A sheet for the assembly of a display shelving unit and the display shelving unit thus obtained, which, thanks to its structural simplicity can be assembled and disassembled for recycling in a practical, fast and easy way, since it is made of recycled materials which require fewer manufacturing processes, and which, because of its small volume, allows for the transportation of a larger number of units in the same shipment, thus significantly reducing the related costs.

A locker unit comprising: a cabinet body; at least one internal mounting bracket (40) provided at each lateral side of the cabinet body; at least one horizontal panel (30) mountable to each mounting bracket (40) at a vertical height so as to define two or more vertically stacked lockers, each panel (30) comprising a side flange (32) provided at each lateral edge of the panel; and a door associated with each locker, wherein each side flange has one or more apertures which are alignable with an aperture provided at the mounting bracket for receiving a retaining member (42), and wherein each panel includes an obstructing member (50) located near to each aperture of the side flange.

Provided is an angle bar for shelf assembly, the angle bar including a vertical frame in which a plurality of fastening grooves is formed and a horizontal frame on which a fastening protrusion is formed, wherein the plurality of fastening grooves, each including upper and lower grooves, are formed, the lower groove has a narrower width than the upper groove, and is connected to the upper groove with an inclination portion in between, wherein the fastening protrusion includes a convex portion having an inclination surface and first and second wing portions that are formed on lateral surfaces, respectively, of the convex portion, and wherein a distance between respective end portions of the first and second wing portions is smaller than a width of the upper groove and is larger than a width of the lower groove, and the convex portion has a wider width than the lower groove.

The bearing structure for shelving comprises: —a vertical upright comprising a first metal section provided with at least a first longitudinal side and with at least a second longitudinal side, the first longitudinal side and the second longitudinal side being flat, continuous and transverse to each other; —a longitudinal cross-piece; —an angular bracket to be interposed between the vertical upright and the longitudinal cross-piece and comprising a first longitudinal face and a second longitudinal face, the first longitudinal face and the second longitudinal face being flat, contiguous and transverse to each other; wherein it comprises first connecting means arranged on the first longitudinal side and the first longitudinal face, and second connecting means, arranged on the second longitudinal side and the second longitudinal face, the first connecting means and the second connecting means coupling the angular bracket to the vertical upright.

A system of racks comprising of at least two racks that can be nested together when they are not in use thereby minimizing the space required for their collective storage. Each rack is comprised of a frame having two or more frame elements linked together by at least one Z-shaped bracket. Each frame element is comprised of two vertical support members linked by a plurality of tray holders at spaced apart distances along the interior side(s) of the vertical support members. The plurality of tray holders on each of the frame elements linked by a Z-shaped bracket are substantially aligned in the vertical direction thereby forming a set of pairs of tray holders. Each pair of tray holders is configured to receive and support the placement of trays. The trays comprise of a flat base portion with upstanding side edges which may be welded to a wire element to reduce crevices where debris and contaminants may otherwise be trapped and to assist with cleaning of the trays. When the racks are not in use, the trays are removed allowing the racks to nest together along their Z-shaped bracket.

A drying rack having a stainless steel rectangular tubed frame with two vertical frame members and at least three horizontal frame members. The horizontal frame members have a plurality of rails extending from the horizontal members. The each rail of the plurality of rails is each equally spaced and extends from opposites sides of each horizontal member. The rails are configured to hold cannabis plant matter after harvest. The rails may be angled slightly for helping to retain the cannabis plant matter on the rails during use. The drying rack is on casters for mobility and rotation.

A hang harvesting system for deployment in a cargo container includes an anchor bar, a column bar, and a hanging bar. The anchor bar includes a first end portion and second end portion configured to engage sidewalls of the cargo container. The column bar includes a top end portion and a bottom end portion, wherein the top end portion is configured to couple to the anchor bar. The hanging bar is coupled to the column bar.

A rack storage system includes storage racks forming unit load storage locations arranged next to one another on storage planes on top of one another. The racks include either exclusively outer storage racks or outer and inner storage racks and are installed stationarily on a bottom plate. One or multiple rack aisles are between the racks in an x-direction. Automated storage and retrieval units transport unit loads and building walls are mounted on the outer racks via a support structure and form wall elements. The support structure includes profiled support elements affixed, by spacers, to the outer rack. The wall elements are mounted on the support elements, each being affixed, by respectively one spacer, to the outer rack in separate mounting regions (37) provided separate from one another. An adjuster per spacer adjusts a horizontal distance between a profiled support element and the outer rack. One fixer per spacer fixes the adjusted distance.

Warehouse support structures capable of supporting heavy loads are supported by support members coupled to horizontal support beams, attached to vertical columns. The structure can comprise wire a mesh platform. The front end can be bent down, to nest against a horizontal support beam. The rear end can be bent up, over the horizontal to act as a pallet safety stop. It can also extend rearwards from the horizontal beam to provide additional support surface area. The construction presents a smooth, easy to assemble, snag free construction.

The present application discloses a hook assembly, which is used to be connected to a densely gridded rack. The hook assembly of the present application comprises a main body and a top connecting portion, wherein the main body and the top connecting portion are fixedly connected, and the top connecting portion is configured to be detachably connected to the rack. The width of the top connecting portion is greater than the spacing between adjacent longitudinal metal wires. The top connecting portion is provided with a receiving groove, the receiving groove is provided along the length direction of the top connecting portion, and the receiving groove is configured to receive a longitudinal metal wire. The shelving assembly provided in the present application can be reliably connected to the densely gridded rack without reducing the width of a top plate, so as to avoid the interference of the longitudinal metal wires. Most of the sizes of the shelving assembly remain unchanged, so as to solve the technical problems existing in the prior art with minimal modification and cost. It is also possible to increase the width of the top connecting portion to further improve the load-bearing capacity of the shelving assembly.