Releasable closures for removable display surfaces

Abstract

A precisely measured removable cover for reusable beverage containers with releasable closures. The cover has a flexible sheet with a graphical display imprinted on one side and a cover fastener for removably fastening the cover to a container. The sheet is advantageously adapted to substantially cover the side walls of the container. The cover fastener has one or more releasable closures, and at least one of the releasable closures includes a fluked tab interlock locking tab and slot structure, wherein the fluked tab is on one end of the cover and the slot is proximate the opposite end of the cover and parallel to the fluked tab. A cam/slot paired closure is also disclosed.

Description

This application is a division of Ser. No. 11/311,694 filed Dec. 19, 2005, which is a division of Ser. No. 10/459,392 filed Jun. 9, 2003, now issued as U.S. Pat. No. 7,263,790 (which also claimed priority to U.S. provisional application Ser. No. 60/387,691 filed Jun. 10, 2002), which is a continuation-in-part of Ser. No. 09/821,681 filed Mar. 29, 2001, now issued as U.S. Pat. No. 6,578,303, which is a continuation of Ser. No. 08/897,749 filed Jul. 21, 1997, now issued as U.S. Pat. No. 6,250,005.

TECHNICAL FIELD

The invention relates to releasable closures for a removable display surface for use as a cover to a beverage container.

BACKGROUND OF THE INVENTION

Many kinds of containers, and particularly beverage containers, are placed in public view, both commercially and privately used, and therefore are appropriate for use as display surfaces for various kinds of advertising and promotion. Commercially, beverage containers are on display containing coffee and other beverages; privately, thermos bottles may be viewed by others while in use, both by way of example. The container wall itself however is ill suited to a display surface as it readily becomes marred and disfigured, and the printing matter itself is degraded, so that any such display is a poor display indeed for the subject matter of the advertisement or promotion. As yet however, no feasible and effective display surface has been proposed which may be attached to these beverage containers or other containers so as to adequately address the needs of current advertising and promotional standards.

In recent years, it has come to be recognized that old style coffee warmers and open coffee pots are not in the best interests of the delicate flavor characteristics of a good brew of coffee. To that end, vacuum pots of various shapes and descriptions have become increasingly popular and prevalent, especially in finer commercial coffee houses and restaurants. Such a pot preserves desirable coffee serving temperature with reduced risk of, and exposure to, either burner heat scorching or air oxidation of the coffee esters. They also generally hold more coffee, and can be made available for use and refills by customers in places that are not wired or not safe for warmer burners.

As mentioned, these pots are often highly visible to the customers and could become effective sign boards for the brand of coffee or any other advertising an owner may wish to display in conjunction with the service of the coffee or other beverage. However, with the passing of time and customer use and normal wear and tear (such as by dish washing operations), the vacuum pots themselves can take on unsightly dents and surface mars.

It has been suggested to permanently adhere a surface covering that is specially cut to fit the pot to the outside of the pot. This covering can hold or display various advertising or promotional messages and graphics. These covering systems however suffer from several disadvantages. Because they are permanently adhered to substantially the entire outside surface of the pot, they in effect become a second skin, and as such lose much if not all of the independent resiliency such a covering material might otherwise inherently have. Any blow or other force striking the skin will be transmitted to the pot as well, and any resulting deformation in the pot surface will also show on the tightly adhered covering skin. Also, if the advertising message becomes stale or otherwise out of date, or if the covering begins to show signs of wear or other distress, it must laboriously be removed in its entirety, leaving the pot covered in unsightly adhesive residue until it is recovered, and this operation must be repeated every time it is desirable to change the advertising message.

Other proposed covering systems require application of a heat shrinkable film to a container, with the disadvantages that such films are not readily, and certainly not non-destructively, removable, and rather less control of the kind and quality of printing that may be imprinted on the film, on its resultant resized surface, is possible compared with unshrunk covers.

Other covering system proposals disclose (1) a foam rubber beverage can insulator with flexible sidewall and bottom member with slits on the bottom for expansion and contraction; (2) a wastebasket, or other open container, cover with a flexible sheet to wrap around the side wall of the basket, and clips to detachably interconnect the top and bottom edges of the sheet to the open rims of the container, and Velcro type closures to hold the ends together; and (3) a loose fitting sock-like covering to fit over standing water cooler bottles and the like, or a free standing cylinder of rigid material resting on the cooler apparatus, with holes or viewing ports to show water level and provide air circulation inside the covering.

What is needed is a feasible and effective display surface which may be attached to beverage containers or other containers so as to adequately address the needs of current advertising and promotional standards. In addition, it would be desirable for such a display surface to be easily and readily removable and to possess independent resiliency. The desired removable display surface would require only cover end attachment by releasable closures, and would provide an excellent base medium for commercial printing processes.

In addition, greater variety in novel releasable closures for such a cover would provide more effective attachment and removability.

DISCLOSURE OF THE INVENTION

The invention addresses and overcomes previous difficulties by providing a method for making a precisely measured cover for reusable beverage containers, all as particularly disclosed in U.S. Pat. No. 6,250,005 the specification of which is hereby incorporated by this reference as if fully set forth. A covering of independently resilient material is precisely cut to fit a given size and shape of pot, and the material has imprinted on it a desired promotional or advertising message and/or graphics. The covering material is removably fastened to the outside of the pot in such a way as not to impair significantly the natural resiliency of the material. For instance, in one embodiment the covering is fastened to the pot by means of temporary fasteners such as Velcro® type hook and pile, magnets, removable tape, or the like. Thus, dents in the pot do not generally show in the covering surface because it retains its independent resiliency, even if the blow was delivered through the covering surface. Messages may be changed as often as suits the promotional and decorative needs of the owner of the pot, so the display surface is always timely and in top condition. An optional “window” permits display of interchangeable labels on the inside of the covering. When the display surface is fully removed, the original surface of the pot is substantially restored to its former appearance. Some of the covers are to be transparent or translucent and are to have graphic images back printed on them. Optionally, a protective plastic covering or overlaminant is attached to the print side of the covering material, so that when the printed cover is in its removed state, the printing will not be accidentally damaged by scratching. Some embodiments employ a nylon fabric cover material with promotional printing.

The invention provides a flexible, removably fastened, precisely fitted container cover having a graphical display imprinted on one side of the cover. The graphical display may be advertising or promotional text and/or non-textual graphical images. The flexibility of the container cover material is to facilitate ready application, removal and reapplication of the container cover to the same or different containers, as often as may be necessitated by the need, for instance, to replace a worn or damaged cover, or to provide a different promotional message. By “precisely fitted” is meant that each cover is measured and cut to substantially exactly fit a particular container or identically sized series of containers, where “fitting” means to substantially completely cover the side walls of the container, generally without overlap. In some instances however, some overlap may be advantageously provided for the purpose of providing a fastener mounting surface to facilitate that no fastener parts need be attached in any way to the container itself. It will be appreciated by those skilled in the art that variations of this dimensioning and fitting may be effected to no particular purpose but to avoid the above definition, in which case such variations are to be regarded as within the scope of this invention. Generally, this invention will find application as a covering for beverage containers of the type used to serve coffee in public establishments; however, the invention is not limited to such a particular container.

Some embodiments of the invention will include a transparent window in the cover, through which a “label” may be viewed through the window. A window is preferably a transparent region of the cover on which no graphic display has been imprinted, but may in some embodiments be effected with a separate transparent material sewn in or otherwise assembled into the cover material itself. A “label” can either be an actual label, such as the name of the blend or beverage being dispensed from the container, or it can be any additional supplemental promotional graphical display information. The label is generally disposed over the window in such a way that the graphic material on the label can be viewed through the window, and the label is preferably attached to the window with a removable pressure sensitive adhesive. However, it will be appreciated that any conventional means for holding a piece of material on which can be printed some graphical information, such as an open ended clear envelope attached to one side of the container cover can advantageously be employed to make the label viewable through the window. Preferred embodiments will have the label holder on the inside or rear surface of the container cover where it may readily be accessed by removing the cover, inserting or replacing the label and reattaching the cover. This arrangement will provide both protection for the label, and facilitate integration of the label into the overall graphical design of the cover.

Some embodiments of the invention will be made of a durable, preferably washable, woven fabric such as nylon ripstop or cordura, and the graphical display is generally imprinted on a front surface of the cover material (“front printed”). Such embodiments may be removed for cleaning as well as for replacement to display different promotional messages. This embodiment will also be especially resistive to displaying or revealing any surface imperfections of the container itself, and will be better able to resist impact damage to the cover material itself. Preferred embodiments will have a second, or inner, fabric layer preferably made of a more tightly woven polyester material for additional resiliency and insulating value.

Other embodiments of the invention will be made of a resilient translucent material, such as clear plastic sheet, with the graphical display imprinted on a rear surface of the cover (“back printed”) to better protect the printing itself. Various materials may be employed such as printing grades of Lexan® brand plastic sheeting and various vinyl sheet materials and all such plastics as will be known by those skilled in art to take and retain a high quality graphical imprint. It will generally not be necessary to take any special precaution or apply any selection criteria relating to heat shrinkabi lity, or thermal stability, as the covering material will generally be removed from the container prior to exposing the container itself to high temperature washing or sterilization. While thermally unstable material will therefore generally not be preferred, its use will not depart from the scope of the invention.

Some embodiments will also employ an overlaminant layer disposed to cover the graphical display imprinted on the rear surface of the clear plastic sheet. Since some embodiments have no attachment whatever of the cover to the container itself, other than that provided by the relatively tight “wrap” of the cover on the container and the attachment of one edge of the cover to itself, it is anticipated that some sliding of the cover as wrapped around some of the containers will produce some chaffing or wear of the back printed matter, and possibly some discoloration or staining of the surface of the container itself. Even without such sliding, the removal and replacement of the printed covers will leave the printing exposed to possible damage while the cover is off the container. To forestall any such damage to the printing, an overlaminant layer may be advantageously applied over the printing to seal it from such damage. This layer will preferably be laminated to the cover material by methods well known to those in the art, but may also be adhesively adhered to the printed side of the cover material, or attached in any other way as may seem useful to those skilled in the art.

The overlaminant layer may be clear also, but may also be opaque or even metalized (such as for instance a sheet of aluminized mylar) to provide insulation to the container.

The removable fastening of the cover to the container may be effected by one or more releasable closures. A preferred releasable closure is a paired arrangement of hook and pile closures respectively attached to opposite ends of the cover material. They may be disposed as single strips along the end (adjoining) edges of the cover, or as spaced closure tabs along the adjoining edges of the cover. Alternatively, part of the closure pair may be attached to the container itself to forestall sliding of the cover on the container, and the opposite closure type may be attached to one or both ends of the cover for removable fastening of the cover to the container.

Alternatively, the releasable closures may be paired magnetically active materials, such as two compatibly poled magnets, or a magnet and a strip of ferrous material. For ferrous bodied containers, it may only be necessary to provide a magnetic strip, or magnetic tabs (as described above) along adjoining edges of the cover for magnetic attachment of the coverto the container by the magnets. For non-ferrous container, including some stainless steeltypes, paired magnets, or a magnet and steel strip combination, will be employed and attached to the cover as described above for hook and pile closures for attaching the cover to the container. In some embodiments, at least one part of the pair of magnetic materials is comprised of a magnet strip and the other part of the pair of magnetic materials is a ferrous container surface to which the magnet strip is attracted. In other embodiments, the pair of magnetic materials is comprised of a pair of magnet strips magnetically attracted to each other.

The invention generally provides a removable wrap around container cover of material providing independent resiliency. By “independent resiliency” it is generally meant that the material referred to thusly is capable of sustaining an impact, and even of transmitting that impact through to the underlying container, where the impact might cause surface damage to the container such as a dent, but whereby material is capable of rebounding to or resuming its previous shape resiliently so that the cover material does not betray the damage to the container beneath. One way to achieve or preserve this independent resiliency is to forebear to adhere the cover material in any substantial way to the container itself.

Some embodiments of the invention will also have at least one guide slot and tab pair with the tab on one end of the cover and the slot near to, or proximate, the opposite end of the cover and generally aligned with its tab mate in a generally parallel way. A slot is proximate an end of the cover material to the extent that there is generally not more of the cover material between the slot or slots and the end than is useful to preserver the physical integrity of the slots themselves on the one hand, and than is useful to effect a mating layer, for use when an optional adhesive material is provided on the contacting surface of one or both of the slot/tab pair so that the tab(s) and mating layer may both or singly be pressed in the direction of the container to be removably adhered to the cover material to form a secure but removable cover attachment.

In addition, the disclosure provides alternate releasable closures for a covering material that is removably fastened to the outside of the pot in such a way as not to impair significantly the natural resiliency of the material. For instance, in one embodiment the covering is fastened to the pot by means of temporary releasable fasteners such as Velcro® type hook and pile, magnets, removable tape, interlocking tab/slot structures, or the like. Thus, dents in the pot do not generally show in the covering surface because it retains its independent resiliency, even if the blow was delivered through the covering surface. Messages may be changed as often as suits the promotional and decorative needs of the owner of the pot, so the display surface is always timely and in top condition. Optional label holders permit display of interchangeable labels on the covering. When the display surface is fully removed, the original surface of the pot is substantially restored to its former appearance. Some of the covers are to be transparent or translucent and are to have graphic images back printed on them. Optionally, a protective plastic covering or overlaminant is attached to the print side of the covering material, so that when the printed cover is in its removed state, the printing will not be accidentally damaged by scratching.

The invention generally provides a removable wrap around container cover of material providing independent resiliency. By “independent resiliency” it is generally meant that the material referred to thusly is capable of sustaining an impact, and even of transmitting that impact through to the underlying container, where the impact might cause surface damage to the container such as a dent, but whereby material is capable of rebounding to or resuming its previous shape resiliently so that the cover material does not betray the damage to the container beneath. One way to achieve or preserve this independent resiliency is to forebear to adhere the cover material in any substantial way to the container itself.

One or more releasable closures are disclosed. In one embodiment a fluked tab interlock locking tab and slot structure is disclosed. There at least one pair of a fluked tab paired with an opposed crescent slot, and preferably two such pairs. The tab is generally disposed on one end of the cover and the slot is near to, or proximate, the opposite end of the cover and generally aligned with its tab mate in a generally parallel way. A slot is proximate an end of the cover material to the extent that there is generally not more of the cover material between the slot or slots and the end than is useful to preserver the physical integrity of the slots themselves. Where each tab joins the flex sheet or cover body (the part of the cover visualized without depending or projecting tabs and the like), there are a pair of opposed separation, fluke notches, the notches defining a pair of opposed fluke tips. Preferred fluke tabes are generally trapezoidal in outline or configuration, with the base proximal the flex sheet body. Fluke tips thereby have a possible range of motion into and out of the plane of the flex sheet itself. More or less centered between the fluke tips for each tab is an aperture preferably about ⅜ inch to 7/16 inch the circumference of which preferably touches, or is tangent to, a line produced to connect the two fluke notches.

Each crescent slot has a length somewhat less than the width of the fluke tab measured from fluke tip to fluke tip, preferably by about 3/16 inch. Each slot has one more or less straight edge and one crescent edge. The crescent edge is centered with respect to the straight edge, and intersects the straight edge at two points inward of the slot ends, such that the slot is a mere slit on each end, for a distance of about the same length as each fluke notch is deep, preferably a little longer than a fluke notch is deep.

To wrap the container using this releasable lock design, the slot side of the flex sheet is aligned with the container, and the tab end is wrapped around to meet the slot end. The flex sheet is sized to tightly fit around the circumference of the container, with the tab end of the sheet overlapping the slot end by a length about equal to the distance between the slot end of the sheet and the straight edge of the slot. The tab end overlaps the slot end and closure is releasably effected by sliding the fluked tab most of the way into the crescent slot until it doesn't go further because the tab is wider than the slot, at least when flat with respect to each other, and then inserting a roughly pencil shaped tool into the tab aperture to distort and flex and curve the tab planar structure into a slightly curved plane that more or less approximates the curvature of the crescent side of the slot. The tab is flexed slightly outwardly away from the pot, and approximately conforms into the curvature of the crescent side of the slot. This has the effect of temporarily and flexibly deforming and shortening the effective width of the tab from tip to tip, so that its width becomes equal to or less than the slot length, and the tab slides home in the slot under urging of tab forward into the slot while the tool is being applied. When the tool is removed, the flexed tab relaxes into its former shape and relative flatness with respect to the slot, and is once again too wide to come easily out of the slot, thus releasably locking the tab into the slot, with the fluke notches now engaged in and overlapping the slitted slot ends. Release, or unlock, of the tab is effected in a more or less reverse manner. An alternate embodiment of the fluke tip is a slight finger shape as illustrated.

In another embodiment a paired structure of crescent slots, one of which effects a camming orcinching action and is called herein a ‘cam slot’, each of which effectively produces an inward facing tab like structure (called herein an ‘in-tab’), is disclosed. These structures interlock to form a releasable locking cover closure system There at least one pair of a rounded in-tab paired with an opposed cam slot, and preferably two such pairs. The in-tab is generally disposed in board of one end of the cover and the slot is near to, or proximate, the opposite end of the cover and generally aligned with its tab mate in a generally parallel way. A slot is proximate an end of the cover material to the extent that there is generally not more of the cover material between the slot or slots and the end than is useful to preserver the physical integrity of the slots themselves.

It is believed that the in-tab structure shown for an interlocking closure system is fundamentally different and unconventional from other tab and slot structures. The tab does not project outward from the cover or flex sheet, but is rather fashioned inboard and inward facing from a roughly circular arc defined in part by a chord running non-parallel to the tab edge of the cover sheet, and preferably terminated on the arc by a pair of flexure aiding apertures as shown. These apertures wherever illustrated also serve to relieve tearing stresses that would otherwise be transferred to the sheet material whenever the tab itself was flexed. The chord is spaced, at the chord end nearest the sheet edge, from the sheet edge by a distance sufficient to maintain tear integrity of the sheet material, but not so great as to require undue sheet edge overlap at closure around the container. The arc is inboard of the chord so that the tab thus formed thereby points inward, not outward, with respect to the sheet.

A corresponding cam slot (with illustrated starter flap) is positioned relative to the opposite side of the sheet from the in-tab. The slot starts near the side edge of the sheet and gradually curves inward and downward for a length substantially greater than the length of the in-tab chord, but preferably not more than about twice as long as the chord. The slot is measured straight from end to end. The slot is also wider at an upper region than at a lower end by about 4:1 (or ˜¼ inch to ˜ 1/16 inch). Gradual inward and downward curve is greater at an upper end, lessening curvature to almost no curve at bottom end. The slot is formed of an inner curve and an outer curve, the inner curve closest to the sheet edge is more gradual than the outer curve, which is what forms the wider width of the slot near the top. The inner curve (which forms a kind of de facto tab itself, which when properly scored, can be bent outwards to form the illustrated starter flap) preferably has a scored chord starting near but preferably not at the top of the curve and ending about half way down the curve.

The cam slot mating occurs in a skewed orientation. As the cam slot end of the sheet is aligned with the container, the in-tab end of the sheet is brought around the container in a skewed, out-of-parallel orientation, each in-tab thus approaching its respective cam slot from above and to the right. The in-tab side of the sheet passes over the lip of the slot side of the sheet. The in-tab, activated by slight flexure of the sheet end to cause the tab to dip slightly beneath the level of the cover edge and catch and engage briefly the upraised starter flap of the cam slot, enters into the wider upper area of the cam slot and begins to pass between the cover and the container. The cover edges are then simply aligned to parallel orientation, until the in-tab is fully seated in the lower part of the cam slot, effecting the indicated cinching action as illustrated so the cover tightly fits around the container. In preferred embodiments there is about ¼ inch of cinch. Optional edge holding tabs are also optionally engaged and hold the in-tab edge of the cover into a closer contacting arrangement with the rest of the cover.

Some embodiments of the invention will also have at least one guide slot and tab pair with the tab on one end of the cover and the slot near to, or proximate, the opposite end of the cover and generally aligned with its tab mate in a generally parallel way. A slot is proximate an end of the cover material to the extent that there is generally not more of the cover material between the slot or slots and the end than is useful to preserver the physical integrity of the slots themselves on the one hand, and than is useful to effect a mating layer, for use when an optional adhesive material is provided on the contacting surface of one or both of the slot/tab pair so that the tab(s) and mating layer may both or singly be pressed in the direction of the container to be removably adhered to the cover material to form a secure but removable cover attachment.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematic rear plan view of the invention.

FIG. 2 is a schematic rear plan view of an alternate embodiment of the invention.

FIG. 3 is a partial cross section of the invention taken at line 3-3 of FIG. 2.

FIG. 4a-c is a schematic partial cross section of the invention.

FIG. 5 is a partial cross section of an alternate embodiment of the invention.

FIG. 6 is a front perspective elevation of the invention.

FIG. 7 is a partial perspective view of an aspect of the assembly of the invention.

FIG. 8 is a partial schematic cross section taken along line 8-8 of FIG. 1.

FIG. 9 is a partial schematic cross section taken along line 9-9 of FIG. 7.

FIG. 10 is a schematic rear plan view of an alternate embodiment of the invention.

FIG. 11 is a cross section taken along line 11-11 of FIG. 10.

FIG. 12 is a partial schematic plan view of an alternate fluked tab/crescent slot closure system.

FIG. 13 is a schematic section of a fluked tab taken at line 13-13 in FIG. 12.

FIG. 14 is a schematic plan view of an optional metalized ink label attachment system.

FIG. 15 is a schematic plan view of an alternate label attachment structure.

FIG. 16 is a schematic plan view of an alternate label attachment structure.

FIG. 17 is a schematic plan view of an alternate label attachment structure.

FIG. 18 is a partial schematic plan view of an alternate cam slot closure system.

FIG. 19 is a partial schematic view of a conventional tab and slot engagement.

FIGS. 20-22 are partial schematic views of a novel skewed approach in-tab and slot engagement.

FIG. 23 is a typical accommodation in the precise fit of the cover for the container.

BEST MODE OF CARRYING OUT THE INVENTION

Turning now to the drawings, the invention will be described in a preferred embodiment by reference to the numerals of the drawing figures wherein like numbers indicate like parts.

In FIG. 1 removable display surface 10 is comprised of independently resilient cover 11 and releasable closure or fastener pairs 12, 13, where fastener half 12 and fastener half 13 are generally matable or detachable halves of a releasable closure system pair, such as for instance a hook and pile type closure or paired magnets. It will be appreciated that in many instances, the halves are interchangeable, which is not to say identical, but rather that part 12 may be either a “hook” strip for instance or a “pile” strip, and vice versa for part 13. In general, one half of the closure will be on one cover end 14 and the other half will be on the other cover end. In the case of hook and pile closures, fastener half 12 will preferably be on the rear surface 16, while fastener half 13 will be disposed on the front surface 17 of cover 11. Thus, as cover 11 is wrapped around container 80 (see FIG. 6), halves 12 and 13 are able to engage each other and removably fasten cover 11 to container 80.

In this embodiment, though the cover is precisely fitted to its intended container or container series, that fit is accommodated at least in part by a careful overlap of ends 14 to the extent necessary to effect the releasable engagement of fastener halves 12 and 13. It should be noted that halves 12 and 13 are illustrated as groups of separate strips; however, it will be advantageous in some applications to have fastener half 12 be a single long strip covering substantially the width of cover end 14, and the same will be true for fastener half 13. Where a plurality of strips is employed, the respective mating opposite pair halves will be aligned so that, upon mating engagement, the cover is closed without appreciable skew in the mating of cover ends 14; that is, a cover 11 cut to cover a cylindrical container, for example, will close into a cylindrical shape, with ends 14 overlapping (where such overlap is required by the nature of the fastener) and more or less congruent. In FIG. 6, display surface 10 is wrapped around container 80 so that fastener halves 12 and 13 engage their respective mates in the direction indicated by the arrows after cover ends 14 overlap.

The cut of cover 11 is also effected to accommodate the shape of the intended container, whether it be cylindrical or frusto-conical or other shape. Both FIG. 1 and FIG. 2 illustrate covers cut to accommodate a frusto-conical container. In FIG. 1, the pronounced “waviness” of the top and bottom edges of cover 11 are intended to illustrate the relatively more flexible nature of the woven fabric embodiment, as opposed to the relatively more rigid plastic sheet embodiment of FIG. 2. However, the aspect of back printing of graphical message 15 onto the rear surface 16 of cover 11 is arbitrarily illustrated in FIG. 1, notwithstanding that fabric embodiments of the invention will generally not be translucent to any appreciable extent and will rather be front printed. By the same token, the “window” aspect of the invention illustrated in FIG. 2 by window 19 and label 18 may be advantageously employed in either the sheet or fabric embodiments of the invention, though illustrated arbitrarily only in FIG. 2.

FIG. 23 illustrates a typical accommodation in the precise fit of cover 11 for its container. In the example case of a beverage container/dispenser having a conventional glass fill gauge and a pour spigot beneath, cover 11 is relieved by cut out 5 so that display surface 10 covers all of the sidewall surface of the container. Optional hook or pile fastener halves 26 are appropriately placed to mate with corresponding and respective pile or hook fastener halves affixed to the container itself.

FIG. 8 illustrates and alternative construction for cover 11 in FIG. 1. Instead of one layer of fabric in cover 11, two layers are sewn together: inner layer 31 and outer layer 32. Preferred outer layer (also preferred in there is only one layer) material is style 2020, 200 denier ripstop nylon; inner layer material is preferably style 6000 600 denier polyester fabric.

In FIG. 2 a plastic sheet embodiment of the invention is illustrated. General Electric Lexan® brand plastic film is preferred in this embodiment, though printing grades of vinyl sheeting may also be made to serve. For the sake of simplicity of illustration, closure halves 12 and 13 are not shown; however, it is to be understood that the releasable fasteners described in reference to FIG. 1, or their equivalents, may be employed in any other embodiment, whether illustrated or not. Label 18 is preferably disposed on or over transparent window 19 in cover 11 so that a message (not shown) on label 18 disposed on the rear surface 16 of cover 11 may be viewed through window 19 from the front surface 17 of cover 11. This arrangement is shown in partial cross section in FIG. 3.

Label 18 is preferably attached to the rear surface 16 of cover 11 and over or behind window 19 with a pressure sensitive removable adhesive so that labels of differing message content may be interchangeably disposed behind window 19 from time to time without damage to cover 11 and without need for alternative label attaching means. Alternative label attaching means may however be employed without departing from the scope of the invention. Mounting label 18 behind window 19 provides the protection of a covering window to the various labels that may be placed behind any particular window. In practice, it will be a simple matter to open cover 11, remove a label, and replace it with a new label. It has been found that Flexcon (Seattle, Wash.) V400 frosty clear V68 removable pressure sensitive adhesive adequately adheres label 18 to any part of rear surface 16, including window 19, while providing ease of removal of label 18 when it is time for replacement. Preferred label material is Flexcon 90 PFW vinyl.

FIGS. 4a-c schematically illustrate the quality of independent resiliency of the invention. In FIG. 4a container wall 80 is obscured by cover 11. The cover appears smooth and unbroken to the viewer. In FIG. 4b an impact force 99 strikes both cover 111 and, through it, to container wall 80, causing a dent 81. If cover 11 were permanently adhered, or even adhered at all to wall 80, dent 81 would show to some extent in cover 11. This would also be true in other conventional covering systems. But in FIG. 4c, cover 11 appears much as it did before the impact of force 99, thus obscuring dent 81 and other surface imperfections in container wall 80. This might not hold true for forces and impacts from sharp objects whose effect is to cut or tear cover 11, but for most relatively dull impact forces short of those tending to destroy the container itself, cover 11 will merely transmit such forces, not be changed by them.

In FIG. 5, an alternate embodiment of the sheet plastic embodiment is illustrated in schematic partial cross section. Cover 11 is back printed with ink 22, except in the region of window 19. Over the ink layer is preferably disposed overlaminant 21. Overlaminant 21 provides enhanced resiliency to cover 11 and protects ink 22 from abrasion against container 80 and from accidental damage while cover 11 is removed, as for example when the container is being washed. For embodiments not employing an overlaminant, conventional UV hardening inks may be employed, and if protection from abrasion is desired without using an overlaminant, then an air cure texture coat of Deco-Chem 7030 abrasion matt small text may be applied to the back of the back printed graphic ink layer.

In the case of overlaminant, conventional inks are preferred, as it has been noted that UV inks tend to release to the overlaminant and cause flaws or bubbles to appear from the front of the cover. Preferred overlaminant material is Flexcon Flextwin MM-200 white/white metalized mylar adhered to the cover sheet layer with TC-249, V-29, 1504-9 adhesives or their equivalent. These adhesives provide a white backing layer to obviate the need otherwise for a white coat behind the graphic display ink. Alternatively, vinyl sheeting may also be used for the overlaminant layer.

FIG. 10 shows an alternate configuration of the invention. Curved window 19 is set amid cover 11 of display surface 10. Preferred magnetic closures 41 and 42 in the form of cover end width rubberized magnetic strips are adhered to the rear surface 16 of cover 11 proximate the respective cover ends 14. In some embodiments (not shown), magnetic strips 41 and 42 lie at or very near the cover ends and the cover is wrapped around a container having ferrous material walls so that the magnets adhere magnetically to the container walls, and the fitted cover 11 fits precisely around the container without overlap, the magnets maintaining both closure of the seam whereat the two cover ends meet, but also thereby holding the cover to the container. This configuration is advantageous for ferrous bodied containers. For non-ferrous bodies and some types of stainless steel, it is desirable for the magnet pair to be disposed for mating engagement with each other through self adherence.

As these arrangement will sometimes permit slippage of cover 11 both with respect to its grip on container 80 and also with respect to its own precise, unskewed alignment of its cover ends 14, especially in smooth or relatively featureless containers, the embodiment illustrated in FIG. 10 is preferred. In this embodiment, alignment tabs 23 and slots 24 are provided. Some overlap is provided to effect the engagement of respective corresponding slots and tabs, and the positioning of the magnets 41 and 42 is adjusted, with magnet 41 near the tab end of the cover being preferably quite close to, but not overlapping, the tabs, and with magnet 42 being inside the line of slots 24, rather than being so close to the other end 14 of cover 11, as shown. In this configuration, as cover 11 is wrapped around its container (such as is shown in FIG. 6), tabs 23 come into engagement with and through slots 24, thereby assuring complete and correct alignment of ends 14; at the same time the magnets 41 and 42 adhere to container 80 and releasably hold cover 11 to the container.

FIG. 11 shows a schematic cross section for the preferred placement of magnets 41 and 42. As they are intended to adhere, not to each other, but to the container, they are place on the same (inner) side of cover 11. As an alternate arrangement, providing for magnet-to-magnet engagement, magnets 41′ and 42′ are shown positioned on opposite sides of cover 11, and with magnet 42′ shifted relative to the position of magnet 42 to be more proximate the cover end 14, where magnet 42′ is disposed between the cover end 14 and the line of slots 24, so that, with appropriate overlap of cover ends 14, magnet 41′ may engage magnet 42′ when cover 11 is wrapped around its container. Tabs 23 have a roughly pointed and stepped design to facilitate insertion into slots 24.

FIGS. 7 and 9 illustrate a variation on the guide tab and slot configuration of FIG. 10; FIG. 7 also shows the wrapped engagement of tabs 23 into slots 24. The alternate embodiment requires no hook and pile or magnet fasteners, but rather relies on the application of removable pressure sensitive adhesive 25 to the underside of tabs 23 and to the flap end of cover end 14 that lies between the cover end and the line of slots 24. After tabs 23 are fully inserted into slots 24, adhesive 25 is activated if required (such as by removing any protective non adhesive strip or strips), and the tabs and the flap end are all pressed inward (in the direction shown by the arrows) against wrapped cover 11 to securely, but releasably fasten cover 11 around container 80. This configuration is particularly well suited to wrap covers for children's containers which must endure rugged usage, such as thermoses.

FIGS. 12 and 13 show the fluked tab/crescent slot structure schematically and partially. FIG. 13 is a detail of the deformation (tool not shown) of the tab up into the curvature of the crescent slot, which is also deformed from its resting ‘flat’ configuration so that the crescent side actually rises up slightly to receive the bulged or domed tab into its now off-planar curvature. The view is generally end on from the point indicated in FIG. 12. FIG. 12 shows only the tab and slot ends of the flex sheet, the flex sheet being in all other respects as disclosed herein.

FIG. 14 discloses schematically a painted or screened on metalized ink zone on the face of the cover. A conventional magnetic label may then be adhered to the zone and used as a removable display label for the container around which the cover is wrapped. The metalized ink zone is shown rectangular, but any shape suitable to the attachable label will serve. This system may also advantageously be applied in reverse, with a magnetic material being applied to or let into the cover, and labels are printed on their reverse side with metalized ink for attachment to the magnetic surface. The metalized ink has a concentration of magnetically active material such as iron appropriate to be held releasably to the magnet selected for the structure. The concentration of metal will be readily calculable to one skilled in the magnetic attachment art.

FIG. 15-17 show alternate label attachment structures schematically. In FIGS. 15 and 16, two slots are let into the cover, preferably with flexure-aiding apertures at each end, as shown. A label shaped roughly as shown, with conventional tab structures projecting as shown is then flexed, inserted into both slots (only one tab shown schematically inserted) and released for a releasably locked fit into the cover. In this way, a cover and design art scheme need not be changed with every change to the contents of the container that the flex sheet covers.

Alternatively, FIG. 17 shows two slits let in as illustrated (which may run in the same direction or orientation as shown in FIG. 15 or be 90 degrees different as illustrated, or actually, in any orientation whatever). The slits shown in the figures are advantageously parallel to one another but need not necessarily be so. A label shaped more or less as illustrated, with spurs that make the label at either of its ends wider than the length of the slits, is thus lockable into the cover, at least while the cover is wrapped around the container. To install and remove the label, it is simply flexed slightly and pushed into and through the slots, which may also be advantageously flexed slightly, while the cover is not wrapped on the container. The label, with multiple messages as shown, is generally behind the cover except for the strip exposed through the slits on the other side of the cover, and is thus free to be adjustably slid so expose only the selected message for the container contents.

FIGS. 18-22 show a paired structure of crescent slots, one of which effects a camming or cinching action and is called herein a ‘cam slot’, each of which effectively produces an inward facing tab like structure (called herein an ‘in-tab’), is disclosed. These structures interlock as discussed and illustrated in FIG. 18 et seq to form a releasable locking cover closure system There at least one pair of a rounded in-tab paired with an opposed cam slot, and preferably two such pairs. The in-tab is generally disposed in board of one end of the cover and the slot is near to, or proximate, the opposite end of the cover and generally aligned with its tab mate in a generally parallel way. A slot is proximate an end of the cover material to the extent that there is generally not more of the cover material between the slot or slots and the end than is useful to preserver the physical integrity of the slots themselves.

It is believed that the in-tab structure shown for an interlocking closure system is fundamentally different and unconventional from other tab and slot structures. The tab does not project outward from the cover or flex sheet, but is rather fashioned inboard and inward facing from a roughly circular arc defined in part by a chord running non-parallel to the tab edge of the cover sheet, and preferably terminated on the arc by a pair of flexure aiding apertures as shown. These apertures wherever illustrated also serve to relieve tearing stresses that would otherwise be transferred to the sheet material whenever the tab itself was flexed. The chord is spaced, at the chord end nearest the sheet edge, from the sheet edge by a distance sufficient to maintain tear integrity of the sheet material, but not so great as to require undue sheet edge overlap at closure around the container. The arc is inboard of the chord so that the tab thus formed thereby points inward, not outward, with respect to the sheet.

FIGS. 20-22 are partial schematic views of a novel skewed approach in-tab and slot engagement. A corresponding cam slot (with illustrated starter flap) is positioned relative to the opposite side of the sheet from the in-tab. The slot starts near the side edge of the sheet and gradually curves inward and downward for a length substantially greater than the length of the in-tab chord, but preferably not more than about twice as long as the chord. The slot is measured straight from end to end. The slot is also wider at an upper region than at a lower end by about 4:1 (or ˜¼ inch to 1/16 inch). Gradual inward and downward curve is greater at an upper end, lessening curvature to almost no curve at bottom end. The slot is formed of an inner curve and an outercurve, the inner curve closest to the sheet edge is more gradual than the outer curve, which is what forms the wider width of the slot near the top. Top and bottom as terms are relative. All configurations can be ‘flipped’ top and bottom, and mating/joining directions given as top or bottom oriented can simply be reversed. The inner curve (which forms a kind of de facto tab itself, which when properly scored as illustrated, can be bent outwards to form the illustrated starter flap) preferably has a scored chord starting near but preferably not at the top of the curve and ending about half way down the curve.

Unlike the convention tab and slot pair illustrated in FIG. 19, which approach each other for mating in a more or less parallel fashion (for example in the disclosed tab/slot mating, the edges of the cover stay more or less parallel as the mating proceeds), the cam slot mating occurs in a skewed orientation. As the cam slot end of the sheet is aligned with the container, the in-tab end of the sheet is brought around the container in a skewed, out-of-parallel orientation, each in-tab thus approaching its respective cam slot from above and to the right. The in-tab side of the sheet passes over the lip of the slot side of the sheet. The in-tab, activated by slight flexure of the sheet end to cause the tab to dip slightly beneath the level of the cover edge and catch and engage briefly the upraised starter flap of the cam slot, enters into the wider upper area of the cam slot and begins to pass between the cover and the container. The cover edges are then simply aligned to parallel orientation, until the in-tab is fully seated in the lower part of the cam slot, effecting the indicated cinching action as illustrated so the cover tightly fits around the container. In preferred embodiments there is about ¼ inch of cinch. Optional edge holding tabs are also optionally engaged and hold the in-tab edge of the cover into a closer contacting arrangement with the rest of the cover.

Some embodiments of the invention will also have at least one guide slot and tab pair with the tab on one end of the cover and the slot near to, or proximate, the opposite end of the cover and generally aligned with its tab mate in a generally parallel way. A slot is proximate an end of the cover material to the extent that there is generally not more of the cover material between the slot or slots and the end than is useful to preserver the physical integrity of the slots themselves on the one hand, and than is useful to effect a mating layer, for use when an optional adhesive material is provided on the contacting surface of one or both of the slot/tab pair so that the tab(s) and mating layer may both or singly be pressed in the direction of the container to be removably adhered to the cover material to form a secure but removable cover attachment.

One releasable closure is a paired arrangement of hook and pile closures respectively attached to opposite ends of the cover material. They may be disposed as single strips along the end (adjoining) edges of the cover, or as spaced closure tabs along the adjoining edges of the cover. Alternatively, part of the closure pair may be attached to the container itself to forestall sliding of the cover on the container, and the opposite closure type may be attached to one or both ends of the cover for removable fastening of the cover to the container.

Alternatively, the releasable closures may be paired magnetically active materials, such as two compatibly poled magnets, or a magnet and a strip of ferrous material. For ferrous bodied containers, it may only be necessary to provide a magnetic strip, or magnetic tabs (as described above) along adjoining edges of the cover for magnetic attachment of the cover to the container by the magnets. For non-ferrous container, including some stainless steel types, paired magnets, or a magnet and steel strip combination, will be employed and attached to the cover as described above for hook and pile closures for attaching the cover to the container. In some embodiments, at least one part of the pair of magnetic materials is comprised of a magnet strip and the other part of the pair of magnetic materials is a ferrous container surface to which the magnet strip is attracted. In other embodiments, the pair of magnetic materials is comprised of a pair of magnet strips magnetically attracted to each other.

With regard to systems and components above referred to, but not otherwise specified or described in detail herein, the workings and specifications of such systems and components and the manner in which they may be made or assembled or used, both cooperatively with each other and with the other elements of the invention described herein to effect the purposes herein disclosed, are all believed to be well within the knowledge of those skilled in the art. No concerted attempt to repeat here what is generally known to the artisan has therefore been made.

In compliance with the statute, the invention has been described in language more or less specific as to structural features. It is to be understood, however, that the invention is not limited to the specific features shown, since the means and construction shown comprise preferred forms of putting the invention into effect. The invention is, therefore, claimed in any of its forms or modifications within the legitimate and valid scope of the appended claims, appropriately interpreted in accordance with the doctrine of equivalents.

Claims

1. A method for removably covering a plurality of dispensers, each respective dispenser being from a plurality of different beverage dispenser series, each dispenser of a dispenser series having particular size and shape dimensions identical to every other dispenser in the series and different from at least one dispenser in one other series, the method comprising: the method further comprising:

a. precisely measuring at least one dispenser from each of the plurality of dispenser series

to create dispenser size and shape measurements for each dispenser series; and the method further comprising steps 1.b and 1.c in no particular order:

b. precisely cutting a flexible sheet of a translucent material from the dispenser size and shape measurements for each series;

c. imprinting a graphical image on each sheet; and

d. removably wrapping each sheet around each respective dispenser; and

e. releasably fastening a cover closure operably associated with each sheet to temporarily hold the sheet in place on each respective dispenser.

2. The method of claim 1 wherein in step 1.e the cover closure operably associated with each sheet is releasably fastened by fastening a plurality of releasable fasteners at spaced intervals.

3. The method of claim 1 wherein in step 1.e the cover closure operably associated with each sheet is releasably fastened by fastening a strip of releasable closure material.

4. The method of claim 1 wherein in step 1.e the cover closure is releasably fastened by fastening a releasable closure selected from the group of releasable closures consisting of paired tab and slot closure, paired hook and pile closure, magnetic material closure, and reusable pressure sensitive adhesive closure.

5. The method of claim 4 wherein in step 1.e the cover closure is releasably fastened by fastening at least one pressure sensitive adhesive closure.

6. A method for removably covering a plurality of airports, each respective airpot being from a plurality of different airpot series, each airpot of an airpot series having particular size and shape dimensions identical to every other airpot in the series and different from at least one airpot in one other series, the method comprising: the method further comprising steps 6.b and 6.c in no particular order: the method further comprising:

a. precisely measuring at least one airpot from each of the plurality of airpot series to create airpot size and shape measurements for each airpot series; and

b. precisely cutting a flexible sheet of a translucent material from the airpot size and shape measurements for each series;

c. imprinting a graphical image on each sheet; and

d. removably wrapping each sheet around each respective airpot; and

e. releasably fastening a cover closure operably associated with each sheet to temporarily hold the sheet in place on each respective airpot.

7. The method of claim 6 wherein in step 6.e the cover closure operably associated with each sheet is releasably fastened by fastening a plurality of releasable fasteners at spaced intervals.

8. The method of claim 6 wherein in step 6.e the cover closure operably associated with each sheet is releasably fastened by fastening a strip of releasable closure material.

9. The method of claim 6 wherein in step 6.e the cover closure is releasably fastened by fastening a releasable closure selected from the group of releasable closures consisting of paired tab and slot closure, paired hook and pile closure, magnetic material closure, and reusable pressure sensitive adhesive closure.

10. The method of claim 9 wherein in step 6.e the cover closure is releasably fastened by fastening at least one pressure sensitive adhesive closure.

11. A method for removably covering a plurality of dispensers, each respective dispenser having side walls that are non-cylindrical, each respective dispenser further being from a plurality of different beverage dispenser series, each dispenser of a dispenser series having particular size and shape dimensions identical to every other dispenser in the series and particular size and shape dimensions different from at least one dispenser in one other series, the method comprising: the method further comprising steps 11.b and 11.c in no particular order: the method further comprising:

a. precisely measuring at least one dispenser from each of the plurality of dispenser series to create dispenser size and shape measurements for each dispenser series; and

b. precisely cutting a flexible sheet of a translucent material from the dispenser size and shape measurements for each series;

c. imprinting a graphical image on each sheet; and

d. removably wrapping each sheet around each respective dispenser; and

e. releasably fastening a cover closure operably associated with each sheet to temporarily hold the sheet in place on each respective dispenser.

12. The method of claim 11 wherein in step 11.e the cover closure operably associated with each sheet is releasably fastened by fastening a plurality of releasable fasteners at spaced intervals.

13. The method of claim 11 wherein in step 11.e the cover closure operably associated with each sheet is releasably fastened by fastening a strip of releasable closure material.

14. The method of claim 11 wherein in step 11.e the cover closure is releasably fastened by fastening a releasable closure selected from the group of releasable closures consisting of paired tab and slot closure, paired hook and pile closure, magnetic material closure, and reusable pressure sensitive adhesive closure.

15. The method of claim 14 wherein in step 11.e the cover closure is releasably fastened by fastening at least one pressure sensitive adhesive closure.

16. A method for removably covering a plurality of dispensers, each respective dispenser being from a plurality of different beverage dispenser series, each dispenser of a dispenser series having particular size and shape dimensions identical to every other dispenser in the series and different from at least one dispenser in one other series, the method comprising: the method further comprising steps 16.b and 16.c in no particular order: the method further comprising:

a. precisely measuring at least one dispenser from each of the plurality of dispenser series to create dispenser size and shape measurements for each dispenser series; and

b. precisely cutting a flexible sheet of a translucent material from the dispenser size and shape measurements for each series;

c. imprinting a graphical image on each sheet; and

d. removably wrapping each sheet around each respective dispenser; and

e. releasably fastening a cover closure operably associated with each sheetto temporarily hold the sheet in place on each respective dispenser, the cover closure selected from the group of releasable closures consisting of paired tab and slot closure, paired hook and pile closure, magnetic material closure, and reusable pressure sensitive adhesive closure.

17. The method of claim 16 wherein in step 16.e the cover closure operably associated with each sheet is releasably fastened by fastening a plurality of releasable fasteners at spaced intervals.

18. The method of claim 16 wherein in step 16.e the cover closure operably associated with each sheet is releasably fastened by fastening a strip of releasable closure material.

19. The method of claim 16 wherein in step 16.e the cover closure is releasably fastened by fastening at least one pressure sensitive adhesive closure.