An adapter element and a transport platform, such as a dolly (1), including at least one such adapter element (5), said at least one adapter element (5) being connected or connectable to the dolly (1) and having a rim portion (6) protruding from a deck (2) of the dolly (1) for restraining loads placed on top of the deck (2) at least in a lateral direction, wherein the at least one adapter element (5) is provided with one or more legs (8, 12; 8, 12, 17,.18) each comprising an engagement portion (9, 13; 9;13, 19, 20), preferably tabs or protrusions, for being received and snap-fitted into a corresponding opening (10, 15) provided in the deck (2). An outer leg (12) of the one or more legs (8, 12; 8, 12, 17, 18) is formed as a tab or tongue having a through hole (13) which serves as an engagement portion of the outer leg (12).

An object carrying assembly and a transfer robot. The object carrying assembly (100) comprises: an object carrying component, which comprises two opposite boundary portions; and clamping and bearing members (120), wherein the clamping and bearing members (120) are arranged at the two boundary portions and are rotationally connected to the object carrying component, and the clamping and bearing members (120) are provided with bearing members (121) and clamping claws (122) on two sides of a rotating shaft (130), respectively. When the object carrying component is empty, the bearing members (121) are at least partially higher than a bearing surface of the object carrying component, and when the object carrying component is loaded, the bearing members (121) are not higher than the bearing surface, and the clamping claws (122) are higher than the bearing surface. The object carrying assembly and the transfer robot can prevent cargo from falling off of same due to factors such as uneven ground or an excessively high carrying speed, such that the carrying efficiency can be improved.

A lift van crate formed as a rectilinear shaped compartment formed by a base; a first long wall having tabbed edges and a second long wall having tabbed edges, mounted to said base; a first short wall having tabbed edges and a second short wall having tabbed edges, mounted to said base, said first short wall and said second short wall having short wall receivers configured to receive at least one long wall interior tab of each of said respective adjacent first long wall and second long wall; a lid having an interior face and an exterior face, at least one lid receiver formed in said lid interior face, said lid configured to mount to each of said first long wall, second long wall, first short wall and said second short wall respectively by insertion of said tabbed edges into said at least one lid receiver.

A cart and rack assembly for transporting a planar material includes a rack and a cart. The rack includes a frame coupled to a base. The frame has an upper portion and a lower portion. The upper portion has a first width, and the lower portion has a second width. The cart is configured to reversibly receive the base. The cart includes a guide member configured to guide either of the base or the cart into a predetermined position when the base is received by the cart. The assembly further includes a bracket having a first end and a second end which is configured to selectively secure the planar material to the assembly. The base has a series of apertures configured to accept the first end of the bracket. The second end of the bracket is configured to be selectively coupled with the upper portion of the frame.

Disclosed herein is a movable platform (MP) for moving freight during cross-dock operations. The MP comprises a mechanical actuation assembly used to deploy a plurality of roller assemblies used for moving the MP. Also disclosed is an actuating attachment used to deploy the mechanical actuation assembly of the MP. The actuating attachment can be attached to a conveyance vehicle, such as a forklift, or built in to an automated guided vehicle.

An electronic pallet (e-pallet) includes a superstructure mounted to a wheeled base platform. A tether device defines an articulation angle with respect to a leading edge of the superstructure, and is grasped by an operator towing the e-pallet. A motor connected to driven road wheels transmits a drive torque to the road wheels responsive to motor control signals, including a desired yaw rate and ground speed. A speed sensor, angle sensor, and length sensor are respectively configured to determine an actual ground speed of the e-pallet, the articulation angle, and a length of the tether device. An electronic controller, in response to the input signals, generates the motor control signals using proportional-integral-derivative (PID) control logic. Coupled lateral and longitudinal dynamics control loops respectively determine the desired yaw rate and ground speed to accommodate for motion of the operator.

A method of manufacturing a window may include cutting a window having a uniform thickness of about 20 μm to about 100 μm and polishing a cut surface of the window with a polishing pad having an elastic modulus less than an elastic modulus of the window while applying slurry to the cut surface of the window.

A platform including a top deck is configured to receive a pallet when stacked thereon. The top deck includes at least one integrally formed recessed support configured to receive a pallet support of the pallet. The at least one recessed support includes a perimeter recessed in the top deck and which defines a cavity configured to receive the pallet support.

A rack system movable by a forklift having blades that can be selectively raised and lowered. The rack system includes a rack and a hitch device for connecting the forklift to the rack. The rack includes a structure configured for supporting and transporting materials, at least one wheel located at a first end of the structure, and a hitch bracket located at a second end of the structure. The hitch device includes a body configured to be carried by the blades of the forklift, and an arm pivotably secured to the body, and an engagement member at the second end of the arm. Upward movement of the blades raises the engagement member into engagement with the hitch bracket so that further upward movement of the blades raises the second end of the rack and horizontal movement of the forklift rolls the rack on the at least one wheel.

A novel pallet construction and pallet moving system includes a rigid pallet including a linear conduit passing through the pallet between opposing sides of the pallet and open at the ends of the conduit. The conduit includes a removable lining to prevent destruction of the pallet and conduit during use. In alternative configurations, two offset conduits may be provided to accommodate other hardware and use constraints.