicating the structure, and a loss when the first drive shaft and the second drive shaft rotate at equal rotational speeds is reduced. | 10-23-2014 |
20140323259 | ELECTRIC DRIVE DEVICE FOR VEHICLE - A vehicle electric drive device has an electric motor and is disposed with an engagement device between each end of an output shaft of the electric motor and each of left and right drive wheels, the vehicle electric drive device being disposed with a planetary gear device between each end of the output shaft of the electric motor and each of the left and right drive wheels, the engagement device being a brake fixing one rotating element of the planetary gear device to reduce rotation of the output shaft of the electric motor, the planetary gear device being made up of the sun gear coupled to the output shaft of the electric motor, the stepped pinion having the small-diameter gear and the large-diameter gear such that the large-diameter gear is meshed with the sun gear, the carrier supporting the stepped pinion rotatably and revolvably around the sun gear and coupled to the drive wheel, and the ring gear meshed with the small-diameter gear of the stepped pinion, and the engagement devices being disposed between the ring gear and a non-rotating member. | 10-30-2014 |
20140349802 | PINION SHAFT BEARING ARRANGEMENT - A pinion shaft bearing arrangement including a pinion shaft, which is mounted by means of at least two rolling bearings in a pinion shaft housing, the pinion shaft bearing housing being a bearing cartridge, having running surface formed on the inner circumference for the rolling elements of the rolling bearings. The pinion shaft housing is sealed in the direction of the pinion shaft by means of a sealing element, and a first lubricant channel is provided in the region between the rolling bearings and a second lubricant channel is provided in the region in front of the sealing element. | 11-27-2014 |
20140364264 | AXLE ASSEMBLY WITH TORQUE DISTRIBUTION DRIVE MECHANISM - An axle assembly with a differential assembly, a housing and a transmission. The transmission has a first and second planetary gearsets that have associated (i.e., first and second) ring gears, planet carriers and sun gears. The first planet carrier is coupled to a differential carrier of the differential assembly for common rotation. The second ring gear is non-rotatably coupled to the housing. The second planet carrier is coupled to the second differential output for common rotation. The second sun gear is coupled to the first sun gear for common rotation. | 12-11-2014 |
20150038277 | MOTOR DRIVE ASSEMBLY FOR A VEHICLE - A motor drive assembly for a vehicle is provided which includes an electric motor. A rotor of the electric motor includes a spindle rotatably supported by a first bearing located on a first side of the spindle close to a speed reducer and a second bearing located on a second side of the spindle opposite from the first side of the spindle and remote from the speed reducer. The spindle includes a tubular, hollow, rotor core mounting portion having an inner diameter larger than the diameter of a cylindrical surface on which the first bearing is fitted. | 02-05-2015 |
20150065283 | ELECTRIC DRIVE AXLE ARRANGEMENT FOR A ROAD VEHICLE - An electric drive axle arrangement for a road vehicle comprises an electric drive motor ( | 03-05-2015 |
20150065284 | VEHICLE POWER SWITCHING DEVICE - A power switching device includes a power transmission unit and a driving unit. The transmission unit includes a differential, an axle aligned with the differential, and a coupler sleeved movably on one of the differential and the axle. The driving unit includes a controller, a first transmission mechanism driven by the controller, and a second transmission mechanism driven by the first transmission mechanism. The controller is a solenoid or an electric actuator, and is operable to activate the second transmission mechanism. The coupler can be moved by the second transmission mechanism to interconnect the differential and the axle, so as to allow for co-rotation of the axle with the differential. | 03-05-2015 |
20150087459 | SPEED-CHANGING AND DIFFERENTIAL TRANSMISSION AND MOTOR AND TRANSMISSION UNIT - A speed-changing and differential transmission includes a speed-changing section and a differential section. The speed-changing section has an input stage and a load stage. The sun wheel of the load stage can be operatively connected to at least one planet wheel of the input stage via a planet carrier. At least one planet wheel of the load stage can be operatively connected to the annulus of the input stage via a planet carrier. One of these operative connections is configured as a selectable connection and the other is configured as a fixed connection such that through use of a coupling device, the annulus of the input stage can be operatively coupled to the planet carrier of the load stage, or the sun wheel of the load stage can be operatively coupled to the planet carrier of the input stage. | 03-26-2015 |
20150099600 | ELECTRICAL AXLE - An electrical axle for a four wheeled road vehicle is provided. The electrical axle comprises an electrical propulsion motor ( | 04-09-2015 |
20150099601 | PLANETARY GEAR TRANSMISSION AND ELECTRIC VEHICLE - A planetary gear transmission is disclosed, which comprises a planetary gear train having a sun gear, a fixed annular gear, at least one planet gear and a planet carrier; a synchronizer configured to be driven into a first coupling state in which it couples the sun gear with a prime mover, and a second coupling state in which it couples the planet carrier with the prime mover; and an actuator configured for selectively driving the synchronizer into one of its first and second coupling states. An electric vehicle comprising such a planetary gear transmission is also disclosed. | 04-09-2015 |
20150111681 | Drive Device for a Motor Vehicle Axle Which, In Particular, is Electrically-Driven - A drive device for an electrically driven axle of a motor vehicle, has, as appropriate, a driving electric machine, a transmission gearing and a differential which, via drive output shafts, outputs drive power to driven wheels of the motor vehicle. The transmission gearing is formed by two planetary gear sets which are coupled to one another and which can be switched into two transmission ratio stages by way of switching elements. | 04-23-2015 |
20150119180 | POWERTRAIN INCLUDING AN ELECTRIC MOTOR/GENERATOR AND A FINAL DRIVE UNIT CONNECTED TO THE ELECTRIC MOTOR/GENERATOR - A powertrain can provide propulsive power to a vehicle and includes an electric motor/generator including a motor housing, and a final drive unit partially disposed in the motor housing. The final drive unit includes a gear case coupled to the motor housing. The final drive unit further includes a differential disposed in the gear case. The differential includes a differential housing. The final drive unit further includes a first final drive bearing disposed around the differential housing. The first final drive bearing is supported by the bearing support structure connected to the motor housing. The final drive unit further includes a second final drive bearing disposed around the differential housing. The second final drive bearing is supported by the gear case. | 04-30-2015 |
20150119181 | CLUTCH SYSTEM - A clutch system selectably connects a vehicle rear axle to a motor. The clutch system includes an intermediate shaft to fixably attach to a side gear of a differential for rotation therewith. A case of the differential is connected to the motor via a gear train. Another side gear of the differential is affixed to an output shaft, and the output shaft extends through a center of rotation of an armature of the motor to connect to a road wheel of a vehicle. A clutch is to selectably connect the intermediate shaft to another output shaft connected to another road wheel of the vehicle. An actuator is to actuate the clutch to an engaged state and thereby selectably connect the intermediate shaft to the other output shaft. The output shaft, the other output shaft, and the motor rotate independently when the clutch is not in the engaged state. | 04-30-2015 |
20150133254 | ELECTRONICALLY ACTUATED LOCKING DIFFERENTIAL HAVING NON-ROTATING STATOR AND ARMATURE - An electronically actuated locking differential for an automotive vehicle includes a gear case, a pair of side gears disposed within the gear case and operatively adapted for rotation with a corresponding pair of axle half shafts, and a lock plate disposed within the gear case and operably associated with one of the side gears and being movable axially relative to the one of the side gears. The electronically actuated locking differential also includes a return spring disposed within the gear case and cooperating with the lock plate to bias the lock plate axially away from one of the side gears and an electronic actuator cooperating with the lock plate, the electronic actuator having a non-rotating stator disposed about a portion of the gear case, an electromagnetic coil associated with the stator, and a non-rotating armature coupled to the lock plate and being axially movable relative to the stator. | 05-14-2015 |
20150316133 | VEHICLE POWER SWITCHING DEVICE - A power switching device includes a power transmission unit and a driving unit. The transmission unit includes a differential, an axle aligned with the differential, and a coupler sleeved movably on one of the differential and the axle. The driving unit includes a controller, a first transmission mechanism driven by the controller, and a second transmission mechanism driven by the first transmission mechanism. The controller is a solenoid or an electric actuator, and is operable to activate the second transmission mechanism. The coupler can be moved by the second transmission mechanism to interconnect the differential and the axle, so as to allow for co-rotation of the axle with the differential. | 11-05-2015 |
20150323055 | ELECTROMECHANICAL ACTUATOR WITH ANTI-BLOCKING MEANS - An electromechanical actuator comprising a frame having mounted thereon a rotary motor and a gear train having an inlet shaft lying on the same axis as an outlet shaft of the motor and connected thereto, and an outlet ring coaxial with the outlet shaft of the motor and connected to a lever for operating a member that is to be driven. The gear train is carried by a casing mounted on the frame to pivot about the axis of the outlet shaft of the motor. An anti-blocking device is mounted on the frame and comprises a movable element that is movable between a blocking position for blocking the casing in rotation relative to the frame, and a release position for releasing the casing in rotation relative to the frame. | 11-12-2015 |
20150330492 | VEHICLE TRANSMISSION WITH COMMON CARRIER PLANETARY GEAR SET - A transmission with a common carrier planetary gear set is provided for a vehicle that has drive axle half shafts defining an axis of rotation, an electric motor/generator with a motor shaft parallel with the axis of rotation, either concentric with the axis of rotation or spaced therefrom, and a differential with a differential carrier connected with the drive axle half shafts. The planetary gear set has a first sun gear member continuously or selectively connectable with the motor shaft, first and second pinion gears, a carrier member rotatably supporting the first and the second pinion gears so that the first pinion gear meshes with the first sun gear member, and a ring gear member meshing with one of the pinion gears. The ring gear is connectable to a non-rotating housing. The carrier member is operatively connected with the differential carrier. | 11-19-2015 |
20160091071 | Control of Locking Differential - A locking differential includes a dog clutch configured to selectively couple a carrier to an axle shaft in response to magnetic forces generated by electrical current in a coil. A method of operating the differential is adapted to avoid failed engagement attempts that could potentially damage the dog clutch. If a driver commands engagement of the locking feature while a differential speed, a controller waits to command engagement of the dog clutch until the differential speed decreases below a threshold. The controller measures or infers a temperature of the differential fluid and adjusts the threshold to higher values when the temperature is cold. | 03-31-2016 |
20160096563 | ELECTRIC DRIVE RETROFIT KIT - The present disclosure relates to an electric drive retrofit kit for a high drive track-type tractor. The electric drive retrofit kit may include a rear entry electric drive motor module that includes an electric drive planetary gear assembly and a second electric drive planetary gear assembly which can be inserted into a rear final drive cavity of a frame housing for a high drive track-type tractor. The electric drive retrofit kit may further include a generator, a cooling package, an additional water pump, a steering pump, a steering motor, power inverters with control modules, and electric cables. | 04-07-2016 |
20160097443 | DRIVELINE COMPONENT HAVING DIFFERENTIAL AND PARK LOCK MECHANISM - A driveline component with a housing, a differential case in the housing that is rotatable about an axis, and a park lock mechanism with first, second and third lock elements. The first lock element is coupled to the differential case for common rotation about the axis and has a plurality of first face teeth. The second lock element is fixedly coupled to the housing and has a plurality of first radial teeth. The third lock element has an annular body, which is disposed about the axis, a plurality of second radial teeth, which are fixedly coupled to the annular body and matingly engaged to the first radial teeth, and a plurality of second face teeth that are fixedly coupled to the annular body. The third lock element is movable between first and second positions to selectively disengage and engage the first and second face teeth. | 04-07-2016 |
20160101691 | ALL-WHEEL DRIVE DRIVELINE WITH DISCONNECTING AXLE - A disconnecting driveline component can include a shaft coupled to one of a pair of output members of a differential. A clutch input can be coupled for rotation with one of a ring gear and the one of the output members. A clutch output can be coupled for rotation with one of a differential case and the shaft. A collar can be axially-slidable between a first position, where the collar couples the clutch input and the clutch output to transmit rotational power therebetween, and a second position where the collar is rotatably decoupled from one of the clutch input and the clutch output. A pilot input can be non-rotatably coupled to the clutch input. A pilot output can be fixed to the clutch output. An electromagnet can draw the pilot input into frictional engagement with the pilot output when the collar is in the second position. | 04-14-2016 |
20160129784 | CENTER DIFFERENTIAL GEAR ASSEMBLY FOR A DRIVE DEVICE OF A MOTOR VEHICLE - A center differential gear assembly for a drive device of a motor vehicle includes a driveshaft, a first driven shaft for a front axle of the motor vehicle, a second driven shaft for a rear axle of the motor vehicle, and a differential gear designed as a planetary gear train. A clutch device operatively connects an electric machine in a first shift position via the differential gear with the second driven shaft and in a second shift position directly with the second driven shaft. A superposition gear includes a first planetary gear train and a second planetary gear, with a ring gear of the first planetary gear train and a ring gear of the second planetary gear train being operatively connected in fixed rotative engagement with one another. | 05-12-2016 |
20160138659 | ELECTRONIC REAR DRIVE MODULE WITH SPLIT HALFSHAFT FLANGE - The present teachings provide for a vehicle drive module including a housing, an electric motor, a transmission gear set, a differential assembly, and a pair of output members. The transmission gear set can transmit rotary power between a motor output shaft and an output of the transmission gear set. The differential assembly can include a case, a pair of pinion gears, and a pair of side gears. Each of the side gears can be meshingly engaged with the pair of pinion gears. Each output member can include a driven body and an outer flange. The driven body can have a first end drivingly coupled to one of the side gears. The outer flange can have a first side that is releasably coupled to the second end of the driven body, and a second side that is adapted to be releasably coupled to a constant velocity joint. | 05-19-2016 |
20160138695 | DISCONNECTING AWD DRIVELINE WITH TORQUE-VECTORING CAPABILITIES - A driveline component that is configured for use in an all-wheel drive vehicle. The driveline component is a secondary axle that can be disconnected from a primary axle, e.g. for improved fuel economy, or connected to the primary axle so that all four vehicle wheels are driven. Regardless of whether the driveline component is connected to or disconnected from the primary axle, a torque-vectoring module in the driveline component can be operated to create a differential moment that can be applied to the wheels of the secondary axle. | 05-19-2016 |
20160146322 | ELECTRIC AXLE DRIVE FOR A MOTOR VEHICLE - An electric axle drive ( | 05-26-2016 |
20160153537 | DRIVE GEAR UNIT | 06-02-2016 |