A deformable assembling rack includes: two vertical posts having one lateral surface thereof formed with a concave slot, and plural connection rod sets connected between the vertical posts and respectively having a first connection rod and a second connection rod, wherein the first and the second connection rods are respectively formed with a first end pivoted in the concave slots, and respectively formed with a second end disposed with a pivotal part for the purpose of pivoting, the first connection rod and the second connection rods can be displaced towards a preset direction to a folded location for being adjacent to inner wall surfaces of the vertical posts, or to be displaced to an unfolded location for being perpendicular to the inner wall surfaces of the vertical posts, thereby being able to be folded for forming as a rod body or unfolded for being in an operating status.

A deformable assembling rack includes: two vertical posts having one lateral surface thereof formed with a concave slot, and plural connection rod sets connected between the vertical posts and respectively having a first connection rod and a second connection rod, wherein the first and the second connection rods are respectively formed with a first end pivoted in the concave slots, and respectively formed with a second end disposed with a pivotal part for the purpose of pivoting, the first connection rod and the second connection rods can be displaced towards a preset direction to a folded location for being adjacent to inner wall surfaces of the vertical posts, or to be displaced to an unfolded location for being perpendicular to the inner wall surfaces of the vertical posts, thereby being able to be folded for forming as a rod body or unfolded for being in an operating status.

A locker assembly insert 10 for a cabinet 11. The cabinet 11 is a two door cabinet having a first door 12 and a second door 13. A central mullion 19 having a rear cover plate divides the cabinet 11 down the middle and the doors 12 and 13 close the cabinet. The locker assembly insert 10 in this case is applied to a two door cabinet and has a central support member 20 (which is put in place by first removing the rear cover plate behind the central mullion 19, the rear cover plate is tucked in behind the central support member 20 before assembly allowing it to be reused if the refrigerator is ever restored to its original condition). The insert is completed using vertical divider sets 27, 28 and 29 and ten door locker door assemblies 30 and 31.

A locker assembly insert 10 for a cabinet 11. The cabinet 11 is a two door cabinet having a first door 12 and a second door 13. A central mullion 19 having a rear cover plate divides the cabinet 11 down the middle and the doors 12 and 13 close the cabinet. The locker assembly insert 10 in this case is applied to a two door cabinet and has a central support member 20 (which is put in place by first removing the rear cover plate behind the central mullion 19, the rear cover plate is tucked in behind the central support member 20 before assembly allowing it to be reused if the refrigerator is ever restored to its original condition). The insert is completed using vertical divider sets 27, 28 and 29 and ten door locker door assemblies 30 and 31.

A kit is provided that, when assembled, forms a unit of furniture. The kit includes side panels that can reversibly slide into an opening formed in the sides of the front and side panels. The kit may include multiple locking pins and cleats to restrict movement of the top and side panels. The kit may include positioning wedges and/or locking wedges to restrict relative movement of the panels and thus improve the stability of the unit. Also provided are methods of assembling the unit of furniture.

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.

Various embodiments of the present invention are directed to an apparatus comprising a heavy duty shelving assembly. The apparatus comprises shelving assemblies that may be used to store relatively heavy objects such as vehicle components, athletic weights, or the like. The apparatus comprises a plurality of vertical columns including column members that are selectively coupled to one another, a plurality of horizontal supports that extend between the column members, and a plurality of shelves that are positioned on the horizontal supports. The apparatus may also include a center brace extending between opposing horizontal supports. The horizontal supports include a truss portion connected to a support portion; the truss portion distributes the downward forces applied to the support portion by the shelves. The design of the apparatus and the truss increases the downward forces that may be applied to the shelf, thereby increasing the weight capacity of the shelves and the apparatus. The column members are configured for selective coupling by incorporating a main portion that comprises a plurality of apertures and a coupling portion that extends outward from the main portion such that it may accept at least part of a main portion of an adjacent column member. The coupling portion further comprises one or more engagement tabs that are configured to engage the apertures of an adjacent column member. In at least one embodiment, the engagement tabs are formed through stamping, thereby minimizing or entirely eliminating areas where stress can concentrate when the apparatus is under load. This feature reduces or eliminates the potential of a partial failure when the apparatus is under load.

Various embodiments of the present invention are directed to an apparatus comprising a heavy duty shelving assembly. The apparatus comprises shelving assemblies that may be used to store relatively heavy objects such as vehicle components, athletic weights, or the like. The apparatus comprises a plurality of vertical columns including column members that are selectively coupled to one another, a plurality of horizontal supports that extend between the column members, and a plurality of shelves that are positioned on the horizontal supports. The apparatus may also include a center brace extending between opposing horizontal supports. The horizontal supports include a truss portion connected to a support portion; the truss portion distributes the downward forces applied to the support portion by the shelves. The design of the apparatus and the truss increases the downward forces that may be applied to the shelf, thereby increasing the weight capacity of the shelves and the apparatus. The column members are configured for selective coupling by incorporating a main portion that comprises a plurality of apertures and a coupling portion that extends outward from the main portion such that it may accept at least part of a main portion of an adjacent column member. The coupling portion further comprises one or more engagement tabs that are configured to engage the apertures of an adjacent column member. In at least one embodiment, the engagement tabs are formed through stamping, thereby minimizing or entirely eliminating areas where stress can concentrate when the apparatus is under load. This feature reduces or eliminates the potential of a partial failure when the apparatus is under load.

A locker assembly insert 10 for a cabinet 11. The cabinet 11 is a two door cabinet having a first door 12 and a second door 13. A central mullion 19 having a rear cover plate divides the cabinet 11 down the middle and the doors 12 and 13 close the cabinet. The locker assembly insert 10 in this case is applied to a two door cabinet and has a central support member 20 (which is put in place by first removing the rear cover plate behind the central mullion 19, the rear cover plate is tucked in behind the central support member 20 before assembly allowing it to be reused if the refrigerator is ever restored to its original condition). The insert is completed using vertical divider sets 27, 28 and 29 and ten door locker door assemblies 30 and 31.

A locker assembly insert 10 for a cabinet 11. The cabinet 11 is a two door cabinet having a first door 12 and a second door 13. A central mullion 19 having a rear cover plate divides the cabinet 11 down the middle and the doors 12 and 13 close the cabinet. The locker assembly insert 10 in this case is applied to a two door cabinet and has a central support member 20 (which is put in place by first removing the rear cover plate behind the central mullion 19, the rear cover plate is tucked in behind the central support member 20 before assembly allowing it to be reused if the refrigerator is ever restored to its original condition). The insert is completed using vertical divider sets 27, 28 and 29 and ten door locker door assemblies 30 and 31.