Abstract: A normally interlocked universal differential device comprises four differentials and two power distributors, in which a central composite differential is disposed in the central portion thereof, and includes an outer differential and an inner differential fitted into said outer differential, two side differentials are connected to both side ends of said central composite differential, power is transmitted to said power distributors from both ends of said two side differentials. The differential device can prevent a vehicle from slipping in the desert zone or the marsh land. The differential device is easy to assemble and has small size, thus increasing the steering ability, and it can be applied to the all-wheel drive automobile, the tractor, the wheeled engineering machinery and the wheeled engineering vehicle.
Abstract: A normally interlocked universal differential device comprises four differentials and two power distributors, in which a central composite differential is disposed in the central portion thereof, and includes an outer differential and an inner differential fitted into said outer differential, two side differentials are connected to both side ends of said central composite differential, power is transmitted to said power distributors from both ends of said two side differentials. The differential device can prevent a vehicle from slipping in the desert zone or the marsh land. The differential device is easy to assemble and has small size, thus increasing the steering ability, and it can be applied to the all-wheel drive automobile, the tractor, the wheeled engineering machinery and the wheeled engineering vehicle.
Abstract: A torque distribution control device includes two rotational speed differential responsive type control couplings each having various transfer torque characteristics which differ in the ratio of a transfer torque to a rotational speed differential. The control device selects one of the torque transfer characteristics in response to a signal supplied thereto. When turning the outer wheel side control coupling is supplied with a signal for selecting the transfer torque characteristic that produces a maximum transfer torque for a given rotational speed differential, and the inner wheel side control coupling is supplied with a signal for attaining a non-slip rotational speed differential and for selecting the transfer torque characteristic that produces a transfer torque equal to that produced by the outer wheel side control coupling when the non-slip rotational speed differential is obtained.
Abstract: A bifurcated variable ratio drive transmission employs a pair of series connected differential gear stages. In a fist stage, torque flow from the engine output shaft is bifurcated into major and minor flow branches; in the second stage, the branches are combined. An engine output shaft drives an input ring gear of the first stage with the ring gear engaging a plurality of stepped planet gears. The planet gears in turn, drive both a sun gear of the first stage and a transfer ring gear. A major portion of torque flow is transmitted to the second stage through the transfer ring gear while a minor portion of torque flow passes from the sun gear of the first stage to the sun gear of the second stage. The transfer ring gear is fixed to a carrier to which are mounted pairs of radially spaced interengaged planet gears.
Abstract: To restrict and further promote differential rotation between first and second output shafts, the power transmission apparatus for differentially transmitting a rotative power supplied to an input shaft to two output shafts comprises a differential gear mechanism coupled between the two output shafts; a multiplying mechanism associated with the differential gear mechanism, for detecting and multiplying a differential rotation; a motor coupled to the multiplying gear mechanism, for restricting or promoting the differential rotation by driving the multiplying gear mechanism in either direction; and a controller for controlling rotative direction and torque of the motor by adjusting supply voltage polarity and motor current magnitude. The multiplying mechanism is a strange gear mechanism or a planetary gear mechanism.