The present invention relates to a system (1, 2, 3) for accommodating objects, comprising a guide assembly (1), which can be arranged in a stationary manner, a first motion assembly (2), which is connected to the guide assembly (1) and which can be moved horizontally in the direction of a longitudinal axis (X) in relation to the guide assembly (1), and a second motion assembly (3), which is connected to the first motion assembly (2) and which can be moved vertically in the direction of a vertical axis (Z) in relation to the first motion assembly (2) and can accommodate objects, wherein the first motion assembly (2) can be moved out in the direction of the longitudinal axis (X) so far over the guide assembly (1) that the second motion assembly (3) can be moved in relation to the first motion assembly (2) past the guide assembly (1) in the direction of the vertical axis (Z).

A pivoting system has an electronic device pivotably mounted on a cargo platform. A base is coupled to a cargo support. A linkage rod slidably engages with the cargo platform. A proximal pivot pivotably couples the proximal end of the linkage rod arm to the base. A device pivot pivotably couples the electronic device to the cargo platform. A distal pivot pivotably couples the distal end of the linkage rod to the electronic device. The pivoting system causes pivoting of the electronic device between a lower general horizontal position and an upper general horizontal position.

According to one embodiment, a transport device includes a main part, a wheel, and a reader. The main part supports or pulls an object. The wheel is mounted to the main part, and rolls over a traveling surface. The reader is fixed with respect to the main part, and reads an identifier in a direction tilted with respect to a first direction and a second direction. The first direction is along the traveling surface, and the second direction is perpendicular to the traveling surface. The identifier is mounted to a surface, which crosses the first direction, of the object. A position of an area of the surface read by the reader changes along the second direction as the transport device moves in the first direction.

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.

The present invention relates to a system (1, 2, 3) for accommodating objects, comprising a guide assembly (1), which can be arranged in a stationary manner, a first motion assembly (2), which is connected to the guide assembly (1) and which can be moved horizontally in the direction of a longitudinal axis (X) in relation to the guide assembly (1), and a second motion assembly (3), which is connected to the first motion assembly (2) and which can be moved vertically in the direction of a vertical axis (Z) in relation to the first motion assembly (2) and can accommodate objects, wherein the first motion assembly (2) can be moved out in the direction of the longitudinal axis (X) so far over the guide assembly (1) that the second motion assembly (3) can be moved in relation to the first motion assembly (2) past the guide assembly (1) in the direction of the vertical axis (Z).

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 truck gate for elevating objects to be manually urged from the truck gate onto a bed portion of a truck includes a pivoting base portion attached to truck gate lifting means (not depicted) for elevating the base portion from ground level to an elevated position that disposes the base portion into horizontal alignment with a bed of a truck. The truck gate further includes a plurality of gate fingers secured to the pivoting base portion such that a maximum number of objects can be disposed upon the gate fingers at ground level then elevated to a substantially horizontal position adjacent to and aligned with the bed of the truck.

A dynamic lighting solution for a wheelchair lift is provided. The dynamic lighting solution may include a sensor to ascertain a position of a wheelchair lift platform. The sensor may be electrically coupled to a controller. The controller may be electrically coupled to a light source and configured to adjust a brightness or other lighting parameter of the light source based on the assessment of the position of the lift. The dynamic lighting solution may be configured to dim the light source when the lift platform is above the floor level of the vehicle. This solution prevents direct light from shining in the eye of an operator actuating the wheelchair lift.