Patent application number | Description | Published |
20080296081 | DEVICE OPERABLE TO DISTRIBUTE DRIVING FORCES - A device operable to distribute driving forces to left and right wheels of a vehicle, includes: a differential mechanism, a driving-force adjuster and a differential limiter. The differential mechanism is operable to distribute a driving force from a drive source of the vehicle to the left and right wheels as distributed driving forces, while allowing a rotation difference between the left and right wheels. The driving-force adjuster is operable to adjust each of the distributed driving forces. The differential limiter is operable to limit rotation difference between the left and right wheels by applying a limiting torque to the differential mechanism. | 12-04-2008 |
20090018741 | DEVICE OPERABLE TO CONTROL TURNING OF VEHICLE - A device operable to control a turning of a vehicle, includes: a motion controller operable to: control a first adjuster so as to increase the drive force applied to at least one of front wheels and rear wheels situated in an inner side of the turning, and control a second adjuster so as to increase the braking force applied to at least one of the front wheels and the rear wheels situated in an outer side of the turning; and control the first adjuster so as to increase the drive force applied to at least one of the front wheels and the rear wheels situated in an outer side of the turning, and control the second adjuster so as to increase the braking force applied to at least one of the front wheels and the rear wheels situated in an inner side of the turning. | 01-15-2009 |
20090018742 | DEVICE OPERABLE TO CONTROL TURNING OF VEHICLE - A device operable to control a turning of a vehicle, includes: a motion controller operable to: control a first adjuster so as to increase a drive force applied to at least one of front wheels and rear wheels situated in an inner side of the turning, and control a second adjuster so as to increase the braking force applied to at least one of the front wheels and the rear wheels situated in an outer side of the turning; and control the first adjuster so as to increase the drive force applied to at least one of the front wheels and the rear wheels situated in an outer side of the turning, and control the second adjuster so as to increase the braking force applied to at least one of the front wheels and the rear wheels situated in an inner side of the turning. | 01-15-2009 |
20090062998 | DRIVING-FORCE DISTRIBUTION CONTROL DEVICE - A driving-force distribution control device includes a distributing mechanism, a distribution controller, an anti-skid brake system, an acceleration detector, a synthesized acceleration calculator and a control coefficient controller. The distributing mechanism is operable to variably distribute a driving force from an engine to individual drive wheels of a vehicle. The distribution controller is operable to control the distributing mechanism based on a running state of the vehicle. The acceleration detector is operable to detect a first acceleration in a front-rear direction and a second acceleration in a left-right direction of the vehicle. The synthesized acceleration calculator is operable to calculate a synthesized acceleration of the first acceleration and the second acceleration. The control coefficient controller is operable to indiscretely vary control coefficients for restricting the control of the distribution controller when the anti-skid brake system is activated, according to the calculated synthesized acceleration. | 03-05-2009 |
20090127014 | Differential Limiting Control Apparatus For Four-Wheel Drive Vehicle - Restraining torque T | 05-21-2009 |
20100023184 | RIGHT-LEFT DRIVING FORCE CONTROL SYSTEM - A right-left driving force control system includes: a selecting unit which: selects an adjusting unit adjusting distribution of a driving force between right and left wheels, when a shifting direction in which the driving force is shifted between the wheels and which is related to a control amount is the same as a first direction towards one of the wheels which has a larger speed; selects a limiting unit adjusting a differential action limiting force, when the shifting direction is the same as a second direction towards one of the wheels which has a smaller speed, and a difference between the wheel speeds is equal to or larger than a threshold value; and maintains the adjusting unit or the limiting unit, which has been selected, when the shifting direction is the same as the second direction, and the difference between the wheel speeds is less than the threshold value; and a control unit which controls the adjusting unit or the limiting unit, which is selected or maintained by the selecting unit, based on the control amount. | 01-28-2010 |
20100029437 | RIGHT-LEFT DRIVING FORCE CONTROLLER - A controller includes: a adjuster, configured to adjust distribution of driving force between right and left wheels; a limiter, configured to limit a difference between operations of the right and left wheels; a first calculator, configured to calculate a first control amount corresponding to the adjustor and including an amount related to direction of shift of driving force between the right and left wheels; a second calculator, configured to calculate a second control amount corresponding to the limiter; a third calculator, configured to calculate a third control amount including the second control amount and the amount; a fourth calculator, configured to calculate a fourth control amount that is a combination of the first and third control amounts; a selector, configured to select either the adjustor and the limiter; and a controller, configured to control the adjustor or the limiter in accordance with the fourth control amount. | 02-04-2010 |
20100234158 | DRIVE FORCE ADJUSTMENT APPARATUS - A drive force adjustment apparatus includes a differential gear, a motor, a first gear mechanism and a second gear mechanism. The input element, the first output element, the second output element, the motor input element, the fixed element, and the connecting element are expressed as points I, R, L, M, F and C on a graph, a ordinate of which shows the number of revolutions and a abscissa of which shows relative ratios of the number of revolutions of the elements. Length of L-I is equal to length of R-I, I is located between L and R on a straight line L-R, I is located between F and C on a straight line F-C, and R is located between C and M on a straight line C-M. Or, length of L-I is equal to length of R-I, I is located between L and R on a straight line L-R, L is located between M and C on a straight line M-C, and I is located between C and F on a straight line C-F. | 09-16-2010 |
20100234161 | DRIVE FORCE ADJUSTMENT APPARATUS - A drive force adjustment apparatus includes a differential gear, a motor, a first gear mechanism and a second gear mechanism. The input element, the first output element, the second output element, the motor input element, the fixed element, and the connecting element are expressed as points I, R, L, M, F and C on a graph, a ordinate of which shows the number of revolutions and a abscissa of which shows relative ratios of the number of revolutions of the elements. Length of L-I is equal to length of R-I, I is located between L and R on a straight line L-R, C is located between L and M on a straight line L-M, and C is located between F and I on a straight line F-I. Or, length of L-I is equal to length of R-I, I is located between L and R on a straight line L-R, C is located between R and M on a straight line R-M, and C is located between F and I on a straight line F-I. | 09-16-2010 |
20110281684 | LEFT AND RIGHT WHEELS DRIVE SYSTEM - A left and right wheels drive system includes: a first drive source and a second drive source; a left drive wheel and a right drive wheel; and a gear mechanism interposed between the first and second drive sources and the left and right drive wheels, the gear mechanism including: a pinion set in which a plurality of pinion gears are installed on one shaft; and an element group which is linked with the pinion set and which includes a first element, a second element, a third element and a fourth element. When the first element is held stationary, the second, third and fourth elements rotate in the same direction. When the first element is held stationary, the second element rotates at a higher speed than the third and fourth elements. One of the first and second drive sources is connected to the first element, and the other of the first and second drive source is connected to the second element. One of the left and right drive wheels is connected to the third element, and the other of the left and right drive wheels is connected to the fourth element. | 11-17-2011 |