The present invention relates to a modular rack assembly. While there are a variety of modular rack assemblies that have been designed to store various items, they are not easily configurable for shipping. Further, conventional modular racks are not formed of a simple construction and may be expensive to manufacture and difficult to assemble and adjust.
An embodiment of the present invention provides an end support unit for supporting the ends of at least one front and one rear cross beam including: a generally vertical front support post having at least one column of slots along its length for receiving at least one slot engaging member of the front cross beam; a generally vertical rear support post having at least one column of slots along its length for receiving at least one slot engaging member of the rear cross beam; a generally horizontal upper brace fixedly attached to and extending from the upper end of the front support post to the upper end of the rear support post; a generally horizontal lower brace fixedly attached to and extending from the lower end of the front support post to the lower end of the rear support post; and at least one diagonal brace fixedly attached to and extending diagonally between the front support post and the rear support post.
The upper brace may have at least one hole for receiving the shaft of a connector for securely mounting a secondary component to the end support unit.
The lower brace may have at least one hole for receiving the shaft of an anchor for securely anchoring the end support unit to a floor location or a connector for securely mounting a secondary component to the end support unit.
The slots may be key-hole shaped. The slot engaging members may be rivets. The slots may be wedge-shaped. The slot engaging members may be lances.
The end support units may be about 3 inches wide, about 17 inches deep, and about 36 inches high.
The support posts may be c-shaped. The braces may be c-shaped.
Another embodiment of the present invention provides an end support unit assembly including an upper end support unit stacked on top of a lower end support unit for supporting the ends of at least one front and one rear cross beam. Each end support unit includes: a generally vertical front support post having at least one column of slots along its length for receiving at least one slot engaging member of the front cross beam; a generally vertical rear support post having at least one column of slots along its length for receiving at least one slot engaging member of the rear cross beam; a generally horizontal upper brace fixedly attached to and extending from the upper end of the front support post to the upper end of the rear support post; a generally horizontal lower brace fixedly attached to and extending from the lower end of the front support post to the lower end of the rear support post; at least one diagonal brace fixedly attached to and extending diagonally between the front support post and the rear support post; and a pair of connectors extending through holes in the lower brace of the upper end support unit and the upper brace of the lower end support unit to secure the upper end support unit to the lower end support unit.
Each connector may include a bolt, a lock washer, and a nut.
Another embodiment of the present invention provides a storage rack including: at least one left end support unit and at least one right end support unit for supporting the ends of at least one front and one rear cross beam. Each end support unit includes: a generally vertical front support post having at least one column of slots along its length for receiving at least one slot engaging member of the front cross beam; a generally vertical rear support post having at least one column of slots along its length for receiving at least one slot engaging member of the rear cross beams; a generally horizontal upper brace fixedly attached to and extending from the upper end of the front support post to the upper end of the rear support post; a generally horizontal lower brace fixedly attached to and extending from the lower end of the front support post to the lower end of the rear support post; and at least one diagonal brace fixedly attached to and extending diagonally between the front support post and the rear support post; at least one front cross beam, wherein the at least one front cross beam is mounted on and extending between the left and right front support posts of the left and right end support units; at least one rear cross beam, wherein the at least one rear cross beam is mounted on and extending between the rear support posts of the right and left end support units at about the same elevation as the front cross beam; and at least one shelf panel, wherein the at least one shelf panel is supported at its front and rear edges by at least one front and rear cross beam.
The storage rack may include four pairs of front and rear cross beams, four shelves, and four end support units, and wherein the disassembled storage rack is packaged in a space that is about 39 inches by about 17 inches by about 16 inches.
The front and rear cross beams may include at each end an L-shaped flange with a pair of slot engaging members extending inwardly from the flange to engage the slots.
The front and rear cross beams may include a ledge for receiving the shelf panel.
Another embodiment of the present invention provides a work bench assembly including: right and left end support units for supporting the ends of at least one front and one rear cross beam. Each end support unit includes: a generally vertical front support post having at least one column of slots along its length for receiving at least one slot engaging member of the front cross beam; a generally vertical rear support post having at least one column of slots along its length for receiving at least one slot engaging member of the rear cross beam; a generally horizontal upper brace fixedly attached to and extending from the upper end of the front support post to the upper end of the rear support post; a generally horizontal lower brace fixedly attached to and extending from the lower end of the front support post to the lower end of the rear support post; at least one diagonal brace fixedly attached to and extending diagonally between the front support post and the rear support post; an upper front cross beam extending between the upper ends of the front support posts of the right and left end support units; an upper rear cross beam extending between the upper ends of the rear support posts of the right and left end support units; a lower rear cross beam extending between a lower portion of the rear support posts of the right and left end support units; a top panel having front and rear edge portions supported at its front and rear edge portions by the upper front cross beam and upper rear cross beam; right and left upright supports mounted to and extending upwardly from a rear portion of the right and left end support units; a cross beam mounted to and extending between the upper ends of the right and left upright supports; and a generally vertical panel extending between at least a portion of the right and left upright supports and below the cross-beam that extends between the upper ends of the upright supports.
The generally vertical panel may include pegboard.
The generally vertical panel may include upper and lower pegboard panels connected by an elongated strip connector having a generally H-shaped cross-sectional configuration that forms a pair of grooves for receiving the lower end of the upper pegboard panel and the upper edge of the lower pegboard panel.
The workbench assembly may further include a cover mounted over the upper braces.
The accompanying drawings, together with the specification, illustrate exemplary embodiments of the present invention, and, together with the description, serve to explain the principles of the present invention.
a is a cross-sectional view of a portion of the storage rack of
In the following detailed description, only certain exemplary embodiments of the present invention have been shown and described, simply by way of illustration. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. Accordingly, the drawings and description are to be regarded as illustrative in nature and not restrictive. Like reference numerals designate like elements throughout the specification.
With reference to
It is understood that the cross-sectional configuration of the support posts and braces may vary as desired. In the embodiment shown in
Likewise the cross-sectional configuration of the cross beams may vary as desired. In the embodiment of
The slots 16 and slot engaging members 30 may also vary as desired. For example, in another exemplary embodiment, the slots have a key-hole shape and the slot engaging members are rivets that extend inwardly from the ends of the cross beams.
The dimensions of the end support units 12 and cross beams 26 and 28 may also vary. In one embodiment, the end support units 12 are about 3 inches high and about 17 inches deep. In one embodiment, the length of the cross beams is about 39 inches so that the overall width of the rack is about 41 inches.
With reference to
A plurality of front and rear cross beams 26 and 28 are boltlessly mounted to the front and rear support posts 13 and 14 of the end support units 12 that make up the end support assemblies 40. Shelf panels 32 are positioned between and supported at their front and rear edge portions by the front and rear cross beams 26 and 28. As shown, the stacked rack assembly 38 can be anchored at a particular floor location by means of anchors 28 or the like which extend through holes 24 in the lower brace 20 of the lower end support unit 12b and into the floor. The type of anchor will vary depending on the material of the floor. For example, expandable wedge anchors, sleeve anchors, etc., as are well-known in the art may be used with concrete floors, whereas leg bolts or the like may be used for wood floors.
Another modular rack assembly 44 according to an embodiment of the present invention is shown in
One of the benefits of the present invention is that a 72-inch high by 17 inch deep by 41 inch wide rack assembly having four pairs of front and rear cross-beams and four shelves may be packaged in a space having the dimensions 39 inches by 17 inches by less than 16 inches. This allows the rack assembly to be packaged in a container that is 40 inches by 18 inches by 16 inches. Such a packaged arrangement provides significant cost savings as compared to racks having 72-inch long side support units. For example, this set of dimensions enables three packages to fit on a standard forty inch by forty-eight inch pallet. An exemplary arrangement of the components for packaging is shown in
The end support units 12 may also be used as intermediate support units in larger shelf and/or bench assemblies. For example,
The present invention also provides work benches that utilize the benefits of the end support units 12 described above. With the reference to
A cover 52 is mounted over the upper braces 18 of the right and left end support units 12 to create a generally flat surface at about the same level as the top surfaces of shelf panel 32. In an embodiment of the present invention, the cover 52 has the same cross-sectional configuration as the support posts 13, 14 of the end-support units 12, but without the slots.
A pair of upright supports 54 extend upwardly from the rearward portion of the end support units 12. In an embodiment of the present invention, the uprights supports 54 are made of the same material and have the same cross-sectional configuration of the support posts 13, 14 of the end-support units 12. The upright supports 54 have a generally horizontal flange 56 at their lower ends. The flange 56 extends forwardly and has a hole that aligns with holes in the cover 52 and upper brace 18 of the end support units 12. The upright supports 54 may be secured to the end support units 12 by connectors, such as bolts as previously described. A cross-beam 58 is mounted at its ends to and extends between top ends of the left and right upright supports 54. In the embodiment shown, there is provided a pegboard assembly 60 which extends between the left and right upright supports 54 and between the top of the workbench 50 and the cross-beam 58 at the upper end of the upright supports 54. The pegboard assembly 60 preferably comprises two pegboard panels 62a and 62b connected together by a plastic strip connector 64 having an H-shaped cross-sectional configuration. Such a connector 64 comprises a pair of grooves or recesses for receiving the lower edge of the upper pegboard panel 62a and the upper edge of a lower pegboard panel 62b.
In the exemplary embodiment shown in
With reference to
While the present invention has been described in connection with certain exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements thereof.
This application is a continuation of U.S. application Ser. No. 12/436,771, filed on May 6, 2009 which claims priority to and the benefit of and U.S. Patent Application No. 61/050,992, filed on May 6, 2008, in the United States Patent and Trademark Office, the entire content of which is incorporated herein by reference.
Number | Date | Country | |
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61050992 | May 2008 | US |
Number | Date | Country | |
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Parent | 12436771 | May 2009 | US |
Child | 13360543 | US |