A storage rack assembly includes a base steel structure which is interchangeably connected to the storage rack above. The base steel structure assembly is compromised of structural material with bolted connections which allow for the replacement or changing of damaged material due to accidental forklift contact all while the above storage system stays in place.

The invention concerns a load carrier for a rack for disposition at one or more rack uprights and for receiving loads with a load bearing contact surface for the purpose of storing loads and an upright contact surface section for disposition of the load carrier at the upright or uprights, wherein the load bearing surface section extends along the length and width of the load carrier and the upright contact surface section runs along the length and height of the load carrier, wherein the load bearing surface section and the upright contact surface section are disposed transversely to each other to form a support bracket, wherein for the purpose of reinforcing the load carrier, the load bearing surface section and/or the upright contact surface section are part of a hollow profile and/or have one or more corrugations. The invention also concerns a rack with corresponding load carriers and a method for making the same.

A shelf support beam (80, 130, 200) for use in a shelving unit (10) to support a shelf (22). A structural member (82, 132, 202) has a C-shaped cross-section. A web (94, 144, 216) separates a top flange (96, 146, 220) from a bottom flange (112, 162, 234). The top flange (96, 146, 220) is configured to support the shelf (22). The web (94, 144, 216), the top flange (96, 146, 220), and the bottom flange (112, 162, 234) define a channel (92, 142, 214) of the member (82, 132, 202). The channel (92, 142, 214) defines a cavity height (C1, D1, E1). The top flange (96, 146, 220) and the bottom flange (112, 162, 234) define a top flange width (C2, D2, E2) and a bottom flange width (C3, D3, E3), respectively. A ratio of the cavity height (C1, D1, E1) to a sum of the top flange width (C2, D2, E2) and the bottom flange width (C3, D3, E3) is greater than 1, is at least 1.20, or is about 1.40. The C-shaped cross-section has a moment of inertia (98, 148, 238) of greater than 0.40, greater than 0.45, or at least 0.46. The top flange (96, 146, 220) includes an elevated portion (100, 150, 222) and a lower or shelf support portion (104, 154, 226) separated by a sidewall (106, 156, 230).

A cantilever shelving system is disclosed and can include a frame structure, a cantilever shelf support structure, and a plurality of load-bearing shelves that can be supported by the cantilever shelf support structure and the frame structure. The shelves can be positioned laterally adjacent to cantilever support arms of the cantilever shelf support structure, and the shelf support surfaces can be coplanar with upper walls of the cantilever support arms. Ends of laterally adjacent shelves do not overlap with a front side of a vertical support member to which the cantilever support arm is mounted. The cantilever shelving system can accommodate various user requirements and can be operably integrated with standard commercial and/or industrial equipment or machinery.

A storage rack assembly includes a base steel structure which is interchangeably connected to the storage rack above. The base steel structure assembly is compromised of structural material with bolted connections which allow for the replacement or changing of damaged material due to accidental forklift contact all while the above storage system stays in place.

The present invention discloses a shelf comprising a plurality of cross beams, a plurality of support portions and at least one rest portion. Each of the cross beams is connected to a corresponding support portion by a connector, and a side face of each of the cross beams has a rest face for placement of a corresponding rest portion. At least two opposite ends of the rest portion are arranged on the rest faces, in the same plane, of at least two corresponding cross beams. The plurality of cross beams and the plurality of support portions are profiles formed by die extrusion-stretching. Compared with a traditional shelf, the shelf according to the present invention has the advantages of light weight, having less tendency to rust and corrode, being easy to disassemble and assemble, being free of stress concentration problem, and the like.

The present invention discloses a shelf comprising a plurality of cross beams, a plurality of support portions and at least one rest portion. Each of the cross beams is connected to a corresponding support portion by a connector, and a side face of each of the cross beams has a rest face for placement of a corresponding rest portion. At least two opposite ends of the rest portion are arranged on the rest faces, in the same plane, of at least two corresponding cross beams. The plurality of cross beams and the plurality of support portions are profiles formed by die extrusion-stretching. Compared with a traditional shelf, the shelf according to the present invention has the advantages of light weight, having less tendency to rust and corrode, being easy to disassemble and assemble, being free of stress concentration problem, and the like.

An apparatus is disclosed that provides a storage system designed to allow pickers to easily and efficiently pull products from all portions of the storage system from a single side of the storage system. The storage system includes a first storage rack that has a first plurality of columns and a first platform extending from one of the first plurality of columns. An outer edge of the first platform forms an end of the first storage rack. Positioned adjacent to the first storage rack is a second storage rack with a second plurality of columns and a second platform that extends from one of the second plurality of columns, where an outer edge of the second platform forms an end of the second storage rack. An aisle is formed by a predetermined distance between the outer edges of the first and second platforms.

A mobile wall comprising an alignment pin moveably supported on a crossbar adjacent a vertical support. The alignment pin is selectively moveable between a retracted position, in which the alignment pin is retracted into a first aperture, and an extended position, in which at least a portion of the alignment pin extends outwardly from the first aperture. The alignment pin is selectively receivable in an aperture of another mobile wall while in the extended position to align the mobile wall with the another mobile wall.

A diamond-shaped folding rack includes a left side frame, a right side frame, a folding layer plate, a linkage vertical rod, and a locking mechanism. The folding layer plate is axially connected to the left and right side frames. The linkage vertical rod is provided at a folding junction of the folding layer plate. The linkage vertical rod moves up to allow the folding layer plate to fold upward; the linkage vertical rod moves down to allow the folding layer plate to unfold downward and horizontally.