Method and apparatus for creating preformed bonded pull tabs over a reseal liner

Information

  • Patent Grant
  • 6174274
  • Patent Number
    6,174,274
  • Date Filed
    Wednesday, October 8, 1997
    27 years ago
  • Date Issued
    Tuesday, January 16, 2001
    23 years ago
Abstract
A method and apparatus for formation of a preformed bonded pull tab over a reseal liner is disclosed. The pull tab seal layer of material is bonded together with a reseal liner layer of material for insertion into a closure. The pull tab on the pull tab liner seal is formed prior to combination of the two layers and is folded backwards between the two layers of material. Thus, after combining the two layers, punching out the closure liner and insertion into the closure, the reseal liner is separated from the pull tab seal and the pull tab seal is adhered to the rim of the container. Only one punch press step is required for forming the closure and container seals and insertion of the members into the closure. By forming the pull tab prior to combining the two layers, an assembly of the pull tab and reseal liner is made more efficient and less time consuming.
Description




BACKGROUND OF THE INVENTION




1. Field of the Invention




This present invention relates to manufacturing reseal and pull tab liners which are combined in a closure and which have a pull tab for removing, upon first use, a liner adhered to the container. These types of reseal liners are manufactured and placed in the interior of a closure which is either threadably attached to a container or is snap fitted on the container neck. The pull tab liner is adhered to the rim of the container mouth and is removed by the user upon first use of the container contents. There is also a gasket or reseal liner placed in the interior of the closure to properly seal the container after removal of the pull tab liner.




2. Discussion of the Prior Art




Pull tab reseal liners are fairly well known in the container and closure arts. Historically, these reseal liners are cut out of a web of material and inserted into the closure. A pull tab seal is then prepared, cut out and inserted into the closure which is then threadably screwed onto the container neck. There are many drawbacks however to the prior art manufacturing methods for generating reseal liners and pull tab liners which are adhered to the mouth or rim of a container. First and foremost, since the combined inserted liner is made of multiple layers of varying materials, multiple steps have historically been required for assembly and insertion of the pull tab liner and closure reseal liner into the closure. Additionally, these manufacturing problems have resulted in the layers of the sealing liner material being mis-aligned within the closure and possibly causing the pull tab to be improperly placed along the threads of the container lessening the accessibility of the pull tab for the user.




U.S. Pat. No. 4,754,890 to Ullman et al teaches a tamper evident safety seal which is formed from a sealing liner having an integral tab portion and having a tab being double folded for release of the pull tab liner. The sealing liner for the Ullman reference combines a layer of foil and foam causing the foil to be folded over one edge and then mated with the foam before punching out the liner into the closure. However, one drawback in the tamper evident safety seal taught therein is that the fold over portion of the liner results in a large section of wasted material as opposed to utilizing only a small pull tab, as is used in most removable pull tab and reseal liner combinations. Additionally, the large section of fold over liner material can prevent the closure from sealing properly on the neck of the container before the fold over seal liner is removed thereby impeding the closure from threading onto the container completely or preventing an adequate seal of the container.




There are additional methods of forming a pull tab reseal liner comprised of a first section of wax paperboard overlaid by a separate section of aluminum foil and plastic or seal material, the paperboard acting as the liner in the closure and the aluminum foil and other seal material acting as the pull tab seal liner on the container. These systems, however, such as is shown in U.S. Pat. No. 5,261,990 require the wax paperboard to be punched into the die containing the closure, and in a separate process the pull tab and liner material is separately formed and stamped into the closure for later bonding to the container rim after attachment of the closure on the container. The first layer of paperboard is glued into position against the top wall in the closure above the threads. The pull tab and liner material is then forcibly inserted and frictionally held into place by the threads until later bonding to the container. However, in this embodiment, accurate positioning of the liner material within the cap and of the pull tab is difficult because the separate layers are not combined and pressed into the closure concurrently causing positioning problems with the layers and other assembly difficulties.




SUMMARY OF THE INVENTION




It is therefore an object of the present invention to overcome the deficiencies of the prior art listed above.




It is another object of the present invention to provide a preformed bonded pull tab over a reseal liner which can be constructed in a single manufacturing step thereby preventing separate insertions of liner material into the closure.




It is an additional object of the present invention to form pull tabs on a sealing liner which can be accurately placed and positioned for the user to remove the liner from the container and which prevents the pull tab from being folded under the liner material or being creased along the threads of the container.




It is a further object of the present invention to provide an improved method and apparatus for construction of a preformed bonded pull tab which efficiently utilizes the lining material with limited waste and which can feed a combined paperboard and pull tab liner sheet of material through a standard lining machine for punching into a closure.




Finally, the present invention comprises a method for manufacturing a bonded pull tab over a reseal liner for a closure, comprising: forming pull tabs in a pull tab liner web of material; folding said pull tabs backwards and underneath said pull tab liner web; forming a bonded pull tab over a reseal liner by joining said pull tab liner web with a reseal liner web such that said pull tab is compressed therebetween; punching out into a closure said combined seals. Additionally, the present invention comprises an apparatus for manufacturing a bonded pull tab over a reseal liner, comprising; a web of reseal liner material; a web of pull tab seal material; a tab forming punch press, said web of pull tab seal material positioned below said punch press, said punch press further having at least one tab forming anvil extending downward therefrom and reciprocating through said web of pull tab seal material and forming at least one pull tab therein; means to fold said at least one pull tab backward against said web of pull tab seal material; a radiant heater to bond said web of pull tab seal material and said web of reseal liner material to form a combined web of material such that said at least one pull tab is compressed between said web of pull tab material and said reseal liner material; and a punch press for cutting out said combined web of material. Finally, the present invention creates a web of bonded pull tab over a reseal liner material, comprising: a layer of pull tab liner material, said material having a pull tab formed therethrough; a layer of reseal liner material; wherein said pull tab is compressed between said layer of pull tab liner material and said layer of reseal liner material.




These and other objects and the nature and advantages of the instant invention will be more apparent from the following detailed description of various embodiments of the invention taken in conjunction with the included drawings.











BRIEF DESCRIPTION OF THE DRAWINGS




A better understanding of the invention will be had upon reference to the following description in conjunction with the accompanying drawings in which like numerals refer to like parts and wherein:





FIG. 1

is a schematic side view of the apparatus for formation of a preformed bonded pull tab over a reseal liner of the present invention;





FIG. 2

is a top view of the pull tab liner strip of the present invention;





FIG. 3

is a sectional side view of the completed container liner seal of

FIG. 1

which is punch-pressed into a closure;





FIG. 3A

is a sectional side view of

FIG. 3

showing the pull tab formed between the pull tab seal and the reseal liner adhered to the closure;





FIG. 4

is a close up side view of the tab forming punches shown in

FIG. 1

;





FIG. 5

is a close up of the punch and die shown in

FIG. 1

which is utilized to punch the liner material from the liner web into the closures;





FIG. 6

is a perspective sectional view of fully formed bonded pull tab over a reseal liner manufactured with the method and apparatus of the present invention; and,





FIG. 7

is a cutaway side view of the closure of the present invention having a standard reseal liner attached to the top wall.











DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT




With reference to

FIG. 1

there is shown an apparatus


10


for manufacturing a preformed bonded pull tab seal over a reseal liner. The apparatus


10


is comprised of a tab forming punch press


20


which acts upon a pull tab web


27


passing therebelow. Tab forming punches


22


are reciprocally actuated by punch press


20


and are diagonally aligned along the width of pull tab web


27


. Tab forming anvils


22


form one or more pull tabs (in this embodiment four) upon each actuation of reciprocating shaft


21


. The pull tab web


27


is aligned for further processing after formation of pull tabs


26


by registration hole punch press


24


which forms registration holes


25


, shown in

FIG. 2

, in the pull tab web


27


. Registration holes


25


, positioned along the edge of web


27


, are formed in web


27


by the same reciprocating drive system


21


that activates tab forming anvils


22


which forms pull tabs


26


in liner web


27


. Corresponding registration holes


25




a


are also formed in reseal liner


28


by spring punch press


23


. Registration holes


25


and


25




a


aligns holes in both webs of material


27


and


28


.




Tab forming anvils


22


, the diagonal positioning of which is more clearly shown in

FIG. 2

, create pull tabs


26


along a line diagonally across the width of pull tab web


27


in order to more efficiently utilize the surface area of pull tab web


27


. Diagonal formation of the pull tabs


26


is not necessarily required and therefore any positioning of the pull tabs for subsequent processing can be considered with related loss of efficiency of usage for foil web


27


. As shown in

FIG. 2

, pull tabs


26


are formed on the peripheral edge of the eventual pull tab seal


29


, the position of which is shown in phantom. Registration holes


25


and


25




a


in both webs


27


and


28


insure that pull tabs


26


are properly formed such that subsequent processing, cutting and formation of the bonded pull tab over reseal liner


50


which is placed into the closure


56


, shown in

FIG. 5

, occurs. Pull tabs


26


are formed prior to joining of the pull tab web


27


and the wax paperboard reseal liner


28


, shown in FIG.


1


. After formation of the pull tabs


26


by the tab forming punches


22


, shown in

FIG. 4

, tab forming die


19




a


reciprocates to individually fold the pull tabs along the underside of pull tab web


27


. This allows the pull tabs


26


to be folded backwards such that it is compressed between the two layers of material


27


,


28


inserted into a closure after they are combined. Reseal layer web


28


acts as a reseal liner in the closure for adequate sealing of the container by acting like a gasket in the closure. Therefore, after combination of layers


27


,


28


, insertion of the pull tab over reseal liner


50


into a closure, bonding of the pull tab seal to the container rim and separation of the two layers of material, the pull tab


26


of seal


29


is upwardly extending and easily accessible by the user as shown in FIG.


6


. Die


19




a


actuates sufficiently to cause the pull tab


26


to be folded backwards along the underside of pull tab seal


29


as shown in

FIG. 4

such that continued forward motion of the pull tab web


27


causes full backward folding of the tab


26


.




Registration holes


25




a


in the paperboard reseal liner web


28


are formed by a separate punch die


23


which is spring actuated as shown in FIG.


1


. The resulting holes


25




a


in paper board web


28


are larger than the registration holes


25


in the pull tab web


27


to allow proper mating of the two material webs. Alternatively the index holes in both webs could be formed by the same punch die


24


or similarly, the paper board web


28


can be narrower than the pull tab web


27


to not cover the index holes


25


located thereon. In this embodiment however, for precise locations of subsequent punching operations, both webs are provided with alignment or registration holes


25


and


25




a.






Turning to

FIG. 3A

, the bonded pull tab over a reseal liner


50


which is comprised of the pull tab web


27


and wax & paper board web


28


are shown subsequent to bonding. Alternatively, other materials such as plastic foam with an absorbent layer and foil or foam may be used. The pull tabs


26


, formed by pull tab punches


22


, are folded under the pull tab web


27


and compressed between pull tab web


27


and reseal liner web


28


. As displayed in

FIG. 3A

, the layer of the pull tab seal web


27


is adhered to the rim of the container mouth and the layer of the reseal liner web


28


is sealed to the top wall of the closure


56


. Pull tab


26


, after combining the two layers


27


and


28


of material, insertion into a closure and subsequent separation by bonding of pull tab seal


29


to a container, may be upwardly exposed as is shown in

FIG. 6

in order to provide access to the formed pull tab seal


29


or may be lying flat against the top surface of seal


29


at which point it is merely raised up and removed by upward force.




Turning to

FIG. 3

, pull tab web


27


is comprised of three layers of material. The top most layer of material joining to form pull tab web


27


is a layer of bottle compatible plastic


45


which is used to join the surface of the formed pull tab seal


29


to the container or mouth rim of the container


51


. Directly below the bottle compatible plastic layer


45


is a layer of MYLAR®


46


or other bidirectionally strengthened material which forms a substantial portion of the formed pull tab seal


29


, shown in FIG.


2


and FIG.


6


. This bidirectionally strengthened material


46


insures that upon application of a removal force on pull tab


26


, the formed pull tab seal


29


does not tear or rip. Thus, with an upward force applied to pull tab


26


, the entire pull tab seal


29


is removed from the mouth of container


51


separating the melted plastic layer


45


from bottle


51


. The MYLAR layer


46


can alternatively be replaced with a paper based material to form a frangible liner that readily tears rather than removing the liner in a single piece as is suggested in this embodiment. Finally, foil layer


47


is combined in the liner material


50


as a portion of web


27


to transfer heat evenly across the pull tab seal


29


and melt the plastic layer


45


when bonding to the container


51


. This is accomplished through induction heating wherein the resistance of the foil layer


47


caused by an induction field creates sufficient heat to cause the plastic layer


45


to melt and bond with the container


51


.




In conjunction with the pull tab web


27


, a mating web of material comprising wax and paperboard


28


is utilized in combination to provide the formed closure reseal liner


54


shown in FIG.


7


. Wax paperboard


28


is comprised of a pulp or other paper material


49


above which is a layer of wax material


48


shown in FIG.


3


. These materials comprise the paperboard web


28


. Above the wax material


48


after joining of the two distinct web layers


27


and


28


is aluminum foil


47


or other metallic structure for the welding step of the pull tab liner


29


to the container. The foil


47


is formed as a part of the pull tab membrane


27


separate from paperboard


28


. As a result, as shown in

FIG. 3

, the combined bonded pull tab over reseal liner


50


after joining of the wax paperboard material


28


and the pull tab web


27


, is comprised of multiple layers, being: a bottle compatible plastic


45


; MYLAR or bidirectionally strengthened material


46


; aluminum foil or other metallic structure


47


; wax


48


; and, pulp or paperboard


49


. Below the wax paperboard


49


and immediately prior to insertion into a closure


56


, a glue or other adhesive is applied to the bottom surface of paperboard


49


for adhesion of the reseal liner


54


into the closure


56


. Alternatively, no glue may be needed to hold the liner disc in the closure. The liner may be snap fit into the closure if during assembly the reseal liner disc


56


is forced past the threads of the closure such that it is held in place by friction and the diameter of the reseal liner disc


56


is slightly larger than the closure opening (See FIG.


7


).




As seen by the schematic outline of

FIG. 1

, after formation of pull tabs


26


in the pull tab web


27


, pull tab


26


is compressed between the two layers consisting of pull tab web


27


and paperboard web


28


before insertion into a closure


56


, as shown in FIG.


3


A. Ultimately after induction welding of the bonded pull tab over reseal liner


50


, which is inserted in the closure


56


, the pull tab seal


29


will be adhered to the rim of container


51


while the reseal liner


54


will be adhered to the interior underside of closure


56


. Upon removal of the closure


56


from container


51


, pull tab


26


and pull tab seal


29


will be exposed as is shown in FIG.


6


.




Examining

FIG. 3

again, the topmost layer of material as displayed in the figure is bottle compatible plastic


45


. Most containers which the formed pull tab seal


29


is adhered to are comprised of a thermoplastic material and are made through an extrusion or injection molding process. The layer of bottle compatible plastic


45


on the pull tab web


27


allows the formed pull tab seal


29


to be adhered to the container mouth rim after application of an induction field, the resulting heat of which is dispersed along the entire surface of liner


29


by aluminum layer


47


. Once the pull tab web


27


is combined with the reseal liner web


28


and the combined web is placed into the interior of a closure


56


, the induction field mentioned above is applied to the closure after placement onto the container. Such induction field causes resistance to build in the aluminum


47


foil thereby creating an even layer of heat which melts the bottle compatible plastic layer


45


and adheres the pull tab seal


29


to the container mouth rim.




Returning to

FIG. 4

, the pull tab rotary punch press


20


is shown with reciprocating tab forming punches


22


and pull tab web


27


which passes therebelow. Pull tab die


19


provides an aperture for anvil


22


to pass therethrough in order to form the pull tabs


26


in the pull tab web


27


as is shown. Tab forming punches


22


, shown in

FIG. 4

, contain pointed or sharpened portions


18


for piercing the pull tab web


27


and an opposite edge


17


which has a reduced curvature such that tab


26


upon formation is not severed by edge


17


. Also shown in

FIG. 4

is reciprocating punch die posts


19




a


which moves horizontally from left to right as shown in order to fold tabs


26


backwards after cutting. Tab forming punches


22


reciprocates as shown in FIG.


1


and produces one or more tabs, here shown as four pull tab punches in diagonal relationship in order to increase the efficiency and usage of the pull tab web


27


. Pull tab


26


, folded downward and backwards, is fully folded below web


27


upon forward movement of the web


27


.




Returning to the schematic of

FIG. 1

, after formation of pull tabs


26


in the pull tab web


27


and formation of index holes


25




a


in the pulp board web


28


, both webs are pulled through the heating box


40


by the indexing motor drive


30


. An additional drive may be provided after formation of the registration holes to help push the web material forward. Upon entry into the radiant heater box


40


, pull tab web


27


and wax paperboard


28


are joined or bonded together. Heating box


40


is preferably a radiant heater which provides an increased temperature environment of sufficient heat to evenly melt the wax layer


48


adjacent the foil layer


47


thereby bonding the pull tab web with the closure reseal liner web


28


upon hardening of the wax. Upon exiting the heater box


40


the tab liner and pulp bond webs are forcibly pressed together and cooled by contact with the compression rollers


34


,


35


and


43


,


41


.




As previously indicated, larger registration holes


25




a


are formed in the wax paperboard web


28


. Providing these registration holes


25


and


25




a


in both layers of material


27


and


28


, insures accurate processing by punch press


60


shown in FIG.


1


. Registration holes


25


and


25




a


are optically sensed by optical sensor


58


immediately prior to punch press


60


so that the punch press and particularly the safety seal anvils


52


are properly aligned with the pull tab liner seal locations


29


and the pull tabs


26


which are shown in FIG.


2


. These registration holes


25


and


25




a


are sensed by the optical sensor means


58


which is operably connected to the compression rollers


42


and


43


which feeds the formed bonded pull tab over reseal liner


50


into the punch press


60


. Optical sensing means


58


may be any of a multiple of known sensors such as photo cells, air gap sensors or metallic proximity sensors.




Referring now to

FIG. 5

, a close up is shown of the internal mechanisms of punch press


60


which acts to punch pull tab seal


29


and reseal liner


54


from the combined container liner


50


and place the combined punch material into the interior of the closure


56


. Below die


53


is placed a closure


56


typically formed of plastic material through an injection, extrusion, or compression molding process. As shown in

FIG. 5

, the closure


56


utilized in the present embodiment is a threaded closure for screwing onto the neck of a container


51


. However, alternate embodiments may incorporate snap fit closures which have a snap fit bead directed inwardly from the closure sidewall in order to hold the closure in place on the container neck.




In

FIG. 5

, closure safety seal anvil


52


operates in a reciprocating motion puncturing the liner web


50


and inserting the formed container liner


29


with a pull tab


26


formed therebetween and forcing the paper board reseal liner


54


, of

FIG. 7

, into the closure interior. The combined liner strip


50


is guided by the index holes


25


and


25




a


to maintain proper positioning and location within the machinery. Liner web


50


is advanced by stepper motor


30


. Motor


30


is operably connected with optical sensor


38


to control the advancement of web


50


for correct placement of the web under the cutting dies. Indexing the liner web


50


is controlled by index holes


25


and


25




a


to provide proper linear advance of the web


50


so that the formed tabs are accurately placed under the punch anvil


52


and opening in the die


53


such that the tabs are formed properly on the edge of each cut liner circle


29


outlined in FIG.


2


. The anvils


52


may be placed in a diagonal fashion as is shown in

FIG. 2

in order to maximize the usage of the liner web


50


and minimizing any wasting of said material. Optical sensing means


38


thereby controls servo rollers


42


and


43


and placement of the liner web


50


by reading the registration holes


25


and


25




a


so that the anvils cut out a bonded pull tab over reseal liner


51


for insertion into the interior of the closure


56


. Additionally, an adhesive material may be placed in the interior top wall


58


of closure


56


such that upon insertion of the liner web


50


after punch press


52


reciprocates through dye


53


, the reseal liner


54


adheres to the interior of closure


56


.




As shown in

FIG. 6

, after insertion of the liner material into closure


56


, the closure may be threadably attached to a container


51


which, after induction welding or application of heat, can separate pull tab seal


29


from the reseal liner


54


thus exposing the pull tab seal


29


upon first removal of closure


56


from container


51


.




The foregoing detailed description is given primarily for clearness of understanding and no unnecessary limitations are to be understood therefrom for modifications will become obvious to those skilled in the art upon reading this disclosure and may be made without departing from the spirit of the invention or the scope of the appended claims.



Claims
  • 1. An apparatus for manufacturing a bonded pull tab over a reseal liner, comprising:a web of reseal liner material; a web of pull tab seal material; first tab forming punch press, said web of pull tab seal material positioned below said punch press, said first punch press further having at least one tab forming anvil extending downward therefrom and reciprocating through said web of pull tab seal material and forming at least one pull tab therein, said at least one pull tab being hingedly connected to said web of pull tab seal material, said first tab forming punch press further having a registration hole punch actuating on said web of reseal liner and said web of pull tab seal material; a folding mechanism to place said at least one pull tab against said web of pull tab seal material; a radiant heater to bond said web of pull tab seal material and said web of reseal liner material to form a combined web of material such that said at least one pull tab is compressed between said web of pull tab material and said reseal liner material; a second punch press located down line from said first tab forming punch press along said combined web of material for cutting out of said combined web of material said bonded pull tab over a reseal liner.
  • 2. The apparatus of claim 1 wherein said web of pull tab seal material is comprised of a layer of bidirectionally strengthened material, a layer of thermoplastic material and a layer of aluminum.
  • 3. The apparatus of claim 1 wherein said web of reseal liner material is a paper based material.
  • 4. The apparatus of claim 1 wherein said reseal liner material is comprised of a layer of paperboard and a layer of wax.
  • 5. The apparatus of claim 1 wherein said first tab forming punch press is further comprised of four diagonally spaced tab forming anvils.
  • 6. The apparatus of claim 1 further comprising an optical sensor operably connected to a compression roller, said compression roller contacting said web of reseal liner material and said pull tab seal material along said formed registration holes.
  • 7. An apparatus for manufacturing pull tab inner seal liner for a container, comprising:an inner seal liner web of material and a wax paperboard web of material; a first pull tab rotary punch press having a plurality of tab forming anvils; a conveyance motor to transport said wax paperboard web through said first pull tab rotary punch press; wherein said first pull tab rotary punch press forms a plurality of pull tabs in said inner liner web of material, said first pull tab rotary punch press further comprising a registration hole punch actuating on said inner seal liner web of material and said wax paperboard web of material; a radiant heater which receives said inner seal liner web and said wax paperboard web and creates a combined pull tab and reseal liner web; a second liner punch press which receives said combined pull tab and reseal liner web and having a plurality of reciprocating safety seal anvils thereon; wherein said second liner punch press punches out a plurality of closure pull tab and reseal liners from said combined pull tab and reseal liner web.
  • 8. An apparatus for manufacturing a plurality of bonded pull tab over a reseal liners for closures, comprising:a pull tab seal web of material and a reseal liner web of material; a first tab forming punch press having a plurality of tab forming anvils thereon, said anvils forming a plurality of pull tabs in said pull tab seal web of material, said first tab forming punch press folding said plurality of pull tabs against said pull tab web of material; said first tab forming punch press including actuating a registration hole punch on said web of reseal liner and said web of pull tab seal material to form registration holes for further alignment; a conveyance motor for transporting said pull tab seal web through said first tab forming punch press; a radiant heater to combine said pull tab seal web and said reseal liner web such that said pull tabs are compressed therebetween and form a bonded pull tab over a reseal liner web of material alignment; a second liner punch press having a plurality of reciprocating safety seal anvils to punch out from said bonded pull tab over a reseal liner web of material said plurality of bonded pull tab over a reseal liners into said closures.
US Referenced Citations (10)
Number Name Date Kind
RE. 33886 Ullman et al. Apr 1992
3656273 Anderson et al. Apr 1972
4410089 Bortolani Oct 1983
4526562 Knudsen et al. Jul 1985
4610649 Friess Sep 1986
4676047 Mutoh Jun 1987
4822326 Ullman et al. Apr 1989
5062340 Greven Nov 1991
5108356 Rickenbach Apr 1992
5797509 Fitch Aug 1998