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.

A table created by a table structure with multiple openings extending from the top of the table structure to the bottom of the table structure. The table structure is deigned to be reversible and a solid top can be placed on the table structure. The table structure is supported by supporting structures connected to mounting attachments. The mounting attachments have one or more protrusions designed to provide secure attachment to the table structure by insertion into the openings in the table structure. Tiers can also be placed on the table structure. The table structure, the openings in the table structure, the mounting attachments, the supporting structures, the tiers, and the table and tier tops can be designed in limitless shapes and configurations.

The disclosure defined by this invention is of a shelving system where the top and bottom shelf positions are fixed relative to each other by a plurality of support columns, and one or more inner shelves are vertically positionable by hand. The support columns pass through guide channels in a shelf, or in brackets attached to the shelves, and are forced to bend slightly to do so. The channels are larger than the support columns. The bent support columns exert opposing lateral forces against a shelf at the guide channel walls and edges and the friction between the support columns and the guide channels enables a shelf to remain stuck in a position even when under load. Force can be applied by hand to overcome the stuck position and slide a shelf to a new vertical position. Inner shelves can be finely positioned thru a finite vertical range.

A bathing area accessory may be used within a bathing area. The bathing area accessory may be a bathing area shelving assembly, a bathing area bar assembly, a storage assembly, a bathing area seat assembly, or a shaving ledge assembly. The shelving assembly for use within a bathing area may include a niche and at least one shelf that is attachable to, removable from, and reattachable to the attachment portions of the niche. The niche may include attachment portions that receive and secure the at least one shelf. The niche may include two sidewalls that extend substantially vertically along a vertical length of the niche. The attachment portions may be on the two sidewalls and the at least one shelf may attach with a pair of the attachment portions that are vertically aligned with each other.

A tiered tray is provided that includes a first tier with a first support member coupled thereto; a second tier with a second support member coupled thereto; and a table insert having a cavity therein that accepts at least one of the first and the second support members. The first support member maintains a level of the first tier above a level of a table and the second support maintains a level of the second tier above the level of the first tier, and the first tier is removably attachable to the table insert and the second tier is removably attachable to the first tier.

A device, which is designed as a compartmented trolley or compartmented rack and which has compartments for accommodating sheet-type objects (glass panes), comprises a base rack (2), on which a plurality of frames (4) projecting upward are arranged. Each of the frames (4) contains rods (5), which are arranged parallel to one another and at a distance from one another in the frame (4). The rods (5) delimit compartments for accommodating the objects in the device (1). The frames (4) having rods (5) that delimit the compartments are pivotably supported on the base rack (2), wherein the pivoting axes (8) are arranged at the lower end of the frames (4) in the region of the base rack (2). The objects that are accommodated in compartments delimited by the rods (5) in the frames (4) rest with their bases, i.e. the lower horizontal edges, on sliding surfaces or rollers (7).

A device, which is designed as a compartmented trolley or compartmented rack and which has compartments for accommodating sheet-type objects (glass panes), comprises a base rack (2), on which a plurality of frames (4) projecting upward are arranged. Each of the frames (4) contains rods (5), which are arranged parallel to one another and at a distance from one another in the frame (4). The rods (5) delimit compartments for accommodating the objects in the device (1). The frames (4) having rods (5) that delimit the compartments are pivotably supported on the base rack (2), wherein the pivoting axes (8) are arranged at the lower end of the frames (4) in the region of the base rack (2). The objects that are accommodated in compartments delimited by the rods (5) in the frames (4) rest with their bases, i.e. the lower horizontal edges, on sliding surfaces or rollers (7).

A locker system includes a body, a driving unit, and a computer unit. The body includes a casing, a separating plate, horizontal plates, vertical plates and covering plates. The separating plate is disposed inside the casing to form an accommodating space and a storage space. The horizontal plates and the vertical plates are disposed inside the accommodating space and cooperate with the casing to form accommodating subspaces. Each covering plate is pivoted to the casing. The driving unit connects to the horizontal plates and the vertical plates. The computer unit obtains the size of an object. When the size of the object exceeds a preset size, the computer unit sends a driving signal to the driving unit, and the driving unit controls at least one horizontal plate or at least one vertical plate to move into the storage space according to the driving signal to accommodate the object.

A locker system includes a body, a driving unit, and a computer unit. The body includes a casing, a separating plate, horizontal plates, vertical plates and covering plates. The separating plate is disposed inside the casing to form an accommodating space and a storage space. The horizontal plates and the vertical plates are disposed inside the accommodating space and cooperate with the casing to form accommodating subspaces. Each covering plate is pivoted to the casing. The driving unit connects to the horizontal plates and the vertical plates. The computer unit obtains the size of an object. When the size of the object exceeds a preset size, the computer unit sends a driving signal to the driving unit, and the driving unit controls at least one horizontal plate or at least one vertical plate to move into the storage space according to the driving signal to accommodate the object.

A hanging, stackable and nestable bin for storing parts and components used in assembly includes a pair of footers and a pair of footer depressions having a complimentary shape to one another. The hanging, stackable and nestable bin also includes a notch with a projection formed in the floor of the bin that extends transversely along the rear wall of the bin and a complimentary shaped upper rear wall rim. The footer, footer depressions, notch and upper rear wall rim provide three point stacking support when one bin is stacked onto another bin. In addition, the hanging, stackable and nestable bin includes sidewalls that are generally planar at the rear portion of the bin which aid in facilitating nesting of one bin into another bin. A cleat formed in the top rear wall of the bin provides rear hanging support for the bin.