AU2015203214B2 - Knock down barrel and methods for assembly - Google Patents

Abstract

Abstract Knock down barrel and methods for assembly A method of tool-lessly assembling a cylindrical storage container (100), the method including the steps of connecting a first arcuate side panel (120a) and a second arcuate side panel (120b) by mechanically engaging an attachment mechanism on a first lateral side of the first arcuate side panel (120a) with a second lateral side of the second arcuate side panel (120b). The method further includes the step of inserting a tub (300) at least partially within a gap created by the connected first and second arcuate side panels (120a, 120b) and mechanically engaging a base (200) with a lower portion of the connected first and second arcuate side panels (120a, 120b). 100-, 148, 1 20a 1 20b

Description

KNOCK DOWN BARREL AND METHODS FOR ASSEMBLY

CROSS-REFERENCE TO RELATED APPLICATIONS

[0001] The present application claims the benefit of and priority to U.S. Provisional Patent Application Serial No. 61/349,488 filed on May 28,2010, the entire contents of which being herein incorporated by reference in its entirety.

BACKGROUND

[0002] The present disclosure relates to a barrel (e.g., an insulated storage container for storing products and/or making products available to a user) and methods for assembly, breaking down, packaging, and shipping thereof. Typically, such barrels are relatively light-weight and take up a lot of space. Therefore, shipping such barrels can be expensive, as they take up relatively large amounts of room on shipping vehicles.

[0003] The barrel of the present disclosure is comprised of components that are configured and dimensioned to be efficiently packed into a relatively small shipping box, for example. Additionally or alternatively, multiple barrels (e.g., .three barrels) of the present disclosure are capable of being packed into a shipping box that would otherwise hold one assembled barrel. The reduction of size of the shipped barrel results in reduced shipping costs.

[0004] The barrel of the present disclosure can also be assembled and disassembled without the use of any tools. Such a tool-less assembly feature can be useful, for example, when the barrels are shipped to a grocery store, and a store clerk can quickly and easily assemble the barrels, such that the barrels are ready to store products.

OBJECT OF THE INVENTION

[0005] It is an object of the present invention to substantially overcome or at least ameliorate one or more of the above described disadvantages, or at least to provide a useful alternative.

SUMMARY

[0006] The present invention provides a method of tool-lessly assembling a cylindrical storage container, the method comprising: connecting a first arcuate side panel and a second arcuate side panel by mechanically engaging an attachment mechanism on a first lateral side of the first arcuate side panel with a second lateral side of the second arcuate side panel; inserting a tub at least partially within a gap created by the connected first and second arcuate side panels; and mechanically engaging a base with a lower portion of the connected first and second arcuate side panels.

[0006a] The method further preferably comprises connecting a third arcuate side panel to the first arcuate side panel and the second arcuate side panel.

[0006b] Preferably each of the first arcuate side panel, the second arcuate side panel and the third arcuate side panel forms approximately 120° of the cylindrical storage container when assembled.

[0006c] Each of the first arcuate side panel and the second arcuate side panel preferably includes an inwardly-directed concavity such that the cylindrical storage container, when assembled, includes an inwardly-directed concave ring around its perimeter.

[0006d] Each of the first arcuate side panel and the second arcuate side panel is preferably non-planar.

[0006e] The attachment mechanism is preferably disposed on an interior-facing portion of the first arcuate side panel, such that the attachment mechanism is not visible from an exterior of the cylindrical storage container when the cylindrical storage container is assembled.

[0006f] The attachment mechanism is preferably stationary with respect to the first arcuate side panel.

BRIEF DESCRIPTION OF DRAWINGS

[0007] Embodiments of the present disclosure are described hereinbelow with reference to the drawings wherein: [0008] Figures 1 - 3 are perspective views of the barrel; [0009] Figure 4 is a front view of the barrel; [00010] Figure 5 is an assembly view of the barrel; [00011] Figure 6 is a perspective view of portions of two side panels of the barrel; [00012] Figure 7 is a partial assembly view of the barrel; [00013] Figure 8 is an assembly view of a tub of the barrel; [00014] Figure 9 is a partial assembly view of a portion of the barrel; and [00015] Figure 10 is a perspective view of the barrel with a side panel removed.

DETAILED DESCRIPTION

[00016] Embodiments of the presently disclosed knock-down barrel are described in detail with reference to the drawings wherein like numerals designate identical or corresponding elements in each of the several views.

[00017] In combination with the accompanying Figures 1-10, a storage container or knock down barrel 100 of the present disclosure is described herein. Barrel 100 is configured to be assembled and disassembled without the use of tools, and its various components are configured to minimize space, e.g., when being shipped.

[00018] Barrel 100 includes a plurality of side panels 120 (e.g., three side panels 120a, 120b, 120c as shown in FIG. 5, for example), a base 200, and a tub 300. Each of the side panels 120 is configured to interconnect with an adjacent side panel 120. Base 200 is configured to connect to a lower portion of each side panel 120. Tub 300 is configured to fit at least partially within the assembled side walls 120 and to connect thereto. Additionally, tub 300 is configured to stack within another tub (not shown).

[00019) Referring now to FIGS. 5-7 and 10, further details of side panel 120 are described herein. Side panel 120 includes an arcuate shape, as indicated by the curved axis “A-A” in FIG. 5. The arcuate configuration of side panels 120 allows sides panel 120a to be stacked on top of/within an adjacent side panel 120b, such that axis “A-A” of side panel 120a is substantially parallel to axis “A-A” of side panel 120b. Accordingly, a plurality of side panels 120 can be stacked adjacent one another. For example, nine side panels 120 (for use with three separate barrels 100) can be stacked and can fit into a single shipping box. As shown, side panels 120 are also curved along axis “B-B.” [00020] Side panels 120 include a first lateral edge 122, a second lateral edge 126, an upper edge 130, and a lower edge 134. First lateral edge 122 includes a plurality of attachment mechanisms or projections 123. Second lateral edge 126 includes a plurality of attachment mechanisms 127. For example, first lateral edge 122 can include three spaced-apart pairs of projections 123, and second lateral edge 126 can include three spaced-apart single projections 127 (see FIG. 10). In such an embodiment each single projection 127 can fit between pair of projections 123 and frictionally remain in place. It is envisioned that at least one attachment mechanism 123, 127 is stationary or substantially stationary with respect to its corresponding side panel 120. It is further envisioned that attachment mechanisms 123 can tool-lessly engage attachment mechanisms 127 (e.g., via a snap-fit connection). Additionally, attachment mechanisms 123 can be configured to engage second lateral edge 126 (in the absence of any attachment mechanism thereon). Upper edge 130 of side panels 130 is configured to support a lip 310 of tub 300. Additionally, each side panel 120 includes an opening 132 along upper edge 130, which is configured to accept a mechanical fastener, e.g., a pin 600, at least partially therethrough. More particularly, pin 600 is insertable in the general direction of arrow “C” in FIG. 5 through an opening 320 of tub 300 and through opening 132 of each side panel 120 (see also FIGS. 8 and 9). Only a single pin 600 is shown for clarity.

[00021] Lower edge 134 of side panel 120 includes structure 136 (e.g., a groove, slot, recess, opening, protrusion, etc.) that is configured to be mechanically coupled to a corresponding feature 210 (e.g., a groove, slot, recess, opening, protrusion, etc.) of base 200, e.g., via a snap-fit connection.

[00022] A lower section 146 of side walls 120 includes a plurality of openings 150 extending therethrough. The illustrated embodiment includes five rows and five columns of circular openings 150, for a total of 25 openings 150 per side wall 120. Openings 150 may be used to reduce the weight of side wall 120, to see through side wall 120, to access an interior of barrel 100, and for attachment of adaptors (e.g., a drain adaptor 500, a spigot adaptor 510, etc.), for instance (see FIGS. 3, 5 and 10). Any number, size and shape of openings 150 are contemplated by the present disclosure.

[00023] An upper section 148 of side walls 120 includes a window 149 thereon. It is envisioned that window 149 is open (i.e., lacks material) or that window 149 is comprised of a translucent or transparent material. Window 149 may be used to display product information, for example.

[00024] Base 200 is round and includes four casters 220. It is envisioned that each caster 220 (e.g., a finger thereof) can be snapped into engagement with a corresponding hole 230 disposed on a lower surface 240 of base 200. Additionally, base 200 includes a lip 250 therearound, which is configured for engagement with lower edges 134 of each side panel 120.

[00025] Tub 300 includes a generally tapered shape to facilitate stacking into another tub. That is, tub 300 is tapered along at least a majority of its height “H.” Tub 300 also includes a cover 330, which is pivotably attached thereto via a connector bar 610. That is, connector bar 610 is insertable through an opening 332 in cover 330 and through an opening 302 in tub 300. Other suitable methods of connecting cover 330 and tub 300 are also within the scope of the present disclosure. In the illustrated embodiment, cover 330 includes a window 340 thereon. It is envisioned that window 340 allows a user to see products within tub 300. A handle 350 on cover 330 facilitates the pivoting (opening and closing) of cover 330 with respect to remainder of tub 300.

[00026] With regard to Figure 8, tub 300 also includes a tub base 301, wall liner 360 and a reservoir disc 370. Reservoir disc 370 includes a hole 372 therein, which is configured to align with a corresponding hole (not shown) through bottom of tub 300. It is envisioned that a drain can engage hole 372, e.g., to drain water from tub 300.

[00027] As discussed above, assembly of barrel 100 can be accomplished without the use of any tools. Initially, two side panels 120a, 120b are interlocked by engaging attachment mechanisms 123 from first lateral edge 122 of side panel 120a with attachment mechanisms 127 from second lateral edge 126 of side panel 120b. Next, side panel 120c is interlocked with side panels 120a, 120b by engaging attachment mechanisms 123 from first lateral edge 122 of side panel 120b with attachment mechanisms 127 from second lateral edge 126 of side panel 120c, and by engaging attachment mechanisms 127 from second lateral edge 126 of side panel 120a with attachment mechanisms 123 from first lateral edge of side panel 120c.

[00028] Next tub 300 is assembled by placing wall liner 360 into tub base 301.

The assembled tub 300 is then placed into side panels 120a, 120b, 120c, such that lip 310 of tub 300 rests on upper edge 130 of side walls 120. Pins 600 may then be inserted through opening 320 of tub 300 and through opening 132 of side panels 120a-120c.

[00029] The user may then turn tub 300 and side panels 120 up-side-down, such that lower edge 134 of side panels 120 is facing upward. Additionally, drain adaptor 500 and/or spigot adaptor 510 may be inserted into desired location in side panel 120 and/or connected to tub 300 via the hole therein.

[00030] Base 200 is inserted onto side panels 120a-120c such that structure 136 of lower edges 134 of side panels 120 mechanically engage feature 210 of base 200.

Casters 220 are then snapped into engagement with corresponding holes 230 on lower surface 240 of base 200.

[00031] Barrel 100 may then be turned right-side-up, such that upper edge 130 is facing upward. Connector bar 610 is then inserted through opening 332 in cover 330 and through opening 302 in tub 300. Alternatively, connector bar 610 may be inserted into a snap bar of tub 300.

[00032] Finally, reservoir disc 370 is placed onto a ledge 325 of tub 300.

[00033] As can be appreciated, barrel 100 can be tool-lessly disassembled, e.g., in the opposite order of assembly.

[00034] While the assembly steps of the present disclosure are described as being in a particular order, the present disclosure also contemplates assembling barrel 100 in other orders. Additionally, while an embodiment of the disclosure has been shown in the figures and described herein, it is not intended that the disclosure be limited thereto, as it is intended that the disclosure be as broad in scope as the art will allow and that the specification be read likewise. For example, while three side panels are shown, it is envisioned that more or fewer side panels are used without departing from the scope of the present disclosure. Therefore, the above description should not be construed as limiting, but merely as exemplifications of various embodiments. Those skilled in the art will envision other modifications within the scope and spirit of the claims appended hereto.

Claims (7)

1. The claims defining the invention are as follows:

   1. A method of tool-lessly assembling a cylindrical storage container, the method including the steps of: connecting a first arcuate side panel and a second arcuate side panel by mechanically engaging an attachment mechanism on a first lateral side of the first arcuate side panel with a second lateral side of the second arcuate side panel; inserting a tub at least partially within a gap created by the connected first and second arcuate side panels; and mechanically engaging a base with a lower portion of the connected first and second arcuate side panels.
2. 2. The method of Claim 1, further comprising connecting a third arcuate side panel to the first arcuate side panel and the second arcuate side panel.
3. 3. The method of Claim 2, wherein each of the first arcuate side panel, the second arcuate side panel and the third arcuate side panel forms approximately 120° of the cylindrical storage container when assembled.
4. 4. The method of Claim 1, wherein each of the first arcuate side panel and the second arcuate side panel includes an inwardly-directed concavity such that the cylindrical storage container, when assembled, includes an inwardly-directed concave ring around its perimeter.
5. 5. The method of Claim 1, wherein each of the first arcuate side panel and the second arcuate side panel is non-planar.
6. 6. The method of Claim 1, wherein the attachment mechanism is disposed on an interiorfacing portion of the first arcuate side panel, such that the attachment mechanism is not visible from an exterior of the cylindrical storage container when the cylindrical storage container is assembled.
7. 7. The method of Claim 1, wherein the attachment mechanism is stationary with respect to the first arcuate side panel.