CA2243962A1 - Reclosable dispenser package, reclosable outlet forming structure and method and apparatus for making same - Google Patents

Abstract

An aperture forming structure includes a break away tip member (634) of thermoformable plastic. The break away tip includes a hollow protrusion extending from a surface. The intersection of the hollow protrusion and the surface is a fault line (636). Rupturing of the fault line creates an aperture for dispensing the contents of the package. A cap (620) may be integrally formed with the aperture forming structure and detached for protecting the hollow protrusion or for closing the aperture. The aperture forming structure can be made by heating a relatively stiff substantially flat thermoformable sheet of and then stretching the sheet to create a first and a second hollow protrusion in tiered configuration. A rupture line is placed at the intersection of the first and the second protrusions. The sheet may be attached to a pouch or containment member formed from a flexible sheet which contains any flowable substance.

Description

CA 02243962 l998-07-2l W O 97/27043 PCTrUS97/01137 RECLOS~3LE DISPENSER PACKAGE, RECLOSABLE OUTLET FORMING
STRUCTURE AND METHOD AND APPARATUS FOR MAKING SAME
This international application claims priority to United States Provisional Application Serial No.
60/010,455, ~iled January 23, 1996, and United States Provisional Application entitled "RECLOSABLE ~ISPENSER
PACKAGE, RECLOSABLE OUTLET FORMING STRUCTURE AND METHOD
AND APPARATUS FOR MAKING SAM~", filed January 3, 1997 by the same inventor o~ the instant non-provisional application, both o~ which are herein incorporated by re~erence.
FIEIJD OF T~IE lNvl~iN~ oN
This invention relates to easy opening, sel~-contained, easy to use, single or multiple use dispenser packages capable of economical, high speed production, manu~actured ~rom a broad range o~ materials, many o~
which are recyclable. They may contain such products as syrups, cream, cheeses, salad dressings, shampoo, hand-cream, liquid detergents, motor oil, toothpaste pates, pet ~ood and many other products. It additionally relates to a package which has the capability o~ dispensing the contained product, e.g., mouthwash, cough syrup, con~ections, alcoholic beverages, etc., directly into the mouth o~ the user, and which also includes a reclosure cap member ~ormed as an integral part o~ the package and which pre~erably is tethered to the package by a tethe-r also ~ormed integrally with the package. It will also be seen that the easy opening ~eature together with the reclosure cap and tether may be ~ormed independently and sealed or adhered to the sur~ace o~ many packages such as bags, milk containers, pouches, pillow packages (sachets), etc. to make ~or very e~icient low cost dispensing packages or squeeze bags. These squeeze bag type packages could dispense ~ood pastes such as pet ~ood, cremes, grease, yogurt, certain types o~ dough, cake ~rosting and could be made o~ everything ~rom treated, coated paperboard plastic W O 97/27043 PCTrUS97/01137 films, foils, laminates or coextrusions of these materials. The easy opening means of this application in its preferred embodiment is comprised of a drum-like protrusion from which a secondary frusto conical protrusion extends to create a tip which is encircled at its base by a fault line. To create the aperture this tip is broken away by applying light lateral finger pressure.
In order to protect this breakaway tip during shipment or for reclosing the aperture, a tethered cap is also formed ad~acent to the double protrusion. The tether functions not only to hold the cap, thereby preventing the cap ~rom being lost, but also to hold the cap [on the tip] in place by acting like a spring.
In an alternate aperture forming system the initial drum like protrusion has, instead of a frusto-conical breakaway tip, a fault line pattern defined in its top surface, so designed as to rupture to create an outlet of various re~uired shapes when a puncturing tool/plug is pressed into said fault line pattern. Such puncturing tool/plug may be ~ormed instead of a cap and may be tethered or the cap may be double ended with a cap formation on one end and the puncturing tool/plug formation on the other. It will also be seen that a cap containing a protruding member formed within the cap similar to the style of a flower would perform as a central punch when the cap is pressed over the drum shaped protrusion. It will further be seen that in certain instances where a metal ~oil liner is required for a flowable product such as an alcoholic drink the drum shaped protrusion may be replaced by a moundlike protrusion with a central fault line pattern. The reason for such a moundlike shape instead of the drum shape is to prevent the stretching of the foil beyond its elastic limit at surface intersections in which case it would rupture during formation. Said pattern able to be punched open by a ~ormed puncturing tool/plug said puncturing W O g7/27043 PCTrUS97/01137 tool/plug may be thermo~ormed and tethered to the unit or may be independently made and the tether may have a formed ring at its ~ree end into which the puncturing tool plug may be seated.
This invention also relates to a method and apparatus ~or manu~acturing the a~oresaid ~ormation and packaging, reliably at high speed, in many cases ~rom ~ully recyclable material, so as to permit such packages to be produced at low cost and, in many cases, recyclable.
Additionally the packages may use less plastic material than most other previously known portion packages leading to source reduction and environmental bene~its even when non-recyclable materials are used.
~ÇR~OUND OF THE lNvL.llON
Various attempts have been made to provide a dispenser package in which a product may be packaged in the quantity normally required ~or single or multiple uses, and ~rom which the contained product may be dispensed.
One type o~ such dispenser packages is a pillow pouch or sachet, typically made o~ relatively thin plastics and ~oils or combinations o~ laminated plastics and ~oils. These packages are most ~requently encountered as containers ~or catsup, mustard, other con~m~nts, 2~ homecare preparations such as hair conditioners, dyes and cremes, etc. Although this type o~ package is universally used, it is also universally disliked by the consumer. In order to access the contents, the pouch must be held in one hand while a tearing motion and ~orce are applied by the other hand. Creating the initial tear to break the ~ packages seal is o~ten very di~icult, o~ten requiring the assistance of the user's teeth. Moreover, once the initial tear is created, the laminated ~oil and/or plastic material not only o~ten tears in an uncontrolled ~ashion, 3~ but the holding pressure exerted by one o~ the user's hands o~ten ~orces the contents out o~ the envelope not W O 97~27043 PCTrUS97101137 only before the user is ready to apply the contents, but even be~ore the tearing motion is complete Opening these packages leads to ~rayed tempers, broken ~ingernails, and chipped teeth, as well as other problems. The user must also use both hands to open the container. In the case o~
invalids, arthritis su~erers and other handicapped people, opening these packages is virtually impossible.
Yet another problem associated with these prior packages is the impossibility o~ e~icient reclosure, thereby precluding multiple use o~ the package, with conse~uent waste o~ the unused contents. Further disadvantages include the sachet/s inability to ~unction e~ectively with low viscosity products such as co~ee cream, mouthwash or alcoholic beverages, due to the inability of the torn opening to control the direction o~ ~low o~ such liquids ~rom the package. These packages also are generally totally unrecyclable, and there~ore become environmental pollutants. As above-mentioned however, should continued use o~ these sachets be pre~erred, then the easy opening ~eature of this application may be readily and economically adhered to the sachet to make ~or an easy opening, reclosable, hig~-barrier package.
Another dispenser package is the peel-top cup used ~or butter, margarine, syrup, sauces, salad dressing, and other similar products. This type o~ package re~uires good eyesight and m~nll~l dexterity. Such packages are o~ten used as co~ee creamers and have many disadvantages, including di~iculty in peeling o~ the top in order to open, as well as di~iculty in pouring, accidental spilling, and the inability to be reclosed so as to preclude more than a single use. Again the inventions described herein can be adhered or integrally formed into these packages to make them easy opening and reclosable.
Yet another type of dispenser package is the unsealed corruga~ed paper package used ~or salt and/or pepper, which upon bending along an interrupted line cut through , W O 97/27043 PCT~US97/01137 the corrugations forms an openiny through which the salt or other material contained in the package may flow.
These packages only dispense dry, solid flowables with the assistance of gravity, and cannot be used to contain, no less dispense, "wetIr or liquid flowable materials. The package of this invention can contain and readily dispense both liquids and dry granular products.
Small, very expensive, metal capped bottles are used for alcoholic drinks and are either poured or consumed directly from the bottle. These bottles may be reclosed, but often are sized for a single drink so they do not have to be reclosed. The instant package can be used for alcoholic beverages at a fraction of the cost o~
the bottles.
Everyone is familiar with the ubiquitous gable top milk carton and everyone is familiar with the varying degrees of difficulty in opening them. These range from ~ingernail breaking to just plain unopenable without a knife or other tool.
They never truly reclose and at best are messy and unclean looking. In the U.S. there has been a move toward mounting a screw-on cap combination comprising a threaded nozzle member which is sealed onto one of the slanted gables of the carton and the other is an unattached screw-on cap. This little injection molded duo is costly to make and to install, possibly on the order of 3 to 5 cents and is commo~1y used on large gable top juice containers in the half gallon size. These are expensive, high profit items selling for about three dollars each and can bear the extra tariff for the screw-on outlets. There are however billions of these gable top units sold ~nnll~lly for milk and cream in varying sizes from half-pints to half gallons. Producers however are reluctant to increase carton cost significantly and the public continues to use dif~icult to open cartons.

The instant invention makes available a sealed and tamper evident outlet with a tethered cap, both ~ormed in a single, small plastic unit which can be readily sealed or adhesively attached to the gable over a small pre-made hole. It is ultra low cost and may be made o~
polypropylene, high density polyethylene, PVC. Polyester etc. utilizing material costing small ~ractions o~ a cent.
It will be seen that the cap serves a double purpose. It enables the outlet to be reclosed a~ter opening and o~
e~ual importance, since the cap is in place over the breakaway tip during shipment it protects the tip ~rom being accidentally hit or sub~ected to any ~orces which may open the outlet.
It may be seen that the lower drum-like f~ormation beneath the breakaway tip may be elongated 80 that when the tip is broken away, an elongated nozzle rPm~ ~ n.~ which would allow the ~lowable substance to be ingested directly from the container or as in the case o~
motor oil, being poured directly into the engine oil inlet. Another disadvantage currently experienced with dispensing packages is the closing o~ the outlet opening.
Closing the outlet opening o~ tubes is presently accomplished by means o~ an injection molded screw-on cap which normally includes a compressible gasketing material.
The end o~ the tube re~uires a mating thread to match the cap. Both the separately molded gasketed cap and the threaded tube result in increased manu~acturing costs.
Additionally, the cap, as o~ten as not, is dropped and/or lost while it is being threaded on or o~. Furthermore, there has been a growing trend to manufacture such tubes at still greater cost by providing hinged caps with a ~lat end sur~ace which permits the tube to stand upright.
Thus, the cap members currently in use have the disadvantage that they tend to increase the overall cost o~ manufacture o~ the dispensing package.

W O 97/27043 PCTrUS97/01137 OBJECTS OF ~ E lNv~N~lloN
It is therefore an object of this invention to provide a new and improved means of creating an aperture in a thermoformable plastic material as well as an integrally formed cap and tether where necessary.
A further object is to form independently such aperture creating means with or without a cap and/or tether for adhesion to other forms of previously difficult to open or non-reclosable packaging.
Another object of this invention is to provide new and improved dispenser packages.
Another object of this invention is to provide a new and improved aperture-forming structure ~or a dispenser package which allows the user to easily and controllably dispense the contents of the package directly to the user's mouth or in a directionally controlled ~nner~ as desired.
Another object of this invention is to provide a new and improved aperture-forming structure for a dispenser package which opens easily and reliably and yet which can be manu~actured economically and at high speed.
Another object of this invention is to provide a new and improved reclosable dispenser package so that the contents thereo~ may be dispensed in consecutive uses and the outlet opening reclosed between uses.
A further object of this invention is to provide a new and improved reclosable package with an attached cap member ~ormed from the same plastic film which cap member may be therea~ter placed over the unopened aperture ~orming means to protect it and/or to reclose the package after opening.
Another object o~ this invention is to provide a new and improved reclosable package and removable cap member which may be formed as an integral unit and where the cap member is attached to an integrally made tether and rPm~; n~ attached to the package and which may be W O 97127043 PCTrUS97/01137 placed over the unopened aperture forming means to protect it ~rom changes or accidental opening during shipping and handling.
Another object of this invention is to provide a new and improved reclosable package and tethered cap member which may be formed as an integral unit from a thermoformable material.
Another object of this invention is to provide a new and improved reclosable package and tethered cap member which may be ~ormed as an integral unit from a thermo~ormable plastic material that is recyclable.
Another object o~ this invention is to provide a = new and improved dispenser package and cap member wherein the cap member has an open-ended top of predetermined shape so that, upon placing the cap over the aperture of the package the contents may be dispensed in such shaped stream.
Another object of this invention is to provide a new and improved dispenser package and cap member wherein the cap member includes a utensil device such as tiny protrusions or a flattened surface structure so that the cap member may function as a tool to brush, spread, or otherwise handle the contents dispensed from the package.
Another object of the invention is to replace 25 = the cap member with a dual function punch/plug member capable of punching through a tough pre-scored formation to create an aperture and to ~urther act as a plug to close said aperture.
A still further object of this invention is to provide a new and improved method of m~k; ng a dispenser package embodying the a~oresaid features.
Another object of this invention is to provide a new and improved method o~ thermoforming a dispenser package ~rom a recyclable plastic material at high speed and yet provide a ~inished package which may be easily and reliably opened by the user.

, W O 97127~43 PCTAUS97/01137 Another object of this invention is to provide a new and improved apparatus for forming an aperture-~orming structure for a dispenser package.
Another object o~ this invention is to provide a new and improved apparatus ~or forming a nozzle-like aperture structure in a dispenser package so that, upon opening, the contents of the package may be dispensed in a directionally controllable manner.
Another object of this invention is to provide a new and improved sel~-centering and sel~-aligning punch and die apparatus adapted to accurately and reliably ~orm a thermo~ormable material into a hollow tip-like configuration having a peripherally extending ~ault line so as to permit the tip to be readily broken away by the user to ~orm an aperture opening through which the contents of the package may be dispensed.
- The ~oregoing specific objects and advantages of the invention are illustrative o~ those which can be achieved by the present invention and are not intended to be exhaustive or limiting o~ the possible advantages which may be realized. Thus, these and other objects and advantages o~ the invention will be apparent ~rom the description herein or can be learned ~rom practicing the invention, both as embodied herein or as modi~ied in view 2~ of any variations which may be apparent to these o~
ordinary skill in the art, the same being realized and attained by means of the parts, constructions and instrumentations, and combinations thereo~, as well as in the steps and processes pointed out in the appended claims. The present invention resides in the novel parts, constructions, arrangements, combinations, steps and processes, and improvements, herein shown and described.
- SUMMA~Y OF THE l~v~.,llON
Brie~ly described this invention is directed to a new reclosable aperture ~orming means which may be ~ormed with an integrally ~ormed cap member which may be W 097/27043 PCTrUS97/01137 tethered to said aperture ~orming means to create a unit which may ~e independently ~ormed and adhesively or sealingly attached to a cont~ner wall or sur~ace over a hole in said container wall to create an easy opening, reclosable, when necessary, dispensing package. Said reclosable aperture ~orming m~n~ embodying an integral, hollow protrusion member preferably comprised o~ two stages, a drum shaped base from which extends a generally conical or ~rusto-conical tip, said tip member having a 13 ~ault line encircling it at its juncture with the ~lat top sur~ace o~ the ~irst drumlike ~ormation which may be readily broken o~ to ~orm an opening through which the contents of the package may be dispensed in a directionally controllable stream. After the tip o~ the protrusion member is broken of~ by applying light lateral ~inger pressure, the desired quantity o~ the contents may therea~ter be expelled through the opened nozzle-like outlet by gentle hand s~ueezing o~ the package.
In a second embodiment the entire reclosable aperture ~orming means may be integrally ~ormed into what will become an easy to use reclosable dispensing package.
In this second embodiment a generally relatively ~lexible, compressible pouch or container member is sealably attached to a cover member ~orming the top or lid o~ the ~5 package. The cover member includes the new reclosable aperture ~orming means and tethered cap member as described above and similarly used.
In another desirable embodiment the pouch or contai~er member has the integral hollow protrusion and tethered cap member thermo~ormed into the underside o~ its relatively sti~f rim. The advantage of this version being that the cover member then becomes a relatively thin skinlike mem~er which is very easy to print and less expensive than the ~ormed upper cover member.
35 - The a~oresaid cap member which is initially ~ormed with the package as an integral unit is pre~erably -W O 97/27043 PCT~US97101137 ~ormed along one peripheral edge of either the cover member ~orming the top or lid o~ the package relatively closely adjacent to the breakaway protrusion member or on the underside o~ the rim. A cut line may create a tether member which permits the cap member to be mechanically removed by the user from its molded position in production and placed over the opened nozzle-like aperture forming means so as to protect the breakaway tip during shipping and handling, while r~m~;n;ng tethered to the package. As also pre~erably embodied, the aforesaid cap member permits the end user of the package to readily open or reclose the package after each use.
* * * *
In other alternative embodiments of the dispenser package of the present invention:
(i) the breakaway protrusion me-m-ber forming the aperture in the package may be broken off at the surface o~ the cover member ~orming the top or lid o~ the package, thereby eliminating the nozzle-like outlet configuration in those applications where the contents o~ the package don't require nozzle formation;
(ii) the cap member may be formed with m; n; ~ture protrusions to act like a brush, or may have some other desired shape to perform some other desired tool function for use in handling the contents dispensed ~rom the pac~age, such as by brushing or spreading;
~iii) if reclosing the package is not required, the cap member may be open-ended having a predetermined shape such that, upon placing the cap member over the nozzle-like aperture of the package, the contents may be dispensed in such shaped stream;
~iv) the cap member may be provided with an internal central plug ~;m~n~ioned to mate with the opening formed in the dispenser package to thereby serve as a plug to further ensure sealing o~ the opening a~ter removal o~
the breakaway protrusion member; and -CA 02243962 l998-07-2l W O g7/27043 PCT~US97/01137 (v) the breakaway protrusion and tethered cap members may be formed in a portion of the cover member which extends beyond one end o~ the compressible pouch member at a predetermined angle and c~mmlln~cates with the product contained in the pouch by means o~ a shallow neck or channel, thereby facilitating application of the contents of the package onto a surface, such as, e.g., toothpaste onto a toothbrush or glue onto a break line.
Alternatively, the breakaway protrusion member may be ~ormed in the cover member directly over the pouch portion with the cap formed at an adjacent small ~lat area. This method yields a somewhat larger pouch volume while using the same total amount of material.
It will be understood that the foregoing preferred embodiments of the dispenser package of the present invention may be thermoformed from a wide variety of plastic materials, including, e.g., PP (polypropylene) Barex, HDPE (high density polyethylene), HIPS (high impact polystyrene) and foamed HIPS, as well as various laminations and/or coextrusions o~ the aforesaid materials and other plastic materials, including, e.g., PP/EVOH
(ethylene vinyl alcohol)/PP; Barex/PP; Barex/EVOH/PP; PET
(polyethylene tetrafluoride)/LhDPE (linear low density polyethylene); PET/EVOH/LLDPE; PVC
~polyvinylchloride)/LLDPE; NY (nylon)/LLDPE; and NY/EVOH/LLDPE. Alternatively, the aperture forming means and the dispenser packages of the present invention may be formed by injection molding.
It also will be understood that the ~oregoing pre~erred embodiments of the dispenser packages o~ the - present invention may be manufactured in a wide variety o~
sizes, as desired, although the preferred size range is ~rom about 2 ml capacity to about 4 fluid ounce capacity.
Similarly, the aforesaid package may be manufactured in a wide range of ~;m~n~ions. A typical size ~or a package cont~; n ~ ng 30 ml or 1 ~luid ounce of material is on the W O 97t27043 PCT~US97/01137 order of about 1 inch deep by about 1 inch wide by about 3 to 4 inches long, which fits comfortably in the palm of the hand of most users. Furthermore, the independent formations of aperture forming means and the tethered caps may be applied to a very wide range of packaged from single use sizes to half gallons.
Briefly described, as preferably embodied, the apparatus of the present invention forming the preferred aperture-~orming protrusion me-m-ber in the cover member of the dispenser package includes a two-stage punch member which advances to engage and clamp a thermoformable material against a sel~-centering and sel~-aligning hollow anvil member. The ~irst punch member advances to initially form a hollow, drum-shaped protrusion in a specific heated area o~ the thermoformable material.
Thereafter, a second punch member preferably located within, and moveable relative to, the first punch member continues to advance forward. The second punch member includes a first generally frusto-conically shaped surface adapted to form a substantially cylindrical or frusto-conically shaped hollow tip member extending ~rom the drum-like protrusion formed by the first punch member. At the mom~nt formation of the hollow tip member is completed, the forward advancement of the second punch brings a second shallow conical surface into cooperating engagement with the peripheral edge or rim defining the hollow portion of the anvil member to thereby compress the wall of the formed hollow tip about a peripheral portion thereo~ to create a weakened fault line in the hollow tip protrusion member. As here preferably embodied, the - aforesaid punch and anvil members create a fault line at the base of the aforesaid hollow tip protrusion member ~ which extends continuously about the periphery thereof.
In an alternative embodiment of the apparatus o~
the present invention, the heated sheet of thermoformable material is clamped against the anvil member and a single W O 97127043 PCTrUS97/01137 stage punch member having a generally ~rusto-conically shaped forward end portion is thereafter advanced to ~orm the aforesaid hollow, substantially cylindrical or frusto-conically shaped tip member. At the m~m~nt formation o~
the hollow tip member is completed, the rim of the anvil member compresses the wall of the hollow tip member about the periphery thereof to create a weakened fault line. It will be seen that the heated thenmoformable film (material) may be clamped against a relatively thin plate spaced away ~rom the anvil which contains an accurately aligned hole centered on the aperture o~ the anvil member.
In this embodiment, between the punch and anvil the film will be formed into a conical member as the punch is advanced through the plate and said conical member will then be further formed until it contacts the peripheral edge or rim at the opening of the aperture in the anvil.
This alternate apparatus creates a fault line b~n~ng or girdling the formed conically-shaped tip member at a predetermined point between its base and its apex.
It will be appreciated by those skilled in the art that the foregoing various brief descriptions and the following detailed description are exemplary and explanatory of the present invention, but are not intended to be restrictive thereof or limiting of the advantages which can be achieved by the invention or various combinations thereof. The accompanying drawings, referred to herein and constituting in part hereof, illustrate preferred embodiments of the invention and, together with the detailed description, serve to explain the principles -of the invention.
R~2T~F DESCRIPTION OF T~ DRAWI~GS
FIG. 1 is a side elevation view of a dispenser packaye constructed in accordance with the present invention with an integrally formed cap member;
FIG. 2 is a top plan view of the dispenser package of Figure l;

W O g7/27043 PCTrUS97/01}37 FIG. 2a is a perspective view o~ a dispenser package constructed in accordance with the present invention with an integrally formed cap member on the underside o~ the cont~' nm~nt members rim and their skin like unformed cover member;
FIG. 3 is an end view of the dispenser package o~ Figure 1;
FIG. 3a is an end view of the dispenser package of Figure 2a showing an un~ormed very thin flexible cover member;
FIG. 4 is a side view in elevation, partly sectional, o~ an apparatus constructed in accordance with the present invention ~or forming the breakaway tip and nozzle protrusion members in a heated sheet of thermoplastic material;
FIG. 5 is an enlarged sectional view, partly in elevation, of the first and second punch members and the sel~-aligning hollow anvil member illustrated in FIG. 4, this view illustrating formation of the first protrusion member in the thermoplastic sheet material;
FIG. 6 is an enlarged view similar to FIG. 5, illustrating ~ormation of the second protrusion member in the thermoplastic sheet material;
FIG. 7 is an enlarged view of FIG. 6, 2~ illustrating ~ormation of the peripherally extending weakened fault line at the base of the second protrusion member;
FIG. 7a an enlarged side plan view o~ first and second protrusion members according to one emhodiment o~
the present invention;
- FIG. 7b is an enlarged side plan view of ~irst and second protrusion members according to one embodiment ~ of the present invention;
FIG. 8 is an isometric view of the dispensing package of Figure 1;

.

FIG. 9 is an enlarged isometric view o~ the dispensing package o~ Figure 8, illustrating the cap member removed ~rom its molded position and placed over the breakaway tip protrusion member;
FIG. 10 is a schematic lllustra~ion showing the use o~ a hollow punch member ~or ~orming a central sealing plug member in the cap member illustrated in the preceding drawings;
FIG. 11 is an isometric view o~ a cap member ~ormed with a central plug ~rom the apparatus o~ Figure 10;
FIG. 12 is an enlarged cross-sectional view, partly in elevation, illustrating an alternative embodi-ment o~ the punch and anvil apparatus o~ the present invention, wherein a single punch member ~orms a hollow ~rusto-conical protrusion in the sur~ace o~ the cover me-mber ~or a dispenser package and the anvil member compresses the wall o~ the tip to ~orm a peripherally extending ~ault line on the sur~ace o~ the protruding tip;
FIG. 12a i8 an enlarged cross-sectional view, partly in elevation, illustrating an alternative embodi-ment o~ the punch and anvil apparatus o~ the present invention, wherein a single punch member ~orms a hollow ~rusto-conical protrusion having a right-cylindrical base in the surface o~ the cover member ~or a dispenser package and the anvil member compresses the wall of the tip to ~orm a peripherally extending ~ault line on the sur~ace of the protruding tip;
FIG. 12b is an enlarged cross-sectional view, partly in elevation, illustrating an alternative embodi-ment o~ the punch and anvil apparatus o~ the present invention, wherein a single punch member having a spherical tip ~orms a hollow mound protrusion in the sur~ace o~ the cover mem~er ~or a dispenser package and 3~ the anvil member compresses the wall o~ the tip to ~orm a -W O 97/~7043 PCT~US97/01137 peripherally extending fault line on the surface of the mound;
FIG. 13 is a schematic elevation view of the breakaway tip formed by the punch and anvil members illustrated in FIG. 12;
FIG. 13a is a schematic elevation view of the breakaway tip formed by the punch and anvil mem.~ers illustrated in FIG. 12a;
FIG. 14 is a top plan view of another embodiment of a dispenser package constructed in accordance with the present invention, wherein the breakaway tip and cap mem.~er are formed in a lateral extension of the cover member and the breakaway tip member c~mmlln-cates with the containment pouch through a shallow channel member;
FIG. 15 is a side view of the e-m~bodiment illustrated in FIG. 14;
FIG. 16 is an end view of the embodiment illustrated in FIG. 14;
FIG. 17 iS a side view o~ the embodiment of the invention illustrated in FIG. 14, wherein the lateral extension of the cover member also extends angularly downwardly;
FIG. 18 is a schematic view of an alternate embodiment o~ the cap member, formed with bristles or nubs on its outer surface;
FIG. 19 is a schematic view of another alternate embodiment of the cap member, formed with a flattened spreader tool utensil on its outer sur~ace;
FIGS. 20a-d are partial end views of still other alternate embodiments of the cap member of the present - invention, each view illustrating an open-ended cap member;
~ FIG. 21a is a top plan view of a reclosable outlet aperture forming structure which can be applied to various forms of containers in accordance with an alternate embo~m~nt o~ the present invention;

-W097/27043 PCT~S97101137 FIG. 2lb is a side view of the reclosable outlet aperture forming structure shown in FIG. 21a;
FIG. 22a is a perspective view of the reclosable outlet aperture forming structure of FIGs. 21a-b, as applied to a milk carton, in which the cap is placed over the outlet;
FIG. 22b is a perspective view o~ the reclosable outlet aperture forming structure of FIGs. 21a-b, as applied to a milk carton, in which the cap is removed from the outlet so as to allow removal of the breakaway outlet tip;
FIG. 22c is a perspective view of the reclo~able outlet aperture forming structure of FIGs. 21a-b, as applied to a milk carton, in which the breakaway tip is removed from the outlet to form an opening therethrough;
FIG. 22d is a perspective view o~ the milk carton of Figures 22a-c, in which the breakaway tip is removed from the outlet to form an opening through which milk is being poured;
FIG. 23 is a side view of a low profile breakaway tip in accordance with another embodiment of the present invention;
FIG. 23a is a side view of a low profile breakaway tip in accordance with another embodiment of the present invention;
FIG. 24 is a top view of the low profile breakaway tip of FIG. 23;
FIG. 24a is a top view of the low profile breakaway tip of FIG. 23a;
FIG. 25 is a perspective view of the low profile breakaway tip of FIG. 23 with the removed breakaway tip shown in phantom;
FIG. 26 is a side view of a cap for use with the low profile breakaway tip of FIG. 23;
3~ FIG. 27 is a ~ide view o~ a another embodiment of the present invention which utilizes a twist-lock or W O 97127043 PCT~US97/01137 twist-threading arrangement to secure the cap to the base formation;
FIG. 28a is a perspective view of another embodiment of the present invention in which a tethered plug is used to open and close a pre-scored surface;
FIG. 28b is a perspective view of the embodiment of FIG. 29a in which the pre-scored surface has been opened;
FIG. 28c is a perspective view of the embodiment of FIG. 28a in which the plug has been placed in the outlet hole, thereby opening the hole along the pre-scored surface and/or plugging the hole;
FIGs. 29a-d are top views of the outlet of the embodiment of FIG. 28a depicting various types of scored surfaces formed in the outlet; and FIGs. 30a-d are side views of the scored surfaces shown in FIGs. 29a-d, in which each of the scored surfaces haves been penetrated to create an opening therethrough and a flap descending from the surface;
FIG. 31 is a partially elevated side view of an outlet forming structure according to an alternative embodiment of the present invention, having a punch/plug and a scored mount, as applied to a milk carton;
FIG. 32 is a top plan view of the outlet forming structure of Figure 31;
FIG. 33 is a side plan view of the outlet ~orming structure of Figures 31 and 32;
FIG. 34 is an enlarged elevated view of the outlet forming structure of Figures 31-33;
FIG. 35 is an enlarged side plan view of the outlet forming structure of Figures 31-34 showing the mound as punctured by the punch/plug;
- FIG. 36 is an enlarged side plan view o~ the mound of Figures 31-35;
FIG. 37 is a side plan view of an alternative e~bodiment of the present invention in which an outlet W O ~7127043 PCTrUS97/0~137 ~orming structure, ha~ing a breakaway tip and cap, is applied to a ~oil package;
FIG. 38 is an enlarged side elevational view of the outlet forming structure of Figure 37;
FIG. 39 is an elevated plan view of an alternative embodiment of the present invention as applied to a ~oil package;
FIG. 37a is a side plan view of an alternative embo~;ment o~ the present invention in which an outlet forming structure is applied to a foil package;
FIG. 38a is a front plan view o~ the outlet forming structure o~ Figure 37a;
FIG. 39a is an elevated plan view of the outlet forming structure of Figures 37a and 38a;
FIG. 40 is a partial elevational view of an outlet forming structure according to another alternative embodiment of the present invention, having a snap-in auxiliary punch/plug/cap and protrusion member, that is manufactured by a pick-and-place method;
FIG. 40a is an enlarged side plan view of the outlet ~orming structure of Figure 40 showing the punch/plug/cap puncturing the protrusion member;
FIG. 41 is a top plan view o~ an alternative embodiment, wherein the outlet forming structures are 25 - ~ormed ~rom a single thermoplastic web in a mating arrangement;
FIG. 42 is a side plan view o~ an alternative embodiment o~ the present invention in which the reclosable cont~;n~r is provided with a scored protrusion and a dual purpose tethered punch/cap;
FIG. 43 is a top plan view o~ the reclosable container o~ Figure 42;
FIG. 44 is a top plan view o~ the reclosable container of Figure~ 42 and 43, wherein the tethered punch~cap is securely ~astened over the scored protrusion;

W O 97/27043 PCTrUS97/01137 FIG. 45 is an elevated plan view of an outlet forminy structure according to one embodiment of the present invention;
FIGS. 46a-c are side plan views of a container for use with an outlet forming structure according to the present invention;
FIG. 47 is an elevated plan view of the container of Figures 46a-c with the outlet forming structure o~ Figure 45 mounted thereon;
FIG. 48 is a top plan view of a container according to an embodiment of the present invention;
FIG. 49 is a side plan view of the container of Figure 49;
FIG. 50 is a side plan view of the container of Figures 48 and 49 in a closed position;
FIG. 51 is a side perspective view of the container of Figures 48-50;
FIG. 52 is a side elevational view of a container according to an embodiment of the present invention;
FIG. ~3 is an enlarged side plan view of the outlet forming structure of Figure 52; and FIG. 54 is a top plan view of a section o~ a web of thermoformable material having a series of outlet ~orming structures formed therein.
DET~Tr~n DESCRIPTION OF VARIO~S PREFERRED EMBODIMENTS
Referring now more particularly to FIGS. 1-4 and 9 of the accompanying drawings, there is illustrated a dispensing package indicated generally at 10 according to the present invention. The package 10 can be used for - single or multiple uses and can be reclosed for further use.
As illustrated in FIGS. 1 and 4, the package 10 includes a cover member 11 formed ~rom a flexible but relatively stiff generally flat sheet 12 of a th~rmnformable plastic material most suitable to the CA 02243962 l998-07-2l W O 97/27043 PCTrUS97/01137 product contained and ~he protection that the contained product re~uires.
Materials such as high-impact polystyrene (HIPS), high density polyethylene (HDPE) polyester, 5 ~ MDPE/EVOH (high density polyethylene/ethylene vinyl alcohol), Barex, polypropylene, etc. may be used. HIPS, HDPE, and HPDE/EVOH are each low cost and can be recycled.
HDPE/EVOH creates a superior O~ barrier.
As will be understood by those s~illed in the art, whereas plastics of similar material may be heat-sealed or bonded together, heat sealing di~erent plastics together re~uires an adhesive layer. Pre~erably, linear low density polyethylene (LLDPE) is used as such a layer.
Thus, multi-layered plastics ~ormed by coextrusion may be sealed together to ~orm sheet 12 having sealant/barrier 14 of the present invention.
Also suitably bonded to one face of bonded sheet 12, 14 is a ~lexible sheet 18 forming at least one pouch chamber 22 ad~acent one ~ace of the relatively sti~ sheet 12 or bonded sheet 12, 14 for containing a preferably flowable substance, e.g. a dry powdered or granulated material or a liquid material o~ any suitable viscosity capable o~ flowing under light to moderate hand pressure.
Advantageously, and as here preferably embodied the layer of a suitable sealant/~apor impervious barrier material 14 is suitably integrally bonded to sheet 12 on the inner surface 16 which faces ~lexible sheet 18.
Flexible sheet 18, advantageously ~ormed by conventional means, such as vacuum forming, pressure forming, mechanical forming or combinations thereof, is likewise suitably integrally bonded to either inner sur~ace 16 or sealant/barrier 14 o~ sheet 12, as the case may be.
The bonds between substantially ~lat relatively sti~ sheet 12, sealant/barrier material 14 and flexible 35 ~ sheet 18 also may be ~ormed by conventional means known to persons of ordinary skill in the packaging art, such as -W O 97127043 PCT~US97/01137 welding, heat sealing, or adhesive or cohesive bonding.
It will be understood that the particular bonding method selected depends upon the particular properties of the materials used and the flowable substance(s) to be contained in the package.
Advantageously, and as preferably embodied, sheet 12 is preferably made of polypropylene (PP), Barex, high impact polystyrene ~HIPS) or high-density polyethylene (~DPE), but when combined with barrier 14 may be made of polystyrene, polyester, EVOH (ethylene vinyl alcohol), polyvinyl chloride (PVC), polyethylene tetrafluoride (PET) or nylon, or a copolymer thereof, and barrier 14 is made of a suitable sealant/vapor impervious barrier material, preferably comprising saran and foil laminate, or comprising a laminate of foil and vinyl, or foil alone, depending on the nature of the contents to be contained.
A particularly tough high barrier construction comprises saran laminated on each side with polyethylene ~sold by Dow Chemical Co. under the name "Saranex") as barrier sheet 14, in turn l~m; n~ ted onto polystyrene or polyester, forming the flexible but relatively stiff sheet 12. The thickness of sheet 12 varies according to factors, such as the properties of the materials used, the flowable substance contained, and the intended usage. A
generally utilized range is 4-12 mils (0.004-0.012"). As previously noted, sheet 12 preferably is somewhat ~lexible, although more rigid than the material 18 ~orming pouch 22, and preferably is stiffened by raised portion lla formed in cover 11 in the preferred construction of ~ package 10.
It will be understood by those of ordinary skill in the art that the bonds formed between materials 12, 14 and 18 can be obtained by the conventional means previously described, again depending on the nature o~ the flowable substance being contained.

-It will be seen ~rom the ~oregoing that the structure oE FIGS. 1 and 2 ~orms an enclosed pouch or chamber 22 between the ~lexible sheet 18 and the relatively sti~ member 12, 14 in which a preferably ~lowable substance is contained and from which the contained substance is dispensed.
In accordance with the present invention as pre~erably embodied, the relatively sti~f generally ~lat sheet 12 ~orming cover 11 includes an aperture-~orming protrusion structure 30 which includes a neck member 32 and a breakaway tip member 34 so that, upon removal o~ tip 34, neck 32 ~orms a nozzle-like aperture in package 10 through which the contents may be dispensed in a directionally controllable manner.
Neck and tip protrusions 32, 34 preferably are s~bstantially hollow, substantially cylindrical and tip 34 pre~erably is substantially cylindrical or ~rusto-conical.
In the pre~erred embodiment as shown in the plan view o~
Figure 3, the aperture-~orming protrusion structure 30 is located in cover 11 directly over pouch 22 so that, when opened, nozzle aperture 32 commlln;cates directly with the contents o~ pouch 22.
In accordance with the present invention, as pre~erably embodied, dispenser package 10 includes a cap member 110 formed as an integral part o~ cover 11.
Advantageously, cap member 110 is removable ~rom cover 11 along a line.
It will be seen that the cap 110 protects the breakaway tip structure 30 ~rom inadvertently breaking o~
during shipping and handling prior to use, as well as providing a means to reclose the package a~ter opening, i.e., a~ter the protrusion tip member 34 is broken o~
Thus, cap 110 protects the remaining contents o~ the package a~ter each use, permitting multiple uses. The 35 ~ advantage o~ the tethered embodiment o~ the invention is that it costs practically nothing, acts as a side pressure W O 97127043 PCTrUS97/01137 spring to maintain the cap on the neck 32 at the opening, acts as a grasping member to assist removal o~ the cap ~or each subsequent use, and prevents loss of the cap be~ore the contents o~ the package have been ~ully dispensed and the package is ready to be disposed of. Further details o~ the cap are explained below.
In practically all cases, however, it is believed preferable to provide the two-stage breakaway tip con~iguration since the first projecting cylindrical formation 32 acts as a nozzle yielding directionally controllable product dispensation, after the tip, i.e., second protrusion 34, is broken off. Low and medium viscosity ~lowable products tend to squirt "side-ways" or spurt in non-controllable directions, when passing through an aperture formed in the plane of the cover member.
Furthermore, elevating the breakaway tip ~rom the sur~ace o~ the cover member greatly enhances its ease o~ use with no practical increase in manufacturing cost.
In use, as here pre~erably embodied, package 10 pre~erably is positioned so that pouch or chamber 22 rests in the palm of the hand with the thumb resting on the cover 11. The thumb or finger of the holding hand, or the user's other hand, i~ desired, may then be used to apply a light ~inger pressure against the side of protrusion tip 34, i.e., the breakaway tip, thereby causing tip 34 to break off, leaving an open neck or nozzle-like aperture 32.
Once tip 34 is removed and the package thereby opened, the contents of the package 10 may be expelled.
This method o~ use depends on the type of substance - contained in the package and where the user would like to place the contents. For example, if the package contains - toothpaste, the open nozzle 32 pre~erably would be placed over a tooth brush, whereupon gentle squeezing of the package 10 will ~orce the toothpaste onto the toothbrush.
I~ the contents o~ the package are-intended to be placed W O97/27043 PCT~US97/01137 directly into the user's mouth, or the mouth o~ a patient, such as ~or oral medicine or mouthwash, the open nozzle 32 then may be placed directly into the mouth and a portion, or all, o~ the contents may then be directed into the mouth by s~ueezing the package. When the desired quantity o~ the co~tents of the package has been expelled, i~ some contents remain, package 10 may then be reclosed ~or ~uture use by placing cap 110 over the open nozzle 32.
As previously mentioned, as here preferably embodied, package 10 further includes a cap 110. While cap 110 may be formed separately from the other elements of package 10, in the preferred embodiment cap 110 is integrally formed with and is at least partially detach-able from the relatively stif~ sheet 12 ~orming cover 11, as shown in FIGS. 1-3, 9-10, 15-18, 22-23d, 29a-c, 32-35, 38-40, and 42-47, for example.
As shown in Figs. 1-3 and 8-9, cap 110 preferably is located at one corner in cover 11 so as to overhang pouch 22. A cut line 114 allows cap 110 to be easily removed ~rom cover 11. Advantageously, as best seen in Fig. 10, cut line 114 extends only partially along the edge of cover 11 so as to provide a tether 130 to maintain cap 110 attached to package 10 even a~ter the cap is paced over either the aperture-forming structure 30 or over the open nozzle 32.
Cap 110 typically is unthreaded and is ~m~n~ioned to fit gmoothly, yet securely, over the necked protrusion 32, which preferably also is smooth and unthreaded, both before and a~ter removal o~ tip 34. Cap 110 has a base 126 which lies flat against the top of cover 11. Tether 130 has several advantages. First, it has been discovered that the tether 130 acts as a spring pressing the cap against the sidewall of the necked protrusion 32, thereby assisting to hold cap 110 in place when it is placed over the necked protrusion 32.
Additionally, tether 130 provides the added benefit of W O 97/27~43 PCTfUS97/~1137 preventing the cap 110 ~rom becoming lost and allows the user to grip the tether 130 to assist in removal of the cap 130 from the aperture-~orming structure 30 or from open nozzle 32.
Cap 110 of the present invention can be designed in several different embodiments. For example, in the embodiment shown in Figures 10 and 11, the cap can be formed from a hollow punch member 120 that forces the material into a hollow female member 122 with a central protrusion 124 to form a cap with a central plug 126.
An alternative to the embodiment shown in Figs.
1-* is shown in Figs. 2a and 3a As shown, the cont~; n~r lOa has yenerally the same configuration as container 10 ~epicted in Figs. 1-3 is made of the same materials.
Specifically, pouch 22a is formed between a flexible sheet 18a and the very thin skin like sheet 12a, 14a, in which a ~lowable substance is contained. Unlike the previous embodiment, the aperture-~orming protrusion structure 30a is formed on the underside of the flat sheet 18.
Similarly, the cap llOa i5 ~ormed on the underside of the sheet 18. With such an arrangement, not only are the neck and tip protrusions 32a, 34a o~ the protrusion structure 30a protected from accidental rupture, but also the container lOa is provided with a low cost ~lexible cover.
In order for the protrusion structure 30a to be in fluid c~mmlln;cation with the contents of the pouch 22a, the pouch 22a is provided with a channel llb which cnmmlln~cates with the protrusion structure.
It will be understood that the aperture-forming protrusion structure 30 may be made by a variety o~
methods and apparatus In accordance with the present invention, however, as pre~erably embodied, a web of - thermo~ormable material to be formed into cover 11 is first heated to a sufficient forming temperature. The web is then ~ormed into the hollow cylindrical protrusion 32 with a closed end. The closed end portion o~ the cylinder 32 i9 then ~urther de:Eormed in its central ~ection to create the tip 34. At the m~m~nt tip 34 i8 completely formed, the intersection of the base of tip 34 and cylinder 32 is compressed, reducing its thickness, to 5 _: thereby create a ~ault line extending about the periphery o~ the base of tip 34.
Also in accordance with the present invention, as here preferably embodied, aperture-~orming protrusion 30 is formed by means of a self-centering and self-aligning male and female punch and die apparatus, indicated generally at 40, as shown in Figs. 4-7.
Apparatus 40 includes feed rollers 42 or other means to advance the web or ~ilm 'rF" of th~rmQformable material into a heating station 44 where a heater block 46 advances against the film to press the sheet against a stationary heater block 48, which is temperature controlled by a thermocouple 50 and supplied with necessary power at connection 51. An air cylinder 52 provides the driving ~orce to move the heater block 46 by means of sha~t 54. The heater block 46 includes two heaters energized by an appropriate power source 58.
A two-stage punch member 60 includes a ~irst male punch 62 formed as a generally cylindrical hollow punch having a substantially flat end surface 64 at its operative end. When the ~irst punch member is advanced, the end surface 64 engages and deforms the heated sheet o~
thermoformable, pre~erably plastic, material F, compressing the plastic against a similarly shaped, oppositely mounted, generally cylindrical hollow anvil member 66 movable in a bore 68 of a support 70. The anvil 66 has an end face 71. The first punch 62 has a clearance ~it with the bore 68 so it can be moved therein to confront the end face of the anvil 66. Anvil 66 has an aperture bore 67 formed as part of its hollow portion.
Anvil 66 is part of a spring-loaded rocker ~ember 72, pre~erably supported by a ball-shaped member W O 97/27043 PCT~US97/01137 74, or other similarly shaped curved rocker device, in a larger base opening 75 so as to be both resilient and sel~-centering and self-aligning with punch member 6~.
Although rocker 74 is preferably curved or ball-shaped, a relatively ~lat sur~ace in spring-mounted engagement with the base o~ adjustable mechanism 89 also serves to sel~-center the aperture opening 67 o~ anvil member 66 with respect to ~rusto-conical surface 84 and bevelled sur~ace 83 o~ second punch 80, more ~ully described hereina~ter.
The peripheral edge or rim o~ aperture 67 in anvil 66 is smaller than the bore o~ punch 62 to create an internal shoulder 76 when the opposing substantially flat end surfaces 64, 71 o~ the hollow cylindrical punch member 62 and the anvil member 66 are brought together. The anvil and ~irst punch are pre~erably made of hardened steel.
In use, at the end o~ the ~irst stage of the ~ormation of the aperture-~orming protrusion 30, shown in Figure 5, the plastic web F is ~ormed into a projecting, closed end, hollow generally cylindrical drum-like shape, with the plastic web stretched across the end o~ the ~irst generally cylindrical hollow punch, and clamped between the opposed ~acing end sur~aces 64, 71 o~ the punch and anvil members.
A second punch member 80 is mounted for travel within a hollow bore 81 and beyond the end ~ace 64 of the ~irst punch member 62. The second punch member 80 includes a sha~t 82 whose operative end sur~ace includes a shallow bevel 83, advantageously on the order o~ 45~, t~rm;n~ting into a conically-shaped portion 84 with a ~lat en~ ~ace 85 ~orming a ~rusto-conically shaped tip, indicated generally at 86. The second punch member and its bevel 83 advances into controlled engagement with the - internal peripheral edge o~ the shoulder 76 formed at the opposed end sur~aces 64, 71 o~ the ~irst punch 62 and anvil 66.

CA 02243962 l998-07-2l W O 97/27043 PCT~US97/01137 In one aspect oE the present invention, as prei~erably embodied, the second punch member 80 can be constructed in multiple parts. For example, each o~ the f~rusto-conical and beveled portions 84, 83 may be ~ormed separately and removably attached to the leading end surEace oE the shai~t 82, such as by threaded connections.
Alternatively, sha~t 82 and tip portions 83, 84 may be :Eormed as an integral unit. The second punch member is driven by air cylinder 87.
It will be understood ~rom the Eoregoing that the ~ull length of the ~rusto-conical end 86 of punch 80 continues to travel past the ~ormed internal shoulder 76 and into the anvil aperture 67 until such time as bevel surEace 83 is brought into accurately controlled cooperating engagement with the internal peripheral edge oE the internal shoulder 76 ~ormed by the opposed end surEaces 64, 71 o~ the eirst punch 62 and the anvil 66.
Advancement oi~ punch sur~ace 83 against shoulder 76 is accurately controlled by micrometer punch adjustment mechanism 88 and anvil adjustable stop mechanism 89.
The still-heated closed end of~ the initially ~ormed hollow cylinder 32, i.e., the i~irst drum-like protrusion oE the aperture-~orming structure 30 is, in a second stage, ~urther formed into a substantially cylindrical or $rusto-conically shaped tip 34, i.e., the - second protrusion of~ the aperture-Eorming structure 30, by the advancing second punch member until the shallow bevelled sur~ace 83 oi~ punch 80 engages the plastic sheet.
At that time, the second punch surf~ace 83 controllably compresses, cools and sets the plastic web F against the internal peripherally extending edge ~ormed at shoulder 76 o~ the anvil to reduce the thickness, and thereby weaken, the wall o~ the plastic at the locus o~ the peripheral edge so as to i~orm a narrow, peripherally extending 3~ indentation 100, known as a rupture or i~ault line, at the base of tip protrusion 34. It will be seen that Eault W O 97127043 PCTrUS97101137 line 100 permits the tip protrusion 34 to be readily broken away by means o~ only light lateral pressure to thereby form a nozzle-like outlet opening at neck protrusion 32.
It should be noted that changes in the ~;m~n~ions o~ the beveled end 86 and the anvil 66 are within the scope o~ the present invention. For example, it is o~ten desirable to produce a ~ine stream of the contents o~ a container, such as motor oil. Conse~uently, the opening ~ormed by the base o~ the tip protrusion 34 must be relatively small, such as shown in Fig. 8a. To ~orm such a aperture-~orming protrusion structure 30, the end 86 is elongated, and the beveled surface 83 is positioned closer to the distal end 85. Furthermore, the anvil 66 is provided with a relatively narrow opening.
Consequently, as shown in Fig. 7a, the ~ault line 100 and the breakaway tip 34a are smaller. Alternatively, the entire punch 82 and, there~ore, protrusion structure 30 is made narrower.
In other applications, where the contents o~ a container are large particles, such as cat ~ood, the opening must be relatively large, such as shown in Fig.
7b. To achieve a larger opening, the entire punch 82 and, there~ore, protrusion structure 30 are made wider.
Alternatively, the ~ault line 100 and the break away tip 34 are made larger.
In an alternate embodiment illustrated in Figures 12 and 13, a single punch 90 with a truncated end 92 can be used. The single punch 90 includes a bevelled sur~ace 94 which engages the ~ilm or web F o~
t~rmoplastic material to ~orm the generally ~rusto-conical hollow tip protrusion 34. As here embodied, thermoplastic web F is ~irst clamped between shoulder plate 96 and face 97 o~ an outer punch member similar to punch 62. Therea~ter, punch 90 advances, whereupon end 94 forms web F into ~rusto-conical tip 34, as shown as Fig.

W O 97/27043 PCT~US97/01137 13. As alternatively embodied, however, as best seen in Fig. 12, upon completion of the formation of tip 34, the peripheral edge 76a of anvil member 70 engages and compresses the outer surface of the ~rusto-conical wall of tip 34 to create a peripherally extending fault line lOOa along the projecting surface of tip 34 between its base and apex.
In yet another alternative embodiment illustrated in Figs. 12a and 13a, a single punch 91 with a beveled, truncated end 93 can be used to form the generally frusto-conical hollow tip protrusion 31. The single punch 91 engages the film or web F of thermoplastic material with the beveled surface 93. As with the embodiment shown in Figs. 13 and 14, the thermoplastic web F is first clamped between stop plate 95 and clamp means 98 of an outer punch member. Therea~ter, punch 91 advances, whereupon end 93 forms web F into the frusto-conical tip 31. As best shown in Fig. 13a, contact of the peripheral edge 77 of angle member 71 compresses the outer surface of the ~rusto-conical tip 31 to create a peripherally extending ~ault line lOOb. In contrast to the embodiment shown in Figs. 12 and 13, the stop plate 95 is situated adjacent the sha~t of the punch 91, below the beveled, truncated end 93. Consequently, the thermoplastic web F is formed around the beveled e~d 93 as well as the right cylindrical shaft 91a. As can best be seen in Fig. 13a, the resulting frusto-conical tip 31 has a breakaway tip 35, a permanent pro]ection 33, and a bright cylindrical section 33a. The right cylindrical section 33a is provided so a cap may be securely engaged with the tip 31.
In an alternative embodiment illustrated in Figure 12b, a single punch 91B has a spherical tip 93A.
The spherical tip 93A engages the thermoplastic web F to = form a hollow mound protrusion. As embodied, the thermoplastic web F is first clamp beneath a stop plate W O 97/27043 PCT~US97/01137 95A. Therea~ter, punch ~lB advances, whereupon the spherical end 93A ~orms web F into a hollow mound.
Furthermore, the punch 91B is advanced ~orwards anvil 71A
until the outer sur~ace o~ the web F engages the peripheral edge 77A o~ anvil member 71A, thereby creating a ~ault line that extends around the tip of the mound structures. It has been ~ound that the spherical tip 93A
allows ~or sel~ alignment o~ the punch 91B as the web F
engages the peripheral edge 77A o~ the anvil 71A.
Re~erring now more particularly to Figs. 15-18 o~ the accompanying drawings, there is illustrated an alternate embodiment o~ the dispenser package o~ the present invention, indicated generally by reference m~n 200. As here embodied, cover 211 includes a lateral extension 211a which extends beyond one end o~ the container pouch 222 and both the aperture-~orming structure 230 and reclosure cap member 240 are ~ormed in cover extension 211a. A shallow channel member 250 comm1ln;cates aperture-~orming structure 230 with the contents o pouch 222. Further alternatively, as shown in Fig. 17, lateral extension 211a o~ cover 211 is ~ormed on an angle with respect to cover 11 so as to slope toward the pouch side o~ cover 11.
It has been ~ound that the embodiments o~ Fig.
14-17 are advantageous in that they ~acilitate dispensing the contents o~ the package onto a sur~ace, such as butter or cream cheese onto a slice o~ bread or toothpaste onto a toothbrush.
Re~erring now more particularly to Figs. 18-20, there are shown several other alternative embodiments o~
~ the cap mem~er o~ the present invention. Thus, as shown at Fig. 18, the top o~ resealing cap 110 may include bristles or nubs to ~unction as a brush mem~er; as shown in Fig. 19, the top o~ cap 110 may have a ~lattened surface 270 capable o~ ~unctioning as a spreading tool; as shown in Figs. 20a-d, cap 110 may be open-ended and have a W 097/27043 PCT/~S97/01137 shaped edge con~iguration, such as shown at 280, 281, 282, 283, respectively, so that the contents o~ the package may be expelled in a shaped stream.
With re~erence to Figures 21a-b and 22a-c, an alternate embodiment o~ the present invention will now be shown and described. In accordance with this alternate embodiment, an independent thermoformed unit is used to create an outlet aperture in a container. The independent thermo~ormed unit may take the ~orm o~ a reclosable outlet forming structure 300. The reclosable outlet ~orming structure 300 may generally comprise a cap 310, a tether 320, a base 330, and a breakaway outlet tip 340. Cap 310 may be connected to base 330 via tether 320. Score 325 ~acilitates separation o~ the cap 310 ~rom structure 300.
15 ~ The reclosable outlet ~orming structure 300 may have a pre-applied adhesive or sealant in the area surrounding the base 330 to ~acilitate application of the structure 300 to a cont~;n~ such as milk container 3Q2. As such, the structure 300 may be sealably or adhesively attached to any sur~ace o~ a container re~uiring the subject outlet. In particular, the structure 300 may be sealed or adhered to the container i~ an area surrounding a hole in the container, but not in the area o~ the cap 310 or tether 320 which must be free o~ the container's sur~ace.
It is to be understood that reclosable outlet forming structure 300 may be attached to containers, such as milk carton 302, prior to ~illing. As such, the structure 302 may be applied to a container when it is still a ~1at blank.
With re~erence to Figures 22a-d, use o~ the reclosable outlet ~orming structure 300 will now be shown and described. With re~erence to Figure 22a, prior to shipping o~ the cont~;ne~ 302, the cap 310 may be placed over the outlet ~orming structure base 330 prior to 35 ~ removal o~ the breakaway tip 340 80 as to assure that the breakaway tip 340 does not accidentally break and the CA 02243962 l998-07-2l W O 97127043 PCTrUS97/01137 contents of container 302 do not escape while the container 302 is in transit. With reference to Figure 23b, the cap 310 is removed ~rom base 330 to provide access to breakaway tip 340. The container at this point is ready for opening. With reference to Figure 23c, the breakaway tip 340 is then removed to create an opening 350. Opening 350 leads to a hole (not shown) in container 302 to allow pouring the contents of cont~; n~ 302 therethrough. With reference to FIG. 23a, the reclosable outlet forming structure 300 may be resealed by simply placing the cap 310 over base 330.
In one embodiment o~ the present invention, base 330 and tip 340 are cylindrical or substantially cylindrical, although it is to be understood that other shapes may be used. In this embodiment, the opening 350 is made of PET-PVC-BAREX. It is to be understood, however, that other materials in accordance with the present invention may be used.
As can be seen in Fig. 22d, the cylindrical outlet 330 and opening 350 act a nozzle direct the flow o~
the contents of the container 302 into a control stream.
With reference to Figures 23-26, a low profile breakaway tip and cap in accordance with another embodiment of the present invention i~ shown. In general, lowering the height of a breakaway tip 360 will lower the possibility that the tip 360 may be accidentally opened during transit or by handling. Lowering the height of the breakaway tip makes it more difficult, however, to grasp and remove the breakaway tip. This diEficulty i9 alleviated by creating undercuts or indents 370 in the sidewall of the breakaway tip 360. These undercuts or indents 370 allows a user's finger to hook and break away - the tip 360 in a single motion. Figure 25 is a perspective view of the low profile breakaway tip with the removed breakaway tip shown in phantom. With continuing re~erence to Figures 23-25, the undercuts or indents 370 W O 97/27043 PCTrUS97/01137 are preferably arranged in oppQsed positions to facilitate ease of use and m~nllfacture It is to be understood that the number and location of the undercuts/indents 370 may be varied. Once the breakaway tip 360 is removed from base 380, a cap 394 may be used to reclose the opening (not shown) exposed by the removal of tip 360 in base 390.
Base indents 392 in base 380 are shaped and ~;m~n~ioned to receive opposed inward protrusions 396 of cap 394. These protrusions 394 snap into indents 392, thereby securing cap 390 to base 380. A tether (not shown) may also be used to attach cap 390 to base 380.
As shown in Figs. 23a and 24a, the base 390a may have generally triangular cross-sectional area. Such a cross-sectional area, may aid in the dispensing of various materials. Furthermore, the relatively large bottom of the base 390a helps avoid accidental toppling o~ a container.
It is also to be understood that this embodiment of the present invention may be used in a wide variety of applications, including dispensers for creamers, unit dose medications, salad dressings, beauty aids, dental products, con~;m~nts, candy confections, syrups, granular products, etc. It is also to be understood that this embodiment of the present invention may be manufactured by utilizing a male punch member in conjunction with a self-centering and receding ~emale anvil system, as previously shown and described.
Although the use of a tether limits the rotation of a cap pressed onto a base formation, a twist-lock or twist-threading arrangement may also be used to secure the cap to the base. With re~erence to Figure 28, such an embodiment of the present in~ention which utilizes a twist-lock or twist-threading arrangement 400 to secure the cap 410 to the base formation 420 is shown. In this arrangement, cap 410 has an inner protrusion 415 which engages cam surface 430 of base 420. Upon rotation of cap CA 02243962 l998-07-2l W O 97/27043 PCTrUS97/01137 410 with respect to base 420, inner protrusion 415 engages cam surface 430 to create a twist-lock or twist-thread arrangement. It is to be understood that a tether (not shown) may also be used in such an arrangement. Base 420 may also have a breakaway tip 425 attached thereto.
As an alternative to the breakaway tip and tethered cap arrangement, the present invention also includes a tethered plug/punch and scored surface arrangement as shown in Figures 28a-c, 29a-d and 30a-d.
Figures 28a and 28b are perspective views o~ such an embodiment of the present invention in which a tethered plug is used to open and close a pre-scored sur~ace. In this arrangement 450, a plug 460 is used to open a pre-scored sur~ace 470 of outlet 480. In this embodiment, the score is in the ~orm o~ an interrupted circle, although it is to be understood that other types of scored surfaces, such as those shown in Figures 29a-d, may also be used.
Figures 28b and 28c depict a flap 485 which is created when plug 460 is used to penetrate the scored surface 470.
A tether 490 may also be created through the use of a score 495 in arrangement 450. Plug 460, which may be connected to arrangement 450 via this tether 490, may also be used as a cork to close the outlet hole. As such, plug 460 may be used both as a plug and as an opening tool to create and/or plug an aperture in the pre-scored sur~ace. In this embodiment, plug 460 has a conical shape, although it is to be understood that other shapes may be used. Similarly, as shown in Figures 28a and 29a-d, the score may have a partially circular shape, a V-shape, an X-shape, a star shape, or box shape, although it is to be understood that other patterns may also be utilized. Depending on the shape of the scored surface, ~ the flap created by the penetration of plug 460 will differ. For example, the penetration of scored V-shaped surface 490 will create a ~lap 491; the penetration o~
scored X-shaped surface 492 will create a ~lap 493; the W O 9?/27043 PCTrUS97/01137 penetration of scored star-shaped surEace 494 will create a flap 495; and the penetration of a scored surface 496 will create a rectangular-shaped flap 497.
An alternative embodiment of the present invention will now be discussed with reference to Figs.
31-36. In accordance with this alternative embodiment, a container 500 is provided with a reclosable outlet ~orming structure 510. More specifically, the outlet ~ormer structure 510 comprises a curvilinear dome or mound 530 and a dual purpose punch/plug 520. As will be apparent to one of skill in the art, the container 500 includes a hole, not shown, over which the mound 530 is secured.
Because the punch/plug 520 must be lifted and inverted for insertion into the scored area 532, it must not be sealed to the container 500. On the other hand, the mound 530 portion of the outlet ~orming structure 510 must be securely adhered over the hole in the container 500.
As can best be seen in Fig. 34, the outlet forming structure 510 comprises a layer o~ ~oil 534 laminated to the plastic forming the outlet forming structure S10. The portion of the ~oil 534 underneath the mound 530 should be unsupported other than the adhesive used to secure it to the mound 530. It should also be noted that the foil 534 is secured to the container 500, about the hole in the container 500, so that the contents do not leak out beneath the outlet forming structure ~10.
The foil laminated adhesive should be one that gives adequate adhesion but sets up with min~m~l tensile strength of its own. In alternative embodiments, the adhesive may approach being brittle.
The mound 530 further includes a fault line pattern or scored pattern 532. The ~ault lines 532 may take on any number of patterns, such as those shown in Figs. 29a-d. As shown in Figs. 35 and 36, the foil 534 is laminated to the entire sur~ace of the mound 530 and preferably, is not scored. In an alternative embodiment, .

W O 97/27~43 PCTrUS97/01137 the adhesive may be omitted ~rom the fault line pattern 532.
The punch/plug 520 is secured to the outlet ~orming structure 51Q via a tether 524. The tether 524 is created by a cut 522 through the ~oil/plastic laminate.
As can best be seen in Fig. 32, the cut 522 pre~erably takes a curvilinear path, ~ollowing the periphery of the outlet ~orming structure 510. Such a cut 522 provides an elongated tether 524.
In operation, the punch/plug 520 is ~irmly pushed into the ~ault line pattern 532 to rupture the scored mound 530. This operation is best shown in Fig.
35. Having ~orced the punch/plug 520 through the scored area 532 o~ the mound 530, an opening for dispensing the contents o~ the container 500 is ~ormed. The punch/plug 520 is removed ~rom the mound 530 so that contents o~ the container 500 may be dispensed. Because the scored area 532 has been de~ormed to the shape o~ the punch/plug 520, the punch/plug 520 may be reinserted into the scored area 532, thereby resealing the container 500.
In an alternative embodiment, however, the ~oil layer 534 may span the hollow base o~ the mound 530 by being laminated only to the periphery of the mound. O~
course, in such an embodiment, the punch/plug 520 must be long enough to extend past the plane o~ the Eoil 534 so that the ~oil 534 may be punctured. By wobbling the punch/plug 520 while inserted into the mound 530, the opening in the ~oil is enlarged.
It should be noted that the mound 530 strengthens the outlet Eorming structure 510.
- Furthermore, the shape o~ the mound 530 provides a nozzle ~unction, directing the contents o~ the cont~;ne~ 500 in an even stream. Depending upon the contents o~ the container 500, the ~;men~ions and shape o~ the mound 530 may be altered to provide the desired ~low.

W O 97/27043 PCT~US97/01137 The outlet forming structure 510 of Figs. 31-36 are preferably manufactured with a punch similar to that described with re~erence to Fig. 12b. Of course, the tip of the punch need not be spherical, but rather may be elliptical, parabolic, or any curvilinear shape.
Furthermore, it i8 pre~erred that the foil and plastic be laminated into a single web prior to the formation o~ the mound be the punch. Thus, the ~m~nsions of the mound, as defined by the shape o~ the punch tip, will be limited only be the physical properties o~ the materials used.
In an alternative embodiment, which will now be described with re~erence to Figs. 37-38, a reclosable outlet forming structure 610 according to the present invention is utilized with a flexible plasti-foil pouch 600. In general, the foil pouch 600 is formed by folding a generally recta~gular shaped piece of the ~oil plastic combination in half and sealing the three open edges thereo~. A reclosable outlet forming structure 610 is mounted on the seamless end 605 o~ the pouch 600. The outlet forming structure 610, which is sealed to the seamless end of the pouch 600 by applying an adhesive around a periphery of the base 612, covers a hole, not shown, in the pouch 600.
The outlet forming structure 610 may be of any type previously disclosed above, such as those described with reference to Figs. 1-3, 8-9, 13, and 13a. In a preferred embodiment, as shown in Figs. 37 and 38, the outlet forming structure 610 includes an aperture fonming protrusion 630. More speci~ically, the aperture ~orming protrusion 630 includes a hollow cylindrical base 632 and a break-away tip 634. A fault line 636 extends around the periphery of the protrusion struc~ure 630, permitting the breakaway tips 634 to be broken away from the base 632 in the tip 634. More specifically, the fault line 636 is a = narrowed, stress concentrating area.

W O 97/27043 PCTrUS97/01137 The outlet ~orming structure 610 also includes a cap 620. The cap 620 is a hollow tapered member, which has an inside base diameter slightly larger than the outside diameter o~ the base 632 o~ the protrusion structure 630. The cap 620 is secured to the outlet ~orming structure 610 via a tether 624. The tether 624 is ~ormed by a cut 622 through the lower sur~ace 612 o~ the outlet ~orming structure 610. As can best be seen in Fig.
39, the curvilinear cut 622 separates the cap 620 ~rom the protrusion structure 630 and ~ollows the periphery o~ the base 612. By having such a pattern, the cut 622 is relatively long and, conse~uently, produces a relatively long tether 624. ~ue to the long tether 624 and the fact that the portion o~ the base 612 that supports the cap 620 is not ~astened to the pouch 600, the cap 620 may be raised and securely placed over the outlet ~orming structure 630.
In operation, a user applies sidewise ~inger pressure to the protrusion tip 634, thereby causing it to break away ~rom the protrusion base 632 along a ~ault line 636. Because the protrusion structure 630 is substantially hollow, an aperture, not shown, is created.
Furthermore, because the protrusion member 630 has been a~ixed to the pouch 600 over a hole in the pouch, not shown, the contents o~ the pouch 600 may be dispensed via the now opened protrusion neck 632. The cap 620 is placed over the base 632 during shipping, so that accidental rupturing o~ the ~ault line 636 is prevented.
FurthPrm~re, cap 620 is placed over the base 632 to reclose the package 600 when only a portion o~ the ~ contents o~ the package 600 has been dispensed.
In an alternative embodiment, shown in Fig. 39, ~ the same outlet ~orming structure 610 is secured to the side o~ pouch 640. In this embodiment, the pouch 640 is ~ormed from two generally rectangular sheets o~ ~oil plastic laminate which are sealed together around all ~our W O 97/27043 PCTrUS97/01137 sides of each sheet. As with the previous embodiment, the protrusion structure 630 is affixed to the pouch 640 over a hole, not shown, so the protrusion neck 632 is in ~luid c~mmllnication with the contents of the pouch 640.
An alternative embodiment of the present invention employing an outle-t forming structure 610a disposed on a foil pouch 640a will now be described with reference to Figures 37a, 38a, and 39a. Briefly described, the outlet forming structure 610a is substantial the same as the outlet forming structure described with reference to Figures 37-39. Specifically, the outlet forming structure 610a includes both a cap 620a and a protrusion member 630a. As best seen in Figure 39a, the foil pouch 640a includes a lap seam on the side opposite the outlet ~orming structure 610a.
An alternative embodiment of the present invention will now be described with reference to Fig. 40.
A tethered punch/plug and base member with a star shaped fault pattern manu~actured as a unit 700 is shown. A
tether 730 is connected to the base 710 at a pr~;m~l end thereof, a ring structure 740 connected to a distal end thereof, and a tapered punch/plug 760. The punch/plug 760 i8 manufactured separately from the other components.
As shown, the ring structure 740 defines an opening 750. The opening 750 is larger than the tip 762 of the punch/plug 760 yet smaller than the base 764 of the punch/plug 760. Furthermore, the punch/plug 760 includes a circum~erential indentation 766. The indentation 766 is formed on the punch/plug 760 just below a point where the outside diameter of the punch/plug 760 becomes larger than the inside diameter of the opening 750.
Therefore, once the components have been separately manufactured, the punch/plug 760 is snapped into the opening 750. When snapped into the opening 750, the tapered punch/plug 760 causes the slightly elastic ring structure 740 to expand until the ring ~tructure 740 CA 02243962 l998-07-2l W O 97/27043 PCT~US97/01137 reaches the indentatlon 766. Upon reaching the indentation 766, the ring structure 740 snaps into the indentation 766. Consequently, the punch/plug 760 becomes connected to the ring structure 740 and the other components.
In use, as shown in Figure 4Oa, the punch/plug 760 is used to puncture the scored section 722 o~ the protrusion structure 720. Such operation is described in greater detail with re~erence to Figs. 28-3Od.
Turning now to Fig. 41, one embodiment ~or manufacturing a reclosable outlet ~orming structure according to the present invention is shown.
Specifically, a pair of reclosable outlet ~orming structures 870 and 880 are ~ormed ~rom the same piece o~
thermoplastic web F. Each reclosable outlet ~orming structure 870, 880 comprises a protrusion structure 872, 882 as well as cap 874, 884, respectively. As in the previously disclosed embodiments, each cap 874, 884 is connected to the corresponding protruding structure 870, 880 via a tether 876, 886.
It is to be understood that the mating, horse-shoe arrangement o~ the outlet ~orming structures 870, 880 provides several bene~its, such as reclining wasted portions o~ the web F, and that the manufacturing agreement may be repeated along the length o~ the web F.
Turning now to Figures 42-44, an alternative embodiment o~ the present invention is shown. Initially, it should be noted that the container 1000 shown is made o~ similar materials as described above with re~erence to Figure 1-3.
The container 1000 comprises a ~irst de~ormable pouch 1010 and a second de~ormable 1020. The two pouches 1010, 1020 are joined by a shallow conduit 1030. The de~ormable pouches 1010, 1020, as well as the joining conduit 1030, are sealed by a general~y flat sheet 1040 o~
th~rm~ormable plastic material. A hollow protrusion 1050 CA 02243962 l99X-07-21 is integrally formed with the flat sheet of thermoformable plastic 1040. The hollow protrusion 1050 extends from the flat sheet 1040. The protrusion 1050 is directly above and in fluid c~mm~ln~cation with the conduit 1030. The container 1000 further includes a punch/cap 1060.
As can best be seen in Figure 43, the hollow protrusion 1050 has scores or fault lines 1055 on the top face thereof. Despite these fault lines 1055, which weaken the protrusion 1050, the container 1000 remains sealed. Further shown in Figure 46, the punch/cap 1060 is partially separated from the remainder of the container 1000 ~y cut 1062. The cut 1062 which parallels one peripheral edge o~ the container 1000 creates a tether 1064.
In order to open the container 1000, the punch/cap 1060 is positioned over the protrusion 1050.
The punch/cap 1060, and more specifically the pointed end 1066 of the punch/cap 1060 is forced through the score or fault lines 1055, thereby opening the hollow protrusion 1050. When punch/cap 1060 is removed from the hollow protrusion 1050, an opening, not shown, exists. The opening is formed by the permanent deformation of the portion of the protrusion member 1050 between the fault lines 1055. By inverting the container 1000 and gently squeezing either or both of the pouches 1010, 1020 the material contained within the pouches i8 dispensed via the opening in the protrusion 1050.
It should be noted that in the preferred embodiment the protrusion 1050 is placed directly above the conduit 1030. As a result, the contents of the pouches 1010, 1020 can be dispensed in a controlled m~nn~r. Specifically, the shallow conduit 1030 provides resistance to the flowing contents so that the contents do not spout from the opened protrusion 1050 uncontrollably, particularly when the protrusion 1050 is initially punctured.

CA 02243962 l998-07-2l As shown in Figure 44, should less than all o~
the material contained within the pouch 1010, 1020 be dispensed, the cont~; ner 1000 may be reclosed.
Speci~ically, the punch/cap 1060 is inverted by twisting the tether 1064. Because the punch/cap 1060 is hollow, having an inside diameter substantially the same as or slightly larger than the outside diameter o~ the protrusion 1050, the punch/cap 1060 can be securely placed on the protrusion 1050.
With regard to the embodiment o~ Figures 42-44, it will be apparent to one skilled in the art that the invention is not limited by the type o~ outlet ~orming structure utilized. Speci~ically, any combination o~
break away tip, scored protrusion member, punch, plug, and cap may be employed. Furthermore, it should be understood that the particular shape o~ the pouches may vary according to the properties o~ the contents held therein.
An alternative embodiment o~ the present invention will now be described with re~erence to Figures 45-47. As shown in Figure 45, an outlet ~orming structure 1070 comprises a cap member 1072 and an aperture ~orming protrusion 1074. As with the embodiments discussed above, the cap member 1072 is connected to the aperture ~orming structure 1074 by a tether 1076. As can be seen, both the cap member 1072 and the aperture ~orming structure 1074 are ~ormed in a curvilinear base 1078.
Because the outlet ~orming structure 1070 is ~ormed in a curvilinear base 1078, it may be positioned on a container 1080 having a similar curvilinear sur~ace. As shown in Figures 46a-c, one such container 1080 is generally spherical and ~ormed in two halves 1082, 1084.
The two halves 1082, 1084 are joined at one point along ~ their circum~erences, and are there~ore hingeably connected. One hal~ 1084 o~ the container 1080 includes an aperture 1086 ~ormed therein.

W O 97/27~43 PCTnUS97/01137 In operation, as shown in Figure 47, the outlet i~orming structure 1070 iS a:Efixed to the container 1080 such that the aperture ~orming structure 1074 iS in alignment with the aperture 1086 in the container 1080.
As ~urther depicted in Figure 47, the cap member 1072, shown in a sectional view, may be positioned over the aperture ~orming structure 1074, thereby protecting it and sealing the container 180. It is to be understood that the shape o~ the container 1080 is merely representative o~ those that may be employed with the present invention, as the outlet ~orming structure may be ~ormed on a curvilinear base having virtually any shape.
Another alternative embodiment o~ the present invention will now be described with re~erence to Figures 1~ 48-51. The container 1090 generally comprises a rectangular sheet 1091 of thermo~ormable material. At the center o~ the rectangular sheet 1091 is an aperture ~orming structure 1092, having a base and break away tip as described above with reference to the prior embodiments. On either side o~ the aperture ~orming structure 1092 are pouches 1098 ~ormed on the underside o~
the sheet 1091 ~or holding any ~lowable substance. The pouches 1098 are in ~luid c~mm-ln;cation with the aperture ~orming structure 1092.
Also ~ormed in the rectangular sheet 1091 of thermo~ormable material is a cap member 1094. The cap member 1094 is pre~erably formed in one corner o~ the rectangular sheet 1091 and attached to the container 1090 via a tether 1096. The tether 1096 is ~ormed by a cut 1097 extending along the perimeter o~ the container 1090.
The cont~'n~r 1090 may be ~olded generally in hal~ along bending grooves 2006 disposed on either side o~
the aperture ~orming structure 1092. Speci~ically, the ends o~ the container 1090 are brought together as 3~ depicted by arrows "A" in Figure 49. Once the ends are brought together, a ~emale package tie 2000 and a male W O 97/27043 PCTrUS97/01137 package tie 2002, both of which are integrally formed in the sheet o~ thermoformable material 1091, are brought into engagement.
Engagement of the female package tie 2000 and the male package tie 2002 hold the container 1090 in the configuration as shown in Figures 50 and 51. In operation, lateral finger pressure on the tip of the aperture ~orming structure 1092 causes a fault line to rupture, thereby forming an aperture in the aperture forming structure 1092. Thus, the contents of the contalner 1090 may be dispensed from the aperture. As shown in Figure 51, the cap member 1094 may be placed over the aperture forming structure 1092, thereby preventing accidental rupturing of the fault line or accidental dispensing of the contents after the tip of the aperture forming structure 1092 has been removed.
Another alternative embodiment of the present invention will now be described with reference to Figures 52-54. As shown in Figure 52, an aperture forming structure 2016 according to the present invention may be positioned on a treated paper board tube 2012, thereby forming a sealed container 2010. The aperture forming structure 2016 comprises a generally hollow frusto-conical portion 2018, a hollow cylindrical portion 2019, and a breakaway tip 2020. Integrally formed with the aperture forming structure 2016 is a cap member 2022 and an associated tether 2024. As can best be seen in Figure 54, the tether 2024 is formed by a curvilinear cut which allows the cap member 2022 to be partially separated ~rom the aperture forming structure 2016 so that the cap member 2022 may be positioned over the cylindrical portion 2019 and the breakaway tip 2020. Because the cap member 2022 has an inside diameter slightly larger than the outside diameter of the cylindrical portion 2019, the cap member 2022 fits snugly thereon, thereby sealing the cont~' n~
2010.

As with the previously described embodiments, in operation, lateral pressure on the breakaway tip 2020 causes it to separate ~rom the rest o~ the aperture forminy structure 2016, thereby ~orming an aperture into the generally hollow aperture ~orming structure 2016.
Thus, the contents o~ the container 2010 may be dispensed there~rom.
It will remain understood by those skilled in the art that the present invention in its broader aspects is not limited to the particular embodiments shown and described herein, and that variations may be made without departing from the principles o~ the invention and without sacri~icing its chie~ advantages.

Claims (29)

I CLAIM:

1. An aperture forming means for packages or containers comprising a break away tip member made of thermo-formed plastic comprising a hollow protrusion from a surface whose entire intersection with said surface comprises a locus of a fault line.

2. The aperture forming means of claim 1 wherein said hollow protrusion is frusto-conical.

3. The aperture forming means of claim 1 wherein said surface having said hollow protrusion sits atop a covered cylindrical base member formed and protruding from a thermo-formable plastic film.

4. The aperture forming means of claim 1 wherein said hollow protrusion is relatively shallow, said hollow protrusion having at least one side indent.

5. The aperture forming means of claim 1 further comprising at least one additional hollow protrusion adjacent said covering cylindrical base member.

6. The aperture forming means of claim 5 wherein said at least one additional hollow protrusion is a cap member for said hollow protrusion.

7. The aperture forming means of claim 6 wherein said cap member has an inward protrusion and said cylindrical base member has a related cap member, such that when twisted, said cap member is compressed into said cylindrical base member.

8. The aperture forming means of claim 6 wherein said cap member is tapered.

9. The aperture forming means of claim 3 further comprising at least one additional hollow protrusion so shaped as to function as a cap member to fit snugly about said covered cylindrical base member and over said hollow protrusion.

10. The aperture forming means of claim 5 wherein said at least one additional hollow protrusion has an open end and a closed end, said open end being a cap member and said closed end being a punch/plug.

11. The aperture forming means of claim 5 wherein said one additional hollow protrusion is so shaped as to function as a cap member with a centrally formed punch/plug extending along a longitudinal axis within said at least one additional hollow protrusion.

12. The aperture forming means of claim 5 wherein said at least one additional hollow protrusion is so shaped as to function as a tool member atop of a cap.

13. The aperture forming means of claim 5 further comprising a portion of a thin gauge material adjacent to and between said protrusion and said at least one additional hollow protrusion so cut as to form a tether therebetween.

14. An aperture forming means comprising a protrusion which is cylindrical, said protrusion being formed from thermo-formable plastic with one integral covered end, said covered end having a fault line pattern which pattern, when pressed into a space defined by said protrusion, ruptures in a predetermined pattern to create a predetermined aperture.

15. The aperture forming means of claim 14 wherein said fault line pattern creates a circular aperture.

16. The aperture forming means of claim 14 wherein said fault line pattern creates a polygonal aperture.

17. The aperture forming means of claim 14 wherein said protrusion is a hollow mound.

18. An aperture forming means comprising a thermo-formed member having a hollow frusto-conical protrusion from a surface atop a hollow cylindrical based member wherein an intersection for said hollow frusto-conical protrusion with said surface atop said hollow cylindrical based member comprises a locus of a fault line to create a break away tip with an adjacent tethered cap member, said break away tip and said tethered cap member being securely sealingly attached to a container wherein said cylindrical based member is located directly over a hole in said container.

19. Apparatus to form a hollow protrusion from heated thermoplastic film where said hollow protrusion intersects said heated thermoplastic film, said entire intersection comprising the locus of a fault line, including:
(a) punch means comprising a tip portion with a shallow frusto-conical formation at the base of said tip portion; and (b) a female die having an accurately bored hole in a flat die block, said hole of slightly larger diameter than the base of said tip portion of said punch means, so dimensioned that when said punch means is introduced into said female die when forming said heated thermoplastic film the base rim, is advanced to contact said frusto-conical formation, the locus of such contact would be a circle located approximately centrally between the larger base circle and the smaller end circle of the frusto-conical formation.

20. Apparatus to form a hollow protrusion from heated thermoplastic film where said hollow protrusion intersects said heated thermoplastic film, said entire intersection comprising the locus of a fault line, including:
(a) a supply of thermoplastic film;
(b) means to controllably heat a section of said film;
(c) means to transfer said heated film section to the locus of the center of said apparatus;
(d) punch means comprising a tip portion with a shallow frusto-conical formation at the base of said tip portion extending from a shaft;
(e) resiliently mounted film clamp means with a central hole through which said punch member may pass;
(f) guided mounting plate means to which said clamp means and punch means are concentrically mounted with said punch means located beneath the clamp face of said resilient clamp means and concentric with its central hole to reciprocatingly and controllably advance and retract said resiliently mounted film clamp means and punch means with respect to a female die; and (g) a female die having an accurately bored hole in a stationary flat die-plate located in accurate alignment with said punch means, said bore diameter so dimensioned that when the punch means is advanced said bore rim would be in accurate alignment with said shallow frusto-conical formation at the base of the punch tip and if advanced to contact said shallow frusto-conical formation the locus of said contact would be a circle located approximately centrally between the larger base circle and the smaller end circle of said shallow frusto-conical formation.

21. Apparatus to form a hollow protrusion from heated thermoplastic film where said hollow protrusion intersects said heated thermoplastic film, said entire intersection comprising the locus of a fault line, which hollow protrusion extends from a closed hollow essentially cylindrical base portion, including:
(a) punch means comprising a tip portion with a shallow frusto-conical formation at the base of said tip portion;
(b) a spring loaded self-centering retractable female die member configured to mate with said punch means, and (c) a spring loaded film clamp means with a central hole through which said punch member may pass, cylindrical means extending from said central hole whose outer diameter functions as a punch means to form the inside diameter of the closed hollow essentially cylindrical base portion and whose height forms the inner height of said protrusion when cooperating with said female die member.

22. The apparatus of Claim 21 where the female die member includes a ball ended base, wherein movement of said female die member is limited in one direction by the ball ended base contacting an adjustable stop means, a spring member seated on said adjustable stop means compressor against a flange located on the female die member pressing said flange against a fixed stop means to encapture the female die member.

23. The apparatus of Claim 21 including additional means to form an adjacent cap member protrusion and tether from said heated section of thermoplastic film, said additional means comprising:
(a) secondary punch means comprising a tip so shaped as to create a hollow thermoplastic cap member with tapered walls to firmly engage said hollow essentially cylindrical base portion when used in conjunction with a cooperating female die member;
(b) a female die member comprising a hole in a plate of such dimension as to allow punch member and heated thermoplastic film to pass through it with low resistance;
(c) said punch and die means located adjacent to said apparatus to form said hollow cap member at such distance as to permit a cutting means to create a tether between said cap means and said hollow base portion; and (d) cutting means to create a tether.

24. Apparatus to form a hollow tapered protrusion from heated thermoplastic film where a fault line may be formed encircling an outer surface of said protrusion at various predetermined heights including:
(a) punch means comprising a tapered tip extending from a round shaft member;
(b) a film stop plate with a hole so sized as to permit said punch means and said heated thermoplastic film being formed to pass through to reach a female die means;
(c) female die means comprising a bored die block, said bore to be of such diameter as to locate the fault line on the outer surface of the tapered member protrusion at a predetermined location when cooperating with said punch member.

25. The aperture forming means of claim 5 integrated with a squeezable dispensing tubelike container having a fin seal at each end and a single longitudinal seal.

26. The aperture forming means of claim 25 where said squeezable dispensing tubelike container is made of a paperboard product treated to create suitable barrier characteristics for the product contained.

27. The aperture forming means of claim 25 where said squeezable dispensing tubelike container is made of a thermoplastic wherein the aperture forming means is thermoformed into the hollow portion of the tube.

28. The aperture forming means of claim 27 wherein said at least one additional hollow protrusion is formed into an end fin seal, said end fin seal being so cut as to create a tether for said at least one additional hollow protrusion.

29. The aperture forming means of claim 25 where the thermoplastic is Barex coated with Polyvinyl dichloride.