PACKAGING AND BLANKS THEREFOR

Abstract

A blank for a package configured to retain an article therein can be configured to be wrapped around the article to form a circumferential case around the article and have a longitudinal length longer than the article. The blank can be configured to define the circumferential case to include one or more inward protrusions at or near one or more ends of the circumferential case that is configured to extend into the circumferential case above and/or below the article to retain the article longitudinally.

Description

BACKGROUND

1. Field

The present disclosure relates to packaging, more specifically to product packaging (e.g., for cylindrical objects such as candles)

2. Description of Related Art

Packaging for cylindrical products (e.g., a candle) is traditionally done in a box that is filled with packaging foam or other material. Such boxes do not conform to a shape of the product, can be time consuming to prepare from a blank, and are wasteful of packaging material and the material needed to make the box.

Such conventional methods and systems have generally been considered satisfactory for their intended purpose. However, there is still a need in the art for improved packaging and blanks therefor. The present disclosure provides a solution for this need.

SUMMARY

In accordance with at least one aspect of this disclosure, a blank for a package configured to retain an article therein can be configured to be wrapped around the article to form a circumferential case around the article and have a longitudinal length longer than the article. The blank can be configured to define the circumferential case to include one or more inward protrusions at or near one or more ends of the circumferential case that is configured to extend into the circumferential case above and/or below the article to retain the article longitudinally.

The blank can be configured to form the circumferential case to have a polygonal tube shape having a polygonal cross-sectional shape. The blank can be configured to form the circumferential case to include one or more of the inward protrusions at or near both ends of the circumferential case to retain the article between both ends of the circumferential case. In certain embodiments, the blank can be configured to form at least one latch and a receiver for each latch to latch the circumferential case around the article.

In certain embodiments, the blank can include an inner flap and an outer flap. The inner flap can include a plurality of inner flap hinges. The plurality of inner flap hinges can define a first inner panel and a second panel of the inner flap. The first inner panel and second inner panel can include one or more common cuts defined at last partially through each of the first inner panel and the second inner panel. A plurality of secondary hinges can be defined in the first inner panel and the second inner panel from an edge of the inner flap to a respective common cut to define at least one push-in subpanel configured to form one or more of the one or more inward protrusions.

The outer flap can include a plurality of outer flap hinges. The plurality of outer flap hinges can define a first outer panel and a second outer panel. The first outer panel and the second outer panel can define one or more apertures from or near an edge of the outer flap to provide a user access to each push-in subpanel when formed around the article to allow a user to selectively form the one or more inward protrusions.

In certain embodiments, the plurality of inner flap hinges can define a third inner panel and a fourth inner panel of the inner flap. The third inner panel and the fourth inner panel can include one or more common cuts defined at last partially through each of the third inner panel and the fourth inner panel. A plurality of secondary hinges can be defined in the third inner panel and the fourth inner panel from an edge of the inner flap to a respective common cut to define at least one additional push-in subpanel configured to form one or more of the one or more inward protrusions.

In certain embodiments, the first, second, third, and fourth inner panels can include two common cuts total on opposite sides of the inner flap configured to form at least one of the inner protrusions at each end of the circumferential case to retain the article between both ends of the circumferential case. The third panel can include a receiver defined therein and configured to receive a latch tab of the blank. The plurality of inner flap hinges can define a fifth inner panel between the first, second, third, and fourth inner panels.

The plurality of outer flap hinges can define a third outer panel and a fourth outer panel. The third outer panel and the fourth outer panel can define one or more additional apertures from or near an edge of the outer flap to provide a user access to the one or more additional push-in subpanels when formed around the article to allow a user to selectively form the one or more inward protrusions.

The first, second, third, and fourth outer panels can include at least two apertures total on opposite sides of the outer flap to provide access to one or more subpanels to allow a user to selectively form at least one inward protrusion at each end of the circumferential casing. The plurality of outer flap hinges define a fifth outer panel between the first, second, third, and fourth outer panels.

The plurality of outer flap hinges can define a sixth outer panel and a seventh outer panel extending from opposite lateral ends of the outer flap. The sixth outer panel can include the latch tab extending therefrom. The seventh outer panel can include a latch cut defined between the seventh outer panel and an adjacent panel and configured to allow the latch tab to be inserted through the latch cut to enter the receiver of the inner flap.

In certain embodiments, the fifth inner panel can be connected to the fifth outer panel at a flap hinge such that the inner flap can be folded over to mate with the outer flap. In certain embodiments, the inner flap can be adhered to the outer flap such that at least one panel of the inner flap is attached to at least one panel of the outer flap. The inner flap can be adhered to the outer flap such that each push-in subpanel is accessible through an aperture of the outer flap.

In certain embodiments, the blank can include a single flap having a plurality of hinges that define a plurality of panels, and at least one structure panel having a first attachment tab configured to attach to at least one of the plurality of panels when the structure panel is folded over at an adjacent hinge of the plurality of hinges. The at least one structure panel can include one or more inward protrusion panels defined by one or more cut therein and configured to form at least one of the one or more inward protrusions across the circumferential case when the attachment tab is attached to the at least one panel of the plurality of panels and when the single flap is wrapped around the article to automatically retain the article longitudinally upon forming of the circumferential case.

The blank can define a first structure panel and a second structure panel. In certain embodiments, each of the first and second structure panel can include at least two cuts total, at least one on each longitudinal side of the single flap to form at least one inner protrusion panel on each longitudinal end of the circumferential case.

The first structure panel can include a plurality of midsection panels defined between two inward protrusion panels. The second structure can define a latch tab of the structure panel between two inward protrusion panels. A cut receiver can be defined in a hinge adjacent to the first structure panel for the latch tab to be inserted therethrough and retained thereby.

In accordance with at least one aspect of this disclosure, a blank for a package configured to retain an article therein can be configured to be wrapped around the article to form a circumferential case around the article having a longitudinal length longer than the article. In embodiments, the blank can be configured to define the circumferential case to include two inward protrusions, one at each end of the circumferential case. In certain embodiments, the two inward protrusions can be configured to extend into the circumferential case, one above the article and one below the article, to retain the article longitudinally. In certain embodiments, the two inward protrusions can be disposed in the same or a similar circumferential position of the circumferential case. In certain embodiments, the two inward protrusions can be the only protrusions in the circumferential case.

The blank can be configured to form the circumferential case to have a polygonal tube shape having a polygonal cross-sectional shape. The blank can be configured to form at least one latch and a receiver for each latch to latch the circumferential case around the article.

In embodiments, the blank can include an inner flap. The inner flap can include a plurality of inner flap hinges, where the plurality of inner flap hinges can define a first inner panel and a second panel of the inner flap. The first inner panel and second inner panel can include one or more common cuts defined at last partially through each of the first inner panel and the second inner panel, and a plurality of secondary hinges defined in the first inner panel and the second inner panel from an edge of the inner flap to a respective common cut to define at least one push-in subpanel configured to form one or more of the two inward protrusions.

The blank can also include an outer flap. In embodiments, the outer flap can include a plurality of outer flap hinges, where the plurality of outer flap hinges can define a first outer panel and a second outer panel. The first outer panel and the second outer panel can define one or more apertures from or near an edge of the outer flap to provide a user access to each push-in subpanel when formed around the article to allow a user to selectively form the one or more inward protrusions.

In embodiments, the plurality of inner flap hinges can define a third inner panel, a fourth inner panel of the inner flap, and a fifth inner panel between the first, second, third, and fourth inner panels. The third panel can include a receiver defined therein and configured to receive a latch tab of the blank. In embodiments, the first and second, outer panels can include two apertures total defined therein, each aperture located on opposite sides of the outer flap to provide access to one or more subpanels to allow a user to selectively form at least one inward protrusion at each end of the circumferential case. In embodiments, the inner flap can be configured to be adhered to the outer flap such that each push-in subpanel is accessible through an aperture of the outer flap.

In embodiments, the plurality of outer flap hinges can define a fifth outer panel between the first, second, third, and fourth outer panels. The plurality of outer flap hinges can define a sixth outer panel and a seventh outer panel extending from opposite lateral ends of the outer flap.

In embodiments, the sixth outer panel can include the latch tab extending therefrom, and the seventh outer panel can include a latch cut defined between the seventh outer panel and an adjacent panel and configured to allow the latch tab to be inserted through the latch cut to enter the receiver of the inner flap.

In embodiments, the fifth inner panel can be connected to the fifth outer panel at a flap hinge such that the inner flap can be folded over to mate with the outer flap. In embodiments, the inner flap can be configured to be adhered to the outer flap such that at least one panel of the inner flap is attached to at least one panel of the outer flap. In embodiments, the inner flap can be configured to be adhered to the outer flap.

In accordance with at least one aspect of this disclosure, a blank for a package configured to retain an article therein can be configured to be wrapped around the article to form a circumferential case around the article having a longitudinal length longer than the article. In certain embodiments, the blank can be configured to define the circumferential case to include two inward protrusions, one at each end of the circumferential case, the two inward protrusions can be configured to extend into the circumferential case, one above the article and one below the article, to retain the article longitudinally.

In certain embodiments, the blank can include a single flap having a plurality of hinges that define a plurality of panels, and a structure panel configured to attach to at least one of the plurality of panels when the structure panel is folded over at an adjacent hinge of the plurality of hinges. In embodiments, the structure panel can include one or more inward protrusion panels defined by one or more cuts therein and configured to form one or more inward protrusions across the circumferential case when the single flap is wrapped around the article to automatically retain the article longitudinally upon forming of the circumferential case.

In certain embodiments, the two inward protrusion panels are retained against an inner circumference of the circumferential case without adhesive. In certain embodiments, the two inward protrusion panels cam ne configured to bisect the circumferential container at each longitudinal end. In certain embodiments, the two inward protrusion panels can form a substantially 90 degree angle between a respective inward protrusion panel and a respective panel to which the respective inward protrusion panel is attached.

In certain embodiments, the structure panel can include at least two cuts total, at least one on each longitudinal side of the single flap to form at least one inner protrusion panel on each longitudinal end of the circumferential case. The structure panel can include a plurality of midsection panels and a latch tab defined between two inward protrusion panels.

In embodiments, at least one panel of the plurality of panels can define an attachment tab extending outward therefrom. A first cut receiver can be defined in a hinge adjacent to the structure panel for the attachment tab to be inserted therethrough and retained thereby. A second cut receiver can be defined in an hinge adjacent to the at least one panel for the latch tab to be inserted therethrough and retained thereby.

In certain embodiments, the at least one panel of the plurality of panels can include an attachment portion extending therefrom. The attachment portion can include one or more wing panels forming a respective clearance between an inner edge of the one or more wing panels and an outer edge of the at least one panel of the plurality of panels. The two inward protrusion panels can be held within the respective clearance when the single flap is wrapped around the article. In certain embodiments, a portion of the structure panel can overlap a portion of the at least one panel of the plurality of panels when the attachment tab is attached to the at least one panel of the plurality of panels. The portion of the structure panel can be adhered to the portion of the at least one panel (e.g., via the overlap).

In accordance with at least one aspect of this disclosure, a blank for a package configured to retain an article therein can be configured to be wrapped around the article to form a circumferential case around the article having a longitudinal length longer than the article. In certain embodiments, the blank can be configured to define the circumferential case to include one or more inward protrusions at or near one or more ends of the circumferential case that is configured to extend into the circumferential case above and/or below the article to retain the article longitudinally. In certain embodiments, the blank includes a single flap having a plurality of hinges that define a plurality of panels, and at least one structure panel having a first attachment portion configured to attach to at least one of the plurality of panels when the structure panel is folded over at an adjacent hinge of the plurality of hinges. In certain embodiments, the at least one structure panel can include one or more inward protrusion panels defined by one or more cut therein and configured to form at least one of the one or more inward protrusions across the circumferential case when the attachment portion is attached to the at least one panel of the plurality of panels and the single flap is wrapped around the article to automatically retain the article longitudinally upon forming of the circumferential case.

In accordance with at least one aspect of this disclosure, a method for forming a container can include, folding a first panel of a blank along a first fold line and attaching at least a portion of the first panel to a second panel, placing an article on the blank and at least partially on or in the first panel, and attaching at least a portion of a third panel to the first panel such that one or more additional panels wrap circumferentially around the article. The method can further include, erecting two inward protrusion panels, one above the article and one below the article, to retain the article longitudinally.

In certain embodiments, attaching can include inserting an attachment tab defined on the third panel into a receiver defined in the first panel. In certain embodiments, attaching can include adhering at least a portion of the first panel to the third panel. In certain embodiments, erecting can include forming two inward protrusions via a respective push-in sub panel of the two inward protrusion panels. In embodiments, the two inward protrusion panels can bisect the container at each longitudinal end.

These and other features of the systems and methods of the subject disclosure will become more readily apparent to those skilled in the art from the following detailed description taken in conjunction with the drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

So that those skilled in the art to which the subject disclosure appertains will readily understand how to make and use the devices and methods of the subject disclosure without undue experimentation, embodiments thereof will be described in detail herein below with reference to certain figures, wherein:

FIG. 1 is a plan view of an embodiment of a blank in accordance with this disclosure;

FIG. 2 is a perspective view of the blank of FIG. 1 having an inner flap contacting and/or attached to an outer flap, showing the inner flap being folded from a flat position (shown in phantom) to the folded position to contact the outer flap;

FIGS. 3-7 are perspective views illustrating an embodiment of a method for packaging an article using the blank of FIG. 1 in accordance with this disclosure;

FIG. 8 shows a perspective view of an article contained within a packaging made from a blank of FIG. 1;

FIG. 9 is a plan view of another embodiment of a blank in accordance with this disclosure;

FIG. 10 is a perspective view of the blank of FIG. 9, shown in a folded state and having attachment tabs attached to a panel of the blank;

FIGS. 11-13 are perspective views illustrating an embodiment of a method for packaging an article using the blank of FIG. 9 in accordance with this disclosure;

FIG. 14 shows a perspective view of an article contained within a packaging made from a blank of FIG. 9;

FIG. 15 is a plan view of an embodiment of a blank in accordance with this disclosure;

FIG. 16 is a perspective view illustrating an embodiment of a method for packaging an article using the blank of FIG. 15 in accordance with this disclosure;

FIG. 17 shows a perspective view of an article contained within a packaging made from a blank of FIG. 15, where a portion of the article is broken away for clarity;

FIG. 18 is a plan view of an embodiment of a blank in accordance with this disclosure;

FIGS. 19-27 show a perspective view illustrating an embodiment of a method for packaging an article using the blank of FIG. 18 in accordance with this disclosure;

FIG. 28 shows a perspective view of an article contained within a packaging made from a blank of FIG. 18;

FIG. 29 is a plan view of an embodiment of a blank in accordance with this disclosure;

FIGS. 30-37 show a perspective view illustrating an embodiment of a method for packaging an article using the blank of FIG. 29 in accordance with this disclosure; and

FIG. 38 shows a perspective view of an article contained within a packaging made from a blank of FIG. 29.

DETAILED DESCRIPTION

Reference will now be made to the drawings wherein like reference numerals identify similar structural features or aspects of the subject disclosure. For purposes of explanation and illustration, and not limitation, an illustrative view of an embodiment of a blank in accordance with the disclosure is shown in FIG. 1 and is designated generally by reference character 100. Other embodiments and/or aspects of this disclosure are shown in FIGS. 2-38.

Referring generally to FIGS. 1-14, in accordance with at least one aspect of this disclosure, a blank (e.g., blank 100 as shown in FIG. 1, blank 900 as shown in FIG. 9) for a package (e.g., package 199 as shown in FIG. 8, package 999 as shown in FIG. 14) configured to retain an article 99 therein can be configured to be wrapped around the article 99 to form a circumferential case (e.g., case 101 in FIG. 8, case 901 in FIG. 14) around the article 99 and have a longitudinal length “L” longer than the article 99. The blank (e.g., 100, 999) can be configured to define the circumferential case (e.g., 101, 901) to include one or more inward protrusions (e.g., protrusions 103 as shown in FIG. 8, protrusions 903 as shown in FIG. 14) at or near one or more ends of the circumferential case (e.g., 101, 901) that is configured to extend into (e.g., radially inwardly into) the circumferential case (e.g., 101, 901) above and/or below the article 99 to retain the article 99 longitudinally.

As shown, the blank (e.g., 100, 900) can be configured to form the circumferential case (e.g., 101, 901) to have a polygonal tube shape having a polygonal cross-sectional shape. The blank (e.g., 100, 900) can be configured to form the circumferential case (e.g., 101, 901) to include one or more of the inward protrusions (e.g., 103, 903) at or near both ends of the circumferential case (e.g., 101, 901) to retain the article 99 between both longitudinal ends of the circumferential case (e.g., 101, 901). In certain embodiments, the blank (e.g., 101, 901) can be configured to form at least one latch (e.g., latch 105 as shown in FIG. 8, latch 905 as shown in FIG. 14) and a receiver (e.g., receiver 107 as shown in FIG. 8, receiver 907 as shown in FIG. 14) for each latch (e.g., 105, 109) to latch the circumferential case (e.g., 101, 901) around the article 99.

Referring to the embodiment of FIGS. 1-9, in certain embodiments, a blank 100 can include an inner flap 109 and an outer flap 111. The inner flap 109 can include a plurality of inner flap hinges 113a, b, c, d. One or more of the plurality of inner flap hinges 113a, b, c, d (e.g., 113d as shown) can define a first inner panel 115a and a second panel 115b of the inner flap 109.

The first inner panel 115a and second inner panel 115b can include one or more common cuts 117a, 117b defined at last partially through each of the first inner panel 115a and the second inner panel 115b. The one or more common cuts 117a, 117b can be defined by an aperture as shown, or can include any suitable line cut, or breakable perforation.

One or more of a plurality of secondary hinges 119a, b, c, d, e can be defined in each of the first inner panel 115a and the second inner panel 115b from an edge 121a, 121b of the inner flap 109 to a respective common cut 117a, 117b to define at least one push-in subpanel 123a, b, c, d configured to form one or more of the one or more inward protrusions 103.

The outer flap 111 can include a plurality of outer flap hinges 125a, b, c, d, e, f One or more of the plurality of outer flap hinges 125a, b, c, d, e, f can define a first outer panel 127a and a second outer panel 127b. The first outer panel 127a and the second outer panel 127b can define one or more apertures 129a, 129b from or near an edge 131a, 131b of the outer flap 111 to provide a user access to each of the one or more push-in subpanels 123a, b, c, d when formed around the article 99 to allow a user to selectively form the one or more inward protrusions 103.

In certain embodiments, the plurality of inner flap hinges (e.g., 113a as shown) can define a third inner panel 115c and a fourth inner panel 115d of the inner flap 109. The third inner panel 115c and the fourth inner panel 115d can include one or more common cuts 117c, 117d defined at last partially through each of the third inner panel 115c and the fourth inner panel 115d. The one or more common cuts 117c, 117d can be the same as or similar to those as described above, for example. One or more of a plurality of secondary hinges 119f, g, h, i, j, k can be defined in each of the third inner panel 115c and the fourth inner panel 115d from an edge 121a, 121b of the inner flap 109 to a respective common cut 117c, 117d to define at least one additional push-in subpanel 123e, 123f, 123g, 123h configured to form one or more of the one or more inward protrusions 103.

In certain embodiments, the first, second, third, and fourth inner panels 115a, b, c, d can include two common cuts total on opposite sides of the inner flap (e.g., only common cut 117a and 117d) configured to form at least one of the inner protrusions 103 at each end of the circumferential case 101 to retain the article 99 between both ends of the circumferential case 101.

As shown, the third panel 115c (e.g., an end panel) can include a receiver 133 defined therein and configured to receive a latch tab 135 (e.g., located on the outer flap 111) of the blank 100. Any suitable number of latch tabs 135 and/or receiver 133. The plurality of inner flap hinges (e.g., 113b and 113c) can define a fifth inner panel 115e between the first, second, third, and fourth inner panels 115a, b, c, d.

The plurality of outer flap hinges (e.g., hinge 125b) can define a third outer panel 127c and a fourth outer panel 127d. The third outer panel 127c and the fourth outer panel 127d can define one or more additional apertures 129c, 129d from or near an edge 131a, 131b of the outer flap 111 to provide a user access to the one or more additional push-in subpanels 123e, f, g, h when formed around the article 99 to allow a user to selectively form the one or more inward protrusions 103.

In certain embodiments, the first, second, third, and fourth outer panels 127a, b, c, d can include at least two apertures 129a, b, c, d total on opposite sides of the outer flap 111 (e.g., only aperture 129a, 129b) to provide access to one or more subpanels (e.g., subpanels 123a, 123b, 123g, 123h) to allow a user to selectively form one inward protrusion 103 at each end of the circumferential casing 101. A plurality of the outer flap hinges (e.g., hinges 125c and 125d) can define a fifth outer panel 127e between the first, second, third, and fourth outer panels 127a, b, c, d.

One or more of the plurality of outer flap hinges (e.g., 125a or 125f) an define a sixth outer panel 127f and a seventh outer panel 127g extending from opposite lateral ends of the outer flap 111. The sixth outer panel 127f can include the latch tab 135 extending therefrom. The seventh outer panel 127g can include a latch cut 137 defined between the seventh outer panel 127g and an adjacent panel (e.g., panel 127c as shown) and configured to allow the latch tab 135 to be inserted through the latch cut 137 to enter the receiver 133 of the inner flap 109. The latch cut 137 can be defined in a hinge (e.g., hinge 125a). Any suitable number of latch cuts 137 are contemplated herein (e.g., one for each latch tab).

In certain embodiments, the fifth inner panel 115e can be connected to the fifth outer panel 127e at a flap hinge 139 such that the inner flap 109 can be folded over to mate with the outer flap 111 as shown in FIG. 2. In certain embodiments, the inner flap 109 can be adhered to the outer flap 111 such that at least one panel (e.g., panel 115e, or panels 115b, d, and e) of the inner flap 109 is attached to at least one panel (e.g., panel 127e, or panels 127b, d, and e) of the outer flap 111. The inner flap 109 can be adhered to the outer flap 111 such that each push-in subpanel 123a-123h is accessible through an aperture 129a-129d of the outer flap 111.

Referring to FIGS. 3-8, an article 99 can be placed on the blank 100 after the inner flap 109 is contacting and/or adhered to the outer flap 111 as shown, for example, as shown in FIG. 3. The assembled blank 100 can then be folded around the article 99 to form the circumferential casing 101 as shown in FIGS. 4 and 5. The panel 127f can overlap panel 127g and a latch tab 135 can be inserted into the latch cut 137 to lock the circumferential casing 101. As shown in FIGS. 6 and 7, the inward protrusions 103 can be formed by pushing in the push-in subpanels 123a, 123b, 123e, 123f as shown. The same can be performed on the push-in subpanels 123c, d, g, and h on the reverse longitudinal side and the package 199 can be completed to retain the article 99.

Referring to FIGS. 9-14, in certain embodiments, a blank 900 can include a single flap 909 having a plurality of hinges 911a, b, c, d, e, f, g, h that define a plurality of panels 913a, b, c, d, e, f, g. The blank 900 can include one or more structure panels, e.g., a first structure panel 915 and a second structure panel 917. The first structure panel 915 can include a first attachment tab 915a configured to attach to at least one of the plurality of panels 913a-g (e.g., center panel 913d) when the first structure panel 915 is folded over at an adjacent hinge (e.g., 911a and/or 911b) of the plurality of hinges 911a-h (e.g., as shown in FIG. 10). The second structure panel 917 can include a first attachment tab 917a configured to attach to at least one of the plurality of panels 913a-g (e.g., center panel 913d) when the first structure panel 917 is folded over at an adjacent hinge (e.g., 911h and/or 911g) of the plurality of hinges 911a-h (e.g., as shown in FIG. 10). The first attachment tab 915a and the second attachment tab 917a can be attached to their respective structure panels 915, 917 by an attachment hinge 921, 923.

The at least one or more structure panels, e.g., 915, 917 can include one or more inward protrusion panels 915b, c and 917b, c defined by one or more cut 915d, 915e and 917d, 915e therein. The inward protrusion panels 915b, 915c and 917b, 917c can be configured to form the one or more inward protrusions 903, e.g., across the circumferential case 901 when the one or more attachment tabs 915a, 917a are attached to the at least one panel e.g., panel 913d, of the plurality of panels 913a-g and when the single flap 900 is wrapped around the article 99 to automatically retain the article 99 longitudinally upon forming of the circumferential case 901.

As shown, the blank 900 can define a first structure panel 915 and a second structure panel 917. In certain embodiments, each of the first and second structure panels 915, 917 can include at least two cuts total (e.g., only cut 917d and cut 915c), at least one on each longitudinal side of the single flap 909 to form at least one inner protrusion panel (e.g., only 917b and 915c) on each longitudinal end of the circumferential case 901. Any suitable number of cuts and panels is contemplated herein.

The first structure panel 915 can include a plurality of midsection panels 915f, 915g defined between two inward protrusion panels 915b, 915c. The second structure panel 917 can define a latch tab 917f of the structure panel 917 between two inward protrusion panels 917b, 917c. A cut receiver 919 can be defined in a hinge (e.g., hinge 911b) adjacent to the first structure panel 915 for the latch tab 917f to be inserted therethrough and retained thereby. The latch tab 917f can be defined by one or more breakable connections (e.g., a score line or perforation) and/or cuts to be partially lifted (e.g., by inserting a finger into an adjacent hole to get under the latch tab 917f) from the structure panel 917 and/or hinged around a hinge (e.g., hinge 911h as shown) to be rotatable relative to the second structure panel 917. In certain embodiments, the latch tab 917 can include one or more sub hinges (e.g., at an arrowhead portion thereof).

Referring to FIGS. 10-14, a blank 900 can be folded over to be assembled. The attachment tabs 915a, 917a can be attached to one or more panels (e.g., center panel 913d as shown) e.g., with tape and/or adhesive for example. As shown in FIG. 11, an article 99 can be placed on the assembled blank 900 and the blank 900 can be folded around the article 99 while lifting the attachment tab 917f above the article 99 as shown in FIG. 12. In doing so, the one or more inward protrusions 103 can be formed due to the relationship of the panels as shown in FIGS. 13 and 14. The package 999 can be secured by inserted the attachment tab 917f into the receiver 919.

In accordance with at least one aspect of this disclosure, another embodiment of a blank 1500 for another embodiment of a package 1599 configured to retain an article 99 therein is shown in FIGS. 15-17. The blank 1500 can have similar components and features with respect to blank 100 and package 199. For brevity, the description of common elements that have been described above for blank 100 and package 199 are not repeated with respect to the blank 1500 and the package 1599a as shown in FIGS. 15-17.

As shown in the embodiment of the blank 1500 in FIGS. 15-17, the inner flap 1509 can include a plurality of inner flap hinges 1513a, b, c, d and the one or more common cuts 1517a, 1517b can be defined in only the first inner panel 1515a and second inner panel 1515b to define at least one push-in subpanel 1523a, b, c, d configured to form one or more of the one or more inward protrusions 1503. In the package 1599, the two inward protrusions 1503 can be disposed in the same or a similar circumferential position of the circumferential case 1501, for example on the same side of the case 1501 and on the same side of the article 99 when in the package 1599 as shown in FIG. 17. As shown, in certain embodiments, the two inward protrusions 1503 can be the only protrusions in the circumferential case 1501. In embodiments, the inner flap 1509 can be configured to be adhered to the outer flap 1511 along one or more of glue lines 1541 such that at least one panel of the inner flap 1509 is attached to at least one panel of the outer flap 1511 in the case 1501.

The outer flap 1511 can include a plurality of outer flap hinges 1525a, b, c, d, e, f One or more of the plurality of outer flap hinges 1525a, b, c, d, e, f can define one or more outer panels 1527a, b, c, d, e, f, g. Outer panels 1527a and 1527b can define one or more apertures 1529a, 1529b formed on or near an edge 1531a, 1531b of the outer flap 1511 to provide a user access to each of the one or more push-in subpanels 1523a, b, c, d when formed around the article 99 to allow a user to selectively form the one or more inward protrusions 1503.

As shown in FIGS. 16 and 17, the blank 1500 can be formed into case 1501 in a similar manner to that of blank 100, where the article 99 can be placed on the blank 1500 after the inner flap 1509 is contacting and/or adhered to the outer flap 1511 as shown. The assembled blank 1500 can then be folded around the article 99 to form the circumferential casing 1501 as shown in FIGS. 16 and 17 (e.g., similar to that shown in FIGS. 2-5 for the blank 100). The panel 1527f can overlap panel 1527g and a latch tab 1535 can be inserted into the latch cut 1537 and through receiver 1533 to lock the circumferential casing 1501. The inward protrusions 1503 can be formed by pushing in the push-in subpanels 1523a and 1523b. The same can be performed on the push-in subpanels 1523c and 1523d on the reverse longitudinal side and the package 1599 can be completed to retain the article 99 (e.g., similar to that shown in FIGS. 6-8 for the package 199). The inner flap hinges 1513a, b, c, d can also define a third inner panel 1515c, a fourth inner panel 1515d, and a fifth inner panel 1515e. In certain embodiments, although not shown, subpanels 1523a, 1523b, 1523c and 1523d can be alternatively formed on can be formed on 1515c or 1515d. In such embodiments, the one or more apertures 1529a, 1529b can be defined in outer panels 1527c and 1527d.

In accordance with at least one aspect of this disclosure, another embodiment of a blank 2300 for another embodiment of a package 2399 configured to retain an article therein is shown in FIGS. 18-28. The blank 2300 can have similar components and features with respect to the blank 900 and the package 999. For brevity, the description of common elements that have been described above for the blank 900 and the package 999 are not repeated with respect to the blank 2300 and the package 2399 as shown in FIGS. 18-28.

As shown in the embodiment of the blank 2300, the single flap 2309 can include a first panel 2315 and a structure panel 2317 (e.g., a single structure panel 2317) to form one or more inward protrusions 2303 across the circumferential case 2301 when the single flap 2309 is wrapped around the article 99 to automatically retain the article 99 longitudinally upon forming of the circumferential case 2301. The first panel 2315 can include an attachment portion 2315a configured to attach to at least a portion of the structure panel 2317 (e.g., at a receiver 2312 defined in the hinge 2311h immediately adjacent the structure panel 2317) when the first panel 2315 is folded over at an adjacent hinge (e.g., 2311a.) The structure panel 2317 can also include an attachment portion 2317a configured to attach to at least a portion of the single flap 2309 (e.g., attached to an inner circumference of the case 2301 at panel 2313d without adhesive). Another attachment portion (e.g., attachment tab 2317f) can be defined between the two inward protrusion panels 2317b, 2317c configured to attach to at least a portion of the first panel 2315 (e.g., at a receiver 2314 defined in the hinge 2311a immediately adjacent the first panel 2315) when the structure panel 2317 is folded over at an adjacent hinge (e.g., 2311h).

The one or more inward protrusion panels 2317b, 2317c can be defined by a void 2317d. The inward protrusion panels 2317b, 2317c can be configured to form the one or more inward protrusions 2303, e.g., across the circumferential case 2301 when the one or more attachment portions 2315a, 2317a are attached to their respective receivers 2312, 2314 when the single flap 2309 is wrapped around the article 99 to automatically retain the article 99 longitudinally upon forming of the circumferential case 2301. The structure panel 2317 can be the only structure panel such that only two inward protrusions 2303 are formed in the case 2301, one at each longitudinal end of the case 2301. The two inward protrusions 2303 can bisect the circumferential case 2301, forming respective substantially 90 degree angles relative to panels 2313d, 2313g, and 2315.

To form the circumferential case 2301, the structure panel 2317 can be folded to attach the first attachment portion 2317a to a portion of panel 2313d and the article 99 can be placed in the void 2317d between the two inward protrusion panels 2317b, 2317c. The first panel 2315 can be folded upward to warp around the article 99 so that the attachment portion 2315a can be inserted into receiver 2312. The attachment portion 2317f can then be inserted into receiver 2314 to lock the circumferential case 2301. In attaching the respective attachment portions 2315a, 2317a, 2317f, the inward protrusion panels 2317b, 2317c can erect to an upright position so as to form the respective substantially 90 degree angles to retain the article 99 within the case 2301 longitudinally. The blank 2300 can be configured to allow construction of the case 2301 without the use of adhesive and in such a manner that can be performed automatically by a folding machine or erector, for example. In embodiments, the dimensions of certain features, (e.g., the inward protrusion panels, the structure panel, the middle panels, the flaps, and/or attachment portions, among others) can be modified as needed for use with an automated machinery or for otherwise automatic folding, and one having ordinary skill in the art in view of this disclosure would appreciate how to modify such dimensions to prepare a blank or container for automation without undue experimentation.

In accordance with at least one aspect of this disclosure, another embodiment of a blank 3000 for another embodiment of a package 3099 configured to retain an article therein is shown in FIGS. 29-38. The blank 3000 can have similar components and features with respect to the blank 2300 and the package 2399. For brevity, the description of common elements that have been described above for the blank 2300 and the package 2399 are not repeated with respect to the blank 3000 and the package 3099 as shown in FIGS. 29-38.

As shown in the embodiment of the blank 3000, the structure panel 3017 may not include a second attachment portion (e.g., no additional attachment tab between the inward protrusion panels 3017b, 3017c). Instead, the first panel 3015 can include attachment portion 3015a, which can further include wing panels 3016a, 3016b, forming a clearance 3018 between an inner edge of the wing panels 3016a, 3016b and an outer edge 3020 of the first panel 3015. When erected into the case 3001, the two inward protrusion panels 3017b, 3017c can be held in place (e.g., locked) within the respective clearance 3018 when the single flap 3009 is wrapped around the article 99. Additionally, locking may be provided by adhering an overhang 3022 of the structure panel 3017 and defined at least partially by panel 3013g, to a portion of the first panel 3015 when the case 3001 is constructed.

The case 3001 can be formed in a similar manner to that of the circumferential case 2301, except in the circumferential case 3001 instead of inserting the attachment portion 3015a into a receiver, the wing panels 3016a, 3016b can be folded downward (e.g., radially inward with respect to the circumferential case 3001) to slide past the erected inward protrusion panels 3017b, 3017c until the inward protrusion panels 3017b, 3017c abut the outer edge 3020 of the first panel 3015, then the wing panels 3016a, 3016b can be folded upward (e.g., axially) to lock the inward protrusion panels 3017b, 3017c within the respective clearances 3018. At least one of the overhang 3022 and/or the first panel 3015 can include the glue (e.g., glue line 3041) for adhering the structure panel 3017 to the first panel 3015.

In accordance with at least one aspect of this disclosure, a method for forming a container (e.g., any of circumferential cases 101, 901, 1501, 2301, 3001) can include folding a first panel (e.g., inner flap 109, 1509 or structure panel 917, 2317, 3017) of a blank along a hinge and attaching at least a portion of the first panel to a second panel (e.g., outer flap 111, 1511 or panel 913d, 2313d, 3013d). If a second structure panel is included (e.g., structure panel 915), the method can include folding the second structure panel along a hinge and attaching the second structure panel to at least a portion of the second panel (e.g., panel 913d).

The method can include placing an article (e.g., article 99) on the blank and at least partially on or in the first panel (e.g., on the inner panel 109, 1509 or within structure panel 915, 917, 2315, 3015). The method can further include attaching at least a portion of a third panel (e.g., an attachment portion 135, 917, 2315, 3015 to the first panel such that one or more additional panels wrap (e.g., midsection panels) circumferentially around the article. The method can include erecting two inward protrusion panels (e.g., 103, 903, 1503, 2303, 3003), one above the article and one below the article, to retain the article longitudinally.

In certain embodiments, attaching can include inserting an attachment tab defined on the third panel into a receiver (e.g., receiver 2312) defined in the first panel. In certain embodiments, attaching can include adhering at least a portion (e.g., overhang 3022) of the first panel to the third panel. In embodiments, erecting can include forming two inward protrusions via a respective push-in sub panel (e.g., push-in sub panels 123, 1523) of the two inward protrusion panels. In embodiments, erecting can include forming the two inward protrusions such that the inward protrusion panels bisect the case.

Certain embodiments include a single protective sleeve or wrap that provides protection on all sides of an item, e.g., round articles with a flat top and bottom such as a glass candle jar, for example. Embodiments can be used in conjunction with any additional shipping box or any other suitable transporting container.

Certain embodiments provide a protective wrap that can be designed in a way as to provide a double layer (e.g., where overlapping panels exist) of material protection around the perimeter of an object and additional pop ins at the top and bottom to create an area for cushioning using the open space or air cell. Certain embodiments allow the simple folding around the object to form the top and bottom air cells automatically. Certain embodiments allow a handler to pop in the top and bottom air cell feature manually.

Embodiments can be used to quickly and securely contain certain articles (e.g., round or cylindrical shapes). The invention may be used in, e.g., any industry that ships fragile jar type items. Embodiments can be utilized to contain any article type having any suitable shape.

As disclosed herein, any and/or all hinges can be any suitable hinge and can be or include any suitable indentation, perforation, and/or score line. Any aperture or cut disclosed herein can be defined in the blank as a removable portion by defining the aperture or cut with a breakable connection (e.g., a score line or perforations). Any suitable embodiments can be made from paper, plastic, and/or any other suitable material. Any suitable number of panels can be utilized herein and any panels can include any suitable shape. Any suitable latch and/or retainer disclosed herein can include any suitable shape to perform an associated function. Embodiments can include any suitable dimension and/or any additional panels, and/or hinges, and/or cuts configured to retain any suitable article (e.g., a distance between inward protrusions can be about equal to or greater than the length of the article).

Those having ordinary skill in the art understand that any numerical values disclosed herein can be exact values or can be values within a range. Further, any terms of approximation (e.g., “about”, “approximately”, “around”) used in this disclosure can mean the stated value within a range. For example, in certain embodiments, the range can be within (plus or minus) 20%, or within 10%, or within 5%, or within 2%, or within any other suitable percentage or number as appreciated by those having ordinary skill in the art (e.g., for known tolerance limits or error ranges).

Any suitable combination(s) of any disclosed embodiments and/or any suitable portion(s) thereof are contemplated herein as appreciated by those having ordinary skill in the art.

The embodiments of the present disclosure, as described above and shown in the drawings, provide for improvement in the art to which they pertain. While the subject disclosure includes reference to certain embodiments, those skilled in the art will readily appreciate that changes and/or modifications may be made thereto without departing from the spirit and scope of the subject disclosure.

Claims

1. A blank for a package configured to retain an article therein, the blank configured to be wrapped around the article to form a circumferential case around the article having a longitudinal length longer than the article, wherein the blank is configured to define the circumferential case to include two inward protrusions, one at each end of the circumferential case, wherein the two inward protrusions are configured to extend into the circumferential case, to retain the article longitudinally, wherein the two inward protrusions are disposed in substantially similar circumferential position of the circumferential case.

2. The blank of claim 1, wherein the blank is configured to form the circumferential case to have a polygonal tube shape having a polygonal cross-sectional shape.

3. The blank of claim 1, wherein the blank is configured to form at least one latch and a receiver for each latch to latch the circumferential case around the article.

4. The blank of claim 1, wherein the blank comprises: an inner flap, comprising: a plurality of inner flap hinges, wherein the plurality of inner flap hinges define a first inner panel and a second panel of the inner flap, wherein the first inner panel and second inner panel include one or more common cuts defined at last partially through each of the first inner panel and the second inner panel, and a plurality of secondary hinges defined in the first inner panel and the second inner panel from an edge of the inner flap to a respective common cut to define at least one push-in subpanel configured to form one or more of the two inward protrusions; andan outer flap, comprising: a plurality of outer flap hinges, wherein the plurality of outer flap hinges define a first outer panel and a second outer panel, wherein the first outer panel and the second outer panel define one or more apertures from or near an edge of the outer flap to provide a user access to each push-in subpanel when formed around the article to allow a user to selectively form the one or more inward protrusions.

5. The blank of claim 4, wherein the plurality of inner flap hinges define a third inner panel, a fourth inner panel of the inner flap, and a fifth inner panel between the first, second, third, and fourth inner panels.

6. The blank of claim 5, wherein the third panel includes a receiver defined therein and configured to receive a latch tab of the blank.

7. The blank of claim 6, wherein the first and second outer panels include two apertures total defined therein, each aperture located on opposite sides of the outer flap to provide access to one or more subpanels to allow a user to selectively form at least one inward protrusion at each end of the circumferential case.

8. The blank of claim 7, wherein the plurality of outer flap hinges define a fifth outer panel between the first, second, third, and fourth outer panels.

9. The blank of claim 8, wherein the plurality of outer flap hinges define a sixth outer panel and a seventh outer panel extending from opposite lateral ends of the outer flap, wherein the sixth outer panel includes the latch tab extending therefrom, wherein the seventh outer panel includes a latch cut defined between the seventh outer panel and an adjacent panel and configured to allow the latch tab to be inserted through the latch cut to enter the receiver of the inner flap.

10. The blank of claim 9, wherein the fifth inner panel is connected to the fifth outer panel at a flap hinge such that the inner flap can be folded over to mate with the outer flap.

11. The blank of claim 9, wherein the inner flap is configured to be adhered to the outer flap such that at least one panel of the inner flap is attached to at least one panel of the outer flap.

12. The blank of claim 11, wherein the inner flap is configured to be adhered to the outer flap.

13. The blank of claim 10, wherein the inner flap is configured to be adhered to the outer flap such that each push-in subpanel is accessible through an aperture of the outer flap.

14. The blank of claim 1, wherein one of the inward protrusions is configured to be above the article and one of the inward protrusions is configured to be below the article when the blank is formed around the article.

15. A blank for a package configured to retain an article therein, the blank configured to be wrapped around the article to form a circumferential case around the article having a longitudinal length longer than the article, wherein the blank is configured to define the circumferential case to include two inward protrusions, one at each end of the circumferential case, wherein the two inward protrusions are configured to extend into the circumferential case, to retain the article longitudinally the blank comprising: a flap having a plurality of hinges that define a plurality of panels, and a structure panel configured to attach to at least one of the plurality of panels when the structure panel is folded over at an adjacent hinge of the plurality of hinges, the structure panel including one or more inward protrusion panels defined by one or more cuts therein and configured to form one or more inward protrusions across the circumferential case when the flap is wrapped around the article to automatically retain the article longitudinally upon forming of the circumferential case.

16. The blank of claim 15, wherein the structure panel includes at least two cuts total, at least one on each longitudinal side of the flap to form at least one inner protrusion panel on each longitudinal end of the circumferential case.

17. The blank of claim 16, wherein the structure panel includes a plurality of midsection panels and a latch tab defined between two inward protrusion panels.

18. The blank of claim 15, wherein the at least one panel of the plurality of panels defines an attachment tab extending outward therefrom, wherein a first cut receiver is defined in a hinge adjacent to the structure panel for the attachment tab to be inserted therethrough and retained thereby, wherein a second cut receiver is defined in an hinge adjacent to the at least one panel for the latch tab to be inserted therethrough and retained thereby.

19. The blank of claim 15, wherein the two inward protrusion panels are retained against an inner circumference of the circumferential case without adhesive.

20. The blank of claim 15, wherein the at least one panel of the plurality of panels includes an attachment portion extending therefrom, the attachment portion including one or more wing panels forming a respective clearance between an inner edge of the one or more wing panels and an outer edge of the at least one panel of the plurality of panels, wherein the two inward protrusion panels are held within the respective clearance when the flap is wrapped around the article.

21. The blank of claim 20, wherein a portion of the structure panel overlaps a portion of the at least one panel of the plurality of panels when the attachment tab is attached to the at least one panel of the plurality of panels, wherein the portion of the structure panel is adhered to the portion of the at least one panel.

22. The blank of claim 15, wherein the two inward protrusion panels are configured to bisect the circumferential container at each longitudinal end.

23. The blank of claim 22, wherein the two inward protrusion panels form a substantially 90 degree angle between a respective inward protrusion panel and a respective panel to which the respective inward protrusion panel is attached.

24. The blank of claim 16, wherein one of the inward protrusions is configured to be above the article and one of the inward protrusions is configured to be below the article when the blank is formed around the article

25. A blank for a package configured to retain an article therein, the blank configured to be wrapped around the article to form a circumferential case around the article having a longitudinal length longer than the article, wherein the blank is configured to define the circumferential case to include one or more inward protrusions at or near one or more ends of the circumferential case that is configured to extend into the circumferential case to retain the article longitudinally, wherein the blank includes a flap having a plurality of hinges that define a plurality of panels, and at least one structure panel having a first attachment portion configured to attach to at least one of the plurality of panels when the structure panel is folded over at an adjacent hinge of the plurality of hinges, the at least one structure panel including one or more inward protrusion panels defined by one or more cut therein and configured to form at least one of the one or more inward protrusions across the circumferential case when the attachment portion is attached to the at least one panel of the plurality of panels and the flap is wrapped around the article to automatically retain the article longitudinally upon forming of the circumferential case.

26. A method for forming a container, comprising folding a first panel of a blank along a first fold line and attaching at least a portion of the first panel to a second panel;placing an article on the blank and at least partially on or in the first panel;attaching at least a portion of a third panel to the first panel such that one or more additional panels wrap circumferentially around the article; anderecting two inward protrusion panels, one above the article and one below the article, to retain the article longitudinally.

27. The method of claim 26, wherein attaching includes inserting an attachment tab defined on the third panel into a receiver defined in the first panel.

28. The method of claim 26, wherein attaching includes adhering at least a portion of the first panel to the third panel.

29. The method of claim 26, wherein erecting includes forming two inward protrusions via a respective push-in sub panel of the two inward protrusion panels.

30. The method of claim 26, wherein the two inward protrusion panels bisect the container at each longitudinal end.