A straddle vehicle comprises a cover member covering a vehicle body; a head lamp unit which is disposed at a front portion of the straddle vehicle and emits a light beam with which a forward region of the vehicle body is irradiated; and a sub-light-unit which is provided separately from the head lamp unit and emits the light beam with which the forward region is irradiated, wherein the sub-light-unit includes: a housing disposed along an edge of the cover member; a light source member which emits the light beam inside the housing; a reflector which is accommodated in the housing and reflects the light beam emitted from the light source member; and an optical axis adjustment mechanism which supports the reflector on the housing in such a manner that the reflector is tiltable with respect to the housing, and changes a posture of the reflector with respect to the housing.

A communication system for a vehicle comprises a mechanism for sensing a braking of the vehicle and a control device for sending a signal to a headlight activation circuit to modulate the vehicle's headlights based upon the braking of the vehicle. In particular, a headlight of the vehicle is able to be modulated based upon an application of one or both of a front brake and a rear brake. The headlight activation circuit is able to modulate the headlight between an on position and an off position or modulate the headlight between a high beam position and a low beam position. Consequently, the vehicle is better seen as it approaches likely congestion areas such as intersections and slowing or stopped traffic and attempts to enter traffic.

A system including a programmable lighting display, together with sensors of motion parameters of a vehicle is disclosed. Once programmed, the system functions automatically to produce selected visual effects on the lighting display. The lighting display is visible from the exterior of the vehicle, although illuminable elements may be contained within translucent or transparent elements of the vehicle. Sensed parameters of motion may include forward acceleration and/or velocity, rearward acceleration and/or velocity, inclination, vertical acceleration and/or velocity, and loss of and re-establishing of contact with the ground. The lighting display may comprise multi-colored LEDs. Visual effects may include color or hue selection, intermittent illumination or flashing, sequencing of lights to create the impression of waves, and other visual effects.

The device for signalling direction comprises a support (2) predisposed to be worn by a user and carrying at least a first direction light source (50) and a second direction light source (50), each indicating a respective rotation direction of said wearable support (2). At least one sensor element is associated with the support (2) to measure at least a value of the acceleration and/or a value of the angular speed assumed by the wearable support (2).

A method for guiding a cyclist on a bicycle equipped with a bicycle handlebar. The method includes: on each side of a central zone in which the bicycle handlebar is attached to the bicycle handlebar stem, separately illuminating a proximal light-emitting zone located next to the central attachment zone or a distal light-emitting zone depending on the route to be followed.

A smart safety garment with signal lights includes a basic garment, at least a pair of turn signal lights embedded on the external surface of the basic garment, and an electronic assembly for the control. The management and monitoring of the smart safety garment includes a control unit, the at least a pair of turn signal lights being connected or connectable to the control unit. The electronic assembly further includes a braking sensor connected or connectable to the control unit and adapted to perceive a deceleration and to generate a corresponding braking signal intended to the control unit. The control unit is configured to power up at least a pair of turn signal lights according to the braking signal.

A light and mount assembly is provided which includes a light, a base plate and a mounting plate. The base plate includes a bottom surface for affixing to an object and a top surface having a cavity with a circular rim having a plurality of indents. The mounting plate has a round bottom except for a plurality of radially extending flanges. The mounting plate's round bottom and flanges are sized and position to be insertable and removable to and from the base plate's circular opening and indents. Rotation of the mounting plate locks the mounting plate to the base plate. A light is pivotally affixed to the mounting plate.

The purpose of the present invention is to provide a straddle-type vehicle that enables reducing the number of components. Between front forks at the bottom edge of a top bridge configuring a motorcycle, a stay is provided which supports turn signals on each of the front forks. In this case, the stay is configured from a single member. Further, a stay fixing unit for fixing the stay and a first front fork fixing unit for fixing the front forks are provided on the top bridge. By this means, it is possible for the stay to be a single common member that supports turn signals on each of the front forks.

An electronic component is integrated into a vehicle body component, such as an automobile, a bicycle, etc., and may be an electronic lighting material and/or an electronic sensor. The vehicle body component is formed of multiple layers of a composite material that may be assembled to take the shape of a mold of a particular vehicle component. A sensor or lighting device is disposed in a void formed in the one or more of the layers of the composite material, and this device may be enclosed in the void by other layers. The lighting material and/or sensing mechanism are configured to connect to a power source via electrical wiring that is disposed either between or through the composite layers that form the vehicle body component and the vehicle body component is then cured to form a hardened vehicle body part with the sensor or lighting device formed therein.

An electronic component is integrated into a vehicle body component, such as an automobile, a bicycle, etc., and may be an electronic lighting material and/or an electronic sensor. The vehicle body component is formed of multiple layers of a composite material that may be assembled to take the shape of a mold of a particular vehicle component. A sensor or lighting device is disposed in a void formed in the one or more of the layers of the composite material, and this device may be enclosed in the void by other layers. The lighting material and/or sensing mechanism are configured to connect to a power source via electrical wiring that is disposed either between or through the composite layers that form the vehicle body component and the vehicle body component is then cured to form a hardened vehicle body part with the sensor or lighting device formed therein.