Provided is an electric assisted power steering apparatus having a structure able to disconnect a worm shaft from any malfunctioning motor of motors connected to opposite end portions of the worm shaft, thereby preventing the worm shaft from rotating heavily or failing to rotate. Even in the case in which the worm shaft is disconnected from the malfunctioning motor, a target rotation speed of the properly-operating motor is increased to prevent sudden changes in auxiliary torque occurring on a steering shaft, thereby promoting the safety of a driver. Torque required for the worm shaft is distributed to the two motors, thereby increasing the rotation speeds of the motors and reducing the size and fabrication costs of the motors.

A modular electric power steering system is disclosed. The system includes a tubular neck which guides a universal joint. The tubular neck has a certain bend angle. The system further includes a drive assembly that has an electric motor which is controlled by a control unit. The system additionally includes a gearbox assembly having a torque sensor and a gearbox. The system also includes a steering rod that has a shortenable tube. Further, the system includes a gearbox housing that houses the gearbox assembly. In addition, the system includes two tubular toothed rack housing halves that are shortenable. The gearbox housing is disposed between the two toothed rack housing halves. The system also includes two feet which are disposed at the respective outer end of the two toothed rack housing halves. The feet serve to fasten the power steering system to the vehicle. And the feet include a bushing for guiding the toothed rack.

A gear is provided that has excellent continuous moldability for practical use, and both high slidability and high durability. The provided gear is a molded resin constructed of a resin composition comprising a thermoplastic resin (A) and cellulose nanofibers (B) with an average fiber diameter of 1000 nm or smaller, and having a number average molecular weight of the thermoplastic resin (A) in the range of 10,000 to 150,000, wherein a sliding surface of the gear with another gear teeth has an arithmetic mean surface roughness Sa of 3.0 μm or lower.

A steering system includes a steering rod mounted for longitudinal axial sliding in a housing and a steering motor acting on the steering rod via a ball screw drive, for which the steering rod forms a ball recirculation screw thread, which interacts with a transmission nut that can be driven by the steering motor. A transmission wheel of a flexible transmission, by means of which driving power of the steering motor is transmitted to the transmission nut, is untiltably connected to an inner ring of a rotary bearing. The transmission nut is pivotably mounted on the transmission wheel about an arbitrary pivot axis, which is oriented perpendicularly to the longitudinal axis of the steering rod. The transmission nut, which is pivoted as a result of a flexural load on the steering rod, can be decoupled from the rotary bearing and from a tensile load on the transmission wheel.

A steering device for detecting an error of a road wheel actuator according to an exemplary embodiment of the present disclosure includes an electronic control unit and a road wheel actuator. The electronic control unit may be electrically connected with a steering wheel of a vehicle, and the road wheel actuator may be electrically connected with the electronic control unit. When the vehicle starts, the electronic control unit may rotate the steering wheel in one direction or an opposite direction to the one direction by driving the road wheel actuator and measure data of the road wheel actuator. A method of determining an error of a road wheel actuator according to another exemplary embodiment of the present disclosure includes a first operation, a second operation, and a third operation.

Disclosed herein is a steering apparatus. According to one aspect of the present disclosure, the steering apparatus includes a housing in which a rod slidably provided in an axial direction for wheel steering is accommodated and a sensor coupler passing through an inner surface and an outer surface to expose a part of the rod is provided, a rotation preventer coupled to the rod through the sensor coupler to be moved together with the rod and supported in a width direction of the housing to limit rotation of the rod, a damper coupled to the rotation preventer to be disposed between the sensor coupler and the rotation preventer, a magnet holder coupled to the rotation preventer to be moved together with the rod and provided with a magnet, and a sensing unit coupled to the sensor coupler and including a sensor configured to sense a position of the magnet.

An electric power steering system includes an electric motor, a steering rack drivable along a steering rack axis with power from the electric motor, and a mechanical coupling between the electric motor and the steering rack for transmitting power from the electric motor to the steering rack. The mechanical coupling is enclosed within a housing. A compression fitting interface couples the electric motor and the housing

Methods for controlling a steer-by-wire steering system including a steering actuator controlled via a steering request and brings about movement of a steering rack to steer vehicle wheels. A feedback actuator transmits reactions of the road to a steering wheel via an aligning torque. A setpoint position of the steering rack is determined in a signal processing unit based on a steering wheel steering angle. The setpoint position is transmitted with an actual position of the steering rack or with a measured wheel steering angle as an actual value to a control unit which calculates a setpoint torque of an electric motor of the steering actuator. The method includes monitoring the power of the motor required to reach the determined setpoint position. When the required power exceeds the maximum power of the motor the motor is operated at maximum power torque present at the steering wheel is increased.

A steering system has a steering rod longitudinally displaceable in a housing and a steering motor acting on the steering rod via a ball screw drive. The steering rod has a recirculating ball thread interacting via spherical transmission elements with a transmission nut driven by the steering motor and that is rotatably mounted by a bearing arrangement with a pivot bearing having an inner ring to which a mechanism wheel is fixedly attached. The transmission nut is pivotably mounted on the mechanism wheel about a pivot axis oriented perpendicularly to the longitudinal axis of the steering rod, and has a curved joint section which interacts with a curved joint section of the mechanism wheel to form a pivoting bearing. In order to realize low-friction movement capability of the pivoting bearing, at least one of the joint sections has a sliding coating, and/or a lubricant is arranged between the joint sections.

A steering system has a steering rod longitudinally displaceable in a housing and a steering motor acting on the steering rod via a ball screw drive. The steering rod has a recirculating ball thread interacting via spherical transmission elements with a transmission nut driven by the steering motor and that is rotatably mounted by a bearing arrangement with a pivot bearing having an inner ring to which a mechanism wheel is fixedly attached. The transmission nut is pivotably mounted on the mechanism wheel about a pivot axis oriented perpendicularly to the longitudinal axis of the steering rod, and has a curved joint section which interacts with a curved joint section of the mechanism wheel to form a pivoting bearing. An elastically deformed spring ring arranged between the joint sections provides freedom from play of the pivoting joint.