A motor vehicle is described, which comprises: a passenger compartment; a plurality of driving members, which are housed inside the passenger compartment and can be operated by a driver in order to control the trajectory and the speed of the motor vehicle; at least one control member connected to one of the driving members through a drive by wire mode; the motor vehicle is selectively available in a first configuration, wherein the passenger compartment defines a first seat for a driver facing the control member and a second seat for a passenger beside the first seat along an axis; and a second configuration, wherein the passenger compartment only defines a third seat for a driver; the first seat being arranged, in the first configuration, in a first position and the third seat being arranged, in the second configuration, in a second position spaced apart from the first position along the axis; the driving member can be moved along the axis to enable the transformation of the motor vehicle between said first and second configurations.

A powered running board assembly includes a running board and an actuator to displace the running board between a stowed position and a deployed position. That actuator includes a housing and a telescoping arm oriented along a first axis oblique to the running board. A related method of operating a running board is also disclosed.

An active tire spoiler system includes a first tire spoiler, a second tire spoiler and a control module. That control module includes a controller configured to displace the first tire spoiler and the second tire spoiler between a stowed position and a deployed position. A related method is also disclosed.

A vehicle comprising a base, a grille and a bumper. The grille is supported by the base, and is movable between a retracted position and an extended position. The bumper is supported by the base below the grille. In the retracted position a front terminal portion of the grille is offset from a front terminal portion of the bumper, and in the extended position the front terminal portion of the grille is generally aligned with the front terminal portion of the bumper.

A pedal device comprises a brake pedal, an accelerator pedal, a support member and an adjusting device. The brake pedal is operated to be depressed by a leg of a passenger, and an operation amount of a depressing operation of the brake pedal is transmitted as an electrical signal. The accelerator pedal is operated to be depressed by a leg of the passenger, and an operation amount of a depressing operation of the accelerator pedal is transmitted as an electrical signal. The support member is connected with the brake pedal and the accelerator pedal, respectively, to support the brake pedal and the accelerator pedal in a rotatable manner. The adjusting device adjusts a position or a posture of the pedal unit including the brake pedal, the accelerator pedal, and the support member.

Disclosed is an active roll stabilizer. The active roll stabilizer includes a pair of stabilizer bars installed between wheels and an actuator connected between the pair of stabilizer bars and configured to deliver a rotational force to the pair of stabilizer bars, wherein the actuator includes a motor configured to generate the rotational force; a housing located between the pair of stabilizer bars and inside which the motor is disposed; and an engagement part installed between the housing and at least one of the pair of stabilizer bars and configured to screw-couple and fix one end portion of the at least one of the pair of stabilizer bars to one inner side of the housing.

A transfer includes an input shaft, an output shaft, an output member, a high-low switching mechanism, a clutch, an actuator, a screw mechanism, a first transmitting mechanism, a cam engaging member, a drum cam, and a second transmitting mechanism. The high-low switching mechanism is configured to change a rate of rotation of the input shaft and transmit a resultant rotation to the output shaft. The second transmitting mechanism is configured to transmit a movement of one of the drum cam and the cam engaging member that is connected to a second shaft to the high-low switching mechanism via the second shaft such that the high-low switching mechanism switches between the high-speed gear and the low-speed gear.

A method for stabilizing an engine clutch control includes transmitting an engine clutch operation start command from a controller to an engine clutch system, the engine clutch system including an engine clutch, detecting a hydraulic pressure generated during the operation of the engine clutch system, carrying out an oil leakage judgment mode using the controller so as to judge whether the hydraulic pressure is a normal hydraulic pressure where the operation of the engine clutch is available or if the hydraulic pressure an abnormal hydraulic pressure where the operation of the engine clutch is unavailable, and changing an operation mode to an emergency operation mode wherein the operation of the engine clutch is stopped in case of abnormal hydraulic pressure, and carrying out an operation mode change by operating the engine clutch in a case of normal hydraulic pressure, based on a control by the controller.

A transfer for a four-wheel drive vehicle includes an input shaft, an output shaft, a high-low switching mechanism, an output member, a clutch, a locking sleeve, a screw mechanism, a transmitting mechanism, a drum cam, and a switching mechanism. The switching mechanism is configured to selectively switch between an H4L position and an L4L position in conjunction with rotational motion of the electric motor. The H4L position is a position in which a high-low sleeve provided in the high-low switching mechanism is in a position in which a high-speed gear is established in the high-low switching mechanism. The L4L position is a position in which the high-low sleeve provided in the high-low switching mechanism is in a position in which a low-speed gear is established in the high-low switching mechanism.

A transfer includes an input shaft, an output shaft, an output member, a high-low switching mechanism, a clutch, an actuator, a screw mechanism, a first transmitting mechanism, a cam engaging member, a drum cam, and a second transmitting mechanism. The high-low switching mechanism is configured to change a rate of rotation of the input shaft and transmit a resultant rotation to the output shaft. The second transmitting mechanism is configured to transmit a movement of one of the drum cam and the cam engaging member that is connected to a second shaft to the high-low switching mechanism via the second shaft such that the high-low switching mechanism switches between the high-speed gear and the low-speed gear.