A vehicle light, wherein light to be emitted by a base light source which is offset with respect to an emission surface is first conducted radially outwards in targeted manner and is then reflected in an axial direction with respect to the emission surface, uses light-conducting bodies, which are spaced apart from a deflection mirror, or a light-conducting space, which extends first radially and then axially, to obtain as light-intensive, uniform and directional light emissions as possible.

The invention relates to a motorcycle lamp (2) for implementing at least one lamp function. The motorcycle lamp (2) comprises a housing (4) having a light-emission aperture (6), a bracket (8) mounted on the housing (4) for securing the motorcycle lamp (2) to a motorcycle, at least one light source (10) disposed in the housing (4) and a front optics (12) made of a solid transparent material disposed between the at least one light source (10) and the light-emission aperture (6), wherein the at least one light source (10) comprises an LED and is disposed and oriented in the housing (4) such that it emits light in a main radiation direction (14) extending through the light-emission aperture (6), and wherein the front optics (12) closes the light-emission aperture (6) and deflects and shapes the light emitted by the at least one light source (10) to generate a light distribution corresponding to a lamp function implemented by the motorcycle lamp (2). In order for the lamp (2) to improve the lateral perceptibility without the use of additional optical elements in the optical path, it is proposed that a light-emission surface (16) of the front optics (12) has a first convex curvature when viewed in a horizontal plane (yz) and a second convex curvature when viewed in a vertical plane (xz), the latter being smaller than the first convex curvature in the horizontal plane (yz) or flat.

There is provided a protection structure of a rear combination lamp provided at a rear portion of a straddle-type vehicle. The protection structure of the rear combination lamp includes: an undercover covering the rear combination lamp from below; and a rear fender covering a rear wheel from above, the rear fender being below the undercover. The undercover extends along a lower edge of the rear combination lamp. A size of the rear fender in a vehicle width direction is smaller than a size of the undercover in the vehicle width direction in a vehicle rear view.

The present invention provides various aspects of a novel safety light that can be attached to a bicyclist or an athlete so as to define a well lit, safe distance to avoid collision by a motorist. The present safety concerns would find advantage in an easy to attach safety light that is much larger, more conspicuous and one that provides greater lumens. It would be desirable for athletes and the sports industry if there was provided an improved safety light system to provide a significant warning to let motorists know the safe distance that any motorist and/or his vehicle needs to avoid so as not to hit the cyclist or athlete.

The present invention provides various aspects of a novel safety light that can be attached to a bicyclist or an athlete so as to define a well lit, safe distance to avoid collision by a motorist. The present safety concerns would find advantage in an easy to attach safety light that is much larger, more conspicuous and one that provides greater lumens. It would be desirable for athletes and the sports industry if there was provided an improved safety light system to provide a significant warning to let motorists know the safe distance that any motorist and/or his vehicle needs to avoid so as not to hit the cyclist or athlete.

The invention relates to an autonomous device for alert in case of motion of a vehicle, comprising: an electrical energy recovery facility (11) adapted to recover electrical energy generated by rotation of a wheel (2) of the vehicle, a temporary accumulation module (12) adapted to store at least part of said electrical energy, a telecommunication module (13) adapted to be supplied by the temporary accumulation module, and configured to emit, in response to its being supplied with electrical energy by the temporary accumulation module (12), a communication destined for a network (3) for dispatching an alert message destined for a terminal (4).

An auxiliary lighting system for a three-wheeled motorcycle having a pair of rear wheels is disclosed, wherein the lighting system is affixed to a forward-facing portion and/or side portion of the rear fenders thereof.

An auxiliary lighting system for a three-wheeled motorcycle having a pair of rear wheels is disclosed, wherein the lighting system is affixed to a forward-facing portion and/or side portion of the rear fenders thereof.

A heat exchanger shield for a snowmobile, the heat exchanger comprising an elongated body having a pair of opposing legs, and a pair of engagement structures, one engagement structure formed at a distal end of a corresponding one of the legs, wherein the engagement structures are structured and operable to slidingly engage a corresponding shield retention guide formed in a snowmobile heat exchanger.

A motorcycle including a motorcycle body having a front part, a tail part and a central part between the front part and the tail part front and rear wheels constrained to the motorcycle body (2,3,4), a traction engine constrained to the motorcycle body (2,3,4) and operatively connected to at least one of the wheels, at least one optical signalling device fixed to the motorcycle body arranged and oriented so as to be visible by a vehicle that is following the motorcycle, an electronic control unit of the optical signalling device operatively connected to the optical signalling device, an obstacle sensor fixed to the motorcycle body (2,3,4) and operatively connected to the electronic control unit, where the electronic control unit is adapted and configured to receive at least one output signal supplied by the obstacle sensor, verifying whether said output signal meets at least one logical activation condition and, in such case, turning on the optical signalling device to signal a risk of collision with the motorcycle to the vehicle which follows the motorcycle, and where the obstacle sensor is arranged and oriented so that the output signal supplied to the electronic control unit carries information correlated to the presence of obstacles placed in front of the motor cycle.