A vehicle chassis including a vehicle frame defining an inner space and being operable to switch between a first expanded state and a collapsed state, and a loading device mounted to the inner space and removably connected to the vehicle frame. The loading device defines a first loading surface when the vehicle frame is in the first expanded state, and the loading device defines a second loading surface that is smaller than the first loading surface when the vehicle frame is in the collapsed state.

The disclosure provides an electric utility vehicle with detachable platform. The electric utility vehicle may include a load platform supported on a chassis including at least two electrically driven wheels. The detachable platform may be removeably coupled to the load platform. The detachable platform may include a central hub including a top surface. The detachable platform may include three legs coupled to the central hub, each leg including an actuator configured to extend the respective leg to a ground surface while the detachable platform is coupled to the load platform. The detachable platform may include a controller configured to coordinate the actuators to control an orientation of the top surface.

The present disclosure encourages utilization of a traveling unit to which a connectable unit can be connected on an upper side in a separable manner. A controller of the traveling unit to which the connectable unit can be connected on the upper side in a separable manner of the present disclosure executes changing a form of the traveling unit so that the traveling unit in a separated state where the connectable unit is separated takes a different form from a form in a connection state where the connectable unit is connected, and controlling travel of the traveling unit in accordance with the form of the traveling unit.

A robotic apparatus comprising first, second, and third wheel assemblies, and a clamping mechanism configured to apply a force for urging the second wheel and the third wheel to pivot in opposing directions towards a plane of the first wheel for securing the first wheel, the second wheel, and the third wheel to the pipe, each wheel assembly including an alignment mechanism for adjusting an orientation of the wheels to allow the robotic apparatus to move along a straight path or a helical path on the pipe. A method for navigating an obstacle on a pipe comprising advancing the robotic apparatus along a helical pathway on the pipe to position an open side of the robotic apparatus in longitudinal alignment with the obstacle, and advancing the robotic apparatus along a straight pathway on the pipe such that the obstacle passes unobstructed through the open side of the robotic apparatus.

The disclosure provides an electric utility vehicle with detachable platform. The electric utility vehicle may include a load platform supported on a chassis including at least two electrically driven wheels. The detachable platform may be removeably coupled to the load platform. The detachable platform may include a central hub including a top surface. The detachable platform may include three legs coupled to the central hub, each leg including an actuator configured to extend the respective leg to a ground surface while the detachable platform is coupled to the load platform. The detachable platform may include a controller configured to coordinate the actuators to control an orientation of the top surface.

A robotic apparatus comprising first, second, and third wheel assemblies, and a clamping mechanism configured to apply a force for urging the second wheel and the third wheel to pivot in opposing directions towards a plane of the first wheel for securing the first wheel, the second wheel, and the third wheel to the pipe, each wheel assembly including an alignment mechanism for adjusting an orientation of the wheels to allow the robotic apparatus to move along a straight path or a helical path on the pipe. A method for navigating an obstacle on a pipe comprising advancing the robotic apparatus along a helical pathway on the pipe to position an open side of the robotic apparatus in longitudinal alignment with the obstacle, and advancing the robotic apparatus along a straight pathway on the pipe such that the obstacle passes unobstructed through the open side of the robotic apparatus.

A trailer for towing by a power vehicle is provided and generally includes a frame and a tandem wheel assembly. The frame forms an undercarriage chassis which the tandem wheel assembly is positioned there under. The undercarriage chassis includes a rear wheel assembly, a front wheel assembly, and an extension assembly moving the front wheel assembly between trailing position and a self-propelled position. At least one of the wheel assemblies is powered by a selectively engageable drive assembly including a motor, transmission, driveshaft, selectively engageable clutch and hub, to drive the rotation of at least one of the wheels.

A trailer for towing by a power vehicle is provided and generally includes a frame and a tandem wheel assembly. The frame forms an undercarriage chassis which the tandem wheel assembly is positioned there under. The undercarriage chassis includes a steerable rear wheel assembly, a steerable front wheel assembly, and an extension assembly moving the front wheel assembly between trailing position and a self-propelled position where the rear wheel assembly and the front wheel assembly are positioned to equally support the undercarriage chassis.

A vehicle for variably sized transportation may include a vehicle basis and exterior elements coupled to the vehicle basis. At least some exterior elements may be collapsible or movably coupled to the vehicle basis at a first set of positions or a first set of extended or collapsed states to form a first operational configuration, or at a second set of positions or a second set of extended or collapsed states to form a second operational configuration. The first or second operational configuration may provide for a first or second shadow and a first or second passenger or cargo space for the vehicle. The first and second shadows and the first and second passenger or cargo spaces may differ in at least their longitudinal dimensions or in latitudinal dimensions. Other embodiments may also be described and claimed.

An electric vehicle includes a chassis and a seat assembly that includes a plurality of seats mounted to the chassis. The chassis includes a vehicle frame defining a mounting space, and a battery module disposed in the mounting space and including an outer battery unit that is mounted to the vehicle frame, and an inner battery unit that is coupled to the outer battery unit. The vehicle frame is operable to switch between an expanded state, where the inner battery unit is permitted to be coupled to the outer battery unit and the seats are spaced apart from each other, and a collapsed state, where the inner battery unit is prevented from being coupled to the outer battery unit and the seats are overlapped with each other.