A rolled sheet dispensing cabinet for storing and dispensing rolled sheets includes a housing having a top, a bottom, a front, a back, and opposing sides defining an internal space. Each of a plurality of rods is coupled to and extends between the opposing sides. Each of a plurality of slots is positioned in the front and extends from proximate to each opposing side. The slots are parallel to the top and the bottom. Each slot is positioned proximate to a respective rod. The rods are positioned in the internal space and are configured for insertion into tubular cores of rolled sheets. The slots are positioned in the front and are configured for insertion of leading edges of the rolled sheets. The leading edges protrude from the front of the housing and are configured for grasping by a hand of a user to extract a portion of the rolled sheet.

A wheel cradle (100) for bicycles that can be quickly and easily adjusted to accommodate bicycle tires of varying width. The wheel cradle (100) includes a first side panel (140) and a second side panel (140), each attached to a base (110), each oriented substantially parallel to a longitudinal axis, and each extending substantially vertically. An adjustment device (150) is configured to variably adjust the first side panel (140) and/or the second side panel (140) in a direction substantially parallel to the transverse axis to seat the bicycle wheel. The wheel cradle (100) is especially well-suited for combined use in a rack to park multiple bicycles, the rack easily breaking down for compact transport and storage.

The present disclosure describes a drum stacking assembly configured to allow stacking of drums for storage or transportation. The drum stacking assembly generally includes an extendable stacker device configured to be positioned between drums in a stack to support drums in the stack in a manner where the weight of the drums are supported on the rim portion of the drums and not the heads.

A telescopic container for storing food or non-food items is disclosed. The telescopic container comprises telescopic annular members, each telescopic annular member comprising sleeves progressively decreasing in size. The sleeves form an opening at one end and closed structure at other end. The sleeve at the opening indicates a connecting sleeve. The telescopic container further comprises a cylindrical member comprising an annular opening at each end. The cylindrical member receives the connecting sleeve of each telescopic annular member through the annular opening. One of the telescopic annular members and the cylindrical member receives the food or non-food items. Each of the telescopic annular members mounts to the cylindrical member and the length of the telescopic annular members is adjusted based on quantity of the food or non-food items received. The telescopic container comprises a base support and legs for placing the telescopic container at a height from a surface.

A container rack for pliable bottles, the container rack having a frame and one or more bottle receptacles extending in a horizontal direction into the frame. Each bottle receptacles has a liner wall having a generally circular profile as viewed along the horizontal direction, and a support wall extending radially inward from the liner wall within a lower-most quadrant of the generally circular profile of the liner wall. The support wall has a base portion and a plurality of ribs extending along the horizontal direction and protruding away from the base portion to respective distal ends with the base portion between the distal ends and the generally circular profile of the liner wall. The respective distal ends define a support surface configured to support at least one pliable bottle.

A tank rack may have a back frame member and at least two tank support members spaced apart from one another along the back frame member. Each of the tank support members may have two inner sections, two outer sections and a rear portion. The rear portion may be connected to the back frame member.

A seismic isolation system includes at least one adjustable foot attached to a container. The at least one adjustable foot has a height at least sufficient to support the container such that the container does not touch a surface on which the container rests. The seismic isolation system further includes a sliding pad affixed to a portion of the at least one adjustable foot facing the surface. The sliding pad is configured to provide a coefficient of static and kinetic friction between the sliding pad and the surface that prevents relative movement of the sliding pad and the surface in normal operation and allows the sliding pad to move relative to the surface during a seismic event.

The present invention relates to a portable barrel rack. The portable barrel rack allows for storage and transportation of multiple barrels with the weight of each barrel being supported by the rack. Racks have lower and upper rectangular frames of different construction, with posts therebetween, and with legs and matching contours so that racks can be stacked. Slats inserted into grooves can retain barrels contained within the racks.

The present disclosure describes a drum stacking assembly configured to allow stacking of drums for storage or transportation. The drum stacking assembly generally includes an extendable stacker device configured to be positioned between drums in a stack to support drums in the stack in a manner where the weight of the drums are supported on the rim portion of the drums and not the heads.

This base isolation system protects barrel racks from earthquake motions through a pad designed to slide on a prepared surface to critically reduce the amount of energy otherwise transferred to a stack of barrels. The pad is comprised of two layers: a plate, usually steel, and an underlayer, usually a high density plastic. The interaction of the underlayer with the prepared surface depends on a coefficient of static and kinetic friction between the underlayer and the surface that prevents relative movement in normal operation and yet allows the isolation pad to move relative to the surface during a seismic event.