Aluminum alloys described herein include silicon, iron, copper, manganese, magnesium, and chromium. In various implementations, the aluminum alloys also include one or more of zinc and titanium. Typically, a total amount of iron and manganese in the aluminum alloys is no less than 0.28% by weight and no greater than 0.45% by weight, and the grains in the aluminum alloys have an average grain length of no greater than 6 mm. Aluminum alloy billets can be forged for wheel production at selected temperatures.

The present invention relates generally to the field of vehicle rims, and more specifically relates to Logo-Rims. The present invention also relates to a vehicle Logo-Rim apparatus, and a method of making same. More particularly, the invention encompasses a customized tire rim for a vehicle. The invention also provides a user to replace their existing tire rims with the inventive customized vehicle rim having, and using a customized or a personalized logo. A line of specially designed tire rims that are adorned with a variety of striking designs, sporting logos germane to sports, businesses, and popular culture, is also disclosed. The invention also provides an inventive design which is intended to provide automobile enthusiasts with an attractive alternative to ordinary tire rims.

A mounting wheel (3) for a motor vehicle comprising an internal surface (2) and an external surface (4), the internal surface (2) not being visible when the mounting wheel (3) is mounted on the motor vehicle, and at least one fixing element (7) configured to attach the mounting wheel (3) to the motor vehicle. The fixing element (7) is arranged on the internal surface (2) of the mounting wheel (3) so that the fixing element (7) is not visible when the mounting wheel (3) is mounted on the motor vehicle.

The disclosure discloses an automatic wheel detecting device. The device can automatically detect marks of spoke back cavities and the inner side coaxiality and the outer side coaxiality of wheels, the wheels with marks being missed are identified in time, the values of the inner side coaxiality and the outer side coaxiality of the wheels on a production line are monitored in time, if the values are out of tolerance, an alarm is given out in time, and the device can be used for automatic production.

An aerodynamic tailfin rotatably attached to a shaft-shaped member disposed on a vehicle. The tailfin swivels about the round shaft-shaped member for reduced drag in response to winds varying in direction impinging thereon.

An aerodynamic tailfin rotatably attached to a shaft-shaped member disposed on a vehicle. The tailfin swivels about the round shaft-shaped member for reduced drag in response to winds varying in direction impinging thereon.

A hybrid rim of a wheel provided with a wheel hub motor of a motor vehicle includes a non-metal part and a metal part, wherein a rotor housing of the wheel hub motor at least partially forms the metal part of the hybrid rim.

An electrical passenger car, the electrical passenger car including: an electrically driven motor; differential speed control; and wheels, where the wheels include a first front wheel, a second front wheel, a first back wheel, and a second back wheel, where at least one of the wheels has a radius larger than 80 cm, where the differential speed control includes an ability to have a turning speed of the first front wheel greater than a turning speed of the second front wheel, and where the electrical passenger car is designed to travel for a greater distance for the same axial to wheel friction energy loss than a similar electrical passenger car having wheels of a smaller radius.

A soft sided container with a wheel assembly securable to the sidewalls of the container. The wheel assembly is formed from a cage bearing rotatably coupled to a hub. The hub, formed integral with a base plate, engages an internally positioned mounting plate, eliminating the need for a cross axle. The use of a large hub limits rotation to an outer circumference of the wheel assembly.

An omnidirectional wheel and a scooter having an omnidirectional wheel are provided. The omnidirectional wheel includes: a hub; support members, in which the support members are circumferentially distributed on the hub, each of the support members has a first mounting surface and a second mounting surface disposed oppositely, the first mounting surface is provided with a first mounting shaft, the second mounting surface is provided with a second mounting shaft, and a distance between a first axis of the first mounting shaft and a wheel center of the hub is less than a distance between a second axis of the second mounting shaft and the wheel center of the hub; first rollers, in which at least one of the first rollers is rotatably disposed on each first mounting shaft; and second rollers, in which at least one of the second rollers is rotatably disposed on each second mounting shaft.