US3479790A - Method of sealing a container assembly and sealed container assembly - Google Patents

Description

R. L. LA BARGE METHOD OF SEALING A CONTAINER ASSEMBLY Nov. 25 1969 AND SEALED CONTAINER ASSEMBLY 2 Sheets-Sheet 1 Filed Nov. 14, 1967 INVEN TOR. ROBERT 1.. LaBARQE A Horney NOV. 25. @969 R. L. LA BARGE 3,479,790

METHOD OF SEALING A CONTAINER ASSEMBLY AND SEALED CONTAINER ASSEMBLY Filed Nov. 14, 1967 2 Sheets-Sheet 2 INVENTOR. ROBERT L. LaBARGE A r r orney US. Cl. 5342 7 Claims ABSTRACT OF THE DISCLOSURE A method is provided of securing a closure to a container by inward deformation of a circumferential bead of a metallic closure shell skirt through pressure applied simultaneously around the bead to move inwardly a substantially circumferential portion of the skirt of the closure shell located above the bead into secure closure afi'ixation on the container so that such closure afiixation is thereafter maintained by the inwardly deformed and constricted closure bead. A closure fitment or closure is also provided that is adapted to be securely afiixed to the container by a partially preformed inwardly directed skirt portion in securement relation to a suitable container bead and to be maintained in secure closure afiixation on the container by a deformed and constricted lower skirt bead of the closure.

The invention relates generally to a method of securing closures to containers, to a closure fitment and to resulting closure-container assemblies. The closure fitment, as used herein and in the appended claims, may have both a complete top and depending skirt, or may have an interior portion of the top removed so that the fitment serves as a top flanged retaining band. More specifically, the invention relates to a method of securing closures which are deformed into secure closure affixation on containers so that removal requires either rupture or elongation beyond the elastic limit of the material of the closures.

It is known to secure a closure to a container having an externally beaded mouth configuration in which a depending skirt of the closure is deformed beneath a container bead in response to inwardly directed and applied pressure against the closure skirt in substantially the area or areas of deformation thereof adjacent and below the container bead against the resistance of the container bead.

The present closure method contemplates the inward deformation of a circumferentially outwardly projecting configuration or head of a closure or closure fitment skirt by means of force applied simultaneously around the configuration or bead to cause substantial inward movement of a circumferential inwardly preformed portion or band area of the skirt of the closure or fitment disposed above the circumferentially projecting configuration or bead thereof into secure closure afi'ixation on the container. The outwardly projecting circumferential closure bead or configuration is reformed beyond its elastic limit and serves to restrain the overlying inwardly disposed portion of the closure skirt in secure closure afiixation on the container. The restraint thus provided by the permanently deformed annular bead or outwardly projecting configuration of the closure eliminates the need for placing complete reliance upon the bending strength of the skirt material in the deformed portion thereof above the bead. With this method, effective closure afiixation and restraint thereof obtains without positively engaging the circumferential head of the skirt of the closure with a retaining configuration of the container.

nited States Patent 0 It is an object of this invention to provide a method of effecting secure closure affixation on a container by inward permanent deformation of an outwardly projecting circumferential bead, or equivalent configuration, of a closure skirt to cause substantial radial inward movement of a circumferential inwardly preformed portion of the closure skirt disposed thereabove and located below a closure securing bead on the container.

It is another object of this invention to provide a method of permanently inwardly deforming a substantially circumferentially disposed portion of a closure skirt beyond its elastic limit by force applied simultaneously about the circumference of an outwardly projecting bead configuration contiguous therewith located below the inwardly deformed portion of the closure skirt to provide effective restraint of the closure on an underlying container.

It is a further object of this invention to provide both a. sealed container-closure assembly, or package, and a closure (or fitment) in which the closure is provided with a continuous annular bead at the lower extremity of its closure skirt restraining an inwardly directed skirt portion disposed above the annular bead in secure closure affixation on the container.

These and other objects will be more fully understood and appreciated from the following description, and reference to the illustrations appended hereto, in which:

FIG. 1 is an enlarged fragmentary sectional elevation of a type of closure suitable for use in the practice of the invention;

FIG. 2 is an enlarged fragmentary sectional elevation of a type of container finish adaptable for use with the invention;

FIG. 3 represents the loosely assembled closure and container of FIGS. 1 and 2 within a closure-applying head prior to initiation of a closure-aflixing operation;

FIG. 4 represents the closure-container assembly of FIG. 3 in some intermediate assembly thereof;

FIG. 5 represents the closure-container assembly of 7 FIG. 4 with closure-afiixation completely effected;

FIG. 6 represents an enlarged fragmentary partial sectional elevation of another embodiment of unitary closure assembly prior to affixation on an underlying container; and

FIG. 7 represents the closure assembly of FIG. 6 With closure-atfixation on its underlying container completely effected in unitary package form.

Referring now to the drawings, in greater detail, FIGS. 1 and 2 illustrate a basic embodiment of a closure and container finish contemplated by this invention. The closure 1 has atop portion 2 and a dependingskirt 3. The particular form of closure illustrated has a compressible gasket 4 disposed in the gasket receiving channel 5, which is defined within theupper portion 2 of the closure shell. The closure skirt terminates in a continuous circumferentially outwardly projecting shoulder configuration, which in this instance is shown as ahollow bead 6 which is of substantially uniform cross-sectional diameter throughout its circumference. An inwardly directed preformed annular rib orgroove 7, which is preferably, but not necessarily, continuous, is disposed above thehollow bead 6.

Rib 7 and thehollow bead 6 may be made by various practices. A convenient manufacturing procedure is that of first forming an outwardly stepped shell for fitment with a bend of relatively small radius at the junction of theskirt 3 and the outwardly stepped portion that is to be formed into thehead 6, next forming thebead 6 by known simultaneously circumferential curling practice, and then forming therib 7 by axial compression of the shell to set inwardly the aforementioned bend.

The container, which may be of conventional plastic, glass or other suitable material, preferably has mouth 8 defining anorifice 9, the outwardly exposed configuration of which provides a circumferential bead or lip 10. The bead or lip 10 provides an upper entrance mouth sealing surface 11, a lateral orouter sealing surface 12, and a lowerunderlying shoulder surface 13.

In effecting a closure-container assembly, the closure 1 is placed on the container with thehollow bead 6 adjacent the container bead 10. The relative diameters of the closure and container may be such that, in initial disposition of the closure on the container, either or both of the inwardly directedrib 7 andbead 6 of the depending closure skirt 3 is or are flexed outwardly by contact against the outer orlateral sealing surface 12 of the container, or alternatively, the relative diameters of the closure and container may be such that the inner diameters of the inwardly directedrib 7 andbead 6 are some what greater than the diameter of any portion of the container to be admitted into the closure, and in such case the oversize is preferably slight. In any event, it is not intended that the relative diameters be such that the closure is a snap-on closure in the sense that the initial relative diametric dimensions serve to retain the closure in effective sealing relationship to the container.

Practice of the method of the invention is described in reference to FIGS. 3 through 5. Therein equipment in the form of a closure-affixinghead 15 is illustrated as having a centrally disposedtop pressure block 16 and a surrounding relatively movable pressure-applyingsleeve 17.

In the practice of the method of the invention, a closure preferably supported over the mouth of a container, is presented in vertically aligned disposition within the sealinghead 15 of FIG. 3. Top pressure is applied against the upwardly facing outer surface of the closure 1, by thepressure block 16 in abutting engagement thereagainst, to compress the gasket 4 and lower or advance theclosure skirt 3, and itsterminal head 6, from the positions thereof illustrated in FIG. 3. With the pressure exerted by thepressure block 16 maintained, relative downward axial travel of the surroundingsleeve 17 of sealinghead 15, and circumferential engagement of an upwardly convergingthroat surface 18 of the sealinghead sleeve 17 in progressive tangential bearing circumferential contact against the outer periphery ofbead 6 of closure 1, results in radial inward permanent deformation and reduction in the circumference of theclosure head 6, with attendant inward movement of the inner surface of theclosure skirt 3 resisted by the lower portion of container bead 10 adjacent the inwardlydepressed rib 7 ofclosure skirt 3, and preferably immediately above therib 7, to thereby cause further permanent deformation and radial inward deepening of the inwardly directedrib 7 in underlying relationship to theshoulder surface 13 of the container bead 10.

FIGS. 4 and 5 depict progressive inwardly directed permanent deformation and transformation of thecircumferential closure head 6 and inwardly directedrib 7 above the same in response to progressive axial movement of the closure bead 6 into the convergingthroat 18 of the sealinghead 15, with an intermediate and final reduced thickness relationship of the compressible gasket 4 illustrated in FIGS. 4 and 5, respectively. In this regard inner and outer peripheral side sealing between the compressed gasket 4 and the container will be observed at 20 and 21 (FIG. 5), respectively, as well as across the upper sealing surface 11 of the container.

It will be observed that the inwardly directedrib 7 located above theclosure skirt bead 6 has been illustrated in the permanently aflixed and secured unitary closure-container package of FIG. 5 as being of appreciably greater depth than in the initial and intermediate respectively. This increased depth of the depressed circumferential area identifying therib 7 in final permanently deformed condition, as Well as the permanent inwardly deformed and constricted condition of theclosure skirt bead 6 below the same (FIG. 5), has insured a permanently sealed and afiixed unitary container-closure package requiring subsequent peripheral rupture or distortion of the closure, as performed by a closure-removing tool, to permit removal of the closure 1 from its complementary underlying container. Preferably, the final circumferential inward disposition of theclosure skirt bead 6 remains out of contact with the container below its bead configuration 10 but in any event provides and maintains an inward circumferential contracting force and restraint of the inwardly depressed permanently deformedrib 7 in securing engagement against the undersideclosure engaging surface 13 of the container.

For purposes of illustration, the annular orcircumferential restraining bead 6, which provides the aforementioned restraint, has been shown as a single curl hollow bead. While it is by no means essential that thehead 6 be hollow, if this form is employed, it is preferred that it be curled inwardly, as illustrated, since it thereby reduces the likelihood of undesired bead uncurling during the sealing operation. Prevention of such uncurling may be further assured, as well as providing further stiffening of thebead 6, if that should be desired, by extending the curl of the hollow bead somewhat beyond the single curl that has been illustrated. It will be appreciated, however, that other forms of circumferential outwardly projecting configuration may be substituted for thebead 6 so long as they serve as a means of tool engagement for applying pressure simultaneously around the outwardly extending configuration represented by thebead 6 to facilitate permanent inward deformation of the securingrib 7 in the practice of the invention. It is only essential that bead 6, or its equivalent configuration, serves to provide effective tool engagement with the sealing head sleeve beveledthroat 18 in order to downwardly and inwardly permanently deform therib 7 thereabove into locking affixation against theunderside surface 13 of the container bead 10 in FIG. 5. The inwardly contracted condition of thebead 6, or its equivalent configuration, thereafter serves to maintain the permanent securement of the closure performed by the inwardly projectedrib 7.

Therib 7, while preferably circumferentially continuous, as illustrated, may, if desired, be segmented or peripherally interrupted providing the interruptions are not too numerous and the depressed ribs therebetween exceed the circumferential length of the interruptions. Accordingly, the word rib is used hereinabove and in the claims in the sense of both a continuous structure and an interrupted structure. The inwardly directedrib 7 has been shown for purposes of illustration prior to deepening in affixation of the closure as being of substantial depth, but in fact such rib, at least when continuous, may be quite shallow. It is requisite, however, that the inwardly directedrib 7 be located above the closure bead .6, and preferably adjoining theclosure head 6.

FIGS. 6 and 7 are representative of another embodiment of the invention responding to the method of application described above in conjunction with FIGS. 1 through 5. A unitized closure assembly is illustrated in FIGS. 6 and =7 as comprising ametallic shroud 24 encasing an elastomericbaby feeding nipple 25 of the general type described and illustrated in United States Letters Patent No. 3,335,890, granted Aug. 15, 1967.

Distinguishing from the first described embodiment of the invention (FIGS. 1-5), the lowerperipheral flange 26 of theelastomeric nipple 25 is engaged by a lower preferably configuratedflange 28 of theshroud 24 and the dependingskirt 30 therebelow is circumferentially inwardly ribbed at 32 above an outwardly projecting configuration orcircumferential terminal bead 34 of theshroud 24. Simultaneously inwardly and downwardly applied circumferential pressure exerted against the outwardly directed bead 34 (FIG. 6) by the upwardly convergingthroat entrance 36 of the outerreciprocal sleeve 38 of apressure applying head 40, following downwardly exerted pressure of thecentral pressure block 42 thereof, performs in the same manner described for FIGS. 4 and 5 to circumferentially contract theterminal head 34, of theshroud 24, and direct thecircumferential rib 32 above the same against the resistance of the outer face or side sealing surface of thecontainer bead 44 into underlying restraining engagement of theshroud 24 and its encasednipple 25 in unitary assembly on itsunderlying container 45, with thenipple flange 26 in compressed sealing attitude against the upwardly directed sealing surface of thecontainer head 44.

Authorized exposure of thenipple 25 is accomplished by fracture of theshroud 24 peripherally above thenipple flange 26, as described in the aforementioned United States letters Patent No. 3,335,890.

It will be appreciated that, unlike prior sealing systems which employed circumferential application, as by rolling or otherwise deforming the lower skirt portion of a closure or closure fitment under a container head, the method of this invention facilitates rapid simultaneous application and sealing aflixation of closures on containers, which is highly advantageous with respect to modern high speed unitary package production, since a single downward stroke of a sealing head effects a complete and secure unitary sealed container-closure package.

Wherever particular embodiments of the invention have been described for purposes of illustration, it will be apparent to those skilled in the art that numerous variations of the details may be made without departing from the appended claims. Exemplary of such variations are closure fitments and assemblies with containers that are provided with liner or gasket constructions affording side sealing with or without top sealing. Also the liner may have a top and skirt and be adapted to serve as a reclosure. In further exemplary manner, the closure fitments may be manually rupturable by means well known in the art such as an appropriately weakened tear strip having associated with it a grasping tab that may be integral with the fitment and tear strip or afiixed to the tear strip. In the latter case, the tab may be of lever type aflixed as by a rivet all in the manner now well known in regard to can ends.

What is claimed is:

1. In a method of securely afiixing to a container a closure fitment, the steps comprising:

(a) providing a container having an outwardly projecting closure fitment retaining bead adjacent an entrance mouth thereto,

(b) providing a closure fitment having a top portion and depending skirt with said skirt having an inwardly directed rib disposed above an outwardly disposed circumferential configuration,

(c) locating the closure fitment with the top portion overlying the container entrance mouth and the inwardly directed rib disposed adjacent the closure fitment retaining bead of the container, and

(d) applying pressure simultaneously around the outwardly extending circumferential configuration of said closure fitment skirt to effect permanent inward deformation and constriction thereof and permanent deformation of the initially inwardly directed rib further inwardly below the closure fitment retaining bead of the container into secure closure fitment afiixation on said container.

2. In a method of securely afiixing to a container a closure fitment, the steps comprising:

(a) providing a container having an outwardly projecting closure fitment retaining bead adjacent an entrance mouth thereto,

(b) providing a closure fitment having a top portion and circumferential depending skirt with said skirt having an inwardly directed circumferential rib disposed above a continuous outwardly disposed circumferential configuration,

(c) locating the closure fitment with the top portion overlying the container entrance mouth and the inwardly directed circumferential rib disposed adjacent the closure fitment retaining bead of the container,

(d) applying top pressure against the top portion of the closure fitment to effect sealing of the container entrance mouth, and

(e) applying pressure simultaneously around the continuous circumferential configuration of the closure fitment skirt below the inwardly directed rib thereof to effect permanent inward deformation and constriction of the continuous circumferential configuration of the closure fitment skirt and permanent deformation of the initially inwardly directed rib thereof further inwardly below the outwardly projecting closure fitment retaining head on the container into secure closure fitment afiixation on said container.

3. In a method of securely afiixing to a container a closure fitment including a sealing liner therewithin adapted to bear upon at least a top entrance wall of the container, the steps comprising:

(a) providing a rigid container having an outwardly projecting closure fitment retaining bead below the top entrance Wall of the container,

(b) providing a closure fitment having a top portion and depending skirt with said skirt having an inwardly directed rib disposed above an outwardly disposed circumferential configuration,

(c) locating the closure fitment with the top portion thereof overlying the container entrance mouth and liner therewithin and the inwardly directed rib disposed adjacent the closure fitment retaining bead of the container, and

(d) applying pressure simultaneously around the outwardly extending circumferential configuration of said closure fitment skirt to effect permanent inward deformation of the initially inwardly directed rib further inwardly below the closure fitment retaining bead of the container into secure sealing affixation of the closure fitment and liner therewithin on said container.

4. The method ofclaim 2 in which the initial and final inward permanent deformation of the inwardly directed rib of said closure fitment skirt is circumferentially continuous.

5. The method ofclaim 2 in which the initial transverse configuration of said circumferential configuration of the closure fitment skirt below the inwardly directed rib is in the form of an inwardly curled bead.

6. The method of claim 1 in which the initial transverse configuration of said circumferential configuration of the closure fitment skirt below the inwardly directed rib extends outwardly beyond the depending skirt thereabove.

7. The method ofclaim 2 in which the initial transverse configuration of said circumferential configuration of the closure fitment skirt below the inwardly directed rib extends outwardly beyond the depending skirt thereabove.

References Cited UNITED STATES PATENTS 2,358,889 9/1944 Thomas 5342 2,481,111 9/1949 Griswold 5342 X TRAVIS S. McGEHEE, Primary Examiner U.S. Cl. X.R. 21539

Images