Patent ID: 8545359
Filing Date: 2013-10-01
Classification: B60K,F16H

Abstract:
1. A drive force adjustment apparatus comprising: a differential gear, into which a drive force is input from a drive source, the differential gear configured to absorb a difference in the number of revolutions between two output shafts; a motor configured to generate a difference in torque between the output shafts, wherein the number of revolutions of the motor is 0 when a vehicle travels straight; and a first gear mechanism and a second gear mechanism, which increase or decrease torque of one of the output shafts by a magnitude and decrease or increase torque of the other of the output shafts by the magnitude, the first gear mechanism including a first rotating element, a second rotating element and a third rotating element, the second gear mechanism including a fourth rotating element, a fifth rotating element and a sixth rotating element, wherein an element that is connected to a rotating element into which torque of the differential gear is input and the fourth rotating element of the second gear mechanism is an input element, a rotating element of one of the output shafts is a first output element, a rotating element of the other of the output shafts is a second output element, and one of the first output element and the second output element is connected to the first rotating element of the first gear mechanism, an element that is connected to the second rotating element of the first gear mechanism and the motor is a motor input element, an element that is connected to the fifth rotating element of the second gear mechanism and a casing is a fixed element, the number of revolutions of which is 0, an element that is connected to the third rotating element of the first gear mechanism and the sixth rotating element of the second gear mechanism is a connecting element, wherein the first gear mechanism includes: the second gear mechanism includes: wherein the number of teeth of the first sun gear and the number of teeth of the third sun gear are equal to each other, the number of teeth of the first planetary gear and the number of teeth of the third planetary gear are equal to each other, the number of teeth of the second sun gear and the number of teeth of the fourth sun gear are equal to each other, and the number of teeth of the second planetary gear and the number of teeth of the fourth planetary gear are equal to each other, ratio of the number of teeth of the first sun gear to the number of teeth of the first planetary gear is smaller than ratio of the number of teeth of the second sun gear to the number of teeth of the second planetary gear, and ratio of the number of teeth of the third sun gear to the number of teeth of the third planetary gear is smaller than ratio of the number of teeth of the fourth sun gear to the number of teeth of the fourth planetary gear, and wherein a rotating speed (Nc) of the connecting element is determined by following formulas: where (G) indicates a system gain, (Ni) indicates number of revolutions of the differential gear, (ΔT) indicates a difference in torque between the two drive shafts, and (Tm) indicates a motor torque, such that the rotating speed of the connecting element always assume a positive value and a rotating direction of the connecting element is always the same as a rotating direction of the rotating element into which torque of the differential gear is input.