This disclosure concerns a propulsion and load distribution system for a pedal actuated vehicle. More specifically, this disclosure is directed to an electrically powered frame, trailer, vehicle, trailer, cart, and/or cycle coupled to at least one motorized wheel operably connected thereto. In some embodiments, the propulsion system can be operably associated with a load distribution system comprising a rocker arm and a spring that are configured to be associated with a frame having an axle or to which an axle can be mounted.

This disclosure concerns a propulsion and load distribution system for a pedal actuated vehicle. More specifically, this disclosure is directed to an electrically powered frame, trailer, vehicle, trailer, cart, and/or cycle coupled to at least one motorized wheel operably connected thereto. In some embodiments, the propulsion system can be operably associated with a load distribution system comprising a rocker arm and a spring that are configured to be associated with a frame having an axle or to which an axle can be mounted.

This disclosure is directed to a load distribution system for vehicles and a method for mounting the load distribution system. More specifically, this disclosure is directed to a system comprising a rocker arm and a spring that are configured to be associated with a frame having an axle or to which an axle can be mounted. In some embodiments, the rocker arm can be rotatably coupled to at least one wheel. In some embodiments, an equalizer is attached to the rocker arm. In some embodiments, at least two wheels are rotatably coupled to the equalizer.

This disclosure is directed to a load distribution system for vehicles and a method for mounting the load distribution system. More specifically, this disclosure is directed to a system comprising a rocker arm and a spring that are configured to be associated with a frame having an axle or to which an axle can be mounted. In some embodiments, the rocker arm can be rotatably coupled to at least one wheel. In some embodiments, an equalizer is attached to the rocker arm. In some embodiments, at least two wheels are rotatably coupled to the equalizer.

An off-road vehicle includes a frame, an engine, a rear ground engaging member, and a first rear trailing arm and a second rear trailing arm. Each of the trailing arms have at least one housing and wherein, within each housing is a drive belt, the drive belt drivingly coupled to the engine and a rear ground engaging member.

An off-road vehicle includes a frame, an engine, a rear ground engaging member, and a first rear trailing arm and a second rear trailing arm. Each of the trailing arms have at least one housing and wherein, within each housing is a drive belt, the drive belt drivingly coupled to the engine and a rear ground engaging member.

A transporting robot is utilized for rapid and efficient logistics and transportation. The transporting robot includes a main body having a flat upper surface, support frames that are respectively provided on both sides of the main body, extend downwardly, and define a predetermined angle with respect to the upper surface of the main body, a leg rotatably installed on the support frame, and a wheel installed at an end of the leg. The leg is configured to be folded below the main body, raised toward the main body, or unfolded outside of the main body.

A transporting robot is utilized for rapid and efficient logistics and transportation. The transporting robot includes a main body having a flat upper surface, support frames that are respectively provided on both sides of the main body, extend downwardly, and define a predetermined angle with respect to the upper surface of the main body, a leg rotatably installed on the support frame, and a wheel installed at an end of the leg. The leg is configured to be folded below the main body, raised toward the main body, or unfolded outside of the main body.

A suspension apparatus configured to support a wheel of a vehicle includes an in-wheel motor. The suspension apparatus includes a suspension member extending substantially in a front and rear direction of the vehicle and coupled to a carrier at a plurality of coupling portions spaced apart from each other in an up and down direction. The carrier holds the in-wheel motor. A reference point of an upper one of the plurality of coupling portions is located on an inner side of a reference point of a lower one of the plurality of coupling portions in a widthwise direction of the vehicle.

A suspension apparatus configured to support a wheel of a vehicle includes an in-wheel motor. The suspension apparatus includes a suspension member extending substantially in a front and rear direction of the vehicle and coupled to a carrier at a plurality of coupling portions spaced apart from each other in an up and down direction. The carrier holds the in-wheel motor. A reference point of an upper one of the plurality of coupling portions is located on an inner side of a reference point of a lower one of the plurality of coupling portions in a widthwise direction of the vehicle.