A motorcycle may include a step operating mechanism including a base member, a pivot member, a pivot shaft, and a locking mechanism. The base member may be supported by a first portion of a frame member. The pivot member may extend from the base member in a motorcycle width direction. The pivot member may pivot along a straight line orthogonal to the pivot shaft and may be configured to be received by a docking cavity of an associated electric scooter. The locking mechanism of the step operating mechanism may be configured to lock or fix a front portion of the associated electric scooter to the pivot member when the pivot member is received by the docking cavity of the associated electric scooter. The motorcycle may include a second locking mechanism supported by a second portion of the frame member.

A motorcycle may include a step operating mechanism including a base member, a pivot member, a pivot shaft, and a locking mechanism. The base member may be supported by a first portion of a frame member. The pivot member may extend from the base member in a motorcycle width direction. The pivot member may pivot along a straight line orthogonal to the pivot shaft and may be configured to be received by a docking cavity of an associated electric scooter. The locking mechanism of the step operating mechanism may be configured to lock or fix a front portion of the associated electric scooter to the pivot member when the pivot member is received by the docking cavity of the associated electric scooter. The motorcycle may include a second locking mechanism supported by a second portion of the frame member.

A transport system includes: a first moving body that is configured to transport a transport object by autonomous ground travel; a second moving body that is configured to transport the first moving body by autonomous travel; a memory; and a processor coupled to the memory and that is configured to: set delivery routes for each of the first moving body and the second moving body; stow the first moving body travelling in the first area in the second moving body at a boundary where the set delivery route switches from a first area to a second area more dirty than the first area; and cause the second moving body stowing the first moving body to travel in the second area.

A transport system includes: a first moving body that is configured to transport a transport object by autonomous ground travel; a second moving body that is configured to transport the first moving body by autonomous travel; a memory; and a processor coupled to the memory and that is configured to: set delivery routes for each of the first moving body and the second moving body; stow the first moving body travelling in the first area in the second moving body at a boundary where the set delivery route switches from a first area to a second area more dirty than the first area; and cause the second moving body stowing the first moving body to travel in the second area.

There is provided a first vehicle shaped to be received on a cargo bed of a second vehicle. The first vehicle includes at least one rear light. The first vehicle includes a wiring harness coupled to the rear light of the first vehicle. The wiring harness is connectable to at least one electrically-powered rear light of the second vehicle so as to be powered therefrom and to function in concert therewith.

There is provided a first vehicle shaped to be received on a cargo bed of a second vehicle. The first vehicle includes at least one rear light. The first vehicle includes a wiring harness coupled to the rear light of the first vehicle. The wiring harness is connectable to at least one electrically-powered rear light of the second vehicle so as to be powered therefrom and to function in concert therewith.

A platform is provided for supporting a vehicle on a combine. The platform includes a frame, and at least one guide supported by the frame. The at least one guide is configured to receive at least one wheel of a vehicle to thereby position the vehicle on the frame. The platform also includes a mount coupled to the frame and configured to connect the frame to a feeder house of the combine.

A platform is provided for supporting a vehicle on a combine. The platform includes a frame, and at least one guide supported by the frame. The at least one guide is configured to receive at least one wheel of a vehicle to thereby position the vehicle on the frame. The platform also includes a mount coupled to the frame and configured to connect the frame to a feeder house of the combine.

A header support for supporting a header during road transport of an agricultural harvester. The header support has a header mounted to it in order to reduce a front axle load of the agricultural harvester. During harvesting, a support wheel of the header support is folded upwardly so it does not touch the ground during harvesting. The rotation axis of the support wheel extends in a substantially vertical plane during harvesting. This allows for a simple construction of the header support and reduces the vibration loads on the bearing of the support wheel during harvesting.

The present invention discloses a multifunctional vehicle lifting, steering, moving and obstacle crossing device. The apparatus is composed of a rotating mechanism, a lifting mechanism, a running mechanism and a control mechanism, is mounted at a bottom of an automobile, can be conveniently folded at the bottom of the automobile when not used at ordinary times, and has characteristics of portability, flexibility, no space occupation and easy operation. The apparatus can realize functions of a vehicle, such as lifting, rotating, moving and the like, in a wired or wireless control manner, and effectively overcome defects that the vehicle cannot realize four-wheel off-ground, entire side movement and in-situ rotation or pass through a narrow road or stride across a wide ditch or cross a high and narrow obstacle, thereby completing relatively difficult tasks of the vehicle, such as parking, moving, turning-around and turning in a narrow space, crossing ditches etc.