A straddle type vehicle comprises a front antenna configured to be capable of transmitting/receiving a wireless signal of a predetermined frequency band and arranged closer to a front side than a seating portion on which a rider can sit, and a rear antenna configured to be capable of transmitting/receiving a wireless signal of a predetermined frequency band and arranged closer to a rear side than the seating portion, the front antenna has directivity in the front side of the straddle type vehicle.

The present invention is generally directed to a swing arm configuration and, more specifically, a swing arm that is supported by a shaft of a motor, such as an electric motor of a motorcycle. The configuration includes a swing arm assembly that is supported by a shaft of a motor at one end and a rear axle at the other end. Advantageously, the shaft of the motor may be a structural component of an electric motorcycle and serve as the swing arm pivot as well as the drive shaft.

A system for a motorized vehicle having a frame and a wheel rotatably coupled to the frame has a first fender housing mounted to the frame, a second fender housing coupled to the first fender housing so that a volume is defined therebetween and an electronic component disposed in the volume.

A system for a motorized vehicle having a frame and a wheel rotatably coupled to the frame has a first fender housing mounted to the frame, a second fender housing coupled to the first fender housing so that a volume is defined therebetween and an electronic component disposed in the volume.

A motorcycle (10) comprising a first frame member (110) having a first opening (128) and a plurality of wires. A joint member (140) is coupled to the first frame member and at least a second frame member (122, 62). The joint member has a second opening (142) therethrough. The plurality of wires extend into the first opening through the first frame member and through the second opening of the joint member.

A seatpost has a post body, an adjusting mount, a connecting unit, and a connecting bracket. The post body has a supporting base disposed at an upper end of the post body. The supporting base has a bore formed through a rear end of the supporting base. The adjusting mount is connected to the supporting base and has a passing hole disposed at a rear end of the adjusting mount. The connecting unit is connected to the adjusting mount and has a connecting portion having a threaded hole. A bolt passes through the bore, the passing hole, and is screwed with the threaded hole. The connecting bracket has a front end connected to the connecting portion, a rear end opposite the front end, and an assembling board disposed at the rear end of the connecting bracket for assembling a taillight or a bicycle license plate.

A motorcycle (1) includes a tail lamp (41), a rear covering (32), rear end components which are a license plate (44) and a license lamp (46), a rear stay (33), and a sensor (60). The tail lamp (41) emits light toward the rear side. The rear covering (32) is provided with the tail lamp (41). The rear end components are disposed more rearward than the rear covering (32). The rear stay (33) extends at least rearward from a connecting portion connected to the rear covering (32), and supports the rear end components. The sensor (60) for sensing an object rearward is at least partially received in an internal space (111) that is formed either in the rear covering (32) or in the rear stay (33).

A motorcycle kickstand support assembly that is configured to be mounted adjacent to a license plate on a motorcycle wherein a kickstand support plate is releasably secured therein. The kickstand support plate of the present invention is configured to be placed on a soft ground and receive the end of the kickstand thereon so as to maintain the motorcycle in an upright position. The present invention includes a housing having a plurality of walls forming an interior volume. The kickstand support plate is inserted into the housing and is biasly positioned within the interior volume utilizing wedge member present proximate the rear end of the housing. A pair of shoulder members engage locking tabs and the spring mounted wedge member keeps the shoulder members biased against the locking tabs so as to secure the kickstand mounting plate.

A leaning vehicle including a body frame; a linkage mechanism supported by the body frame and including a left side part and a right side part; and two front wheels, two foot steps, two foot-step-coupling part and two front guards, respectively at left and right sides of the vehicle. On each of the left and right sides, the front guard is supported by the foot-step-coupling part between the foot step and the front wheel, such that while the leaning vehicle leans, a positional relationship of the front guard changes with respect to the body frame but does not change with respect to the left/right side part and the foot step in a top-bottom direction, and while the front wheel rotates, the front guard does not rotate with the front wheel, and the positional relationship of the front guard to the left/right side part and the foot step remains without change.

A leaning vehicle including a body frame; a linkage mechanism supported by the body frame and including a left side part and a right side part; and two front wheels, two foot steps, two foot-step-coupling part and two front guards, respectively at left and right sides of the vehicle. On each of the left and right sides, the front guard is supported by the foot-step-coupling part between the foot step and the front wheel, such that while the leaning vehicle leans, a positional relationship of the front guard changes with respect to the body frame but does not change with respect to the left/right side part and the foot step in a top-bottom direction, and while the front wheel rotates, the front guard does not rotate with the front wheel, and the positional relationship of the front guard to the left/right side part and the foot step remains without change.