Provided is a traveling vehicle which is configured to be manually operable and to be capable of being prevented from collision, and which can be assembled more easily. This traveling vehicle is provided with a traveling vehicle body on which a first control unit for controlling traveling is mounted, and an operation unit which enables the manual operation of the traveling vehicle body. The operation unit is provided with a housing having a connection section removably connected to the traveling vehicle body. The housing is integral with manual operation sections enabling an input of instructive information for traveling into the first control unit, and also with an obstacle sensor for detecting an obstacle present in the direction of movement of the vehicle body and transmitting the result of detection to the first control unit.

Provided is a traveling vehicle which is configured to be manually operable and to be capable of being prevented from collision, and which can be assembled more easily. This traveling vehicle is provided with a traveling vehicle body on which a first control unit for controlling traveling is mounted, and an operation unit which enables the manual operation of the traveling vehicle body. The operation unit is provided with a housing having a connection section removably connected to the traveling vehicle body. The housing is integral with manual operation sections enabling an input of instructive information for traveling into the first control unit, and also with an obstacle sensor for detecting an obstacle present in the direction of movement of the vehicle body and transmitting the result of detection to the first control unit.

An operating head for an industrial truck comprises a support extending along a longitudinal axis and comprising opposing carrier sections. One or more gripping sections are positioned opposite each of the opposing carrier sections, wherein the opposing carrier sections and gripping sections at least partially define a handle opening. The operating head further comprises at least one operating element positioned on at least one of the opposing carrier sections. The at least one operating element comprises a cylindrical body extending along a cylindrical body axis and defining a bulge extending radially from the cylindrical body along a bulge axis. The bulge extends towards the one or more gripping sections when the at least one operating element is in a rest position and the at least one operating element is pivotable about the cylindrical body axis by exerting a force against the bulge.

An operating head for an industrial truck comprises a support extending along a longitudinal axis and comprising opposing carrier sections. One or more gripping sections are positioned opposite each of the opposing carrier sections, wherein the opposing carrier sections and gripping sections at least partially define a handle opening. The operating head further comprises at least one operating element positioned on at least one of the opposing carrier sections. The at least one operating element comprises a cylindrical body extending along a cylindrical body axis and defining a bulge extending radially from the cylindrical body along a bulge axis. The bulge extends towards the one or more gripping sections when the at least one operating element is in a rest position and the at least one operating element is pivotable about the cylindrical body axis by exerting a force against the bulge.

A control method and system to control a car; the following steps are carried out: determining a position of a joystick, which is designed to be grabbed by a hand of a driver of the car; adjusting a longitudinal motion and a transverse motion of the car as a function of the position of the joystick; determining a position of at least one pedal, which is designed to be pressed by a foot of the driver of the car; and controlling a dynamic behaviour of the car, which is different from the longitudinal motion and from the transverse motion, a function of the position of the pedal.

Various implementations include an assistive driving device including a base, a first post, a second post, a third post, and a selector. The first post is for receiving a portion of a palm of a hand of a user and has a proximal end and a distal end. The second post has a proximal end and a distal end. The third post has a proximal end and a distal end. The proximal ends of the first, second, and third posts are coupled to the base. The second post and the third post are positioned to receive a portion of an arm of the user. The selector is spaced apart from the first post and positioned such that the selector is actuatable with a dorsum of the hand of the user.

Various implementations include an assistive driving device including a base, a first post, a second post, a third post, and a selector. The first post is for receiving a portion of a palm of a hand of a user and has a proximal end and a distal end. The second post has a proximal end and a distal end. The third post has a proximal end and a distal end. The proximal ends of the first, second, and third posts are coupled to the base. The second post and the third post are positioned to receive a portion of an arm of the user. The selector is spaced apart from the first post and positioned such that the selector is actuatable with a dorsum of the hand of the user.

A work machine having a cab coupled to a frame, a steering system coupled to the frame, a controller configured to selectively articulate the steering system, a joystick assembly positioned in the cab and in communication with the controller, a steering wheel assembly positioned in the cab and configured to selectively articulate the steering system, and a steering wheel sensor coupled to the steering wheel assembly and in communication with the controller to identify movement of the steering wheel assembly. Wherein, the controller does not articulate the steering system responsive to movement of the joystick assembly when the steering wheel sensor identifies movement of the steering wheel.

A work machine having a cab coupled to a frame, a steering system coupled to the frame, a controller configured to selectively articulate the steering system, a joystick assembly positioned in the cab and in communication with the controller, a steering wheel assembly positioned in the cab and configured to selectively articulate the steering system, and a steering wheel sensor coupled to the steering wheel assembly and in communication with the controller to identify movement of the steering wheel assembly. Wherein, the controller does not articulate the steering system responsive to movement of the joystick assembly when the steering wheel sensor identifies movement of the steering wheel.

Vehicles, steering systems, and steering assemblies of a vehicle are provided in the present disclosure. According to one embodiment, a steering system includes a track oriented substantially in a side-to-side direction with respect to the vehicle. The side-to-side direction may be substantially horizontal with a ground surface and substantially perpendicular with a forward-facing direction of the vehicle. The steering system also includes a steering wheel adapted to slide laterally along the track. In another embodiments, the present disclosure provides a vehicle comprising a steering wheel assembly adapted to be positioned in laterally variable locations with respect to the vehicle, whereby the steering wheel assembly is further adapted to enable a driver to manually operate the vehicle from a left-hand side of the vehicle and from a right-hand side of the vehicle.