Systems, devices, and methods for a sliding bar disposed between a platform section and a flipover of a lift platform; a rotatable portion connected to the platform section, wherein the sliding bar is fixedly connected to the rotatable portion; a receiver portion connected to the flipover; a sliding bar mount pivotally connected to the receiver portion; and a bushing disposed in the sliding bar mount where the bushing slidably receives a portion of the sliding bar; where the bushing reduces a pull force for moving the flipover between at least one of: an open position and a vertical position and a closed position and a vertical position.

Systems, devices, and methods for an inductive coupling platform system comprising: an inductive coupling lift gate platform comprising: a first segment; a second segment; at least one primary inductive coupling component disposed in at least a portion of the first segment; and at least one receiver inductive coupling component disposed in at least a portion of the second segment; where inductive contact is provided between the at least one primary inductive coupling component and the at least one receiver inductive coupling component in an unfolded position; and where power or data is transmitted via the inductive contact between the at least one primary inductive coupling component and the at least one receiver inductive coupling component in the unfolded position.

A liftgate in accordance with the present disclosure includes a lift mechanism and a moveable load platform. The load platform includes a proximal deck section, a distal deck section, and a center deck section positioned between the proximal deck section and the distal deck section. The load platform is selectively vertically movable between a lowered position and a raised position. The proximal deck section, center deck section, and distal deck section are pivotally coupled to one another such that the load platform is selectively moveable between an extended-operational position, wherein all of the deck sections are located substantially coplanar with one another for supporting cargo, and a retracted-stored position wherein the deck sections are folded with respect to one another and are located substantially parallel and adjacent to one another.

A liftgate in accordance with the present disclosure includes a lift mechanism and a moveable load platform. The load platform includes a proximal deck section, a distal deck section, and a center deck section positioned between the proximal deck section and the distal deck section. The load platform is selectively vertically movable between a lowered position and a raised position. The proximal deck section, center deck section, and distal deck section are pivotally coupled to one another such that the load platform is selectively moveable between an extended-operational position, wherein all of the deck sections are located substantially coplanar with one another for supporting cargo, and a retracted-stored position wherein the deck sections are folded with respect to one another and are located substantially parallel and adjacent to one another.

A liftgate in accordance with the present disclosure includes a lift mechanism and a moveable load platform. The load platform includes a proximal deck section, a distal deck section, and a center deck section positioned between the proximal deck section and the distal deck section. The load platform is selectively vertically movable between a lowered position and a raised position. The proximal deck section, center deck section, and distal deck section are pivotally coupled to one another such that the load platform is selectively moveable between an extended-operational position, wherein all of the deck sections are located substantially coplanar with one another for supporting cargo, and a retracted-stored position wherein the deck sections are folded with respect to one another and are located substantially parallel and adjacent to one another.

A sideloader liftgate system automatically extends a stabilizer leg when a liftgate is deployed, and automatically retracts the stabilizer leg when the liftgate is stored. Adjustment of the liftgate and stabilizer leg is carried out in response to a single user command. The invention prevents a user from forgetting to extend the stabilizer leg for safely using the liftgate, and also prevents a user from forgetting to retract the stabilizer leg before towing the trailer.

A loading/unloading device for delivering an item(s) to be delivered. The loading/unloading device includes an outer nested track; an inner nested track nested within the outer nested track; a curved generally U-shaped guide track nested within the inner nested track; and a movable trolley accommodated and movable along the curved generally U-shaped guide track. A drive motor being is supported by a first end of the curved generally U-shaped guide track for conveying the movable trolley back and forth along the curved generally U-shaped guide track for loading and unloading the item(s) to be delivered. A delivery vehicle, including at least one loading/unloading device for delivering the item(s) to be delivered, is also disclosed.

A transport system is a transport system that transports a luggage using a transport vehicle and a transport robot. In a state in which the transport robot and the transport vehicle are connected, the transport robot takes out the luggage from the transport vehicle, or stores the luggage in the transport vehicle.

A loading/unloading device for delivering an item(s) to be delivered. The loading/unloading device includes an outer nested track; an inner nested track nested within the outer nested track; a curved generally U-shaped guide track nested within the inner nested track; and a movable trolley accommodated and movable along the curved generally U-shaped guide track. A drive motor being is supported by a first end of the curved generally U-shaped guide track for conveying the movable trolley back and forth along the curved generally U-shaped guide track for loading and unloading the item(s) to be delivered. A delivery vehicle, including at least one loading/unloading device for delivering the item(s) to be delivered, is also disclosed.

Systems, devices, and methods having a liftgate frame; a first bracket mount connected to a beam via one or more upper actuators and two or more upper linkages, the two or more upper linkages pivotally mounted between the first bracket mount and the liftgate frame, and where the first bracket mount is configured to move from a first stowed position under the liftgate frame to a second engage position via the one or more upper actuators and the two or more upper linkages; a second bracket mount connected to the beam; a third bracket mount connected to second bracket mount via one or more lower actuators and two or more lower linkages, the two or more lower linkages pivotally mounted between the second bracket mount and the third bracket mount; and a lift platform connected to the third bracket mount, where the lift platform is configured to move from an up position to a down position positioned selectively relative to an external surface; where the first bracket mount moves in an arcuate path from the first stowed position under the liftgate frame to the second engaged position.