A seat adjuster, comprising an adjustable vehicle seat, that may be adjusted by an external force between an initial position and a target position in an interior of a vehicle, the adjustment of the vehicle seat from the initial position into the target position requiring at least pivoting of the vehicle seat about a pivot axis extending from a floor to a ceiling of the vehicle, and an electronic control device for controlling an adjustment drive to adjust the vehicle seat from the initial position into the target position. A characteristic-map memory coupled to the electronic control device is provided, in which characteristic-map memory characteristic-map data for adjustment movements to be carried out by the vehicle seat are stored. The electronic control device controls the adjustment drive by means of the characteristic-map data to adjust the vehicle seat from a current initial position into a certain target position.

A communication seat-type vehicle having communication seats arranged at locations to allow the passengers seated thereon to talk face-to-face, four wheels including two front wheels and two rear wheels, a driving source configured to apply driving force to at least one of the four wheels, a steering mechanism configured to steer at least one of the four wheels, and a vehicle body frame which is at least partially provided between front ends of the two front wheels and rear ends of the two rear wheels in the vehicle front-rear direction, and in which a cabin space is provided to accommodate the passengers. The vehicle body frame has a front H-shaped frame structure including a ceiling frame, a floor frame provided directly below the ceiling frame, a front H-shaped frame including two front pillars and a front intermediate transverse frame connecting the two front pillars, and a rear frame including two rear pillars.

A communication seat-type vehicle having communication seats arranged at locations to allow the passengers seated thereon to talk face-to-face, four wheels including two front wheels and two rear wheels, a driving source configured to apply driving force to at least one of the four wheels, a steering mechanism configured to steer at least one of the four wheels, and a vehicle body frame which is at least partially provided between front ends of the two front wheels and rear ends of the two rear wheels in the vehicle front-rear direction, and in which a cabin space is provided to accommodate the passengers. The vehicle body frame has a front H-shaped frame structure including a ceiling frame, a floor frame provided directly below the ceiling frame, a front H-shaped frame including two front pillars and a front intermediate transverse frame connecting the two front pillars, and a rear frame including two rear pillars.

A seat adjustment device includes: an authentication unit that is configured to identify plural occupants of a vehicle; an acquisition unit that is configured to acquire information relating to each one of the plural vehicle occupants identified by the authentication unit; a determination unit that is configured to determine relationships between the plural vehicle occupants based on information acquired by the acquisition unit; and a control unit that is configured to control at least one of a position or an orientation of seats mounted in the vehicle based on determination results from the determination unit.

Example embodiments presented herein are directed toward a seat assembly, and corresponding method, for seat retraction in a vehicle during an autonomous driving mode. Seat refraction is provided by detecting a user initiated input for the retraction. Thereafter, a front seat is refracted such that an occupant of the front seat is out of reach of at least one driving control input device, for example, a steering wheel, pedals or a gear shift, during an autonomous driving mode. Such seat retraction prevents the occupant from providing inadvertent driving inputs to the driving control input devices during the autonomous driving mode.

Example embodiments presented herein are directed toward a seat assembly, and corresponding method, for seat retraction in a vehicle during an autonomous driving mode. Seat refraction is provided by detecting a user initiated input for the retraction. Thereafter, a front seat is refracted such that an occupant of the front seat is out of reach of at least one driving control input device, for example, a steering wheel, pedals or a gear shift, during an autonomous driving mode. Such seat retraction prevents the occupant from providing inadvertent driving inputs to the driving control input devices during the autonomous driving mode.

A modular vehicle seat assembly including: a seat bottom structure module adapted to be rigidly or translatably coupled to one of a seat base module and a structure of a vehicle, securely coupled to a seat bottom cushion carrier module, and rigidly or pivotably coupled to a seat back structure module; a seat back structure module adapted to be rigidly or pivotably coupled to the seat bottom structure module and securely coupled to a seat back cushion carrier module; the seat bottom cushion carrier module adapted to be securely coupled to the seat bottom structure module; and the seat back cushion carrier module adapted to be securely coupled to the seat back structure module. The modular vehicle seat assembly further including a seat base module adapted to be rigidly coupled to the structure of the vehicle and to the seat bottom structure module.

A clutch unit includes a lever-side clutch part to control transmission of rotational torque input through a lever operation, and a brake-side clutch part to transmit the rotational torque from the lever-side clutch part to an output side, and interrupt rotational torque from the output side. The brake-side clutch part includes an outer ring constrained in rotation, an output shaft configured to output the rotation, a cage arranged between the outer ring and the output shaft to receive the rotational torque from the lever-side clutch part, and a cylindrical roller to control the interruption of the rotational torque from the output shaft and the transmission of the rotational torque input from the cage through engagement and disengagement between the outer ring and the output shaft.

The telescopic frame structure of a scooter includes: rear and front frame bodies; a telescopic connection frame; a limiting member having front and rear plate bodies disposed above the telescopic connection frame, the front plate body is pivoted to the front frame body through the first pivoting shaft member, the rear plate body is pivoted to the rear frame body through the second pivoting shaft member, and the front plate body is pivoted to the rear plate body through the second pivoting shaft member. The axle center definition of the first, second and third pivoting shaft member respectively forms the first, second and third pivoting axis. The connecting definition between the first and second pivoting axes forms a virtual connecting axis corresponding to the third pivoting shaft member defines an intermediate line section. The height of the third pivot axis is lower than the intermediate line section.

The telescopic frame structure of a scooter includes: rear and front frame bodies; a telescopic connection frame; a limiting member having front and rear plate bodies disposed above the telescopic connection frame, the front plate body is pivoted to the front frame body through the first pivoting shaft member, the rear plate body is pivoted to the rear frame body through the second pivoting shaft member, and the front plate body is pivoted to the rear plate body through the second pivoting shaft member. The axle center definition of the first, second and third pivoting shaft member respectively forms the first, second and third pivoting axis. The connecting definition between the first and second pivoting axes forms a virtual connecting axis corresponding to the third pivoting shaft member defines an intermediate line section. The height of the third pivot axis is lower than the intermediate line section.