A rack structure includes a bottom, a coupling member, and a side frame. The bottom has rod-shaped support members extending out from the circumference of the bottom. The coupling member has through holes for insertion of the support members. A distal end of each support member is provided with a stop block having an outer diameter greater than the through holes. The side frame has an accommodation room therein. One side of the side frame has an opening. The side frame has a pair of hook portions located at two sides of the opening and extending toward the accommodation room. The coupling member connected with the distal end of each support member is inserted through the opening into the accommodation room of the side frame. The hook portions of the side frame enable the coupling member to lean against the stop block of each support member tightly.

The present disclosure relates to a storage device made of expanded metal mesh material. The storage device comprises a basket (3, 5, 7, 9) with an attached fastening device (11). The fastening device has a portion with U-shaped cross section (21) provided with hooks (13) in the interior thereof, such that the fastening device can be fitted on a vertical carrier provided with slots, the hooks (13) entering said slots, and the fastening device is at least partly inserted in the outer envelope of the basket and has a portion (25) extending under the bottom panel of the basket.

A cut resistant and highly translucent tote utilizes a multilayer knitted metal fabric having a knitted metal outside layer and a knitted metal inside layer. These two knitted layers may be independent in a portion of the tote, such as in a clear-view portion of the tote, configured to allow clear visibility of items retained in the tote. The independent layers of knitted fabric are highly cut resistant, as they can flex in multiple direction and also move and slide with respect to each other. The tote may have a gusseted base with a base-side sleeve extending at the intersection of the base and sides to allow the tote to be free standing. An opening in the top of the tote may have a closure feature, such as hook-and-loop fastener material.

A wire chafing stand of embodiments of the disclosed technology has an upper enclosed rim, a lower enclosed rim, and a detachable sign. The detachable sign has an elongated planar structure with front and rear sides. The front side has visible indicia. The rear side has an attachment mechanism sized to be removably attachable to the lower enclosed rim. This detachable sign is at an acute angle to a plane which is circumscribed by the lower enclosed rim in some embodiments of the technology. The sign has a bottom and top side between the front side and rear side. In some embodiments of the technology, this bottom side is adapted to rest against a same surface as the wire chafing stand rests, allowing the sign to be held/to rest at an acute angle while simultaneously being attached to and/or resting on the lower enclosed rim.

The present disclosure relates to a panel for dividing the interior space of a container. The panel arrangement (1) has a panel (11) provided with an attachment device (17) adapted to affix the panel in relation the container. There is provided at least one opening in the panel, and the attachment device comprises first and second parts (29, 31) located at a respective side of the panel as well as at least one member (39, 41) reaching through the at least one opening (23). A play (49) is provided between the edges of the opening and said at least one member, such that the attachment device can be moved in at least one direction in which the plane of the panel extends.

The present invention is directed to a method of forming a container comprising forming a basket portion of metal mesh material and a rail connected to the basket portion. The rail extends substantially outwardly from the outer surface of the basket portion and the rail extends continuously around the outer surface of the basket portion. In one example, the method includes forming the rail so that it does not contain or surround a free edge of the basket portion. In another example, the method includes forming the rail so that it includes an opening for containing or surrounding a free edge of the basket portion. The method may also include forming a lower rail. The present invention is also directed to a container formed by such method.

A dispensing basket includes a pair of opposed side walls and a back wall that extends between the opposed side walls. A pair of front walls extend from the side walls in a direction towards each other and angled away from the back wall. The pair of front walls form a funnel with an opening between the pair of front walls. A floor extends between lower ends of the side walls, the back wall, and the front walls.

A wire chafing stand of embodiments of the disclosed technology has an upper enclosed rim, a lower enclosed rim, and a detachable sign. The detachable sign has an elongated planar structure with front and rear sides. The front side has visible indicia. The rear side has an attachment mechanism sized to be removably attachable to the lower enclosed rim. This detachable sign is at an acute angle to a plane which is circumscribed by the lower enclosed rim in some embodiments of the technology. The sign has a bottom and top side between the front side and rear side. In some embodiments of the technology, this bottom side is adapted to rest against a same surface as the wire chafing stand rests, allowing the sign to be held/to rest at an acute angle while simultaneously being attached to and/or resting on the lower enclosed rim.

A cut resistant and highly translucent tote utilizes a multilayer knitted metal fabric having a knitted metal outside layer and a knitted metal inside layer. These two knitted layers may be independent in a portion of the tote, such as in a clear-view portion of the tote, configured to allow clear visibility of items retained in the tote. The independent layers of knitted fabric are highly cut resistant, as they can flex in multiple direction and also move and slide with respect to each other. The tote may have a gusseted base with a base-side sleeve extending at the intersection of the base and sides to allow the tote to be free standing. An opening in the top of the tote may have a closure feature, such as hook-and-loop fastener material.

The present invention concerns a foldable modular packaging (1), characterised in that it comprises: at least four panels (10) that can be moved between a folded position, in which the panels (10) are stacked on each other, and an unfolded position, in which the panels (10) form a parallelepiped frame (11) defining an internal volume (12); a flexible inner container (20) suitable for being arranged in said internal volume (12); and an assembly system (30) comprising linking elements (31) forming a pivot link between each panel (10) and at least one adjacent panel (10).