Class / Patent application number | Description | Number of patent applications / Date published |
180600440 | Auxiliary steering motor | 6 |
20080314655 | Steering and Driving System for an Industrial Truck - A steering and driving system ( | 12-25-2008 |
20090084616 | ELECTRIC POWER STEERING DEVICE - An electric power steering apparatus in which, when an abnormality is generated in an electric power steering apparatus, an assist is reduced smaller than normal when a steering burden is estimated to be small; and the assist can be increased to normal and the steering burden can be sufficiently reduced when the steering burden is estimated to be large. When an abnormality is detected, an assist command is set smaller than at a normal time when there is no abnormality in a first range where the steering burden estimated by the steering burden estimation unit is small; the assist command is increased to that at a normal time in a second range where the steering burden estimated by the steering burden estimation unit is larger than the first range; and an assist torque of a motor is controlled in response to the assist command at the abnormal time. | 04-02-2009 |
20090272584 | Steering Control System - A steering system for a vehicle wherein the first and second axle shafts are driven by a power shaft powered by an engine. A differential gear is interposed between the power shaft and the first and second axle shafts. The steering system has a first hydraulic unit associated with the first axle shaft, a second hydraulic unit associated with the second axle shaft, a hydraulic circuit connecting an input of the first hydraulic unit to an output of the second hydraulic unit and an output of the first hydraulic unit to an input of said second hydraulic unit. A control unit is connected to the hydraulic circuit for varying a flow rate of hydraulic fluid in the first and second hydraulic units and an actuator associated with the control unit for controlling said control unit. The actuator is responsive to rotation of a steering wheel. | 11-05-2009 |
20130277123 | Brushless Multiphase Self-Commutation Control (BMSCC) And Related Inventions - The Brushless Multiphase Self-Commutation Controller or BMSCC is an adjustable speed drive for reliable, contact-less and stable self-commutation control of electric apparatus, including electric motors and generators. BMSCC transforms multiphase electrical excitation from one frequency to variable frequency that is automatically synchronized to the movement of the electric apparatus without traditional estimation methods of commutation and frequency synthesis using derivatives of electronic, electro-mechanical, and field-oriented-control. Instead, BMSCC comprises an analog electromagnetic computer with synchronous modulation techniques to first establish magnetic energy and then dynamically share packets of magnetic energy between phase windings of a multiphase, position dependent flux, high frequency transformer by direct AC-to-AC conversion without an intermediate DC conversion stage. | 10-24-2013 |
20140299392 | Brushless Multiphase Self-Commutation Control (BMSCC) And Related Inventions - The Brushless Multiphase Self-Commutation Controller or BMSCC is an adjustable speed drive for reliable, contact-less and stable self-commutation control of electric apparatus, including electric motors and generators. BMSCC transforms multiphase electrical excitation from one frequency to variable frequency that is automatically synchronized to the movement of the electric apparatus without traditional estimation methods of commutation and frequency synthesis using derivatives of electronic, electro-mechanical, and field-oriented-control. Instead, BMSCC comprises an analog electromagnetic computer with synchronous modulation techniques to first establish magnetic energy and then dynamically share packets of magnetic energy between phase windings of a multiphase, position dependent flux, high frequency transformer by direct AC-to-AC conversion without an intermediate DC conversion stage. | 10-09-2014 |
20160107686 | DRIVE CONFIGURATIONS FOR SKID STEERED VEHICLES - A controlled differential adapted to couple two shafts and steer input, such as those provided in a drive configuration for a skid steered vehicle, the controlled differential comprising: a pair of planet carriers arranged to turn with respective shafts; a pair of ring gears interconnected by a cross-shaft such that the ring gears rotate in common; planet gears and a pair of sun gears, the sun gears being coupled to at least one steer motor to enable rotation of the sun gears in mutually opposite senses upon input from the steer motor. | 04-21-2016 |