US20120248117A1

US20120248117A1 - Re-usable carafe system with re-closable pouches

Info

Publication number: US20120248117A1
Application number: US13/316,194
Authority: US
Inventors: Julie Corbett; Romeo Graham; Robert Watters; Michael Sirois
Original assignee: ECOLOGIC
Current assignee: ECOLOGIC
Priority date: 2010-12-09
Filing date: 2011-12-09
Publication date: 2012-10-04

Abstract

An environmentally efficient packaging/delivery system that is cost effective, carbon effective and readily recyclable while being very usable for dispensing liquids (primarily dairy and juice) is disclosed. The system leverages light-weight flexible refill pouches with re-sealable closures that are securely installed in re-usable carafes in the home. Single-use packaging is reduced since light-weight flexibles are used as distribution and retail packaging, and a durable carafe is used repeatedly in the home.

Description

PRIORITY

The benefit under 35 U.S.C. §119(e) of U.S. provisional patent application Ser. No. 61/421,495 filed Dec. 9, 2010, the entire disclosure of which is incorporated herein by reference, is claimed.

BACKGROUND

A problem with current dairy and juice packaging is that virtually all of the materials associated with distribution, retailing, and use are single-use, in that the entire consumer purchased container is disposed of in either recycling or trash (with the exception of returnable dairy crates & pallets, and glass dairy bottles in limited use in some areas). There is a significant amount of monetary resource committed to a full featured container. This is includes the necessary materials to fulfill both the structural/mechanical and the content preservation roles.
Current options in many areas are blow-molded plastic (HDPE or PET, PP) bottles, laminated paperboard packages from TetraPak, (TetraBrik, TetraTop, etc), SIG, EloPak, gable top cartons etc. While most options are technically recyclable, there is wide variety in access to recycling facilities for consumers globally which reduces the actual recyclability of the packages. Laminated packages are often of very dis-similar materials and excessively complex, or require high energy use, to separate into more usable single material streams.
While the CPG (Consumer Packaged Goods) industry is aggressively pursuing sustainability initiatives, more can be done to reduce the amount of virgin material used in single-use packaging, and in un-recyclable packages. CPGs are light-weighting packaging and products across the board. Even for the packaging materials that are recyclable however, many are not recycled, because there is not equal access to recycling facilities in every municipality.

SUMMARY

Disclosed is an environmentally efficient packaging/delivery system that is cost effective, carbon effective and readily recyclable while being very usable for dispensing liquids (primarily dairy and juice) in consumers' homes. The system leverages light-weight flexible refill pouches with resealable closures that are securely installed in re-usable carafes in the home. Single-use packaging is reduced as light-weight flexibles are used as distribution and retail packaging, and a durable carafe is used repeatedly.

INCORPORATION BY REFERENCE

All publications, patents and patent applications mentioned in this specification are herein incorporated by reference to the same extent as if each individual publication, patent or patent application was specifically and individually indicated to be incorporated by reference.

DESCRIPTION OF THE FIGURES

FIG. 1 illustrates one of the many embodiments of a carafe;

FIG. 2 illustrates a historic carafe and pouch;

FIG. 3 a and FIG. 3 b illustrate a pouch connecting to a carafe;

FIGS. 4 a and 4 b illustrate the nesting ability of the carafes;

FIG. 5 illustrates a window to see how much liquid is in the pouch;

FIGS. 6 a and 6 b illustrate an embodiment of a pouch being attached to a carafe;

FIGS. 7 a, 7 b and 7 c illustrate a carafe with a closing receiving feature;

FIG. 8 illustrates a carafe with a closing receiving feature;

FIGS. 9 a and 9 b illustrate another embodiment of a pouch and carafe;

FIG. 10 illustrates an alternative receiving feature and a handle;

FIG. 11 illustrates another embodiment of the receiving feature;

FIG. 12 illustrates another embodiment of the receiving feature;

FIGS. 13 a and 13 b illustrate another embodiment of a carafe and pouch;

FIG. 14 illustrates another embodiment of a carafe and pouch;

FIG. 15 illustrates another embodiment of a carafe and pouch with a removable receiving feature;

FIGS. 16 a, 16 b and 16 c illustrate another embodiment of a carafe and pouch which has a sliding receiving feature;

FIGS. 17 a, 17 b, 17 c and 17 d illustrate additional embodiments of a carafe and pouch with a sliding receiving feature and a sliding fitment;

FIGS. 18 a, 18 b and 18 c illustrate another embodiment of a carafe and pouch using a retention notch;

FIGS. 19 a and 19 b illustrate another embodiment of a carafe and pouch with retention notches;

FIGS. 20 a and 20 b illustrate another embodiment of a carafe and pouch;

FIGS. 21 a and 21 b illustrate another embodiment of a carafe and pouch;

FIG. 22 illustrates a carafe with a control notch;

FIG. 23 illustrates another embodiment of a carafe with a lid and a pouch;

FIGS. 24 a and 24 b illustrate another embodiment of a carafe and pouch with a pouch holder;

FIG. 25 illustrates another embodiment of a carafe;

FIG. 26 illustrates another embodiment of a carafe and pouch;

FIGS. 27 a, 27 b and 27 c illustrate another embodiment of a carafe and pouch;

FIG. 28 illustrates another embodiment of a carafe and pouch;

FIG. 29 illustrates a fitment;

FIG. 30 illustrates a fitment and a receiving feature;

FIG. 31 illustrates a fitment and a receiving feature;

FIG. 32 illustrates a liquid holding vessel and a detachable handle;

FIG. 33 illustrates a liquid holding vessel and a detachable handle attached at an attachment point;

FIGS. 34 a, 34 b and 34 c illustrate a liquid holding vessel and a detachable handle;

FIGS. 35 a and 35 b illustrate a liquid holding vessel and a detachable handle;

FIG. 36 illustrates one embodiment of the pouches on display;

FIG. 37 illustrates another embodiment of pouches on display;

FIG. 38 illustrates another embodiment of pouches on display;

FIG. 39 illustrates an embodiment of pouches being shipped; and

FIG. 40 illustrates another embodiment of a carafe and pouch.

SPECIFICATION

Although the following text sets forth a detailed description of numerous different embodiments, it should be understood that the legal scope of the description is defined by the words of the claims set forth at the end of this patent. The detailed description is to be construed as exemplary only and does not describe every possible embodiment since describing every possible embodiment would be impractical, if not impossible. Numerous alternative embodiments could be implemented, using either current technology or technology developed after the filing date of this patent, which would still fall within the scope of the claims.
It should also be understood that, unless a term is expressly defined in this patent using the sentence “As used herein, the term ‘______’ is hereby defined to mean . . . ” or a similar sentence, there is no intent to limit the meaning of that term, either expressly or by implication, beyond its plain or ordinary meaning, and such term should not be interpreted to be limited in scope based on any statement made in any section of this patent (other than the language of the claims). To the extent that any term recited in the claims at the end of this patent is referred to in this patent in a manner consistent with a single meaning, that is done for sake of clarity only so as to not confuse the reader, and it is not intended that such claim term by limited, by implication or otherwise, to that single meaning. Finally, unless a claim element is defined by reciting the word “means” and a function without the recital of any structure, it is not intended that the scope of any claim element be interpreted based on the application of 35 U.S.C. §112, sixth paragraph.
It is clear that consumers are supporting the environmental initiatives where these options are generally cost competitive while still offering a level of product functionality that remains high and meets expectations. FTC, SPC, and other regulatory bodies are beginning to stipulate that package labeling clearly communicates the TRUE recyclability of the package's materials in the region where it is used. In addition, significant retailer initiatives are underway to minimize packaging materials or simplify package so that there are a greater number of good quality end of life options for materials reuse.
An approach to reduce the amount of single-use packaging in dairy products is to increase the proportion of reusable components relative to single-use components. It is critical to address this opportunity through consideration of a system that reaches from producers though distributors & retailers to consumer's homes and through to participation in recycling programs and re-processing of waste materials.
There are several functions of a package for dairy products. First and foremost, it must ensure product safety through the stated shelf life. To do this, it has a barrier component, a closure component, and a structural component. The laminate paperboard structures such as Tetra packages, the barrier and structural component are laminated to one another into a single-walled paper-based structure. In a blowmolded bottle, the functions of structure and barrier are performed by a single-walled structure. There is a problem with this approach, since barrier properties and structural integrity are derived from different types of materials. When materials are comingled or laminated, they are more difficult to recycle.
The described holding system 100 separates the functions of barrier from the function of structure. Since the pouch (barrier) 120 is not required to provide structural characteristics, it can be thinner, and use less virgin material to produce. In many countries, a durable, reusable carafe 110 is paired with a single-use refill pouch. 120. The pouch 120 is purchased on the usual high frequency, repeat basis. The carafe 110 stays at home (at the point of use) and initially is either purchased by the user or is given to the user free as a promotional item. FIG. 2 may illustrate a sample system. There are several variations on the system, for example and not limitation:
the pouch 120 is a simple pillow-pouch (VFFS, etc) with no fitment 140 or spout. The corner is removed with scissors and it is not possible to re-close the pouch 120 between uses.
the carafe 110 could be a very simple open-top jug or a complex, multi-part jug.
A carafe 110 and pouch 120 system scores very high on sustainability rankings. Significant contributing features include lightweighting of single-use items due to a reusable structural component. As a result there is a reduction of energy inputs on the manufacturing side. With high product to packaging ratio, the distribution system energy costs are expended on moving and merchandising product.
There are short comings inherent with the current pouch and carafe system that contribute to its limited consumer acceptance. First, there is a need for a cutting device to open the pouch. If the cutting device is absent there is a barrier to entry. In addition, there is no way to close the cut opening. Once the pouch is open, it stays open as there is no sealing or closing mechanism. The size of the corner cut has a significant affect on the actual pouring characteristics. This can range from slower or faster than desired. The cut also may be a rough cut and this can result in an unpredictable stream of exiting liquid. Errors lead to spills, waste and a less than satisfactory user experience. In addition, the opened pouch may be unstable at the upper end and may shift during the pouring process. It is not uncommon for the opening to shift during pouring as the user tilts the carafe and the content load then shift to the orifice end of the pouch.
Shortcomings with other types of systems that have sought to improve upon the carafe and pouch system. Jugit is an example and it is complex, finicky, material-intensive, requires cleaning, has loose parts, requires assembly on-shelf or in the user's home or other space.
There are some systems 100 where the pouch 120 is dropped into a jug with a piercing member in the bottom, and the pouch 120 opens, releasing the milk into the jug. The pouch 120 is removed, and the milk is dispensed from the jug. The down sides are that the jug requires cleaning, emptying the pouch is potentially messy and keeping the milk “clean” is a challenge. Even existing bottles also have shortcomings. Due to the single use nature and the desire to minimize materials and overall shipping volume to reduce cost, handles on typical HDPE milk jugs are often undersized. This, in combination with the opening size, can result in sloshing and sudden dispensation of liquids.
The carafe system 100 contemplated herein includes a carafe 110 or container with integrally molded receiving features 130 for a fitment 140 on a pouch 120. The carafe 110 nests for efficient shipping and storage prior to sale to customer. The carafe 110 could be made from injection-molded plastic, as an example and not limitation, the plastic could be PP, HDPE, ABS, etc. Of course other manufacturing methods and materials are possible and are contemplated.
FIG. 1 may illustrate a sample liquid holding apparatus 100 which also is referred to as a carafe system 100. The word “carafe” is not meant to be limiting in that carafes may have open tops and certain known shapes but the word “carafe” is used to present the concept that an outside shell is used to support an inner liner. The apparatus 100 may include a re-usable container 110 or carafe. The carafe 110 may be a durable, re-usable carafe 110 for the home or institutional/commercial use and may be injection-molded plastic, molded with an open bottom to take advantage of draft angles to achieve fitment lock features in top open end of carafe. A bottom part may be assembled to the carafe 110 post-molding.
The carafe 110 may be blow molded plastic, and molded entirely closed, with spout snap-in features die-cut out of the enclosed area afforded by the blowmolding process. In other embodiments, the carafe 110 could be sheet metal, ceramic, glass, or any other material well-suited to the kitchen environment. Of course other materials are possible and are contemplated. About the only limitation on the material is that it be capable of holding a liquid of a weight that is appropriate for the volume of the container or carafe 110. This carafe 110 and pouch 120 system in not meant to be limited to certain materials or processes.
The pouches 120 may be produced in several volume capacities. By example and not limitation, in the following volumes: 0.5 L, 0.75 L, 1.00 L, 1.3 L 1.5 L, 2.0 L etc. are possible. The pouch 120 may be lightweight and flexible and could be made from one type of plastic resin (LDPE, LLDPE, HDPE, blends etc.). The lightweight flexible film pouch 120 and fitment 140 could both be made from the same family of resins. As an example and not limitation, the pouch 120 and the fitment 140 could both be made from LDPE. As another example and not limitation, the pouch 120 could be made from a mostly LDPE film with barrier layers of other materials suitable for dairy packaging and with an appropriate sealing layer and the fitment 140 could be made from LDPE.
The pouches 120 to be used in the carafe 110 can be made by VFFS (Vertical Form Fill and Seal) process with fitment 140 installation, HFFS (Horizontal Form Fill and Seal) with fitment installation or platen forming with fitment 140 installation. The pouches 120 could be pillow style or be formed into flat bottom pouches, sidewall pouches, side weld, etc. The pouch 120 film could be single material such as a Polyethylene or constructed as a laminated film structure. In addition, the film could be a co-extrusion alloy of more than one type of plastic. Film materials could include, but are not limited to, HDPE, LDPE, PP, PET, Nylon, Metallocene, LLDPE, etc. Pouches 120 could be multi walled (i.e., two thin layers make each wall) but a preferred embodiment may be a single walled material. Pouches 120 could also be made by a thin wall extrusion blow molding (i.e., windshield washer fluid containers) process or injection stretch blow molding (similar to PET Coke® bottles) with and integrated fitment 140. These could be layered structures or single wall structures with a range of material option.
The pouch 120 could have features in the film, formed by a combination of thermal welding or ultrasonic welding and or die-cutting, that assist with or promote the following (the features could include holes, sealed flat areas, formed loops, slits, die-cuts, calendared textures, profiled edges, etc):
merchandising,
handle for picking up, carrying, inserting into carafe 110
insertion to carafe 110,
locking into carafe 110,
better evacuation of beverage from pouch 120 when in carafe 110,
structural integrity of carafe 110 when pouch 120 is installed.
The pouch 120 also could be a simple pillow-pouch style (essentially flat when not filled). The pouch 120 also could have formed/overlapped/shaped areas to assist withstanding up on shelf for merchandising or storage in refrigerator in the home and the pouch 120 may fully-deploy and fill the internal volume available in the carafe 110, providing friction or other mechanical means to improve retention in the carafe 110 and promote evacuation of beverage from pouch 120.
The carafe 110 may be of virtually any shape. Of course, the carafe may be designed to hold a pouch of liquid. The carafe cannot be so thin that a pouch cannot be inserted. As illustrated in FIGS. 4 a and 4 b, in one embodiment, the shape of the carafe 110 permits a first container to be nested inside an additional container. As an example, the opening of the carafe 110 may be wide enough to accept the base of another carafe 110 and allow the carafes to fit inside each other for easy transport.
In FIGS. 1 and 2, the carafe 110 may be a pitcher sort of shape. In some embodiments, the carafe 110 may have a lid 200 that may close over the pouch 120. In some embodiments, the lids may help secure the fitment 140 to the carafe 110.
FIGS. 3 a and 3 b may illustrate some additional holding vessel 100 embodiments. In FIG. 3 a, the pouch 120 may be placed vertically into the carafe 110 and the lid 200 may assist in keeping the pouch 120 in place. In FIG. 3 b, the lid 3200 has a pivot point which creates a hinge like action for the lid 200 as it close down onto the carafe 100 and holds the pouch 120 in place.
The carafe 110 may have a window 500 (FIG. 5) that permits an estimate to be made of the level of liquid in the pouch. The window may be molded into the carafe 110 or may be an opening in the carafe 110 itself.
The carafe may also be designed to fit into a regionally appropriate refrigerator. As an example, the door on a US refrigerator may accept a 6 inch wide and 12 inch tall container. Logically, the carafe may be 6 inches wide and 12 inches tall.
FIGS. 6 a and 6 b may illustrate another possible design for the carafe 110 and pouch 120. The pouch 120 may be slid into the carafe 110 with the pouch fitment 140 registering in a release-able manner with the receiving feature 130. FIG. 6 b may illustrate the pouch 120 being release-ably connected to the carafe 110.
The carafe 110 may include a receiving feature 130 for receiving a fitment 140 on a re-closeable liquid containing pouch 120 where the receiving feature 130 allows the fitment 140 to be securely held to support the pouch 120, may assist in resisting twisting of the pouch 120, may bring the pouch/fitment 140 in working position, compared to its natural manufacturing position/orientation/angle and may allow the release of the fitment 140 if desired. The carafe's receiving feature 130 may be cylindrical in shape, arranged with its axis at some angle to the long axis of the carafe 110, so as to position the fitment 140 in an optimal use angle and position. The receiving feature 130 may also position a lug on the fitment 140, for the purpose of preventing rotation during capping/uncapping. The receiving feature 130 may have an open end slightly smaller than the maximum outside diameter of the fitment 140 (“E” dimension). Due to the flexible and compliant nature of the fitment 140 material and the carafe material 110, this restricted opening allows insertion of the fitment 140, but provides resistance to removal of fitment 140. The receiving feature 130 may be integrated to any carafe 110 design/material. A non restricted opening is also contemplated where the fitment inserts easily and is release-ably retained to the carafe with and additional feature such and a snap, a sliding lock, a threaded collar.
The receiving feature 130 may be a separate part that is purchased (by a carafe-manufacturer) and assembled to match the fitment 140. Similarly, the rights to the receiving features may be purchased for manufacture or directly incorporate the features into the carafe by the carafe manufacturer. The receiving feature 130 may be produced in a manufacturing method that allows high tolerances required for proper engagement with features of a pouch fitment 140 and assembled to a carafe 110 produced in a manufacturing method with that produces parts with lower tolerances. Of course other methods for retention of the fitment are possible and are contemplated.
The carafe 110 could have fitment 140 snap-in features 700 that are molded in a first position and shipped in that position, efficiently nested. FIGS. 7 a, 7 b and 7 c may illustrate one possible embodiment. A flap 720 with corresponding features 700 to the snap in features 710 could be part of a foldable receiving feature 130. The user may fold and snap the fitment snap-in features 700 into the corresponding snap in features 710, creating the receiving feature 130 in the proper location for the fitment 140 (FIG. 7 c). The integral snap features 710 that hold the “snap-in” features 700 in the second use position could be one-time snaps, i.e. the user would not be able to reverse the process. In another embodiment, the snaps 700 and corresponding snaps 710 could be releasable connected. FIG. 8 may illustrate another embodiment where a second flap 730 may also be used to full close the top of the carafe 110, further ensuring that the pouch 120 will not remove itself unwillingly.
FIGS. 9 a and 9 b may illustrate yet another embodiment of the liquid holding vessel 100. The pouch 120 (FIG. 9 a) may have a fitment 140 that snaps or locks into a corresponding receiving feature 130 in the carafe 110 (FIG. 9 b). In one embodiment, the fitment 140 slides and locks using rails and slides into the receiving feature 130. In other embodiments, the fitment 140 may simply fit tightly into the receiving feature 130.
FIG. 10 illustrates another embodiment of the carafe 110. The carafe 110 may have a top 1000 that has a receiving feature 130 built into it along with a handle 1010. The fitment 120 may fit and lock into the receiving feature 130 and the handle 1010 may be used to manipulate the liquid holding vessel 100.
FIGS. 11, 12 a and 12 b may be yet another embodiment of the liquid holding vessel 100. In FIGS. 11, 12 a and 12 b, the fitment 140 may be held in place using connecting members. For example, the fitment 140 may have one or more male members 1100 and the carafe 1200 may have a corresponding number and shape of female members 1200. These female members may be created easily within the carafe tooling line of draw, if made in injection molded plastic. The male members 1100 may connect with the female members 1200 (FIG. 12 b) and hold the fitment 140 in the desired location until the user is prepared to recycle the pouch 120.
The fitment has a cylindrical body, with a welding flange at an end and at another end, threads or other features to receive a closure. There could also be an integrally-molded closure, or an integrally-molded closure on a flexible strap. There are features (ribs, protrusions, flanges etc) for secure fit with the inside surface of the container when fitment is in use position. There is a feature to prevent rotation during capping/uncapping, which fits into a receiving feature in the carafe. This could be a lug, block, rib, etc. The fitments could be made of a range of materials, including PP, LDPE, HDPE, LLDPE and they can be attached to the pouches by heat welding, ultrasonic welding, or other processes. Of course other features for facilitation of insertion and for retention of the fitment are possible and are contemplated.
FIG. 13 is an illustration of another embodiment of the liquid holding device 100. The carafe 110 may have a parting line of may be two parts. The two parts may be brought together around the pouch 120, thereby locking the fitment 140 into the receiving feature 130. Of course, the carafe 110 may be more parts, but the complexity of the carafe 110 may make its use less desirable.
FIG. 14 is an illustration of yet another possible embodiment of the liquid holding vessel 100. The pouch 120 may be place in a carafe 110. Then the carafe of one material 110 holding the pouch 110 may be placed inside a band 130 of the same or an alternate material that may include the receiving feature to hold the fitment 140 as desired.
FIG. 15 illustrates an embodiment where the receiving feature 1500 is a separate piece. In some embodiments, the receiving feature 1500 is a separate piece and in other embodiments, the receiving feature 1500 is connected to the carafe 110 in a pivoting fashion, in its open position it allows for a less obstructed installation of the pouch into the carafe. The fitment 140 may be locked in place using the separate receiving feature 130 and the receiving feature 130 may be connected to the carafe 110 using mechanical, physical or any other appropriate fastening system.
FIGS. 16 a, 16 b and 16 c illustrate another possible embodiment of the liquid holding vessel 100. In FIG. 16 a, the retention feature 130 is attached to the carafe 110 using a sliding connection. The retention feature 130 may slide closed (FIG. 16 b) and thereby lock the pouch 120 and fitment 140 in place (FIG. 16 c). The retention feature 130 may lock in place using mechanical, physical or any other appropriate closing system. Similarly, FIGS. 17 a, 17 b, 17 c and 17 d may illustrate another embodiment where the fitment 140 slides into the receiving feature 130 on the carafe 110. The guides on the fitment 140 ensure that the fitment 140 is at a desire angle and is securely in position.
FIGS. 18 a, 18 b and 18 c illustrate another possible embodiment of the liquid holding vessel 100. The carafe 110 may have a retaining point 1800 that connects with a corresponding retention receiver 1810 in the pouch 120. As illustrated in FIGS. 18 b and 18 c, the shape of the pouch 120 may be varied but the retaining point 1800 and retention receiver 1810 may still operate effectively. FIGS. 19 a and 19 b illustrate a variation where the retention points 1800 are on the side of the carafe 110 and the retention receivers 1810 are on two flaps attached to the pouch 120. Of course, additional retention designs are possible and are contemplated.
FIGS. 20 a and 20 b illustrates another embodiment of the liquid holding vessel 100. The fitment 140 attached to the pouch 120 may be angled into the receiving feature 130 and secured into position as shown in FIG. 20 b. FIGS. 21 a and 21 b may illustrate another embodiment where the receiving feature 130 may be movable to better receive the fitment 140. Once the fitment 140 is secured in the receiving feature 130, the receiving feature may be moved to a locking position thereby holding the liner 120 and fitment 140 in place (FIG. 21 b).
FIG. 22 may illustrate the carafe 110 along with the retention feature 130 and a control notch 2200. The control notch 2200 may receive a fitment notch 2210 (FIG. 29) that assists in securing the fitment 140 and prevents the fitment from spinning when a cap 3100 or other closure device is screwed onto the fitment 140.
FIG. 23 illustrates another embodiment of the liquid holding vessel 100. The vessel 100 may have a lid 2300 that assists in holding the pouch 120 in place. FIGS. 24 a and 24 b provide additional detail, illustrate that the pouch could be attached to a pouch holder 2400 which may slip into the carafe 110, with the alignment device 2410 following the alignment crease 2420 in the carafe 110 to ensure that the fitment 140 fits accurately in the receiving feature 130 (FIG. 24 b). FIG. 25 may illustrate that the carafe 110 may also have the alignment notch 220 such that the fitment 140 may accurately fit the receiving feature 130.
The fitment 140 may be reclose-able, such as with a flip cap or a screw cap 3100. The fitment 140 on the pouch 120 may also have tamper-evident seal and a re-usable closure. The fitment 140 may also have features that securely snap in to and engage with the receiving feature 130 on the carafe 110. The fitment 140 may be facemounted or edgemounted to the pouch 120. Face-mounted fitments are described in U.S. Pat. Nos. 6,237,308, 5,288,531,4,709,528, 7,076,935, 6,874,299, 6,826,892, 6,794,053, 6,237,308, 5,363,966, and U.S. Patent Application No. 20060111224, which are incorporated herein by reference in their entirety.
The fitment 140 may also have features such as holes, hooks, snaps, ridges, fins, flanges, etc. for improving merchandising options, securing fitment 140 to carafe 110, guiding fitment 140 into correct location/position/orientation in carafe receiving feature 130, providing audible feedback when the fitment 140 is locked into place in carafe 110, providing tactile feedback when the fitment 140 is locked into place in carafe 110, providing a location for hang-tag or other labeling for any purpose, creating a hanging pouch 120 from features in carafe 110, stabilizing the top of the pouch 120 while the pouch 120 rests in carafe 110, providing a hang pouch 120 on a shopping cart during transit from dairy case to checkout to car, etc.
In some embodiments of the fitment 140 used in the carafe 110, the same fitment 140 could be designed to fit into a molded pulp shell; the resulting rigid vessel 100 with polymer liner could be suitable for distribution, retailing, and dispensing of beverages or other fluid or aggregate materials for engagement to a pulp molded bottle shell 110. This could leverage tooling capital, suppliers, distribution, etc in place for one type of package (the refill pouch 120 for carafe 110) for use in another type of packaging.
The fitment 140 may provide secure closure after initial opening and the fitment 140 could provide medium-level of security in closure after initial opening. In addition, the fitment 140 could, through color variations, communicate different products carried in the pouch 120 (e.g.: blue fitment could mean Skimmed Milk, pink fitment could mean 2% Milk, white fitment could mean 3.25% Milk, or any other designated product, according to the dairy/retailer's current color scheme). The fitment 140 could promote complete evacuation of beverage from pouch 120, without undue rotation of package 110 and the fitment 140 could prevent pouch 120 from falling out of carafe 110 when pouring the last part of beverage out (and when carafe 110 may be upside down).
The fitment 140 may be made from a single material, may be made in a single part and may be closed with a separate closure (screw-type, snap, etc). The fitment 140 may also be in a single part including an integral tamper-evident device; and have a separate closure. The closure could be a snap-type closure, molded in a first “open” position, then moved into a second “closed” position for distribution, retailing, and use. The second “closed” position could also create the appropriate closure after the package is first opened by the user.
FIG. 26 illustrates one embodiment where the fitment 140 slides down and is secured in the receiving feature 130. FIGS. 27 a, 27 b and 27 c illustrate the pouched 120 locked into the carafe 110 from a variety of angles while FIG. 28 illustrates a more detailed view of the fitment 140 and the receiving feature 130. FIG. 40 may illustrate a carafe 100 with a top cover 180 where the receiver feature 130 can be located mainly or fully in the top cover 180. After the connection is made between the fitment 140 and the receiver feature 130, the cover 180 is closed for use. Such an arrangement may be beneficial with keeping the more complex receiving feature 130 in the smaller upper cover part 180 and in allowing a smart cover part with the receiver feature 130 to be attached to lots of different carafe 110 material types.
FIG. 29 illustrates one embodiment of the fitment 140, along with the alignment notch 2210. FIG. 30 illustrates how the alignment notch 2210 fits into the alignment notch 220 in the receiving feature 140 of the carafe 110. The result of the notice is that when a cap 3100 is screwed onto the fitment 140, the fitment 140 will not spin. Alternately, a wedge shape receiving feature may accept a matching wedge shaped fitment and be both self aligning and anti-spin. FIG. 31 illustrates how the fitment 140 is locked into the receiving feature 130 and how a cap 310 could fit on the fitment 3100. Other shapes and detailing for fitments 140 have been contemplated.
FIGS. 32-35 a & 35 b illustrate that the vessel 100 may have a detachable handle 1010. Referring to FIG. 33, the handle 1010 may attach at an attachment point 3700 on the carafe 110. FIGS. 34 a-34 c illustrates that the handle 1010 may be attached at the attachment point 3700 and then angled down to snap over the alignment creases 2420 in the carafe 110. As a result, the handle 1010 will attach at the upper attachment point 3700 and on each side by connecting to the alignment creases 2420 (FIG. 35 b). In other embodiments, the handle 1010 could a strap or a long handle that connects at the upper area of the carafe 110 and into a receiving area or crease molded into the bottom of the carafe 110. Of course, other manners of attaching a handle 1010 are possible and are contemplated.
FIGS. 36-39 illustrate the various ways in which the pouches 120 may be displayed and sold. The pouches 120 may be merchandised in cardboard display boxes 3500 (FIG. 39) in a dairy case. The pouches 120 may be standing up (FIG. 38), with dividers in box, laying down, loose-packed in box, etc. In this last option, fitment a fitment design that is generally smooth will ensure that fitments do not perforate pouches when loose packed.
The pouches 120 may be sold in multi-packs of 2, 3, 4 or more pouches of various capacity (e.g.: 3×1.3 L pouches). Multi-pack configurations could result in total volumes typically sold in dairy: ½ gallon, 1 gallon, 2 gallon, etc. Multi-packs could be packed in thin polymer bags (as in Canada); the bags could be thin LDPE. This gives the multi pouches double wall security and can immobilize fitments and keep them from abrading neighboring pouches.
The multi-packs may be secured with a strap that also functions as a carry/hang handle. Other methods of securing and merchandising multi-packs are possible and are contemplated. FIGS. 36 and 37 illustrate a system using a re-usable carafe 110, several hanging fixtures installed in a refrigerator, and single-use refill pouches 120 that engage into the carafe 110 and the fixtures on the refrigerator door.
The pouches 120 could be stored hanging from the fixtures on the door, both before they are opened, and after they are opened, but before they are consumed completely. The user could store the partially-used pouches 120 in the refrigerator, and only put the pouch 120 that they needed into the carafe 110 when they needed to use it. Several products would be available for purchase in the refill pouches 120 (milk, juice, etc). This could safe refrigerator space for storage.
The benefits of the described liquid holding vessel 100 are many. At a high level, less trash may be created as more of the liquid delivery vessels will be recycled. In addition, the described embodiments may create a clean and safe device that is easy and reliable to use for transporting and dispensing liquids. Users will be pleased with the ease of use, reliability and re-use-ability of the described vessel 100.

Claims

1. A material holding and dispensing apparatus comprising:

a re-usable container comprising:

a body comprising:

a bottom portion and

a plurality of sides that are substantially perpendicular to and in communication with the bottom portion to form a container;

wherein the container is adapted to hold a re-closeable material containing pouch and

wherein the body comprises a material with sufficient strength to support the material containing pouch;

a receiving feature for receiving a fitment on the re-closeable material containing pouch wherein the receiving feature comprises a notch receiver wherein the notch receiver interfaces with a corresponding fitment notch;

the re-closeable material containing pouch for holding and dispensing the material comprising:

a fitment attached to the pouch comprising:

a neck that is complementary to a shape of the receiving feature and fits securely into the receiving feature of the container to support the pouch;

a fitment notch that interfaces with a corresponding container notch receiver in the receiving feature;

an opening for dispensing materials that is re-closable;

a closing mechanism that interacts with the fitment to temporarily close the opening;

wherein the pouch and fitment comprise recyclable materials.

2. The apparatus of claim 1, the re-usable container further comprising:

a window that permits an estimate to be made of the level of liquid in the pouch.

3. The apparatus of claim 1, wherein the re-usable container comprises

a material that is capable of holding a liquid of a weight that is appropriate for the volume of the container.

4. The apparatus of claim 1, wherein the re-usable container comprises a shape that permits a first container to be nested inside an additional container and to hold a pouch of liquid.

5. The apparatus of claim 1, further comprising a separate handle that is removably attachable to the container.

6. The apparatus of claim 5, wherein the re-usable container comprises at least one attachment point for a removable handle.

7. The apparatus of claim 1, wherein the notch receiver that interfaces with a corresponding notch on the fitment comprises a protrusion opening that allows the fitment to be:

securely held to support the pouch,

resist twisting of the pouch,

to release the fitment if desired; and

positioned optimally for dispensing fluid.

8. The apparatus of claim 1, wherein the re-closeable material containing pouch for holding and dispensing material further comprises:

a fitment that fits securely into the receiving feature of the container to support the pouch and deter it from twisting but is removable from the receiving feature with adequate force;

an opening for dispensing material that is re-closable and indicates whether the opening has been opened previously; and

a recyclable material that holds the material for a desired amount of time without significant leaks.

9. A reusable container for receiving and securing a biodegradable liner with a dispensing fitment comprising;

A shell comprising

A bottom;

A plurality of sides that are connected to the bottom and create a container;

A fitment receiving feature comprising:

A deformable opening to receive the dispensing fitment attached to the biodegradable liner wherein the deformable opening comprises

one or more flanges that deform to allow the dispensing fitment to be engaged in the opening before the flanges return to their original form and release-ably secure the fitment in the opening and wherein the form of the flanges is complementary to receiving openings on the fitment; and

a control notch that is complementary to the fitment notch on the fitment wherein the control notch and fitment notch fit together in a secure connection;

The biodegradable liner comprising:

An enclosed space to hold material;

The dispensing fitment wherein the fitment is connected to the biodegradable liner and where the fitment comprises:

An opening to dispense material;

A closing element that allows the fitment to be opened to dispense material and to be closed to stop the flow of material;

Engagable openings that correspond to the flanges of the deformable opening; and

The fitment notch that is complementary to the control notch on the fitment wherein the control notch and fitment notch fit together in a secure connection.

10. The container of claim 9, further comprising a window that permits an estimate to be made of the level of liquid in the pouch.

11. The container of claim 9, further comprising a separate handle that is removably attachable to the container.

12. The container of claim 11, wherein the re-usable container comprises at least one attachment point for a removable handle.

13. The container of claim 9, wherein the fitment further comprises:

a shape that fits securely into the receiving feature of the container to support the pouch and deter it from twisting but is removable from the receiving feature with adequate force;

a recyclable material.

14. The container of claim 9, wherein the shape of the liner when filled is complementary to the inner form of the container.

15. The container of claim 9, wherein the receiving element temporarily deforms to allow the release of the fitment and the receiving element temporarily deforms to receive an additional fitment after the fitment is released and the receiving element returns to its original form to secure the fitment.

16. A reusable container for receiving and securing a liner with a dispensing fitment comprising;

A shell comprising

A bottom;

A plurality of sides that are connected to the bottom and create a container;

A fitment receiving feature comprising:

A deformable opening to receive the dispensing fitment attached to the liner wherein the deformable opening comprises

The liner comprising:

An enclosed space to hold material;

The dispensing fitment wherein the fitment is connected to the liner and where the fitment comprises:

An opening to dispense material;

17. The container of claim 16, further comprising a window that permits an estimate to be made of the level of liquid in the pouch.

18. The container of claim 16, further comprising a separate handle that is removably attachable to the container.

19. The container of claim 16, wherein the fitment further comprises:

a recyclable material.

20. The container of claim 16, wherein the receiving element temporarily deforms to allow the release of the fitment and the receiving element temporarily deforms to receive an additional fitment after the fitment is released and the receiving element returns to its original form to secure the fitment.