The present invention relates to vessels and methods of making the same, and more particularly to drinking vessels composed from flexible materials.
It is known in the prior art to provide disposable liquid containers such as paper cups. These cups are generally coated with a substance that prevents the paper container from absorbing or leaking the liquid contained therein. Furthermore, in the restaurant arena, such as fast food restaurants, coffee shops, etc., a separate lid, for example a plastic lid, is provided as a complement to such cups in order to help prevent spillage of a hot beverage, for example. The lids are often plastic lids and some have an opening for insertion of a straw while others form a narrow opening conducive to direct user consumption.
However, since these cups often come in a variety of sizes, a restaurant or coffee shop will generally be required to stock lids in multiple sizes to complement the variety of cup sizes. Accordingly, providing consumers with a variety of cup sizes in the form of devices known in the prior art requires the use of separate items (i.e. the cup and corresponding lid), generally made of different materials and further requires coordination and assembly of these items prior to serving a patron. Furthermore, more organizations are on a quest to provide more environmentally safe products such as 100 percent recyclable cups, which may be harder to facilitate with cups made of different materials than their corresponding lids.
In a first embodiment of the invention there is provided a vessel that includes a sheet of flexible material, cut, rolled, and affixed to form a frusto-conically shaped base region. The sheet, when rolled, also includes an upper region having two opposing flaps. Each flap is delineated from a remaining portion of the sheet by a path along which the sheet is scored. The flaps, when folded along their respective paths, define a single elevated drinking portion having a spout formed between an extension of the base region and at least one of the two flaps.
One of the two flaps may be an outer flap and the other flap may be an inner flap such that the outer flap overlies the inner flap when the two flaps are folded. The outer flap has a first edge shaped to coincide, when the flaps are folded, approximately with the path of scoring in the inner flap. The outer flap may also include a closure tab formed as part of the sheet. The closure tab protrudes from a scored line along the first edge of the outer flap. The scored line permits the closure tab to be folded to overlie a portion of the base region. The closure tab may also be removably attachable to the portion of the base region and may include an adhesive layer.
The inner flap includes a second edge shaped to coincide, when the flaps are folded, approximately with the path of scoring in the outer flap. The inner flap optionally includes an opening tab formed as part of the sheet. The opening tab protrudes from a second scored line along the second edge of the inner flap. The second scored line permits the opening tab to be folded along the second line to protrude upwardly from a plane of a surface of the inner flap. The upwardly protruding opening tab facilitates unfolding of the inner flap after it has been folded.
The outer flap and the inner flap are also shaped to define, when the flaps are folded, a vent opening in an upper region of the vessel opposite the spout.
In a related embodiment, the vessel includes a bottom formed from a second sheet of material, affixed in an opening of the base region, to enable the vessel to retain a liquid placed therein via an opening in the upper region existing when the flaps are unfolded. The bottom is generally circular. The bottom may be formed from material that is a part of the first sheet of material. The bottom may also be folded into a circular flat-bottomed surface having a circumferential wall wherein the circumferential wall is adhered to an interior portion of the base region.
In another related embodiment, the vessel includes a dam disposed on at least one of the opposing flaps to restrain contents of the vessel from flowing between the flaps and escaping from the vessel. The dam may include at least one engaging pair of embossments in the material of the flaps. The dam may include a bead of a second material.
Another embodiment of the present includes a vessel having a frusto-conical portion and a covered spout. The frusto-conical portion and the spout are formed from a single sheet of material. The covered spout is formed by folding a pair of flaps constituting a part of the sheet and the vessel is stackable when the flaps are unfolded.
Another embodiment of the present invention includes a method of making a vessel that includes cutting a sheet of flexible material, scoring, rolling and gluing the sheet into a vessel having a frusto-conically shaped base region. The vessel will also include an upper region having two opposing flaps. Each flap is delineated from a remaining portion of the sheet by a path along which the sheet is scored. The flaps, when folded along their respective paths, define a single elevated drinking portion having a spout formed between an extension of the base region and at least one of the two flaps.
The foregoing features of the invention will be more readily understood by reference to the following detailed description, taken with reference to the accompanying drawings, in which:
Definitions. As used in this description and the accompanying claims, the following terms shall have the meanings indicated, unless the context otherwise requires:
To “affix” a sheet of material is to form a connection between that sheet and another surface. Such a connection may be created using an adhesive layer applied between overlapping portions, or spanning adjacent portions, of the sheet and the other surface being connected. The connection may alternatively, or in addition, be achieved by crimping, fusing, or welding of the sheet to the other surface, under conditions, for example, including the application of one or more of pressure and heat.
A “covered spout” of a vessel is a spout formed by material of the vessel defining and completely surrounding an aperture, so that when the spout is inserted in the mouth of a user in use of the vessel for drinking, the lips of the user may come into contact with the material over a full 360-degree angular extent of the material disposed around the periphery of the aperture.
A “frusto-conical” shape includes a shape similar to a frustum of a cone, including, for example, a pyramidal section having rounded edges, so as to approximate a frustum of a cone.
The overlapping flaps also form a portion of an air relief aperture 105. Flap 103 includes a closing tab 102 in this embodiment. Closing tab 102 is formed as an integral part of the sheet from which the vessel is formed and protrudes from an edge of flap 103. The sheet includes a scored line 124 at the intersection of closure tab 102 and flap 103 to facilitate folding of the tab. The tab may include an adhesive on the side adjacent to the base when folded in order to help maintain the cover in a closed configuration.
Flap 103 also includes central score lines 106 and straight outlying score lines 126 in this embodiment. Central score lines 106 may be preformed into flap 103 in order to facilitate folding the flap into a closed configuration that accommodates the geometry of the vessel. In particular, the central score paths 106 delineate a relatively planar region 120 therebetween, and paths 106 delineate ascending regions 121 and 122 outside of flat region 120.
When flap 103 is folded into the closed position, tab 102 will overlie a portion of the base region. In an embodiment wherein the tab includes an adhesive, the tab will adhere to the portion of the base region that it overlies. The adhesive on the tab will have a level of tackiness that allows the tab to remain connected to the base region of the vessel when pressed against the base. However, the adhesive will also allow the tab to be released upon application of sufficient force by a user.
The vessel demonstrated in
The formation of drinking spout 104 and air relief aperture 105 are further demonstrated in
Each of flaps 103 and 113 may include a dam 127 on either or both the drinking spout end of the flap and the air relief end of the flap. The dam assists in preventing contents of the vessel from migrating between the flaps and escaping from the vessel. Such migration may be caused by sloshing of the contents in the course of moving the vessel or merely by using of the spout for drinking from the vessel. Dams 127 may be formed by adhering a continuous or dashed bead of a separate material, which may be biodegradable, such as polylactic acid or polylactide, to one or both flaps to cause adhesion of the flaps to one another or at least to provide an impediment to flow of contents between the flaps. Alternatively, dams 127 may be created using at least one engaging pair of embossments in the surface of the flap material along a path. For example, one or more protuberances or impressions or both may be embossed in the material of the flaps along such a path, by stamping, scoring or other methods used to raise or lower the surfaces of the material. The embossments may be designed so that a hill in one flap nestles into a valley of the other flap. Alternatively, or even in addition, embossments may be provided so that a hill in one flap is immediately adjacent to a hill in the other flap. In each case the embossments are engaged with one another. Furthermore, the protuberances and impressions may be formed in a staggered pattern of circular or other geometrical shapes or a single shape that extends the entire length of the path demonstrated by dam 127. A dam created by altering the surface of the flap material, or made using a separate bead of material, may be formed in a complimentary fashion on flaps 103 and 113 such that when the flaps are overlapped into the closed configuration demonstrated in
When both of the flaps of the vessel are unfolded, as illustrated in
The embodiments of the invention described above are intended to be merely exemplary; numerous variations and modifications will be apparent to those skilled in the art. All such variations and modifications are intended to be within the scope of the present invention as defined in any appended claims.
The present application claims priority from U.S. non-provisional patent application Ser. No. 12/813,840 filed Jun. 11, 2010 and titled “Vessel and Method for Making the Same” and naming Peter Herman as inventor, and from U.S. provisional patent application Ser. No. 61/186,458, filed Jun. 12, 2009, and titled “Vessel and Method for Making the Same” and naming Peter Herman as inventor, all of which are hereby incorporated by reference herein in their entirety.
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Number | Date | Country | |
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20130299567 A1 | Nov 2013 | US |
Number | Date | Country | |
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61186458 | Jun 2009 | US |
Number | Date | Country | |
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Parent | 12813840 | Jun 2010 | US |
Child | 13942916 | US |