A shelving system includes a support post having a mounting surface and a plurality of vertically spaced retention members extending from the mounting surface. A shelf includes a bracket member configured for coupling to a first of the vertically spaced retention members. A support bracket includes an attachment portion configured for coupling to a second of the vertically spaced retention members adjacent the first vertically spaced retention member and a support portion configured for coupling to the bracket member.

A combined type shelf includes parallel-rod side frames, inter-frame connectors, storage layers and horizontal constraint frames. The parallel-rod side frame includes a first vertical bar, a second vertical bar and a horizontal bar. The inter-frame connector includes a connector body, two lateral plates, a hole and lower interference parts. The storage layer is disposed between two horizontal constraint frames. The horizontal constraint frame includes a horizontal stop member and a constraint-frame coupling member. The constraint-frame coupling member includes upper interference parts to buckle the lower interference parts so as to connect the horizontal constraint frame to the inter-frame connector.

A storage system may be formed using an apparatus including a rigid bar and a bracket. The rigid bar has an elongate body having sufficient length to extend vertically along a wall from a foot engaging the floor to a second end positioned proximate to a ceiling directly above the floor. The bracket is securable to the ceiling and has a first end for engaging the rigid bar at a point proximate to the second end of the rigid bar, wherein the first end of the bracket limits movement of the second end of the rigid bar in a direction away from the wall. Optionally, a pair of the rigid bars may include shelf supports, tire lofts or other features for supporting items to be storage.

A shelving system includes a support post having a mounting surface and a plurality of vertically spaced retention members extending from the mounting surface. A shelf includes a bracket member configured for coupling to a first of the vertically spaced retention members. A support bracket includes an attachment portion configured for coupling to a second of the vertically spaced retention members adjacent the first vertically spaced retention member and a support portion configured for coupling to the bracket member.

A shelf structure has at least four columns and at least one supporting board provided with a plurality of circular gaskets respectively jacketing onto the columns. Each column has a plurality of positioning grooves, each circular gasket having a tapered shape and a fastening rib on an inner surface. The supporting board comprises a frame and a board member. The frame is provided with a raised internal surface, four top edges and four bottom edges of the frame are respectively provided with a horizontal rib. Each horizontal rib respectively forms a concave arced groove at each corner of the frame, and each concave arced groove is provided with an assembling arc member with two wing portions at each side configured to engage with the frame, the assembling arc member and the concave arc groove form a tapered hollow casing for engaging with the respective circular gasket.

A refrigerator appliance having one or more sliding shelves. The sliding shelf may slide along one or more tracks. The sliding shelf may include one or more shelf plates. The one or more tracks may be adjustable.

A sign holder assembly for a shelving system, in which the shelving system includes a first support post and a second support post, with each support post configured to support a side of a shelf, includes a cross member configured to be coupled to and extend between the first support post and second support post. The assembly further includes a support bracket having a base member configured to be positioned about a portion of the cross member in one of a plurality of positions along a length of the cross member, an extension portion extending from the base member, and a securement member projecting from the extension portion and spaced from the base member.

A sign holder assembly for a shelving system, in which the shelving system includes a first support post and a second support post, with each support post configured to support a side of a shelf, includes a cross member configured to be coupled to and extend between the first support post and second support post. The assembly further includes a support bracket having a base member configured to be positioned about a portion of the cross member in one of a plurality of positions along a length of the cross member, an extension portion extending from the base member, and a securement member projecting from the extension portion and spaced from the base member.

One embodiment of the present invention sets forth a technique for designing a four-bar linkage mechanism. The technique includes receiving an input coupler curve that defines motion within a plane with respect to a point that is to be included on the four-bar linkage mechanism; generating a set of sample points, wherein each point in the set of sample points corresponds to a different location on the input coupler curve; and implementing a global optimization solver to generate a first design for the four-bar linkage mechanism. The first design includes at least one value for each geometric variable included in a set of geometric variables associated with the four-bar linkage, where at least one of the geometric variables is based on one of the sample points. The first design generates an output coupler curve that approximates the input coupler curve.

One embodiment of the present invention sets forth a technique for designing a four-bar linkage mechanism. The technique includes receiving an input coupler curve that defines motion within a plane with respect to a point that is to be included on the four-bar linkage mechanism; generating a set of sample points, wherein each point in the set of sample points corresponds to a different location on the input coupler curve; and implementing a global optimization solver to generate a first design for the four-bar linkage mechanism. The first design includes at least one value for each geometric variable included in a set of geometric variables associated with the four-bar linkage, where at least one of the geometric variables is based on one of the sample points. The first design generates an output coupler curve that approximates the input coupler curve.