An exemplary support structure for a refrigerator (12) includes a pedestal (10). The pedestal is comprised of a housing (18) comprised of a plurality of panels (20, 22, 24, 26, 28) which are held together in fixed relation through interengaging projections and recesses. A drawer (32) is comprised of a plurality of drawer panels (34, 36, 38, 40, 44) which are held together through interengaging projections and recesses. The panels which make up the pedestal are configured along with other components to be packed and shipped in a single box (30).

A shelf rack includes first and second identical shelf units each including a first frame with first and second legs having respective first and second feet, a second frame with third and fourth legs having respective third and fourth feet and at least one shelf. The second and fourth feet have an outer diameter that is less than an outer diameter of the first and third feet. The second shelf unit is inverted and the first and second frames of the first shelf unit toollessly assemble to the first and second frames, respectively, of the second shelf unit by mating the larger outer diameter feet of the first shelf unit with the smaller outer diameter feet of the second shelf unit and mating the larger outer diameter feet of the second shelf unit with the smaller outer diameter feet of the first shelf unit.

A portable structure has a main body and a plurality of telescopic beams. The main body includes a plurality of stacking modules. The plurality of stacking modules are configured to move between a collapsed position and an uncollapsed position. Each of the plurality of stacking modules has an inner surface and an outer surface. The plurality of stacking modules include a bottom stacking module and a top stacking module. The bottom stacking module is selectively and slidably disposed within the top stacking module. The top stacking module has a plurality of holes formed therethrough. The bottom stacking module is nested within the top stacking module, where the plurality of stacking modules are in the collapsed position. The bottom stacking module is unnested from the top stacking module, where the plurality of stacking modules are in the uncollapsed position.

A folding shelf may include a first shelving unit having first side frames, one or more shelving boards, a first retractable control unit; and a second shelving unit having second side frames, one or more second shelving boards, a second retractable control unit. The first/second retractable control unit may include a first/second main body; a first/second pole partially received in the first main body; and a first/second locking member. When the folding shelf is folded, the user can first twist a first/second locking element to untightened first/second main body and first/second pole. The user can then lift the side frames in the center portion as to collapse the shelf. More specifically, the sliding movement of the first pole and the second pole can bring two side frames toward the center portion of the folding shelf to significantly minimize the size thereof.

A display unit including a plurality of shelves and at least one collapsible support element, wherein the display unit is configured to be moveable between a compact state in which the at least one support element is in a collapsed position, and at least one assembled state in which the plurality of shelves are assembled whereby each assembled shelf is separated by, and supported by the at least one support element in an extended position.

The invention provides a modular storage system (1), comprising a plurality of box-shaped structural units(2,3,4,5,6,7,8,9,10,11,12,13,14), one or more of which are storage units used for storage, and each structural unit having front and back faces and left, right, top and bottom sides, wherein: the box-shaped structural units (2,3,4,5,6,7,8,9,10,11,12,13,14) are laterally attachable to each other side-by-side through attachment points (30,31,32,33,74,79,97,99) on the left and right sides, thereby to construct a joined structure of at least two of the structural units; and one or more of the box-shaped structural units are reversible structural units, in which the corresponding attachment points are positioned and shaped so that the reversible structural unit is attachable in the lateral side-by-side attachment so that the corresponding front faces of adjacent joined structural units are oriented either in one direction or in opposite directions.

An angle bar includes two longitudinal angled plate portions, and a corner portion connecting therebetween. The corner portion has an inner corner surface bounding an inner corner space and an outer corner surface. A stopper protrudes into the indented corner space, and has an abutment face extending across the indented corner space. A limiter protrudes into the indented corner space from the inner corner surface, and has a through hole opening in a direction along a bending line of the corner portion. A modular post assembly has at least two angle bars abutting each other, and a fixing rod extending through the through holes of the bars along the bending line and limited between the stoppers for fixing together the bars.

A table may be sized and configured to nest with an adjacent table to reduce a height of a plurality of stacked tables in a nested configuration. The tabletop may include an upper surface, a sidewall and a receiving portion at least partially disposed in the upper surface and the sidewall. The receiving portion may be sized and configured to receive an engaging portion of an adjacent table when the tables are disposed in a nested configuration. The tabletop may also include a plurality of strengthen members disposed in the lower portion of the tabletop that are sized and configured to support the receiving portion. For example, the strengthening members may include an inner surface sized and configured to support an inner surface of the receiving portion.

A table may be sized and configured to nest with an adjacent table to reduce a height of a plurality of stacked tables in a nested configuration. The tabletop may include an upper surface, a sidewall and a receiving portion at least partially disposed in the upper surface and the sidewall. The receiving portion may be sized and configured to receive an engaging portion of an adjacent table when the tables are disposed in a nested configuration. The tabletop may also include a plurality of strengthen members disposed in the lower portion of the tabletop that are sized and configured to support the receiving portion. For example, the strengthening members may include an inner surface sized and configured to support an inner surface of the receiving portion.

A modular shelving system is configured to store objects therein while having a customizable overall dimension. The system includes multiple modular shelf assemblies, each having a storage void, and a set of connectors. A first modular shelf assembly is configured to be secured, via a set of connectors, to a second modular shelf assembly and to a third modular shelf assembly. An additional storage void is formed between the first storage void, the second storage void, and the third storage void. The fourth storage void is configured to store objects therein. The location in which the first modular shelf assembly is configured to be connect to other modular shelf assemblies is selected by a user to meet the customizable overall dimension.