A steering device includes two motors each configured to generate a drive force that steers a steerable wheel of a vehicle and two controllers respectively corresponding to the two motors, each of the two controllers being configured to individually control a corresponding one of the motors. One of the two controllers is a first controller, and the other one of the two controllers is a second controller. The first controller is configured to calculate a command value corresponding to a total torque that should be generated in the two motors. The command value is divided into individual command values using a changeable distribution ratio set for each of the motors, the individual command values respectively corresponding to the motors. The two controllers are configured to respectively supply the motors with current corresponding to the individual command values.

A steer-by-wire steering system for a vehicle, including: an operating member operable by a driver; a dual-system steering device including two systems each of which includes an electric motor as a drive source, the steering device being configured to steer a wheel; and a controller configured to control a current to be supplied to each of the electric motors of the respective two systems so as to cause the steering device to steer the wheel in accordance with an operation of the operating member, wherein the controller is configured to prohibit the current greater than an upper limit value from being supplied to the electric motors of the respective two systems, and wherein, when the wheel is steered only by only one of the two systems, the controller raises the upper limit value of the current to be supplied to the electric motor of the one of the two systems.

The present embodiments may provide a steer-by-wire steering apparatus which enables a driver to use a function for controlling an automobile, such as automatic parking, lane keeping, driving assistance according to a road surface condition, steering-vibration damping, or autonomous driving control, to improve the driver's convenience, and allows removal of hydraulic pressure-related components to prevent consumption of engine power by the components and thus can satisfy the high power and rigidity required for a steering device of a commercial vehicle.

A vehicle control system controls a vehicle of a steer-by-wire type. The vehicle control system is configured to execute: driving assist control that assists driving of the vehicle; and conjunction reaction force control that applies a steering reaction force component to a steering wheel in conjunction with turning of the vehicle caused by the driving assist control. A driving assist direction is a direction of the turning of the vehicle caused by the driving assist control. The conjunction reaction force control includes feedforward reaction force control that moves the steering wheel in a same direction as the driving assist direction without depending on a steering angle of the steering wheel.

According to the embodiments of the present invention, the drive feel suitable to given conditions is provided to a driver by generating friction when a steering shaft is rotated to enhance the drive feel of the driver, limiting the maximum steering angle, restoring the steering wheel automatically, and controlling friction on the steering shaft in accordance with the steering angle, vehicle speed and road conditions.

A steering system and a vehicle are provided. The steering system includes a steering wheel end shaft, a steering device end shaft, and an electric driving mechanism configured to drive decoupling or coupling of the steering wheel end shaft and the steering device end shaft that are coaxially disposed.

The disclosure relates to a steering device comprising an end stop device for limiting a steering angle of rotation. The end stop device has a rotation device that has at least one rotary element which is rotatable about a central longitudinal axis of a shaft and/or is rotatable together with the shaft. The end stop device has a locking device which cooperates with the rotation device for stopping a rotational movement of the shaft about the central longitudinal axis and with respect to two directions of rotation oriented opposite each other. In order to be able to reliably absorb and transmit high forces and/or torques when the steering device is in a stop position, the locking device has a locking element, the locking element that limits the steering angle of rotation from being movable by the rotation device at least with a first movement component in the axial direction of the central longitudinal axis of the shaft.

Embodiments of the present disclosure provide a sun gear coupled to a steering shaft connected to a steering wheel operated by a driver and rotating in interlocking motion, a planetary gear externally coupled to the sun gear, a ring gear to which the planetary gear is internally coupled, a first support protrusion is provided at one end of the axial direction, and is coupled to and fixed to an inner circumferential surface of a gear housing, and a carrier to which a rotation shaft of the planetary gear is coupled and provided with a second support protrusion supported by the first support protrusion on an outer circumferential side.

According to the embodiments of the present invention, the drive feel suitable to given conditions is provided to a driver by generating friction when a steering shaft is rotated to enhance the drive feel of the driver, limiting the maximum steering angle, restoring the steering wheel automatically, and controlling friction on the steering shaft in accordance with the steering angle, vehicle speed and road conditions.

A steering actuator for a steering system for a motor vehicle may include an actuator rod that can be displaced in translation in a longitudinal direction thereof and a position sensor apparatus that is constructed to detect a linear position of the actuator rod. In order to enable less complex production and a higher level of operational reliability, the position sensor apparatus may include a rotation sensor that has a sensor shaft that can be rotated about an axis and that has a running wheel that can roll on a corresponding linear track of the actuator rod to convert a translational movement of the actuator rod into a rotation of the sensor shaft.