A handwheel actuator assembly includes a handwheel shaft configured to receive a handwheel; a feedback device operable to provide a variable level of resistance to rotation of the handwheel shaft; and a handwheel shaft position sensor operable to sense an angular position of the handwheel shaft. The handwheel shaft position sensor may be mounted on a circuit board. The circuit may comprise a controller that is configured to receive signals from the handwheel shaft position sensor.

A handwheel actuator assembly includes a handwheel shaft configured to receive a handwheel; a feedback device operable to provide a variable level of resistance to rotation of the handwheel shaft; and a handwheel shaft position sensor operable to sense an angular position of the handwheel shaft. The handwheel shaft position sensor may be mounted on a circuit board. The circuit may comprise a controller that is configured to receive signals from the handwheel shaft position sensor.

A steering wheel includes a boss, two spokes supported at the boss, a grip fixed to each spoke, and a rotation control mechanism arranged between the boss and each spoke. The rotation control mechanisms are each configured to define a maximum rotation angle by which each grip is rotated from the neutral position in a near-side direction and a maximum rotation angle by which each grip is rotated from the neutral position in a far-side direction. The rotation control mechanisms are each configured to return each grip to the neutral position when a vehicle is traveling straight. The maximum rotation angle in the far-side direction is set to be larger than the maximum rotation angle in the near-side direction in each rotation control mechanism.

A steering wheel includes a boss, two spokes supported at the boss, a grip fixed to each spoke, and a rotation control mechanism arranged between the boss and each spoke. The rotation control mechanisms are each configured to define a maximum rotation angle by which each grip is rotated from the neutral position in a near-side direction and a maximum rotation angle by which each grip is rotated from the neutral position in a far-side direction. The rotation control mechanisms are each configured to return each grip to the neutral position when a vehicle is traveling straight. The maximum rotation angle in the far-side direction is set to be larger than the maximum rotation angle in the near-side direction in each rotation control mechanism.

A steering wheel assembly includes a steering wheel and an airbag module. The steering wheel includes a hub portion that has a hook member and a first bracket opposed to the hook member and having an access hole. The airbag module is pivotably attached to the hub portion of the steering wheel and includes a latch member and a second bracket opposed to the latch member and having an access hole. The latch member is pivotably attached to the hook member, and the first bracket and the second bracket overlap with each other such that the access holes form a port that receives a fastener.

A steering wheel assembly includes a steering wheel and an airbag module. The steering wheel includes a hub portion that has a hook member and a first bracket opposed to the hook member and having an access hole. The airbag module is pivotably attached to the hub portion of the steering wheel and includes a latch member and a second bracket opposed to the latch member and having an access hole. The latch member is pivotably attached to the hook member, and the first bracket and the second bracket overlap with each other such that the access holes form a port that receives a fastener.

In order for a core metal member having three spoke parts to be usable in a three-spoke steering wheel and a two-spoke steering wheel having one fewer spoke part than the three-spoke steering wheel, one of the spoke parts of the core metal member is a separable spoke part, which is separable along separation marks provided on vertical spokes forming the separable spoke part. Each vertical spoke constituting the separable spoke part is provided with an indented first fragile portion and an indented second fragile portion which also act as the separation marks.

In order for a core metal member having three spoke parts to be usable in a three-spoke steering wheel and a two-spoke steering wheel having one fewer spoke part than the three-spoke steering wheel, one of the spoke parts of the core metal member is a separable spoke part, which is separable along separation marks provided on vertical spokes forming the separable spoke part. Each vertical spoke constituting the separable spoke part is provided with an indented first fragile portion and an indented second fragile portion which also act as the separation marks.

A seat assembly is provided with a seat back, and first and second actuators oriented in first and second regions of the seat back. A safety restraint is connected to the seat back. A controller is programmed to operate the first and second actuators to adjust the first and second regions of the seat back. The controller may adjust the safety restraint in response to the adjustment of the actuators to coordinate the adjustment of the safety restraint with the sequential posture alignment. The controller may also adjust a vehicle vision device concurrently with the actuators to coordinate the adjustment of the vehicle vision device with the sequential posture alignment. The controller may also adjust a vehicle drive control manual input device concurrently with the adjustment of the actuators to coordinate the adjustment of the vehicle drive control manual input device with the sequential posture alignment.

A work vehicle includes a body. The vehicle includes a panel configured to cover a portion of the body of the vehicle. The vehicle includes an operator station configured to be stowed within the body of the vehicle to enable the panel to cover the operator station while the vehicle is at least partially autonomously controlled. The operator station is configured to be deployed at least partially external to the body of the vehicle to enable an operator to control the vehicle.