A steering assembly for a vehicle includes a housing having a signal portion and defining a shaft enclosure. A steering shaft includes a cancellation rib that rotates about a rotational axis and within the shaft enclosure. A trunnion rotates within the signal portion of the housing about a trunnion axis to define a null position and right-turn and left-turn positions. A toggle includes a cancellation member. The toggle axially and rotationally operates with respect to one of the trunnion and the turn-signal housing. The cancellation member in the null position is within the shaft enclosure and axially offset from the cancellation rib. The cancellation member in one of the right-turn and left-turn positions is within the shaft enclosure and axially aligned for selective engagement with the cancellation rib. Selective engagement of the cancellation rib and the cancellation member axially operates the toggle to the null position.

A cancel cam includes an annular member, a cam wall, and at least one reinforcing rib. The annular member is rotatable integrally with a steering shaft about a rotation axis and includes an outer peripheral portion, an inner peripheral portion, and a first surface. The cam wall extends from the outer peripheral portion in an axial direction and extends along the outer peripheral portion in a circumferential direction. The at least one reinforcing rib extends from the cam wall toward the inner peripheral portion and couples the cam wall to the annular member. The cam wall has a first axial length defined from the first surface in the axial direction. The inner peripheral portion has a second axial length defined from the first surface in the axial direction. The second axial length is shorter than the first axial length.

A cancel cam includes an annular member, a cam wall, and at least one reinforcing rib. The annular member is rotatable integrally with a steering shaft about a rotation axis and includes an outer peripheral portion, an inner peripheral portion, and a first surface. The cam wall extends from the outer peripheral portion in an axial direction and extends along the outer peripheral portion in a circumferential direction. The at least one reinforcing rib extends from the cam wall toward the inner peripheral portion and couples the cam wall to the annular member. The cam wall has a first axial length defined from the first surface in the axial direction. The inner peripheral portion has a second axial length defined from the first surface in the axial direction. The second axial length is shorter than the first axial length.

A semitrailer rear lighting device for enhancing safety of a semitrailer hauling an oversized load includes a plurality of brackets, a pair of bars, and an indicator. Each bracket is mountable to a respective opposed side of a semitrailer so that at least two brackets are mounted to each opposed side. Each bar is slidably engaged to the brackets positioned on a respective opposed side of the semitrailer. The bars are selectively extensible from a rear of the semitrailer to position a terminus of the pair of bars past an end of an oversized load that extends past the rear of the semitrailer. The indicator is engaged to the terminus of the pair of bars. The indicator indicates to a trailing motorist one or more of the rear of the semitrailer, the end of the oversized load, a braking action of the semitrailer, or a turning of the semitrailer.

A semitrailer rear lighting device for enhancing safety of a semitrailer hauling an oversized load includes a plurality of brackets, a pair of bars, and an indicator. Each bracket is mountable to a respective opposed side of a semitrailer so that at least two brackets are mounted to each opposed side. Each bar is slidably engaged to the brackets positioned on a respective opposed side of the semitrailer. The bars are selectively extensible from a rear of the semitrailer to position a terminus of the pair of bars past an end of an oversized load that extends past the rear of the semitrailer. The indicator is engaged to the terminus of the pair of bars. The indicator indicates to a trailing motorist one or more of the rear of the semitrailer, the end of the oversized load, a braking action of the semitrailer, or a turning of the semitrailer.

A turn signal switch device has a manipulation lever and a cancel lever that can advance and retract to and from the rotation path of a cancel protrusion, which is shaped like a sector and rotates together with a shaft. A cancel protrusion engaging part that engages a cancel protrusion is formed at the front end of the cancel lever. The cancel protrusion engaging part is disposed at a position offset from the lever body of the cancel lever in the axial direction of the shaft.

A turn signal switch device has a manipulation lever and a cancel lever that can advance and retract to and from the rotation path of a cancel protrusion, which is shaped like a sector and rotates together with a shaft. A cancel protrusion engaging part that engages a cancel protrusion is formed at the front end of the cancel lever. The cancel protrusion engaging part is disposed at a position offset from the lever body of the cancel lever in the axial direction of the shaft.

An autonomous travel controller detects whether a host vehicle is carrying out a first course change for changing a course in a direction indicated by a turn indicator. Upon detecting that the host vehicle is carrying out the first course change, detecting whether there is a road that enables a second course change for changing the course of the host vehicle that branches from the road after the first course change. When a road that enables the second course change is detected, the autonomous travel controller turns the turn indicator off.

An autonomous travel controller detects whether a host vehicle is carrying out a first course change for changing a course in a direction indicated by a turn indicator. Upon detecting that the host vehicle is carrying out the first course change, detecting whether there is a road that enables a second course change for changing the course of the host vehicle that branches from the road after the first course change. When a road that enables the second course change is detected, the autonomous travel controller turns the turn indicator off.

In some embodiments of the present disclosure, techniques are provided for automatic turn signal deactivation in a vehicle with a trailer. The vehicle includes a camera monitoring system that provides video images for display devices that replace traditional side view mirrors. In some embodiments, video information is obtained from the camera monitoring system and is used to determine an angle of the trailer. Upon activation of a turn signal indicator, the video information is used to detect departure of the trailer angle from a centered region and the subsequent return of the trailer angle to the centered region in order to automatically deactivate the turn signal indicator.