A shelf supporting beam configuration for a shelving apparatus, includes a shelf platform, a plurality of shelf retaining members, and shelf supporting arrangement. Each shelf retaining member has two coupling ends for detachably coupling with two vertically extending posts of the shelving apparatus, and first and second longitudinal edges extended between the two coupling ends to form a boundary frame. The shelf supporting arrangement is integrally extended from each of the shelf retaining members between the first and second longitudinal edges to rigidly support the shelf platform within the boundary frame.

The present invention concerns a pallet station (1). The pallet station (1) comprises a storage surface in the form of a shelf (5). The shelf (5) is received on support beams (4) arranged between transversal beams (3). Support rails (6) are attached to the shelf (5) by means of hook elements (14, 16). The hook elements (14, 16) used for attaching the support rails (6) are beam hooks (14) and/or net hooks (16).

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 combination multi-level rack includes two side racks, at least an object holding member, and a fastener. Two sides of each of the side racks are provided with a longitudinal part, respectively, and a transverse part combined with the longitudinal parts. Four corners of the holding member are provided with a combining member, respectively. Each of the combining members has an engaging groove and a combining part disposed on a lateral side of the engaging groove, and the engaging groove engages the transverse part. The fastener removably engages the combining part with the longitudinal part. Therefore, the object holding member is stably combined to the two side racks.

A collapsible rack assembly includes a vertical support, a first elongated shelf having a first corner region and a rail extending therefrom, and a second elongated shelf including a second corner region having a notch apparatus. The vertical support is structured to extend between and support the first and second elongated shelves when the collapsible rack assembly is in an ASSEMBLED position. The notch apparatus is configured to receive the rail in order to allow the first elongated shelf to nest within the second elongated shelf when the collapsible rack assembly is in a COLLAPSED position.

An industrial rack apparatus includes upright support members, at least one pair of shelf beams that are supported by the upright support member, at least one shelf connected to one pair of the at least a pair of shelf beams; wherein one pair of the upright support members is positioned at one end of the rack apparatus, and the other pair of the upright support member is positioned at the opposite end of the rack apparatus; wherein each shelf beam of the at least one shelf beams is attached to two opposed upright members of the upright support members.

Storage and grow rack systems include splice joints for stacking and joining upright posts, structural support beams with integral drainage, and studs or rivets providing releasable attachment of cross members to upright posts.

A collapsible and extendable storage rack is provided. The rack includes a first end support, a second end support, a top shelf hingedly attached to the first end support and selectively connectable to the second end support, a bottom shelf hingedly attached to the second end support and selectively connectable to the first end support, and a middle shelf. The middle shelf includes a first portion and a second portion hingedly connected to the first portion. The first portion is hingedly connected to the first end support. The second portion is hingedly connected to the second end support. The rack is movable between a collapsed position and an extended position.

A shelving and product adjustment system can have a frame configured to contain ranks of similarly-shaped products. The system can include a gravity-based product movement feature. This can include a low friction surface positioned to interact with a surface of each product and allow each product to slide laterally and downwardly when not obstructed by an intervening product. A manual column width adjustment feature can be configured to shift rank division bars laterally, thereby adjusting rank width to accommodate different rank widths. A securement feature can secure the system to a shelf such that products can slide while the frame remains in place with respect to the shelf. Such systems can enhance use of lateral shelf space and provide flexibility, organization, and efficiency.

An inventory tracking system (10) for use in tracking articles (12) received in a cabinet (14) comprises at least one RFID read antenna assembly (100), an RFID tag interrogator (30), and an electrical connector arrangement (24). The cabinet comprises a receptacle (16), a holder (18) arranged in the receptacle and at least one metal substrate (20) received in the holder. The metal substrate is configured to receive at least one article carrying an RFID tag. The RFID read antenna assembly is mountable to the metal substrate, the antenna assembly comprising at least one antenna coil (102) and a high permeability layer (104). The RFID tag interrogator is configured to interrogate the RFID tag of the, or each, article received by the at least one metal substrate. The electrical connector arrangement has complementary components (26, 28) carried by the holder and the metal substrate for establishing, and breaking, an electrical connection between the interrogator and the at least read antenna assembly.