The present invention relates to packaging materials, and particularly to packaging for beverage containers, such as wine bottles, beer bottles, spirits bottles, and the like.
Historically, packaging materials for shipment of beverage containers (e.g., wine bottles, beer bottles, spirits bottles, etc.) have included bubble wrap, Styrofoam, popcorn, and other traditional packaging materials. For example, multiple bottles could be wrapped in bubble wrap, positioned in Styrofoam, and/or otherwise secured and placed into a box for transit. More recently, molded paper pulp trays have been used to secure multiple bottles during transit. Typically, a bottom tray accommodates the bottom of a bottle, a top tray accommodates the top of the bottle, and cardboard may be installed between the bottles. Many existing bottom tray designs include ring-shaped crushable elements to absorb impact during shipping. The ring-shaped crushable elements may be ineffective in reducing and/or preventing damage to the bottle when the package is subjected to a large impact and/or multiple large impacts. An improved beverage container packaging would be useful.
The foregoing and other features and advantages of the invention will be apparent from the following, more particular description of various exemplary embodiments, as illustrated in the accompanying drawings wherein like reference numbers generally indicate identical, functionally similar, and/or structurally similar elements. The first digits in the reference number indicate the drawing in which an element first appears.
Exemplary embodiments are discussed in detail below. While specific exemplary embodiments are discussed, it should be understood that this is done for illustration purposes only. In describing and illustrating the exemplary embodiments, specific terminology is employed for the sake of clarity. However, the embodiments are not intended to be limited to the specific terminology so selected. A person skilled in the relevant art will recognize that other components and configurations may be used without parting from the spirit and scope of the embodiments. It is to be understood that each specific element includes all technical equivalents that operate in a similar manner to accomplish a similar purpose. The examples and embodiments described herein are non-limiting examples.
All publications and references cited herein are hereby incorporated by reference in their entirety.
As used herein, the term “a” refers to one or more. The terms “including,” “for example,” “such as,” “e.g.,” “may be” and the like, are meant to include, but are not be limited to, the listed examples.
Beverage container packaging is disclosed. The beverage container packaging disclosed herein in various embodiments may include a bottom element (bottom tray, bottom insert), a top element (top tray, top insert), and/or a center support (e.g., center support element). These elements may retain multiple beverage containers, such as wine bottles, beer bottles, spirits bottles, and the like, for shipment in a container, such as a cardboard box, crate, or other container. The beverage containers may vary in size including, for example, 375 ml, 500 ml, 750 ml, or any other size. The term beverage container as used herein may also refer to any container that encloses a fluid, whether or not the fluid is a beverage. Beverage containers may be placed bottom down in the bottom tray. The center support rests on top of the bottom tray and separates the multiple bottles. The center support separates the bottom tray and top tray, thereby providing stacking support. The top tray rests on the center support. And the top element accommodates the top (neck) of the beverage containers. The bottom tray, center support, top tray, and beverage containers are placed in a container, such as a cardboard box, crate, etc., for transit.
In various embodiments, the bottom tray comprises molded paper pulp fabricated from, for example, recycled paper products. The bottom tray may include multiple cup-shaped elements (e.g., cup-shaped cavities) each contoured to encapsulate the bottom of a beverage container, such as a wine bottle, beer bottle, spirits bottles, or the like. In certain cases, the cylindrical cup-shaped element includes an hourglass-shaped deformable element and/or a cross shaped deformable element protruding from the bottom surface of the cup, deformable protrusions on the walls of the cup, and/or other features. These features retain the base of the beverage container in a stationary position during shipment by contacting the base of the container in multiple locations. These features of the cup-shaped element, particularly the hourglass shaped and/or cross-shaped deformable element absorb energy when the container is subjected to impact forces (e.g., when dropped, roughly handled, etc.).
In some embodiments, the top tray comprises molded paper pulp. In certain cases, the top tray may include multiple rectangular cup-shaped elements each contoured to encapsulate the top of a beverage container, such as the neck of a wine bottle, beer bottle, spirits bottle, or other container. The rectangular cup-shaped element may include a cylindrical depression, vertical protrusions on the walls of the cup, and/or other features. These features retain the neck and/or upper portion of the beverage container in a stationary position during shipment by contacting the neck of the container in multiple locations.
In various embodiments, the center support may comprise one or more sheets of cardboard, such as corrugated cardboard. In some cases, the center support may comprise molded paper pulp that is molded to encapsulate beverage containers.
The beverage container packaging assembly disclosed herein in various embodiments provides improved impact energy absorption characteristics in relation to existing packaging solutions. The beverage container packaging disclosed herein may also be cheaper to produce than existing packaging solutions.
In some embodiments, the center support 130 does not extend to an outer edge 150 of the bottom tray 110 and/or an outer edge of the bottle container packaging assembly (e.g., bottle container packaging assembly 100 of
As discussed below, other types of center supports, such as corrugated cardboard center supports, may be used. In certain cases, a type of center support may be selected based on shipping requirements, load absorption parameters, customer preferences, and/or any other parameters.
In certain cases, the bottom tray 110 includes posts 114 configured to support the center support (not shown). Each of the posts 114 (six in the example shown) may include a plurality of platforms 116 (e.g., deformable post elements, protrusions, etc.) that form flat surfaces to contact the center support. The platforms 116 may be arranged in sets to resemble a cross shape. The platforms 116 may also be deformable and/or flexible to absorb load applied to the bottom tray 110, thereby reducing any load applied to the beverage containers 140.
Each of multiple cup-shaped elements 410 may include one or more of deformable elements 420 on the base (bottom) of the cup-shaped elements 410, first deformable elements 430 on the cup-shaped elements 410, second deformable elements 440 on side(s) of the cup-shaped elements 410, thin deformable elements 450 on sides of the cup-shaped elements 410, and/or other components.
The deformable elements 420 (e.g., base deformable elements) on the base (bottom) of the cup-shaped elements 410 may be raised (e.g., protrusions) from the bottom surface of the cup-shaped element 410. The deformable elements 420 on the bottom of the cup-shaped element 410 may resemble a cross, overlapping bowties, and/or other similar shapes. The deformable elements 420 are configured to absorb impact with the bottom of a beverage container, such as a load applied to a top or bottom of a beverage container when boxes are stacked, a box is dropped, and/or otherwise handled. The cross-shaped deformable element 420 may be particularly effective in absorbing impact on a bottle with a convex bottom shape, such as certain wine bottles. In certain cases, wider portions 422 of the cross-shaped deformable element 420 are configured to contact the outer edges of the bottom of a beverage container, such as a wine bottle. Thinner portions 424 of the cross-shaped deformable element 420 allow the element to deform (for example, by bending, crumpling, and/or otherwise deforming) when a load is applied to a beverage container housed in the bottom tray 400. The cross-shaped deformable element 420 deforms to absorb load and reduce damage to a bottle, particularly when a load is applied down from the top on the bottle or when the assembly is dropped.
In some embodiments, deformable elements 420 on a bottom of the cup-shaped elements 410 include holes 426. The holes 426 may vent air as the bottom tray 400 is lowered into a box (not shown). Vent holes 426 may reduce the vacuum in the box as the bottom tray 400 is installed in a box, thereby making assembly easier.
In various embodiments, the cup-shaped element 410 includes multiple vertical deformable elements 430, 440. The vertical deformable elements 430, 440 are configured to contact the sides of a beverage container (not shown). In certain cases, first vertical elements 430 and second vertical elements 440 are configured to contact the outside of a bottle. The vertical deformable elements 430, 440 may be sized, such that a bottle contacts at least a portion of each of the vertical deformable elements 430, 440 when loaded into the cup-shaped element 410. The bottle (not shown) and vertical deformable elements 430, 440 may contact one another in an interference fit, such that a force is necessary to push the bottle into the cup-shaped element 410 and a force is necessary to remove the bottle from the cup-shaped element 410. Securing the bottle in the cup-shaped element 410 in such a manner ensures that the bottle is stationary during transit, thereby reducing any potential damage. In certain cases, the vertical deformable elements 430, 440 can include a protrusions 460 near the bottom of the cup-shaped element 410 extending toward a center of the cup-shaped element 410. The protrusions 460 may increase the interference fit between the cup-shaped element 410 and a bottle.
In certain cases, a first type of vertical deformable elements 430 are included on the walls between adjacent cup-shaped elements 410. The first vertical elements 430 include a contoured protrusion configured to contact the outside of a bottle.
In some embodiments, a second type of vertical deformable elements 440 are included on outer walls of the cups-shaped element 410 (e.g., walls of the cup-shaped elements not adjacent to any other cup-shaped element 410). A lower portion of the second vertical deformable elements 440 may resemble the structure of the first vertical deformable elements 430, and an upper portion may include multiple thinner protrusions 442. In the example shown, the multiple thin protrusions 442 may resemble a fork.
According to some embodiments, the cup-shaped element 410 includes multiple thin deformable elements 450. In certain cases, thin deformable elements 450 may extend from a center of the cup-shaped element up a side of the cup-shaped element 410. Thin deformable elements 450 may include thin protrusions spaced roughly 90 degrees apart from one another. In certain cases, the thin deformable elements 450 may be spaced roughly 45 degrees from the intersection of the cross-shaped deformable element 420. In the example shown, there are four thin deformable elements 450 in each cup shaped element 410. Though in other cases, a cup-shaped element 410 may include other numbers of first thin deformable elements 450.
In some embodiments, the center support 600 includes star shaped cavities 630 (e.g., cross shaped cavities). The star-shaped cavities 630 may form the borders of the exterior support cavities 610, interior support cavities 620, and/or other elements. In certain cases, the posts of a top tray (discussed below) contact the corners 632 of the star-shaped cavities 630 when assembled. In certain cases, the corners 632 of the star-shaped cavities 630 extend out away from the center far enough to provide cushion between adjacent beverage containers. For example, the corners 632 of the star-shaped cavities 630 can extend out away from the center far enough to encapsulate at least half of the circumference of a bottle.
In some embodiments, a center support 700 is placed on a bottom tray (e.g., bottom tray 110 of
In certain cases, a top end of the bottle neck accommodating spaces 920 includes a circular depression 930 (e.g., circular depressed region). The circular depression 930 may accommodate the size of wine cork such that the wine bottle rim contacts the top tray but not the cork, for example, when a load is applied down on the top tray 900. The circular depression 930 may include a thin deformable element bisecting the circular depression 930.
In some embodiments, the top tray 900 includes one or more holes 940. Similar to the holes discussed with respect to other components of bottle packaging assembly, the holes 940 reduce vacuum generated when the top tray is placed into a box.
In various embodiments, the cup-shaped elements 1210 elements include rounded corners 1220 at a base of the cup-shaped elements 1210. The rounded corners 1220 may allow the bottom tray 1200 to endure more repeated loading. The rounded corners 1220 also accommodate the shape of the bottom of a bottle.
In various embodiments, the beverage container enclosure cavities 1532 protect the beverage container 1540 from side impacts, maintain the beverage container 1540 upright during transit, and/or provide other benefits. In certain cases, a bottle packaging assembly (e.g., bottom tray 1510, center support 1530, and top tray 1400 of
In some embodiments, the walls 1620 of the enclosure cavities 1610 include deformable elements 1622. The deformable elements 1622 are configured to absorb load applied to the side of a beverage container, thereby protecting beverage container from damage during transit. Because the beverage containers are each fully encapsulated by enclosure cavities 1610, the center support 1600 and beverage containers included therein may withstand higher loads and/or more load cycles than center support 1300 of
In certain cases, a center support 1700 includes recessed elements 1760 elements between posts 1720. The recessed elements 1760 between posts 1720 allow the posts 1720 to tilt relative to one another and the center support 700 to flex during use. In certain cases, one or more posts 1720 include a hole 1770 to reduce a vacuum when multiple center supports are stacked (e.g., during manufacture).
In some embodiments, a center support 1700 is placed on a bottom tray element (e.g., bottom tray element 1110, 1200, 1510 of
In certain cases, the bottom tray 2010 includes posts 2014 configured to support the center support (not shown). Each of the posts 2014 may include guide elements 2016 (e.g., protrusions) that form one or more channels to accommodate panels of the center support (not shown).
Each of multiple cup-shaped elements 2110 includes a first deformable element 2112 (e.g., an hourglass shaped element, bow-tie shaped element), second deformable elements 2116, vertical elements 2118, 2120, 2122, 2124, and other elements. The first deformable element 2112 may be raised (e.g., a protrusion) from the bottom surface of the cup-shaped element 2110. The first deformable element 2112 may resemble an hourglass, bow tie, or other similar shape. The first deformable element 2112 is configured to absorb impact applied to a top of a beverage container (not shown). The first deformable element 2112 may be particularly effective in absorbing impact from a bottle with a convex bottom surface, such as a wine bottle. Wider portions 2114 of the hourglass shaped element 2112 are configured to contact the outer edges of the bottom of a bottle, such as a wine bottle. Thinner portions 2113 of the hourglass shaped element 2112 allow the element to deform (for example, by bending, crumpling, and/or otherwise deforming) when a load is applied to a beverage container housed in the bottom tray 2100. The hourglass shaped element 2112 deforms to absorb load and reduce damage to a bottle, particularly when a load is applied down from the top on the bottle or when the assembly is dropped.
A cup-shaped element 2110 may include second deformable elements 2116. The second deformable elements 2116 may resemble two adjacent mountain peaks. Similar to the first deformable element 2112, the second deformable elements 2116 are configured to contact the outer edges of the bottom of a bottle, such as a wine bottle. When a load is applied to the top of the wine bottle, when the beverage container packaging is dropped, or when the bottle is otherwise subjected to a force, the second deformable elements 2116 are configured to absorb the load and/or energy of the load by, for example, crushing, buckling, and/or otherwise deforming.
In various embodiments, the cup-shaped element 2110 includes multiple vertical deformable elements 2118, 2120, 2122. The vertical deformable elements 2118, 2120, 2122 contact the sides of a beverage container (not shown). In certain cases, first vertical elements 2118, second vertical elements 2120, and third vertical elements 2122 are configured to contact the outside of a bottle. The first vertical elements 2118, second vertical elements 2120, and third vertical elements 2122 may be sized, such that a bottle contacts all of the vertical elements 2118, 2120, 2122 when loaded into the cup-shaped element 2110. The bottle (not shown) and vertical deformable elements 2118, 2120, 2122 may contact one another in an interference fit, such that a force is necessary to push the bottle into the cup-shaped element 2110 and a force is necessary to remove the bottle from the cup-shaped element 2110. Securing the bottle in the cup-shaped element 2110 in such a manner ensures that the bottle is stationary during transit, thereby reducing any potential damage.
According to some embodiments, the cup-shaped element 2110 includes multiple thin deformable elements 2124, 2126. In certain cases, four thin deformable elements 2124 may extend from a center of the cup-shaped element up a side of the cup-shaped element 2110. The four first deformable elements 2124 may include thin protrusions spaced roughly 90 degrees apart from one another. The thin deformable elements 2124 may collectively form an X-shape, with each thin deformable element 2124 extending from the center of the X along the bottom and up a side wall. In certain cases, a portion of a first deformable element 2124 extending along the wall of the cup-shaped element 2110 may extend further from the surface than a portion of the thin deformable element spanning the bottom of the cup-shaped element 2110. In other words, the portion of the thin deformable element 2124 spanning the wall may be taller (higher) than the portion spanning the bottom of the cup-shaped element 2110. In some embodiments, second thin deformable elements 2126 may be disposed between vertical elements 2118. Similar to the vertical elements, thin deformable elements 2124, 2126 are configured to absorb impact energy and/or loads applied to the sides of the bottle. The thin deformable elements 2124, 2126 prevent damage to the bottom and sides of the bottle.
In various embodiments, a bottom portion of the rectangular cup-shaped element 2622 includes a cylindrical depression 2628. The cylindrical depression 2628 may be sized to accommodate a top of a bottle (not shown) and to restrain the top of the bottle from movement during transit.
In various embodiments, the center support 2830, the center support 2730 of
In various embodiments, assembly of a beverage container packaging assembly 2800 is depicted. A lower tray 2810 may be placed into a container 2850, such as a cardboard box, crate, and/or other container. A center support (e.g., center support 600, 700, 1300, 1600, 1700, 1830, 2730, 2830, and/or any other center support) is placed onto the lower tray 2810. Beverage containers (not shown) are loaded into cup-shaped elements of the lower tray 2810. An upper tray (not shown) is placed on the top of the center support. The container 2850 is sealed by, for example, closing the flaps of the box and/or applying tape. The container 2850 may be then be shipped to its recipient. And upon receipt, a recipient may perform the inverse (opposite) of these steps to unpack the beverage container packaging assembly 2800.
In various embodiments, these and other steps to assemble and disassemble a container packaging assembly 2800 may be performed in other sequences to achieve similar results.
While various embodiments of the present invention have been described above, it should be understood that they have been presented by way of example only, and not limitation. Thus, the breadth and scope of the present invention should not be limited by any of the above-described illustrative embodiments, but should instead be defined only in accordance with the following claims and their equivalents.
This application is a continuation of co-pending U.S. patent application Ser. No. 15/671,348, entitled “BEVERAGE CONTAINER PACKAGING,” filed on Aug. 8, 2017, which claims priority to U.S. Provisional Application No. 62/372,129, also entitled “BEVERAGE CONTAINER PACKAGING,” filed on Aug. 8, 2016, both of which are incorporated by reference herein in their entirety for all purposes.
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Number | Date | Country | |
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20190071208 A1 | Mar 2019 | US |
Number | Date | Country | |
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62372129 | Aug 2016 | US |
Number | Date | Country | |
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Parent | 15671348 | Aug 2017 | US |
Child | 16180840 | US |