A system includes a platform to support a vehicle on a first side of the platform and a passive motion device arranged on a second side of the platform, opposite the first side, to move upon actuation. A mechanical actuator actuates the passive motion device based on movement of one or more wheels of the vehicle to change a position of the vehicle. The position of the vehicle relative to the platform is unchanged and the passive motion device is actuated by only the movement of the one or more wheels of the vehicle to change the position of the vehicle.

A system includes a platform to support a vehicle on a first side of the platform and a passive motion device arranged on a second side of the platform, opposite the first side, to move upon actuation. A mechanical actuator actuates the passive motion device based on movement of one or more wheels of the vehicle to change a position of the vehicle. The position of the vehicle relative to the platform is unchanged and the passive motion device is actuated by only the movement of the one or more wheels of the vehicle to change the position of the vehicle.

A ramp configured to support a wheel of a vehicle. The ramp includes a tapered height and a curved surface for a wheel of a vehicle to move along and elevate above a support surface. The ramp includes a base block configured to contact against the support surface. One or more stacker blocks are configured to connect to the base block to increase the elevation of the wheel of the vehicle. The base block and one or more stacker blocks are configured to be removably connected together to be adjustable to the needs of the user.

A steerable carriage for moving a wheeled object comprising at least one engagement device (3) configured to engage with and elevate a wheel (5) of the wheeled object off the ground such that the wheeled object can be moved upon displacement of the carriage by transmitting a propulsion force from the carriage to the wheeled object via the at least one engagement device, wherein the at least one engagement device comprises: a support device (12), an actuating device (13) movable with respect to the support device such as to cause the wheel to roll forward onto the support device and be held by the support device and the actuating device, wherein the support device comprises: a stopping member (18) movable between a folded position and a stopping position in which it is configured to stop forward motion of the wheel, and an activation member (23) configured to cause the stopping member to move from the folded position to the stopping position when the wheel is rolled onto the support device.

Provided herein is a balanced locking pawl. In particular, the center of gravity of the locking pawl is located at or near the pivot point of the locking pawl. The balanced approach allows for a faster locking response during the rebound (whiplash/return) forces of a crash.

A motorcycle loader 100 for moving a motorcycle 10 without turning the motorcycle 10 on, and in particular, moving the motorcycle 10 to an elevated surface by attaching a friction wheel 102 to one of the tires 16 of the motorcycle 10 using a frame 110 that attaches to the motorcycle 10, and uses a motor 103 operatively connected to the friction wheel 102 to power the friction wheel 102, which causes the motorcycle wheel 16 to turn, thereby mobilizing the motorcycle 10. A controller 104 connected to the motor 103 of the motorcycle loader 100 can control the power, direction, and speed of the motor 103. The controller 104 can be connected to the battery of the motorcycle 10 to power the friction wheel 102. A clamp 160 operatively connected to the friction wheel 102 can be used to engage or disengage the friction wheel 102 from the tire 16 of the motorcycle 10.

A monolithic, polymer ramp for elevating a tire of a vehicle from ground level to an elevated position includes a slanted portion having a slanted surface extending from a front end, the slanted surface configured to engage the tire and elevate the tire to the elevated position. The ramp includes a wheel supporting portion having a substantially flat surface extending from the slanted surface and a first chock molded therein proximate a back end, wherein the slanted surface and the substantially flat surface comprise a plurality of spaced apart rows of spaced apart columns wherein the spaced apart columns extend from apertures in the slanted surface and the substantially flat surface and terminate at a distal end that is proximately even with the front end.

The device includes a first portion which has a leading edge and a trailing edge, the trailing edge is disposed further from the driveway than the leading edge. The embodiment also includes a second portion which has a leading edge and a trailing edge, the leading edge of the second portion is removably attached to the trailing edge of the first portion and the leading edge of the second portion is disposed further from the driveway than the trailing edge of the second portion. The second portion also includes an extension portion. The first portion and second portion are separate from each other until they are removably attached by a connection apparatus. The device also includes at least one wheel chock with a corresponding wheel-chock track.

A wheel support is provided for use with a motorcycle stand. The wheel support includes a pair of side plates, each of which has a first side end and a second side end distal thereto. At least one of the side plates has a curved end about the first side end to secure onto a portion of the motorcycle stand. The wheel support includes a top plate secured between the pair of side plates and an adjustable height mechanism configured to adjust the height of the second end of the side plates and thus adjust the height of the top plate about the second end. The top plate when moved under the wheel of the motorcycle is movable to engage and lift the wheel of the motorcycle into and out of engagement with the motorcycle.

A method of providing a ramp system, said method comprising the steps of: providing a plurality of ramp members that are adapted to be coupled to a rigid portion of a trailer, wherein a first of the ramp members extends from the rigid portion of the trailer to a flat surface of an automotive vehicle that is attached to the trailer for pulling said trailer, wherein the second ramp member extends from the rigid member to a flat surface of the trailer, an incline exists from where the second member touches the flat surface of the trailer to where the first member touches the flat surface of the automotive vehicle; permitting the first ramp member to pivot from the flat surface of the automotive vehicle to a more vertical first orientation; and permitting the first ramp member to lock in the more vertical position.