US20050269283A1 - Container closure wirh sealing element and process and apparatus for making it - Google Patents
Container closure wirh sealing element and process and apparatus for making it Download PDFInfo
- Publication number
- US20050269283A1 US20050269283A1 US10/528,297 US52829705A US2005269283A1 US 20050269283 A1 US20050269283 A1 US 20050269283A1 US 52829705 A US52829705 A US 52829705A US 2005269283 A1 US2005269283 A1 US 2005269283A1
- Authority
- US
- United States
- Prior art keywords
- shaped element
- cup
- diaphragm
- rigid cup
- capsule
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Abandoned
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D—WORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D51/00—Making hollow objects
- B21D51/16—Making hollow objects characterised by the use of the objects
- B21D51/38—Making inlet or outlet arrangements of cans, tins, baths, bottles, or other vessels; Making can ends; Making closures
- B21D51/44—Making closures, e.g. caps
- B21D51/46—Placing sealings or sealing material
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D41/00—Caps, e.g. crown caps or crown seals, i.e. members having parts arranged for engagement with the external periphery of a neck or wall defining a pouring opening or discharge aperture; Protective cap-like covers for closure members, e.g. decorative covers of metal foil or paper
- B65D41/02—Caps or cap-like covers without lines of weakness, tearing strips, tags, or like opening or removal devices
- B65D41/04—Threaded or like caps or cap-like covers secured by rotation
- B65D41/0435—Threaded or like caps or cap-like covers secured by rotation with separate sealing elements
- B65D41/045—Discs
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D41/00—Caps, e.g. crown caps or crown seals, i.e. members having parts arranged for engagement with the external periphery of a neck or wall defining a pouring opening or discharge aperture; Protective cap-like covers for closure members, e.g. decorative covers of metal foil or paper
- B65D41/02—Caps or cap-like covers without lines of weakness, tearing strips, tags, or like opening or removal devices
- B65D41/04—Threaded or like caps or cap-like covers secured by rotation
- B65D41/0435—Threaded or like caps or cap-like covers secured by rotation with separate sealing elements
- B65D41/0457—Threaded or like caps or cap-like covers secured by rotation with separate sealing elements the sealing element covering or co-operating with the screw-thread or the like of a container neck
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D41/00—Caps, e.g. crown caps or crown seals, i.e. members having parts arranged for engagement with the external periphery of a neck or wall defining a pouring opening or discharge aperture; Protective cap-like covers for closure members, e.g. decorative covers of metal foil or paper
- B65D41/02—Caps or cap-like covers without lines of weakness, tearing strips, tags, or like opening or removal devices
- B65D41/20—Caps or cap-like covers with membranes, e.g. arranged to be pierced
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D41/00—Caps, e.g. crown caps or crown seals, i.e. members having parts arranged for engagement with the external periphery of a neck or wall defining a pouring opening or discharge aperture; Protective cap-like covers for closure members, e.g. decorative covers of metal foil or paper
- B65D41/02—Caps or cap-like covers without lines of weakness, tearing strips, tags, or like opening or removal devices
- B65D41/22—Caps or cap-like covers with elastic parts adapted to be stretched over the container
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D41/00—Caps, e.g. crown caps or crown seals, i.e. members having parts arranged for engagement with the external periphery of a neck or wall defining a pouring opening or discharge aperture; Protective cap-like covers for closure members, e.g. decorative covers of metal foil or paper
- B65D41/02—Caps or cap-like covers without lines of weakness, tearing strips, tags, or like opening or removal devices
- B65D41/26—Caps or cap-like covers serving as, or incorporating, drinking or measuring vessels
Definitions
- the invention relates to a device for sealing bottles or containers, comprising a cap element which has the shape of a closed bottom cup and which includes a diaphragm that is stretched perpendicular to the axis of the device, at a suitable distance from the closed bottom.
- the device further comprises a peripheral cylinder- or truncated cone-shaped wall which is designed to lie over the end portion of the container opening, which peripheral wall has means for coupling the wall, by deformation or screw fastening, to cooperating radial ridges or external threads of the outer end portion of the container opening, there being further provided optional seal means interposed between the cup-shaped element and the container opening edge.
- liquid and/or food containers are sealed either by means of screw caps or metal crown caps, or various types of metal or plastic disks, to be attached to the opening edges, or blind seals, which are held in position by other mechanical devices, like those mentioned above.
- caps such as thread-on metal caps, are made of cylindrical capsules to be fitted on the opening in such a manner as to lie over the outer surface of the container end portion at said opening, which end portion has external threads formed thereon, while the capsule is internally threaded by rolling it against said externally threaded end portion.
- Plastic caps already have internal threads for cooperation with external threads formed on the end portion of the container at the opening thereof.
- the sealing effect is obtained thanks to the cap material itself or to sealing disks or rings disposed on the inner face of the cap wall, which is positioned perpendicular to the opening axis.
- prior art caps typically have safety means for ensuring maintenance of the closed condition of the container, which act as tamperproof seals for indicating any package tampering attempt.
- These safety means typically consist of end rings extending from the open side of the capsule, which are integrated during manufacture of the cap.
- bridges to the cup-shaped element i.e. to the side wall thereof, are provided to form a tear-off weakened line, requiring a predetermined tearing force.
- end rings typically have internal radial ridges, which may have an annular or discontinuous shape, for engagement behind external radial ridges, such as annular shoulders or the like, formed in the end portions of the openings of containers, particularly bottles.
- tamperproof sealing is obtained by providing that an annular end portion of the side skirt wall of the cap has a tear-off portion, requiring a predetermined tearing force, which is integral with the cap, and that it can be elastically or non-elastically deformed to engage with a radial widened portion of the end of the outer wall of the container opening, which is situated upstream from the threaded portion of said end.
- the present invention has the object of providing a cap that, by simple and inexpensive arrangements, makes it possible to improve the sealing effect between the cap and the container, simplify the operations required for manufacturing the cap and fitting it on the container, and reduce the costs associated with the caps and with container closure operations/while improving the hygienic quality of the product.
- the invention has the object of obtaining a better tamperproof effect, by effectively preventing any attempt to defeat tamperproof means or to conceal container tampering effects.
- the invention achieves the above purposes by providing a cap as described hereinbefore, wherein the sealing means consist of a diaphragm 2 , that is subtended perpendicular to the axis of the cup-shaped element or capsule 3 , and completely covers the open side of said cup-shaped element 3 , said diaphragm 2 being made of an extensible plastic film.
- the extensible diaphragm 2 may be directly secured to the edge of the open side of the capsule 3 or be fitted into the capsule 3 in a retracted position relative to said edge of the opening, i.e. in an intermediate position between the latter and the closed side.
- the diaphragm may be secured in several different manners, i.e. either by gluing or by other chemical and/or physical adhesion arrangements.
- the diaphragm is directly attached to the edge that surrounds the opening of the cup-shaped element 3 i.e. the capsule.
- This edge may be advantageously widened to form an enlarged portion or flange, having a wider surface for adhesion to the diaphragm.
- the variant shown in FIG. 3 provides, alternatively or in combination with direct attachment to the edge that surrounds the opening of the cup-shaped element 3 , that the diaphragm 2 extends radially beyond said edge and forms an annular peripheral band for attachment to the end portion of the outer cylindrical wall of the cup shaped element 3 at the open end thereof.
- the diaphragm may be secured by gluing and/or other chemical and/or physical adhesion arrangements.
- the adhesion of the annular peripheral band of the diaphragm 2 against the outer surface of the cup-shaped element is caused by the natural resiliency of the previously stretched diaphragm 2 , i.e. by its ability to shrink thereon.
- the elastomer of the extensible diaphragm 2 has plastic properties, i.e. mutually sliding macromolecules, it is also capable of partly recovering its original structure after being stretched.
- a diaphragm 2 of the above type is laid over the opening of the capsule, i.e. the rigid cup-shaped element 3 , and is simultaneously stretched along the axis thereof, the volume of its material decreases in sections coaxial to the opening as these sections approach said container opening.
- a surface of revolution is thereby generated, whose generatrix is a paraboloid.
- the resilient vectors that are higher along the axes normal to vertical stretching, due to geometric and mechanical reasons, generate an annular shrinking effect parallel to the concentric cross sections of the surface of revolution, thereby causing the annular peripheral band of the diaphragm to crimp the outer edge.
- This shrinking or crimping effect may achieve very high pressure values, depending on the diaphragm thickness, and is always effective to ensure a tight sealing effect.
- the diaphragm 2 may be advantageously fitted on the capsule 3 by heating both the diaphragm and the rigid capsule.
- the diaphragm may be disposed on an intermediate plane between the closed side and the open side of the cup-shaped element 3 , there being still provided a peripheral band lying over the cylindrical side wall of the cup-shaped element 3 , this time on the inner side thereof.
- the diaphragm 2 i.e. the peripheral band thereof may be attached to the inner wall of the cup-shaped element 3 by adhesion, welding and/or any other chemical and/or physical process.
- the plastic elastomeric diaphragm 2 is fitted on a bushing 11 or a cylindrical ring nut, which is open on both end sides and, according to a first variant, as shown in FIG. 4 , has such an inside diameter that, when the diaphragm 2 is subtended over the opening of the cup shaped element 3 , with the annular peripheral band thereof overlapping to a certain extent the outer surface of the peripheral wall of the cup-shaped element 3 , the bushing or ring nut 11 lies, thanks to an elastic and/or shape fitting arrangement, over the cup-shaped element 3 , along a portion of its axial extension, at the end of the opening of the cup-shaped element 3 , thereby compressing the peripheral band of the diaphragm 2 against the outer surface of the wall of the cup-shaped element 3 .
- the ratio of the diameter of the cup-shaped element 3 to the diameter of the bushing or ring nut is such that the bushing 13 lies over the inner surface of the peripheral wall of the cup-shaped element 3 , along a certain axial depth, while compressing, by its outer surface, the annular peripheral band of the diaphragm 2 which overlaps the outer surface of the bushing or ring nut 11 against the inner surface of the cylindrical wall of the cup-shaped element 3 .
- the diaphragm may be also subsequently welded or simultaneously glued.
- the bushing 11 or 13 or ring nut may have lead-in surfaces, which may consist, if the bushing or ring nut is designed to be force fitted in the cup-shaped element, of a conical or rounded tapering of the insertion end.
- bent diaphragm 2 is advantageously embedded in the assembly of the cup shaped element and the bushing 11 or 13 or ring nut.
- the bushing 11 or ring nut and the cup-shaped element 3 are connected by means of radial ridges of one of the two elements, cooperating with radial recesses of the other part, which radial recesses may be provided originally or formed by deformation by the radial ridges of the other part, upon coupling thereof.
- FIGS. 17 and 18 Another simple and inexpensive embodiment, as shown in FIGS. 17 and 18 provides, in combination with the rigid cup-shaped element 3 , in lieu of a diaphragm 2 to be simply secured to the rigid cup-shaped element 3 with or without a ring nut 11 or bushing, an element 82 made of an elastomeric material, also having a cup shape, and which has appropriate thicker portions along its side walls, for contacting the inner surface of the side walls of the rigid cup-shaped element 3 , the rigid cup-shaped element 3 being axially deeper than the elastomeric cup-shaped element 82 .
- the extensible plastic element 82 which is preferably made by injection molding and has the shape of a cup, has a thicker and stiffer peripheral rim.
- the free edge of the extensible plastic cup-shaped element 82 has a stiffening flange or annular widened portion of any suitable shape, and made of the same material, whose inside diameter preferably corresponds to the inside diameter of the capsule 3 or cup-shaped element minus twice the thickness of the cylindrical portion of the element 82 , whereas the outside diameter is equal to or greater than the outside diameter of the capsule 3 or rigid cup-shaped element, and its thickness is sufficient to stiffen the edge.
- the invention provides a process for making such combinations of capsules and diaphragms 2 including the steps of:
- the diaphragm 2 is cut along a circular line, thereby forming a peripheral band which will overlap the truncated cone-shaped outer wall of the rigid cup-shaped element 3 thanks by shrinking thereon.
- the peripheral band of the diaphragm 2 shrinks around the truncated cone-shaped wall of the rigid cup-shaped element 3 , its diameter becoming smaller than the greatest diameter of said rigid cup shaped element 3 , due to the internal transverse resilient stresses generated by longitudinal stretching of the extensible plastic polymer.
- the device of the invention is fitted on the opening of the container 1 in a usual and known manner.
- the rigid cup-shaped element that forms the capsule is mounted by elastic force fitting of the cap onto the container, with an axial displacement relative to the axis of the closure device and/or the container opening, whereby the diaphragm 2 cannot be broken before or during coupling of the closure device.
- the natural resiliency of the extensible cup-shaped element 82 and of the container 1 allow mutual coupling of the cooperating threads of said two parts and of the engagement means of the tamperproof ring, thanks to the action of compression means.
- the opening of the bottle or any other container exerts a force on the diaphragm 2 or the extensible plastic cup-shaped element 82 thereby causing it to stretch thereon, in such a manner that the diaphragm adheres against the edge of the opening of the container 1 , and a sealing action is effect which is independent of the cap tightening force.
- the cap of the container 1 is opened, e.g. unscrewed, the diaphragm is subjected to shearing stresses and is broken, thereby permanently indicating the opened condition.
- the closure device of the invention allows to readily check if the container has been tampered.
- FIG. 1 is an axial sectional view of a cylindrical closure device according to a first embodiment of the invention
- FIG. 2 shows, like FIG. 1 , a variant of the embodiment that is shown therein;
- FIG. 3A is a view of an additional variant of the embodiment as shown in FIG. 1 ;
- FIG. 3B is yet another view of a different variant embodiment according to claim 40 .
- FIGS. 8-13 show different steps of a process for making a metal closure device according to the invention.
- FIGS. 14A and 14B show the method of fitting the device as shown in FIG. 2 on a bottle
- FIGS. 15A and 15B show, like FIGS. 14A-14B , a method of fitting the device as shown in FIG. 5 on a bottle;
- FIGS. 16A and 16B show, like FIGS. 14A-14B , a method of fitting the device as shown in FIG. 4 on a bottle;
- FIGS. 17 and 18 show the elements according to claim 13 and dependent claims, and the arrangement thereof;
- FIGS. 19 and 20 show the apparatus according to claim 33 for making a truncated cone-shaped metal 30 closure device in accordance with this invention in two different operating steps;
- FIG. 21 is a view of a container, associated to a drinking glass that mates the shape of its bottom;
- FIGS. 22-24 show a different embodiment of the closure device according to the invention, in which the rigid cup-shaped element is coupled to a drinking glass-like extension that covers the tamperproof sealing ring, and a drinking glass that mates the bottom of the container;
- FIG. 25 is a sectional view of the perforated cylinder as it holds by vacuum a diaphragm disk to be fitted in the capsule;
- FIG. 26A shows a cylinder divided into two sectors, that may be spread apart to fit a diaphragm disk in the capsule;
- FIG. 26B shows a cross-section of the cylinder illustrated in FIG. 26A
- a closure device is composed of a composite capsule, consisting of a rigid cylindrical cup-shaped element 3 and an extensible plastic diaphragm 2 that is subtended over the whole opening of the cup-shaped element 3 , i.e. secured to the delimiting edge of the open side of the cup-shaped element 3 .
- said edge of the side wall of the cup-shaped element 3 surrounding the opening is arranged to be radially widened in the form of a flange.
- the diaphragm 2 may be secured to the rigid cup-shaped element 3 in any manner, e.g. by gluing, welding or other chemical and/or physical adhesion arrangements.
- FIG. 3A shows a variant of the embodiment of FIG. 1 , in which the peripheral flange for attachment of the diaphragm 2 has an outwardly divergent conical profile with slightly arched surfaces for diaphragm adhesion.
- Such embodiment is advantageous for the elastic force fitting arrangement, which is possible thanks to the natural resilience of the diaphragm 2 , when said diaphragm is fitted on the opening of the rigid cup shaped element 3 by pressing the latter against the diaphragm and subsequently cutting the diaphragm 2 along a circular line surrounding the rigid cup-shaped element 3 at a certain radial distance therefrom, as shown in the process described in claim 33 .
- the peripheral band of the diaphragm 2 is subjected to an elastic shrinking effect, which causes the peripheral flange to shrink against the conical flange. If this band has a sufficient width, the outermost radial portion may reach the annular groove and form, by shrinking, a sort of collar around the rigid cup-shaped element 3 .
- the diaphragm is embedded within the rigid cup-shaped element 3 .
- This embodiment is advantageous in that the stretched embedded diaphragm is less exposed to direct contact and hence to contamination and mechanical damages.
- the extensible diaphragm has a peripheral flange, but the latter is designed to be secured in a position in which it overlaps the inner side of the peripheral walls of the cylindrical rigid cup-shaped element 3 .
- FIGS. 4 and 5 show two alternative embodiments wherein the diaphragm 2 is secured in an intermediate position between the open side and the closed side of the rigid cup-shaped element 3 .
- the rigid cup-shaped element 3 is provided in combination with a ring nut or a bushing 11 , 13 , which is designed to engage in the rigid cup-shaped element 3 , e.g. by crimping or elastic force fitting.
- the ring nut or bushing 11 has an inside diameter that is substantially equal to or slightly greater than the outside diameter of the cup-shaped element 3 and is designed to lie coaxially over the cylindrical wall thereof, at least over a portion having a predetermined axial extension, i.e. a partial or full extension of the cylindrical wall of the rigid cup-shaped element 3 .
- the diaphragm 2 is subtended over the opening of the rigid cup-shaped element 3 and a peripheral flange thereof overlaps the outer side of the peripheral cylindrical wall of said cup-shaped element 3 .
- the diaphragm is mechanically retained between the outer side of the cylindrical wall of the rigid cup-shaped element 3 and the ring nut or bushing 11 wherein said rigid cup-shaped element 3 is fitted.
- the rigid cup-shaped element 3 and the bushing or ring nut 11 are made from metal, the two parts may be coupled by crimping or by radially pressing the bushing or ring nut 11 against the cylindrical wall of the rigid cup-shaped element 3 and this may occur before or during application of the closure device to the container, which application includes rolling of the closing device on the opening of the container to form, for instance, the outside threads and the mutual engagement tabs between the closure device and ridges, annular shoulders and/or recesses of the container opening, as is currently used for application of metal capsules to close containers, such as bottles or the like.
- the two parts may be connected by elastic and/or snap fitting and/or by welding and/or gluing or other chemical and/or physical adhesion arrangements, possibly combined with a previous snap or elastic force fitting coupling.
- the free edge of the opening of the rigid cup-shaped element 3 may be slightly rounded or may slightly shrink, in a conical profile, to facilitate insertion thereof in the bushing or ring nut 11 .
- FIG. 5 discloses an inverse situation, in which the bushing 13 is designed to be inserted in the rigid cup-shaped element 3 , the diameters of said two parts being appropriately sized therefor.
- the diaphragm 2 is subtended over the end of the bushing 13 to be disposed inside the rigid cup-shaped element 3 .
- the diaphragm is attached to the bushing, and the bushing or ring nut 11 is coupled to the rigid cup-shaped element 3 substantially as described regarding the previous embodiment of FIG. 4 .
- FIG. 6 shows a variant embodiment in which a disk-like seal 4 or the like is provided in addition to the diaphragm 2 of the embodiment of FIG. 2 .
- the closed wall of the rigid cup-shaped element 3 has an aperture 9 which is outwardly closed by a transparent wall 8 , sealed to said aperture 9 , for instance glued on the inner side of the corresponding wall of the rigid cup-shaped element 3 , and may even consist of a sealing ring.
- FIG. 3B shows a variant of the embodiment of FIG. 2 , wherein, along a predetermined axial portion of the cylindrical wall of the rigid cup-shaped element 3 or possibly of the inner ring nut 11 , the cylindrical peripheral wall of the rigid cup-shaped element 3 is discontinuous, i.e. formed by wall portions separated by notches 12 . Nevertheless, the invention shall not be intended to be limited to this condition, which only embodies a process for facilitating the application of the diaphragm 2 .
- FIG. 14 or 15 or 16 show an exemplified method of fitting the closure device to a bottle 1 .
- the principle of using a diaphragm to seal the surfaces of containers 1 is substantially the same for any embodiment described herein.
- this device When the closure device is fitted on the opening of the container 1 , this device is axially pushed over the opening of the container 1 , which exerts pressure on the diaphragm and extends it. In these conditions, the diaphragm is stretched. While the elastomer that forms the diaphragm has plastic properties, i.e. mutually sliding macromolecules, it is also capable of partly recovering its original structure, by partial resilience, after being stretched. Particularly, when a diaphragm 2 made of such a polymer is laid over an opening of a container 1 and is simultaneously stretched axially along the opening, for example by fitting the composite capsule therein, the volume of its material decreases in sections coaxial to the opening, as these sections approach the opening of the container 1 . A surface of revolution is thereby generated, whose generatrix is a paraboloid.
- the resilient features that are higher along the axes perpendicular to vertical stretching, due to geometric and mechanical reasons, cause an annular shrinking effect parallel to the concentric cross sections of the surface of revolution, thereby causing the diaphragm 2 to crimp the outer edge of the opening.
- This shrinking or crimping effect may achieve very high pressure values, depending on the thickness of the diaphragm 2 , but is always effective to ensure a tight sealing effect.
- the diaphragm 2 may be advantageously fitted on the rigid capsule 3 by heating the diaphragm 2 and the rigid capsule 3 and the opening of the container 1 .
- heating causes changes in the technical properties of plastic materials to facilitate adhesion thereof.
- the composite capsule of this invention may be alternatively used with an elastic seal 4 .
- This seal 4 is typically positioned, for hygienic and sealing purposes, between the cap 3 and the diaphragm 2 . It is also typically fitted directly inside the capsule 3 .
- the rigid cup-shaped element 3 also known as capsule, consists of a screw cap, including a tamperproof sealing ring, which is connected to the rest of the cup-shaped element 3 , i.e. the actual screw cap by a tear-off line, requiring a predetermined breaking force.
- the cup-shaped element is made from metal, its threads, the predetermined tear-off line of the sealing ring 36 and any further deformations of the rigid cup-shaped element 3 required to ensure coupling thereof to the opening of the bottle 1 are obtained in a well-known manner, thanks to a shaping process which consists in outside rolling of the cup-shaped element against the opening of the bottle 1 , the latter having ridges that form the external threads 101 and annular shoulders 35 for axially retaining the sealing ring, that is designated by numeral 36 .
- the closure device is fitted on the opening and pushed against it until the edge of the opening of the container 1 abuts against the corresponding wall of the rigid cup-shaped element 3 , which thereby deforms the diaphragm 2 to obtain the above described effects.
- FIGS. 14A, 15A , and 16 A show the condition prior to pushing the device against the opening of the bottle 1
- FIGS. 14B, 15B , and 16 B show the removal of the screw cap part, in which the predetermined tear-off line 33 and the bridges that retained the tamperproof ring are visible.
- the diaphragm 2 is shown in an unbroken condition, even though it is necessarily torn off by the unscrewing operation. Therefore, any attempt the unscrew the closure device without breaking the tamperproof ring 32 , e.g. by using tools for allowing the ring 32 to pass over the ridges 101 , causes the diaphragm 2 subtended over the opening of the bottle 1 to be forcibly broken, to faultlessly indicate that the bottle was opened.
- FIGS. 16A-16B show the above with reference to the variants of FIGS. 4 and 5 .
- the diaphragm 2 operates in exactly the same manner, and a few details of the tamperproof ring 32 are only changed, without affecting the features and the operating modes thereof.
- a first process is shown in FIG. 26 and may be possibly also implemented for rigid cup-shaped elements 3 made of plastic, the process providing that a diaphragm disk 2 , whose diameter is greater than the inside diameter of the capsule 3 is first made to coaxially adhere by vacuum 20 to the closed, suitably perforated bottom of a hollow cylinder 21 whose inside diameter is smaller than the inside diameter of the capsule or rigid cup shaped element 3 to be later forced into the capsule 3 and caused to adhere thereto, by the 90° bent portion of the diaphragm disk 2 , which exceeds the diameter of the cylinder 21 , along a cylindrical portion, next to the free edge of the rigid cup-shaped element 3 .
- a low taper truncated cone may be provided instead of a cylinder, with the bottom having a smaller diameter.
- FIG. 26A Another apparatus for implementing the above process, as shown in FIG. 26A , consists of a modular cylinder, i.e. composed of several parts, whose outside diameter is smaller than the inside diameter of the rigid cup-shaped element 3 , said modular cylinder being longitudinally divided into at least two sectors 27 which have a 180° angular width, are perforated and equal, have a closed bottom and may be transversely spread apart by pneumatic cam actuators, e.g. by pistons 28 and cylinders 28 bis appropriately disposed between the sectors 27 or by inflatable bags, whereas they may be drawn closer by suitable springs 29 , e.g. annular springs that outwardly and inwardly surround the sectors 27 of the modular cylinder.
- suitable springs 29 e.g. annular springs that outwardly and inwardly surround the sectors 27 of the modular cylinder.
- Each hollow sector 27 of the cylinder is maintained under vacuum 20 and has at least one hole in its closed bottom.
- Mechanical drive means accomplish the operations of grasping the diaphragm disk 2 , introducing it in the capsule 3 and then pressing the portion thereof that exceeds the diameter of the cylinder 21 against the inner cylindrical portion of the capsule 3 , providing for adhesion.
- FIGS. 8 to 13 A variant of the process for fitting the diaphragm 2 is shown in FIGS. 8 to 13 .
- the open side of the rigid cup-shaped element 3 is first flared by a conical wedge 14 and later flattened by a flat head cylinder 15 , whereas the rigid cup-shaped element 3 is accommodated in a correspondingly shaped housing 16 , and a diaphragm disk 2 is laid on the plane of the portion that is bent at 90° with respect to the cylinder axis, in any suitable manner.
- the flattened edge, with the diaphragm 2 fitted thereon is brought back to its original position by a first bend back step, and subsequently straightened by rolling it by appropriate rollers 17 and counter rollers 18 and/or by a coaxial compression of conical sectors 19 , which are connected to form a sort of mandrel, while the capsule 3 is firmly held in its seat or receptacle 16 by applying vacuum thereto.
- the steps of flaring, flattening, fitting the diaphragm disk 2 and subsequently restoring the position of the bent portion may be also carried out on the rectangular or trapezoidal surfaces delimited by the cuts 12 , as shown in FIG. 3B , on which the diaphragm 2 adheres.
- flaring or 90° flattening of the free edge of the rigid cup-shaped element 3 may be obtained by spin molding the rigid cup-shaped element 3 from ductile metal.
- a metal pellet is introduced in an appropriate openable mold and forced by spinning to spread through the whole space in the mold, the above mentioned straightening steps being carried out later on.
- FIGS. 17 and 18 show a variant embodiment, relating to claim 12 and other claims dependent therefrom, wherein the diaphragm 2 is replaced by a cup-shaped element 82 made of an extensible material, which has an enlarged peripheral edge at its opening, and is coupled to the rigid cup-shaped element 3 by being force fitted therein or by force fitting the enlarged portions against the peripheral wall of the rigid cup-shaped element 3 , thereby obtaining a deformation 84 of said peripheral wall, i.e. the formation of recesses for engagement of said thickened edge 85 , shaped by the extensible plastic cup-shaped element 82 .
- a cup-shaped element 82 made of an extensible material, which has an enlarged peripheral edge at its opening, and is coupled to the rigid cup-shaped element 3 by being force fitted therein or by force fitting the enlarged portions against the peripheral wall of the rigid cup-shaped element 3 , thereby obtaining a deformation 84 of said peripheral wall, i.e. the formation of recesses for engagement of said thickened edge 85
- the diaphragm of the cup-shaped element 82 is formed by its closed side and its peripheral wall whereas, as described above, the thickened edge is used for coupling with the rigid cup-shaped element 3 thanks to a mutual complementary shaping which forms cooperating snap fitting means.
- the diaphragm 2 is replaced by an extensible plastic element 82 , preferably made by injection molding, and having the shape of a cup with a thicker or stiffer peripheral rim, i.e. having the shape of a closed bottom hollow cylinder with an appropriate thickness, whereas its free edge has a flange or an annular stiffening enlarged portion, of any shape and made of the same material, the inside diameter of such flange or enlarged portion being preferably equal to the inside diameter of the rigid cup-shaped element 3 , minus twice the thickness of the cylindrical portion of the element, whereas the outside diameter is equal to or greater than the outside diameter of the rigid cup-shaped element 3 and its thickness is sufficient to stiffen the rim.
- an extensible plastic element 82 preferably made by injection molding, and having the shape of a cup with a thicker or stiffer peripheral rim, i.e. having the shape of a closed bottom hollow cylinder with an appropriate thickness, whereas its free edge has a flange or an annular stiffening enlarged portion
- Such extensible plastic cup-shaped element 82 is fitted in the rigid cup-shaped element 3 , in such a manner that the thickened rim thereof comes in contact with the free edge of the rigid cup-shaped element 3 , whereas its cylindrical wall and its closed bottom act as a thin diaphragm to be stretched as the device is fitted on the opening of the container 1 .
- the outer closed cylindrical portion of this element 82 is shorter than the inner cylindrical portion of the rigid cup-shaped element 3 and is in contact therewith.
- the extensible plastic cup-shaped element 82 may be integrated with the rigid cup-shaped element 3 , either by the simple elastic response of its stiffened rim against the free edge of the capsule 3 or by gluing or melting a part or all of its surface in contact with the rigid cup-shaped element 3 .
- the extensible plastic element 82 may further have the shape of a closed-bottom truncated cone, which is closed on the smaller diameter side, and is preferably provided in combination with rigid truncated cone-shaped cup-like elements 8 .
- the stiffened, enlarged rim 83 and/or the flange may form a tamperproof seal to be preferably held in the special annular housing of the rigid cup-shaped element 3 or in any other appropriate manner.
- FIGS. 19 and 20 show a process and an apparatus for fabricating composite capsules according to the invention, which have a truncated-cone shape and are combined with a sealing film or diaphragm 2 .
- the process for making a truncated-cone shaped metal composite capsule, adhering to the rigid capsule by shrinking thereon includes the steps of:
- the edge cut from the diaphragm shrinks around the outer surface of the free edge of the rigid cup shaped element 3 , its diameter becoming smaller than the greatest diameter of the truncated cone-shaped rigid cup-shaped element 3 , and is finally locked in position by crimping.
- the composite capsule which essentially consists of a rigid cup-shaped element 3 , wherein the extensible diaphragm 2 is subtended perpendicular to the axis of the rigid cup-shaped element 3 , and whose plane is at a suitable distance between the open side and the bottom of said rigid cup-shaped element 3 , must fulfill a few particular conditions.
- the first condition is that it shall be able to be used in experimental or currently available capping apparatus.
- the second condition is that the diaphragm 2 may be properly stretched on the opening edge of bottles 1 or similar containers by a single operation, i.e. by pressing the rigid cup-shaped element 3 against the opening of the bottle 1 or similar container, and that, after this stretching step, when the opening of the container 1 comes in contact with the bottom of the rigid cup-shaped element 3 , the latter may be crimped or molten, if it is made of plastic, by using conventional apparatus, on the opening of the container 1 .
- This operation allows achieving a strong and tight elastic closure.
- the third condition is that such composite capsules shall be easily sterilizable both for storage and immediately before capping.
- this composite capsule shall also have particular geometric and mechanical properties, the most important whereof is the distance of the pre-applied diaphragm 2 from the opening edge of the rigid cup-shaped element 3 , depending on the quality and thickness of the extensible plastic polymer as well as on the shape and quality of the metal or plastic material that forms the rigid element 3 .
- the materials that form the capsule must be capable of firm adhesion by crimping, by other elastic arrangements, by heating or melting or by screwing thereof to the opening of the container.
- the invention also provides processes to make preassembled capsules out of a ductile metal, capable of being crimped.
- the cap described herein may have additional seal or tamperproof means which consist of an extension 30 of the wall of the cap, i.e. the rigid cup-shaped element 3 toward the bottom of the container 1 , i.e. toward the opposite side of the container 1 , which extension starts from the portion of the rigid cup-shaped element 3 adjacent to the predetermined tear-off or breaking line 33 ( FIGS. 14B-16B ), which separates the cap part from the sealing ring 36 , and extends beyond said sealing ring to cover the whole of it.
- additional seal or tamperproof means consist of an extension 30 of the wall of the cap, i.e. the rigid cup-shaped element 3 toward the bottom of the container 1 , i.e. toward the opposite side of the container 1 , which extension starts from the portion of the rigid cup-shaped element 3 adjacent to the predetermined tear-off or breaking line 33 ( FIGS. 14B-16B ), which separates the cap part from the sealing ring 36 , and extends beyond said sealing ring to cover the whole of it.
- the extension is provided as a conical widened part, designed to lie over the whole seal ring, which is held between two continuous or discontinuous annular shoulders 35 , or designed to lie over a continuous or discontinuous annular shoulder 36 on the rear side with respect to the cap removal direction, which shoulder/s are formed on the neck of the container or bottle 1 at a predetermined distance from the opening thereof.
- the conical extension is made of a rigid material and effectively prevents the sealing ring from being deformed by any tool, in an attempt to pass it over the annular shoulder 35 , by removing the whole capsule without separating the sealing ring 36 from the cap part, to conceal tampering.
- the conical extension of the rigid cup-shaped element 3 which forms the cap part extends beyond the sealing ring 36 toward the bottom of the bottle or container, thereby forming a sort of drinking glass of any shape whatever, whose wall lies over the peripheral skirt wall of the bottle or container at least in the free edge portion of the extension, or at least along an end strip next to said free edge, or substantially all along the wall of said extension.
- Different alternatives may be provided depending on the shape of the bottle or container.
- said extension may be made of one piece with the cap part of the rigid cup-shaped element 3 or is glued or welded thereon whereby said cap part of the rigid cup-shaped element 3 forms the drinking glass bottom.
- the glass has such an axial length and such a shape as to ensure that the free edge of the glass and a portion adjacent thereto are placed in such a position relative to the bottle 1 or the container, that the label 32 overlaps said free edge and said portion to protect the free edge of the drinking glass and a peripheral portion adjacent thereto, while preventing contaminating particles from penetrating the glass.
- FIGS. 22, 23 , and 24 show different embodiments of this arrangement.
- the bottom 34 of the glass also forms the cap bottom, transverse to the axis of the bottle, said cap element and the glass 30 being made from one piece.
- said wall transverse to the axis of the bottle 1 is thicker and has a diameter that is greater than that of the cap bottom. This provides a solid support base for the drinking glass portion formed by the extension 30 , and further facilitates unscrewing and removal of the cap from the bottle 1 .
- the glass-like extension 30 has a seat 130 in which the cap part of the rigid cup-shaped element 3 is secured by gluing and/or welding and/or any other chemical and/or physical method.
- the seat whose shape is complementary to the outer shape of the rigid cup-shaped element 3 , is formed inside the outer peripheral wall of the glass-like extension 30 .
- FIG. 24 shows a different construction in which the glass-like extension is still a glass separated from the cap part, but the seat for attachment of the glass-like element 30 consists of an appropriately sized narrowed portion of the peripheral wall of the glass-shaped element 30 , whereas an outer hood- or cup-shaped closure element 39 is provided, which closes the peripheral wall of the glass element 30 at its end situated on the closed side of the cap part 3 .
- the drinking glass has a shape that substantially corresponds to that of the end of the bottle 1 or container, and is associated to the bottom thereof, said drinking glass 31 having such a size and/or shape as to be readily removably secured to said bottom end of the bottle by elastic force fitting.
- the label 32 is arranged to overlap the free edge of the glass with the same effect as in the previous embodiment.
- This embodiment may be provided in combination with the previous embodiment, whereby a bottle may be associated with at least two drinking glasses, one of which is also used to protect the sealing ring 36 .
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- Engineering & Computer Science (AREA)
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- Closures For Containers (AREA)
Abstract
A composite capsule and variants thereof for closing and sealing bottles and similar containers, which is essentially composed of two elements: a rigid capsule (2) and an extensible plastic diaphragm (2), integral therewith. Various processes for making the composite capsule and variants thereof. Said composite capsule and the variants thereof may be fitted in a single step on to bottles (1) and similar containers, by using conventional sealing apparatus. The capsule may also have an axial extension in the shape of a drinking-glass (30) whose specific function is supplemented by a tamperproof seal function.
Description
- The present application claims priority to Swiss patent application 2002 1198/02 filed on Jul. 8, 2002, and to PCT application PCT/EP2003/0502285 filed on Jul. 3, 2003.
- 1. Field of the Invention
- The invention relates to a device for sealing bottles or containers, comprising a cap element which has the shape of a closed bottom cup and which includes a diaphragm that is stretched perpendicular to the axis of the device, at a suitable distance from the closed bottom. The device further comprises a peripheral cylinder- or truncated cone-shaped wall which is designed to lie over the end portion of the container opening, which peripheral wall has means for coupling the wall, by deformation or screw fastening, to cooperating radial ridges or external threads of the outer end portion of the container opening, there being further provided optional seal means interposed between the cup-shaped element and the container opening edge.
- 2. Description of Related Art
- In the prior art, several types of caps are known, which are fitted on containers in several different manners.
- According to prior art specific techniques, liquid and/or food containers are sealed either by means of screw caps or metal crown caps, or various types of metal or plastic disks, to be attached to the opening edges, or blind seals, which are held in position by other mechanical devices, like those mentioned above.
- Other types of caps, such as thread-on metal caps, are made of cylindrical capsules to be fitted on the opening in such a manner as to lie over the outer surface of the container end portion at said opening, which end portion has external threads formed thereon, while the capsule is internally threaded by rolling it against said externally threaded end portion.
- In jars or the like, other types of cylindrical cup-shaped caps are known, which have inner radial ridges on the free edge of their peripheral wall, which ridges project to form internal thread segments cooperating with external threads formed on the outer surface of the jar wall end portion associated with the opening of the jar.
- Plastic caps already have internal threads for cooperation with external threads formed on the end portion of the container at the opening thereof.
- In all these embodiments, the sealing effect is obtained thanks to the cap material itself or to sealing disks or rings disposed on the inner face of the cap wall, which is positioned perpendicular to the opening axis.
- Furthermore, prior art caps typically have safety means for ensuring maintenance of the closed condition of the container, which act as tamperproof seals for indicating any package tampering attempt.
- These safety means typically consist of end rings extending from the open side of the capsule, which are integrated during manufacture of the cap. In metal caps, bridges to the cup-shaped element, i.e. to the side wall thereof, are provided to form a tear-off weakened line, requiring a predetermined tearing force.
- These end rings typically have internal radial ridges, which may have an annular or discontinuous shape, for engagement behind external radial ridges, such as annular shoulders or the like, formed in the end portions of the openings of containers, particularly bottles.
- Both functions of prior art caps may cause drawbacks. First, the use of sealing disks or rings requires a certain number of manual operations for fitting the sealing disk or ring onto the cap, which is a relatively expensive and complex procedure. Also, the use of seals between the cup-shaped element and the container opening does not ensure sterility inside the cap and generates problems in the sterilization of both seals and cup-shaped elements.
- Second, tamperproof sealing is obtained by providing that an annular end portion of the side skirt wall of the cap has a tear-off portion, requiring a predetermined tearing force, which is integral with the cap, and that it can be elastically or non-elastically deformed to engage with a radial widened portion of the end of the outer wall of the container opening, which is situated upstream from the threaded portion of said end.
- The present invention has the object of providing a cap that, by simple and inexpensive arrangements, makes it possible to improve the sealing effect between the cap and the container, simplify the operations required for manufacturing the cap and fitting it on the container, and reduce the costs associated with the caps and with container closure operations/while improving the hygienic quality of the product.
- Further, the invention has the object of obtaining a better tamperproof effect, by effectively preventing any attempt to defeat tamperproof means or to conceal container tampering effects.
- All the above with the purpose of reducing cap fabrication costs as compared with prior art caps, and without requiring any change in capping processes currently used in bottling and packaging lines.
- The invention achieves the above purposes by providing a cap as described hereinbefore, wherein the sealing means consist of a
diaphragm 2, that is subtended perpendicular to the axis of the cup-shaped element orcapsule 3, and completely covers the open side of said cup-shaped element 3, saiddiaphragm 2 being made of an extensible plastic film. - The
extensible diaphragm 2 may be directly secured to the edge of the open side of thecapsule 3 or be fitted into thecapsule 3 in a retracted position relative to said edge of the opening, i.e. in an intermediate position between the latter and the closed side. - The diaphragm may be secured in several different manners, i.e. either by gluing or by other chemical and/or physical adhesion arrangements.
- In accordance with a first embodiment, as shown in
FIG. 1 , the diaphragm is directly attached to the edge that surrounds the opening of the cup-shaped element 3 i.e. the capsule. This edge may be advantageously widened to form an enlarged portion or flange, having a wider surface for adhesion to the diaphragm. - The variant shown in
FIG. 3 provides, alternatively or in combination with direct attachment to the edge that surrounds the opening of the cup-shaped element 3, that thediaphragm 2 extends radially beyond said edge and forms an annular peripheral band for attachment to the end portion of the outer cylindrical wall of the cup shapedelement 3 at the open end thereof. Here again, the diaphragm may be secured by gluing and/or other chemical and/or physical adhesion arrangements. - Also, according to this variant, the adhesion of the annular peripheral band of the
diaphragm 2 against the outer surface of the cup-shaped element is caused by the natural resiliency of the previously stretcheddiaphragm 2, i.e. by its ability to shrink thereon. In fact, while the elastomer of theextensible diaphragm 2 has plastic properties, i.e. mutually sliding macromolecules, it is also capable of partly recovering its original structure after being stretched. Particularly, when adiaphragm 2 of the above type is laid over the opening of the capsule, i.e. the rigid cup-shaped element 3, and is simultaneously stretched along the axis thereof, the volume of its material decreases in sections coaxial to the opening as these sections approach said container opening. A surface of revolution is thereby generated, whose generatrix is a paraboloid. Once the longitudinal stresses in the plastic material are released, the resilient vectors, that are higher along the axes normal to vertical stretching, due to geometric and mechanical reasons, generate an annular shrinking effect parallel to the concentric cross sections of the surface of revolution, thereby causing the annular peripheral band of the diaphragm to crimp the outer edge. This shrinking or crimping effect may achieve very high pressure values, depending on the diaphragm thickness, and is always effective to ensure a tight sealing effect. - At the same time, the
diaphragm 2 may be advantageously fitted on thecapsule 3 by heating both the diaphragm and the rigid capsule. - In another embodiment shown in
FIG. 2 , the diaphragm may be disposed on an intermediate plane between the closed side and the open side of the cup-shaped element 3, there being still provided a peripheral band lying over the cylindrical side wall of the cup-shaped element 3, this time on the inner side thereof. - Here again, the
diaphragm 2, i.e. the peripheral band thereof may be attached to the inner wall of the cup-shaped element 3 by adhesion, welding and/or any other chemical and/or physical process. - According to an alternative embodiment, the plastic
elastomeric diaphragm 2 is fitted on a bushing 11 or a cylindrical ring nut, which is open on both end sides and, according to a first variant, as shown inFIG. 4 , has such an inside diameter that, when thediaphragm 2 is subtended over the opening of the cupshaped element 3, with the annular peripheral band thereof overlapping to a certain extent the outer surface of the peripheral wall of the cup-shaped element 3, the bushing orring nut 11 lies, thanks to an elastic and/or shape fitting arrangement, over the cup-shaped element 3, along a portion of its axial extension, at the end of the opening of the cup-shaped element 3, thereby compressing the peripheral band of thediaphragm 2 against the outer surface of the wall of the cup-shaped element 3. - In a similar additional variant, as shown in
FIG. 5 , the ratio of the diameter of the cup-shaped element 3 to the diameter of the bushing or ring nut is such that thebushing 13 lies over the inner surface of the peripheral wall of the cup-shaped element 3, along a certain axial depth, while compressing, by its outer surface, the annular peripheral band of thediaphragm 2 which overlaps the outer surface of the bushing orring nut 11 against the inner surface of the cylindrical wall of the cup-shaped element 3. - Obviously, the diaphragm may be also subsequently welded or simultaneously glued.
- The bushing 11 or 13 or ring nut may have lead-in surfaces, which may consist, if the bushing or ring nut is designed to be force fitted in the cup-shaped element, of a conical or rounded tapering of the insertion end.
- In both cases, the
bent diaphragm 2 is advantageously embedded in the assembly of the cup shaped element and thebushing - According to another variant, the bushing 11 or ring nut and the cup-
shaped element 3 are connected by means of radial ridges of one of the two elements, cooperating with radial recesses of the other part, which radial recesses may be provided originally or formed by deformation by the radial ridges of the other part, upon coupling thereof. - Another simple and inexpensive embodiment, as shown in
FIGS. 17 and 18 provides, in combination with the rigid cup-shaped element 3, in lieu of adiaphragm 2 to be simply secured to the rigid cup-shaped element 3 with or without aring nut 11 or bushing, anelement 82 made of an elastomeric material, also having a cup shape, and which has appropriate thicker portions along its side walls, for contacting the inner surface of the side walls of the rigid cup-shaped element 3, the rigid cup-shaped element 3 being axially deeper than the elastomeric cup-shaped element 82. - The extensible
plastic element 82, which is preferably made by injection molding and has the shape of a cup, has a thicker and stiffer peripheral rim. - Similarly to the variant described with reference to the
bushing 11 or ring nut for securing thediaphragm 2 against the rigid cup-shaped element 3, the free edge of the extensible plastic cup-shaped element 82 has a stiffening flange or annular widened portion of any suitable shape, and made of the same material, whose inside diameter preferably corresponds to the inside diameter of thecapsule 3 or cup-shaped element minus twice the thickness of the cylindrical portion of theelement 82, whereas the outside diameter is equal to or greater than the outside diameter of thecapsule 3 or rigid cup-shaped element, and its thickness is sufficient to stiffen the edge. - The above embodiments are described with reference to either cylindrical or substantially cylindrical and conical or substantially conical rigid cup-shaped elements or capsules.
- The above variant embodiments are also provided for both plastic and
metal capsules 3 or rigid cup-shaped elements. - As will be more apparent hereafter, some of the embodiments find a more appropriate application for truncated cone-
shaped capsules 3 or rigid cup-shaped elements and others to cylindrical rigid cup-shaped elements 3. - Referring to a first process embodiment, illustrated in
FIGS. 19 and 20 , when this is provided in combination with caps formed by rigid cup-shaped elements 3, i.e. rigid metal capsules, the invention provides a process for making such combinations of capsules anddiaphragms 2 including the steps of: -
- 1. Grasping and firmly holding the rigid cup-
shaped element 3 from the side opposite to the open side to be closed by thediaphragm 2, preferably by using anelectromagnet 37 which comes in contact with the rigid cup-shaped element 3 from the outside of the closed side thereof; - 2. Pushing the rigid cup-
shaped element 3 into a cylindrical hole having an appropriate diameter, along the axis of said rigid cup-shaped element 3 and/or of the cylindrical hole, an extensibleplastic diaphragm 2 having been previously subtended over the opening of said hole, in any suitable manner; - 3. Stretching the diaphragm, through the interposition of the rigid cup-
shaped element 3, by penetration thereof in the cylindrical hole or by passage through the cylindrical hole, so that the surface of the diaphragm, due to its internal transverse stresses, will take the shape of a paraboloid of revolution, against an appropriately positionedannular blade 38, whichannular blade 38 is situated at a certain distance from the hole opening and behind it with respect to the direction in which the rigid cup-shaped element 3 is pushed onto thediaphragm 2, whichannular blade 38 is overhanging and integral with the inside of the hole, whose diameter is greater than the outside diameter of the rigid cup-shaped element 3 and obviously smaller than that of the cylindrical hole.
- 1. Grasping and firmly holding the rigid cup-
- Hence, the
diaphragm 2 is cut along a circular line, thereby forming a peripheral band which will overlap the truncated cone-shaped outer wall of the rigid cup-shaped element 3 thanks by shrinking thereon. - Therefore, the peripheral band of the
diaphragm 2 shrinks around the truncated cone-shaped wall of the rigid cup-shaped element 3, its diameter becoming smaller than the greatest diameter of said rigid cup shapedelement 3, due to the internal transverse resilient stresses generated by longitudinal stretching of the extensible plastic polymer. - Once more, this can be obtained in combination with rigid cup-
shaped elements 3 having either a cylindrical or a truncated cone shape. - The processes for fabricating the
combination diaphragm 2 and rigid cup-shapedelement 3 form the subject of the appended claims and are described in detail in the following description of the preferred embodiments. - Regarding the methods of fitting the closure device according to the present invention, after combination with the
extensible diaphragm 2, either in the form of adiaphragm 2 previously fitted on the rigid cup-shapedelement 3, or in the form of an extensible plastic cup-shapedelement 82, the device of the invention is fitted on the opening of thecontainer 1 in a usual and known manner. - In thread-on closure devices, particularly for plastic bottles, the rigid cup-shaped element that forms the capsule is mounted by elastic force fitting of the cap onto the container, with an axial displacement relative to the axis of the closure device and/or the container opening, whereby the
diaphragm 2 cannot be broken before or during coupling of the closure device. In this axial force fitting step, the natural resiliency of the extensible cup-shapedelement 82 and of thecontainer 1 allow mutual coupling of the cooperating threads of said two parts and of the engagement means of the tamperproof ring, thanks to the action of compression means. - When the closure device is fitted on the container 1 (with well-known methods used for non-composite capsules, unlike the capsule of this invention) the opening of the bottle or any other container, exerts a force on the
diaphragm 2 or the extensible plastic cup-shapedelement 82 thereby causing it to stretch thereon, in such a manner that the diaphragm adheres against the edge of the opening of thecontainer 1, and a sealing action is effect which is independent of the cap tightening force. When the cap of thecontainer 1 is opened, e.g. unscrewed, the diaphragm is subjected to shearing stresses and is broken, thereby permanently indicating the opened condition. Thus, the closure device of the invention allows to readily check if the container has been tampered. In fact, even though the use of well-known techniques for disengagement of the tamperproof ring from theridges 35 that hold it against the opening of thebottle 1 allow to prevent the separation thereof from the cap, no final opening of the container might occur without damaging the diaphragm subtended over the container opening, for instance for fraudulent attempts to replace the product contained therein. - Further improvements and variants of the invention will form the subject of the appended claims.
- The characteristics of the invention will appear more clearly from the following description of a non limiting embodiment, which is shown in the annexed drawings, in which:
-
FIG. 1 is an axial sectional view of a cylindrical closure device according to a first embodiment of the invention; -
FIG. 2 shows, likeFIG. 1 , a variant of the embodiment that is shown therein; -
FIG. 3A is a view of an additional variant of the embodiment as shown inFIG. 1 ; -
FIG. 3B is yet another view of a different variant embodiment according to claim 40. -
FIGS. 8-13 show different steps of a process for making a metal closure device according to the invention; -
FIGS. 14A and 14B show the method of fitting the device as shown inFIG. 2 on a bottle; -
FIGS. 15A and 15B show, likeFIGS. 14A-14B , a method of fitting the device as shown inFIG. 5 on a bottle; -
FIGS. 16A and 16B show, likeFIGS. 14A-14B , a method of fitting the device as shown inFIG. 4 on a bottle; -
FIGS. 17 and 18 show the elements according toclaim 13 and dependent claims, and the arrangement thereof; -
FIGS. 19 and 20 show the apparatus according to claim 33 for making a truncated cone-shapedmetal 30 closure device in accordance with this invention in two different operating steps; -
FIG. 21 is a view of a container, associated to a drinking glass that mates the shape of its bottom; -
FIGS. 22-24 show a different embodiment of the closure device according to the invention, in which the rigid cup-shaped element is coupled to a drinking glass-like extension that covers the tamperproof sealing ring, and a drinking glass that mates the bottom of the container; -
FIG. 25 is a sectional view of the perforated cylinder as it holds by vacuum a diaphragm disk to be fitted in the capsule; -
FIG. 26A shows a cylinder divided into two sectors, that may be spread apart to fit a diaphragm disk in the capsule; -
FIG. 26B shows a cross-section of the cylinder illustrated inFIG. 26A - Referring to
FIG. 1 , a closure device is composed of a composite capsule, consisting of a rigid cylindrical cup-shapedelement 3 and an extensibleplastic diaphragm 2 that is subtended over the whole opening of the cup-shapedelement 3, i.e. secured to the delimiting edge of the open side of the cup-shapedelement 3. - Advantageously, in order to provide a larger adhesion surface, said edge of the side wall of the cup-shaped
element 3 surrounding the opening is arranged to be radially widened in the form of a flange. Thediaphragm 2 may be secured to the rigid cup-shapedelement 3 in any manner, e.g. by gluing, welding or other chemical and/or physical adhesion arrangements. -
FIG. 3A shows a variant of the embodiment ofFIG. 1 , in which the peripheral flange for attachment of thediaphragm 2 has an outwardly divergent conical profile with slightly arched surfaces for diaphragm adhesion. - Such embodiment is advantageous for the elastic force fitting arrangement, which is possible thanks to the natural resilience of the
diaphragm 2, when said diaphragm is fitted on the opening of the rigid cup shapedelement 3 by pressing the latter against the diaphragm and subsequently cutting thediaphragm 2 along a circular line surrounding the rigid cup-shapedelement 3 at a certain radial distance therefrom, as shown in the process described inclaim 33. - Thanks to the use of an extensible material, after the cutting step, the peripheral band of the
diaphragm 2 is subjected to an elastic shrinking effect, which causes the peripheral flange to shrink against the conical flange. If this band has a sufficient width, the outermost radial portion may reach the annular groove and form, by shrinking, a sort of collar around the rigid cup-shapedelement 3. - However, in the embodiment of
FIG. 2 , the diaphragm is embedded within the rigid cup-shapedelement 3. This embodiment is advantageous in that the stretched embedded diaphragm is less exposed to direct contact and hence to contamination and mechanical damages. - Once again, the extensible diaphragm has a peripheral flange, but the latter is designed to be secured in a position in which it overlaps the inner side of the peripheral walls of the cylindrical rigid cup-shaped
element 3. - Like in the previous example of
FIG. 1 , the diaphragm may be attached by gluing, welding or any other well-known chemical and/or physical adhesion arrangement.FIGS. 4 and 5 show two alternative embodiments wherein thediaphragm 2 is secured in an intermediate position between the open side and the closed side of the rigid cup-shapedelement 3. - In both cases, the rigid cup-shaped
element 3 is provided in combination with a ring nut or abushing element 3, e.g. by crimping or elastic force fitting. - In the embodiment of
FIG. 4 , the ring nut orbushing 11 has an inside diameter that is substantially equal to or slightly greater than the outside diameter of the cup-shapedelement 3 and is designed to lie coaxially over the cylindrical wall thereof, at least over a portion having a predetermined axial extension, i.e. a partial or full extension of the cylindrical wall of the rigid cup-shapedelement 3. Thediaphragm 2 is subtended over the opening of the rigid cup-shapedelement 3 and a peripheral flange thereof overlaps the outer side of the peripheral cylindrical wall of said cup-shapedelement 3. Therefore, the diaphragm is mechanically retained between the outer side of the cylindrical wall of the rigid cup-shapedelement 3 and the ring nut orbushing 11 wherein said rigid cup-shapedelement 3 is fitted. If the rigid cup-shapedelement 3 and the bushing orring nut 11 are made from metal, the two parts may be coupled by crimping or by radially pressing the bushing orring nut 11 against the cylindrical wall of the rigid cup-shapedelement 3 and this may occur before or during application of the closure device to the container, which application includes rolling of the closing device on the opening of the container to form, for instance, the outside threads and the mutual engagement tabs between the closure device and ridges, annular shoulders and/or recesses of the container opening, as is currently used for application of metal capsules to close containers, such as bottles or the like. - If the rigid cup-shaped
element 3 and the ring nut orbushing element 3 may be slightly rounded or may slightly shrink, in a conical profile, to facilitate insertion thereof in the bushing orring nut 11. - The embodiment of
FIG. 5 discloses an inverse situation, in which thebushing 13 is designed to be inserted in the rigid cup-shapedelement 3, the diameters of said two parts being appropriately sized therefor. In this case, thediaphragm 2 is subtended over the end of thebushing 13 to be disposed inside the rigid cup-shapedelement 3. The diaphragm is attached to the bushing, and the bushing orring nut 11 is coupled to the rigid cup-shapedelement 3 substantially as described regarding the previous embodiment ofFIG. 4 . -
FIG. 6 shows a variant embodiment in which a disk-like seal 4 or the like is provided in addition to thediaphragm 2 of the embodiment ofFIG. 2 . - In
FIG. 7 , the closed wall of the rigid cup-shapedelement 3 has an aperture 9 which is outwardly closed by a transparent wall 8, sealed to said aperture 9, for instance glued on the inner side of the corresponding wall of the rigid cup-shapedelement 3, and may even consist of a sealing ring. -
FIG. 3B shows a variant of the embodiment ofFIG. 2 , wherein, along a predetermined axial portion of the cylindrical wall of the rigid cup-shapedelement 3 or possibly of theinner ring nut 11, the cylindrical peripheral wall of the rigid cup-shapedelement 3 is discontinuous, i.e. formed by wall portions separated bynotches 12. Nevertheless, the invention shall not be intended to be limited to this condition, which only embodies a process for facilitating the application of thediaphragm 2. -
FIG. 14 or 15 or 16 show an exemplified method of fitting the closure device to abottle 1. The principle of using a diaphragm to seal the surfaces ofcontainers 1 is substantially the same for any embodiment described herein. - When the closure device is fitted on the opening of the
container 1, this device is axially pushed over the opening of thecontainer 1, which exerts pressure on the diaphragm and extends it. In these conditions, the diaphragm is stretched. While the elastomer that forms the diaphragm has plastic properties, i.e. mutually sliding macromolecules, it is also capable of partly recovering its original structure, by partial resilience, after being stretched. Particularly, when adiaphragm 2 made of such a polymer is laid over an opening of acontainer 1 and is simultaneously stretched axially along the opening, for example by fitting the composite capsule therein, the volume of its material decreases in sections coaxial to the opening, as these sections approach the opening of thecontainer 1. A surface of revolution is thereby generated, whose generatrix is a paraboloid. - As soon as the longitudinal stresses in the plastic material are released, the resilient features, that are higher along the axes perpendicular to vertical stretching, due to geometric and mechanical reasons, cause an annular shrinking effect parallel to the concentric cross sections of the surface of revolution, thereby causing the
diaphragm 2 to crimp the outer edge of the opening. This shrinking or crimping effect may achieve very high pressure values, depending on the thickness of thediaphragm 2, but is always effective to ensure a tight sealing effect. - At the same time, the
diaphragm 2 may be advantageously fitted on therigid capsule 3 by heating thediaphragm 2 and therigid capsule 3 and the opening of thecontainer 1. In fact, heating causes changes in the technical properties of plastic materials to facilitate adhesion thereof. - The composite capsule of this invention may be alternatively used with an
elastic seal 4. Thisseal 4 is typically positioned, for hygienic and sealing purposes, between thecap 3 and thediaphragm 2. It is also typically fitted directly inside thecapsule 3. - In
FIGS. 14, 15 and particularly 16, the rigid cup-shapedelement 3, also known as capsule, consists of a screw cap, including a tamperproof sealing ring, which is connected to the rest of the cup-shapedelement 3, i.e. the actual screw cap by a tear-off line, requiring a predetermined breaking force. - Turning now to
FIGS. 22-24 , if the cup-shaped element is made from metal, its threads, the predetermined tear-off line of the sealingring 36 and any further deformations of the rigid cup-shapedelement 3 required to ensure coupling thereof to the opening of thebottle 1 are obtained in a well-known manner, thanks to a shaping process which consists in outside rolling of the cup-shaped element against the opening of thebottle 1, the latter having ridges that form theexternal threads 101 andannular shoulders 35 for axially retaining the sealing ring, that is designated bynumeral 36. - Then, the closure device is fitted on the opening and pushed against it until the edge of the opening of the
container 1 abuts against the corresponding wall of the rigid cup-shapedelement 3, which thereby deforms thediaphragm 2 to obtain the above described effects. -
FIGS. 14A, 15A , and 16A show the condition prior to pushing the device against the opening of thebottle 1, whereasFIGS. 14B, 15B , and 16B show the removal of the screw cap part, in which the predetermined tear-off line 33 and the bridges that retained the tamperproof ring are visible. - The
diaphragm 2 is shown in an unbroken condition, even though it is necessarily torn off by the unscrewing operation. Therefore, any attempt the unscrew the closure device without breaking thetamperproof ring 32, e.g. by using tools for allowing thering 32 to pass over theridges 101, causes thediaphragm 2 subtended over the opening of thebottle 1 to be forcibly broken, to faultlessly indicate that the bottle was opened. - In this connection, advantages may be obtained from providing a transparent wall 8 like in the variant of
FIG. 7 . By this arrangement, any damage to thediaphragm 2 is readily visible, without opening the container. -
FIGS. 16A-16B show the above with reference to the variants ofFIGS. 4 and 5 . - In this case, the
diaphragm 2 operates in exactly the same manner, and a few details of thetamperproof ring 32 are only changed, without affecting the features and the operating modes thereof. - Several different processes are provided for making a device as shown in
FIG. 2 . A first process is shown inFIG. 26 and may be possibly also implemented for rigid cup-shapedelements 3 made of plastic, the process providing that adiaphragm disk 2, whose diameter is greater than the inside diameter of thecapsule 3 is first made to coaxially adhere byvacuum 20 to the closed, suitably perforated bottom of ahollow cylinder 21 whose inside diameter is smaller than the inside diameter of the capsule or rigid cup shapedelement 3 to be later forced into thecapsule 3 and caused to adhere thereto, by the 90° bent portion of thediaphragm disk 2, which exceeds the diameter of thecylinder 21, along a cylindrical portion, next to the free edge of the rigid cup-shapedelement 3. A low taper truncated cone may be provided instead of a cylinder, with the bottom having a smaller diameter. - Another apparatus for implementing the above process, as shown in
FIG. 26A , consists of a modular cylinder, i.e. composed of several parts, whose outside diameter is smaller than the inside diameter of the rigid cup-shapedelement 3, said modular cylinder being longitudinally divided into at least twosectors 27 which have a 180° angular width, are perforated and equal, have a closed bottom and may be transversely spread apart by pneumatic cam actuators, e.g. bypistons 28 andcylinders 28 bis appropriately disposed between thesectors 27 or by inflatable bags, whereas they may be drawn closer bysuitable springs 29, e.g. annular springs that outwardly and inwardly surround thesectors 27 of the modular cylinder. Eachhollow sector 27 of the cylinder is maintained undervacuum 20 and has at least one hole in its closed bottom. Mechanical drive means accomplish the operations of grasping thediaphragm disk 2, introducing it in thecapsule 3 and then pressing the portion thereof that exceeds the diameter of thecylinder 21 against the inner cylindrical portion of thecapsule 3, providing for adhesion. - A variant of the process for fitting the
diaphragm 2 is shown in FIGS. 8 to 13. Here, the open side of the rigid cup-shapedelement 3 is first flared by aconical wedge 14 and later flattened by aflat head cylinder 15, whereas the rigid cup-shapedelement 3 is accommodated in a correspondingly shapedhousing 16, and adiaphragm disk 2 is laid on the plane of the portion that is bent at 90° with respect to the cylinder axis, in any suitable manner. Then, the flattened edge, with thediaphragm 2 fitted thereon is brought back to its original position by a first bend back step, and subsequently straightened by rolling it by appropriate rollers 17 andcounter rollers 18 and/or by a coaxial compression ofconical sectors 19, which are connected to form a sort of mandrel, while thecapsule 3 is firmly held in its seat orreceptacle 16 by applying vacuum thereto. - The steps of flaring, flattening, fitting the
diaphragm disk 2 and subsequently restoring the position of the bent portion may be also carried out on the rectangular or trapezoidal surfaces delimited by thecuts 12, as shown inFIG. 3B , on which thediaphragm 2 adheres. - Also, flaring or 90° flattening of the free edge of the rigid cup-shaped
element 3 may be obtained by spin molding the rigid cup-shapedelement 3 from ductile metal. Here a metal pellet is introduced in an appropriate openable mold and forced by spinning to spread through the whole space in the mold, the above mentioned straightening steps being carried out later on. - However, referring to
FIGS. 17 and 18 , the latter show a variant embodiment, relating to claim 12 and other claims dependent therefrom, wherein thediaphragm 2 is replaced by a cup-shapedelement 82 made of an extensible material, which has an enlarged peripheral edge at its opening, and is coupled to the rigid cup-shapedelement 3 by being force fitted therein or by force fitting the enlarged portions against the peripheral wall of the rigid cup-shapedelement 3, thereby obtaining adeformation 84 of said peripheral wall, i.e. the formation of recesses for engagement of said thickened edge 85, shaped by the extensible plastic cup-shapedelement 82. - The diaphragm of the cup-shaped
element 82 is formed by its closed side and its peripheral wall whereas, as described above, the thickened edge is used for coupling with the rigid cup-shapedelement 3 thanks to a mutual complementary shaping which forms cooperating snap fitting means. - When considering the rigid cup-shaped
element 3 in greater detail, thediaphragm 2 is replaced by an extensibleplastic element 82, preferably made by injection molding, and having the shape of a cup with a thicker or stiffer peripheral rim, i.e. having the shape of a closed bottom hollow cylinder with an appropriate thickness, whereas its free edge has a flange or an annular stiffening enlarged portion, of any shape and made of the same material, the inside diameter of such flange or enlarged portion being preferably equal to the inside diameter of the rigid cup-shapedelement 3, minus twice the thickness of the cylindrical portion of the element, whereas the outside diameter is equal to or greater than the outside diameter of the rigid cup-shapedelement 3 and its thickness is sufficient to stiffen the rim. - Such extensible plastic cup-shaped
element 82 is fitted in the rigid cup-shapedelement 3, in such a manner that the thickened rim thereof comes in contact with the free edge of the rigid cup-shapedelement 3, whereas its cylindrical wall and its closed bottom act as a thin diaphragm to be stretched as the device is fitted on the opening of thecontainer 1. The outer closed cylindrical portion of thiselement 82 is shorter than the inner cylindrical portion of the rigid cup-shapedelement 3 and is in contact therewith. - The extensible plastic cup-shaped
element 82 may be integrated with the rigid cup-shapedelement 3, either by the simple elastic response of its stiffened rim against the free edge of thecapsule 3 or by gluing or melting a part or all of its surface in contact with the rigid cup-shapedelement 3. The extensibleplastic element 82 may further have the shape of a closed-bottom truncated cone, which is closed on the smaller diameter side, and is preferably provided in combination with rigid truncated cone-shaped cup-like elements 8. - The stiffened,
enlarged rim 83 and/or the flange may form a tamperproof seal to be preferably held in the special annular housing of the rigid cup-shapedelement 3 or in any other appropriate manner. -
FIGS. 19 and 20 show a process and an apparatus for fabricating composite capsules according to the invention, which have a truncated-cone shape and are combined with a sealing film ordiaphragm 2. - The process for making a truncated-cone shaped metal composite capsule, adhering to the rigid capsule by shrinking thereon, includes the steps of:
-
- 1. Firmly holding the rigid cup-shaped
element 3 from the side opposite to the open side to be closed by thediaphragm 2, preferably by using anelectromagnet 37 which comes in contact with the rigid cup-shapedelement 3 from the outside of the closed side thereof; - 2. Introducing the rigid cup-shaped
element 3 in a cylindrical hole having a suitable diameter along the axis of said rigid cup-shapedelement 3 and/or of the cylindrical hole; - 3. Subtending an extensible
plastic diaphragm 2 over the opening of said hole, and retaining it therein, in any suitable manner; - 4. Stretching the
diaphragm 2 with the help of the rigid cup-shapedelement 3 upon penetration thereof in the cylindrical hole, which diaphragm will take, due to its internal transverse stresses, the shape of a paraboloid of revolution; - 5. After pushing the rigid cup-shaped
element 3 onto thediaphragm 2, cutting thediaphragm 2 all around the rigid cup-shapedelement 3, for instance by using a sharpannular blade 38, placed at a certain distance from the hole and behind it. Saidannular blade 38 projects coaxially and integrally into the cylindrical hole and its diameter is greater than the outside diameter of the rigid cup-shapedelement 3 and obviously smaller than that of the cylindrical hole.
- 1. Firmly holding the rigid cup-shaped
- Due to the transverse resilient stresses caused by longitudinal stretching of the extensible plastic polymer, the edge cut from the diaphragm shrinks around the outer surface of the free edge of the rigid cup shaped
element 3, its diameter becoming smaller than the greatest diameter of the truncated cone-shaped rigid cup-shapedelement 3, and is finally locked in position by crimping. - The information below applies to all caps in accordance with this specification:
- The composite capsule, which essentially consists of a rigid cup-shaped
element 3, wherein theextensible diaphragm 2 is subtended perpendicular to the axis of the rigid cup-shapedelement 3, and whose plane is at a suitable distance between the open side and the bottom of said rigid cup-shapedelement 3, must fulfill a few particular conditions. - The first condition is that it shall be able to be used in experimental or currently available capping apparatus.
- The second condition is that the
diaphragm 2 may be properly stretched on the opening edge ofbottles 1 or similar containers by a single operation, i.e. by pressing the rigid cup-shapedelement 3 against the opening of thebottle 1 or similar container, and that, after this stretching step, when the opening of thecontainer 1 comes in contact with the bottom of the rigid cup-shapedelement 3, the latter may be crimped or molten, if it is made of plastic, by using conventional apparatus, on the opening of thecontainer 1. This operation allows achieving a strong and tight elastic closure. - The third condition is that such composite capsules shall be easily sterilizable both for storage and immediately before capping.
- Further, this composite capsule shall also have particular geometric and mechanical properties, the most important whereof is the distance of the
pre-applied diaphragm 2 from the opening edge of the rigid cup-shapedelement 3, depending on the quality and thickness of the extensible plastic polymer as well as on the shape and quality of the metal or plastic material that forms therigid element 3. - These basic properties are:
-
- 1. The
diaphragm 2 must be situated at such a distance from the opening of the rigid cup-shapedelement 3 that the composite capsule may loosely cap the opening of thecontainer 1 to be sealed. - 2. The distance between the
diaphragm 2 and the bottom of the rigid cup-shapedelement 3 must be such that, as said rigid cup-shapedelement 3 is pressed against the opening of thecontainer 1, thediaphragm 2 is sufficiently stretched to firmly adhere against the edge of thecontainer 1, but not to such an extent as to be torn thereby.
- 1. The
- The materials that form the capsule must be capable of firm adhesion by crimping, by other elastic arrangements, by heating or melting or by screwing thereof to the opening of the container.
- In order to obtain these characteristics, the invention also provides processes to make preassembled capsules out of a ductile metal, capable of being crimped.
- According to a variant of the invention as shown in
FIGS. 22-24 , the cap described herein may have additional seal or tamperproof means which consist of anextension 30 of the wall of the cap, i.e. the rigid cup-shapedelement 3 toward the bottom of thecontainer 1, i.e. toward the opposite side of thecontainer 1, which extension starts from the portion of the rigid cup-shapedelement 3 adjacent to the predetermined tear-off or breaking line 33 (FIGS. 14B-16B ), which separates the cap part from the sealingring 36, and extends beyond said sealing ring to cover the whole of it. In this case, the extension is provided as a conical widened part, designed to lie over the whole seal ring, which is held between two continuous or discontinuousannular shoulders 35, or designed to lie over a continuous or discontinuousannular shoulder 36 on the rear side with respect to the cap removal direction, which shoulder/s are formed on the neck of the container orbottle 1 at a predetermined distance from the opening thereof. - The conical extension is made of a rigid material and effectively prevents the sealing ring from being deformed by any tool, in an attempt to pass it over the
annular shoulder 35, by removing the whole capsule without separating the sealingring 36 from the cap part, to conceal tampering. - Advantageously, as is shown in
FIGS. 21-24 , the conical extension of the rigid cup-shapedelement 3 which forms the cap part extends beyond the sealingring 36 toward the bottom of the bottle or container, thereby forming a sort of drinking glass of any shape whatever, whose wall lies over the peripheral skirt wall of the bottle or container at least in the free edge portion of the extension, or at least along an end strip next to said free edge, or substantially all along the wall of said extension. Different alternatives may be provided depending on the shape of the bottle or container. - Advantageously, said extension may be made of one piece with the cap part of the rigid cup-shaped
element 3 or is glued or welded thereon whereby said cap part of the rigid cup-shapedelement 3 forms the drinking glass bottom. - Advantageously, in order to ensure that the glass is sufficiently hygienic, the glass has such an axial length and such a shape as to ensure that the free edge of the glass and a portion adjacent thereto are placed in such a position relative to the
bottle 1 or the container, that thelabel 32 overlaps said free edge and said portion to protect the free edge of the drinking glass and a peripheral portion adjacent thereto, while preventing contaminating particles from penetrating the glass. -
FIGS. 22, 23 , and 24 show different embodiments of this arrangement. - In
FIG. 22 , the bottom 34 of the glass also forms the cap bottom, transverse to the axis of the bottle, said cap element and theglass 30 being made from one piece. It shall be noted that said wall transverse to the axis of thebottle 1 is thicker and has a diameter that is greater than that of the cap bottom. This provides a solid support base for the drinking glass portion formed by theextension 30, and further facilitates unscrewing and removal of the cap from thebottle 1. - In the embodiment of
FIG. 23 , the glass-like extension 30 has aseat 130 in which the cap part of the rigid cup-shapedelement 3 is secured by gluing and/or welding and/or any other chemical and/or physical method. In this case the seat, whose shape is complementary to the outer shape of the rigid cup-shapedelement 3, is formed inside the outer peripheral wall of the glass-like extension 30. - The variant of
FIG. 24 shows a different construction in which the glass-like extension is still a glass separated from the cap part, but the seat for attachment of the glass-like element 30 consists of an appropriately sized narrowed portion of the peripheral wall of the glass-shapedelement 30, whereas an outer hood- or cup-shaped closure element 39 is provided, which closes the peripheral wall of theglass element 30 at its end situated on the closed side of thecap part 3. - According to a variant embodiment as shown in
FIG. 21 the drinking glass has a shape that substantially corresponds to that of the end of thebottle 1 or container, and is associated to the bottom thereof, said drinkingglass 31 having such a size and/or shape as to be readily removably secured to said bottom end of the bottle by elastic force fitting. Here again, thelabel 32 is arranged to overlap the free edge of the glass with the same effect as in the previous embodiment. - This embodiment may be provided in combination with the previous embodiment, whereby a bottle may be associated with at least two drinking glasses, one of which is also used to protect the sealing
ring 36.
Claims (41)
1. A device for sealing or tightly closing bottles (1) or similar containers, characterized in that it has at least two elements that are stably held together, i.e. a rigid capsule (3), having a hollow revolution shape, that is a cup shape, resulting from a hollow cylinder or truncated cone with a closed bottom, which is made from metal, plastic or other material having similar properties, and an extensible plastic diaphragm (2), which is permanently subtended over the rim of the open side of the rigid capsule (3), or preferably subtended perpendicular to the axis of the cylinder or truncated cone in any suitable manner in a plane situated between the closed bottom and the opening of the capsule (3). As the device is fitted on the opening of the container (1), said diaphragm is stretched and caused to tightly adhere against the edge of the opening. Moreover, the cylinder or truncated cone-shaped wall has means (101) for coupling it, by deformation or screw fastening, to cooperating radial ridges or external threads of the end portion of the opening of the container (1), and seal means (4) interposed between the closed bottom of the capsule and the edge of the opening of the container (1).
2. A device as claimed in claim 1 , characterized in that the diaphragm may be secured to the rigid cup-shaped element, i.e. the capsule (3), in several different manners, i.e. either by gluing or by other chemical and/or physical adhesion arrangements.
3. A device as claimed in claim 1 or 2 , characterized in that the diaphragm (2) may be secured to the rigid cup-shaped element, i.e. the capsule (3), by directly attaching it to the edge that surrounds the opening of the cup-shaped element, i.e. the capsule (3).
4. A device as claimed in claim 3 , characterized in that the edge that surrounds the opening of the rigid cup-shaped element, i.e. the capsule (3) may be widened in such a manner as to form an enlarged and/or thickened portion or a flange, which provides a wider surface for adhesion of the diaphragm (2).
5. A device as claimed in one or more of the preceding claims, characterized in that the diaphragm (2) extends radially beyond said edge and forms an annular peripheral surface which is designed to adhere against the end portion of the outer cylindrical or truncated cone-shaped wall of the cup-shaped element, i.e. the capsule (3), adjacent to the open end thereof.
6. A device as claimed in claim 5 , characterized in that the annular peripheral band of the diaphragm (2) tightly adheres against the outer surface of the cup-shaped element, i.e. the capsule (3), thanks to the natural resiliency properties of the diaphragm (2).
7. A device as claimed in one or more of the preceding claims, characterized in that the plastic elastomeric diaphragm (2) is positioned on a bushing (11) or a cylindrical ring nut, which is open on both end sides and has such an inside diameter that, when the diaphragm (2) is subtended over the opening of the cup-shaped element, i.e. the rigid capsule (3), with the annular peripheral band of said diaphragm (2) overlapping to a certain extent the outer surface of the cylindrical wall of the cup-shaped element, or the capsule (3), the bushing (11) or ring nut lies, thanks to an elastic and/or shape fitting arrangement, over the rigid cup-shaped element (3), along a portion of its axial extension, from the end of the opening of the cup-shaped element (3), thereby compressing the peripheral band of the diaphragm (2) against the outer surface of the cylindrical wall of the rigid cup-shaped element (3).
8. A device as claimed in one or more of the preceding claims, characterized in that the ratio of the diameter of the rigid cup-shaped element (3) to the diameter of the bushing (13) or ring nut is such that the bushing (13) penetrates the inner surface of the peripheral wall of the cup-like element (3), along a certain axial depth, thereby compressing the annular peripheral band of the diaphragm (2) which overlaps the outer surface of the bushing (13) or ring nut against the inner surface of the cylindrical wall of the rigid cup-shaped element (3).
9. A device as claimed in claim 7 or 8 , characterized in that subsequent welding or simultaneous gluing may be also provided.
10. A device as claimed in one or more of claims 7 to 9 , characterized in that the bushing (11) or (13) or ring nut may have lead-in surfaces, which may consist, if the bushing or ring nut is designed to be force fitted in the cup-shaped element (3) of a conical or rounded tapering of the insertion end.
11. A device as claimed in one or more of claims 7 to 10 , characterized in that the diaphragm (2) is embedded in the assembly of the rigid cup-shaped element (3) and the bushing (13) or ring nut.
12. A device as claimed in one or more of the preceding claims, characterized in that the bushing (11) or ring nut and the rigid cup-shaped element (3) are connected by means of radial ridges of one of the two elements, cooperating with radial recesses of the other element, which radial recesses may be provided originally or formed by deformation by the radial ridges of the other part, upon coupling thereof.
13. A device as claimed in one or more of the preceding claims, characterized in that, in combination with the rigid cup-shaped element (3), an element (82) is provided, which is made of an elastomeric material, and also has a cup shape, and whose cylindrical wall is designed to come in contact with the inner surface of the cylindrical or truncated-cone shaped wall of the rigid cup-shaped element (3), said rigid cup-shaped element (3) being axially deeper than the elastomeric cup-shaped element (82) which is to act as an extensible diaphragm.
14. A device as claimed in claim 13 , characterized in that the extensible plastic element (82), preferably made by injection molding, and having the shape of a cup with a peripheral rim, i.e. a thicker and/or stiffer ring, is shaped like a hollow closed-bottom body of revolution having an appropriate thickness.
15. A device as claimed in one or more of the preceding claims, characterized in that the free edge of the extensible plastic cup-shaped element (82) has a stiffening flange or annular widened portion (85) of any suitable shape, and made of the same material, whereas the inside diameter of said flange or enlarged portion preferably corresponds to the inside diameter of the rigid cup-shaped element (3) minus twice the thickness of the cylindrical portion of the element (82), and the outside diameter is equal to or greater than the outside diameter of the outer cylindrical wall of the or rigid cup-shaped element (3), and its thickness is sufficient to stiffen the edge.
16. A device as claimed in one or more of the preceding claims, characterized in that the rigid cup-shaped element (3) has a cylindrical or substantially cylindrical or a conical or substantially conical shape and may have an annular seat (84) for the stiffened rim (83).
17. A device as claimed in one or more of the preceding claims, characterized in that the rigid cup-shaped element is made of plastic or metal or combinations of said materials.
18. A device as claimed in one or more of the preceding claims, characterized in that the rigid cup-shaped element (3) has a sealing element (4), such as a disk or the like, between the diaphragm (2) and the closed bottom.
19. A device as claimed in claim 18 , characterized in that the sealing element is pre-fitted in the inner bottom of the rigid cup-shaped element (3).
20. A device as claimed in one or more of the preceding claims, characterized in that the rigid cup-shaped element (3) has at least one aperture (9) formed in its closed bottom, which is tightly closed by a transparent wall (8) and extends over a portion or the whole of the surface of said bottom.
21. A device as claimed in claim 20 , characterized in that the transparent wall element (8) for tightly closing the aperture (9) is also used as a seal and is secured to the rigid cup-shaped element (3) by gluing or welding or other chemical and/or physical adhesion arrangements.
22. A device as claimed in one or more of the preceding claims, characterized in that the rigid cup-shaped element (3) has a sealing ring attached to its open edge, which is held to the rest of the rigid cup-shaped element (3) by a tear-off line, requiring a predetermined breaking force, and provides snap engagement by elastic force fitting thereof on the container or by shrinking thereof on the opening of the container (1) by cooperating with at least one retaining shoulder situated at a predetermined axial distance from the edge of the opening of the container (1).
23. A device as claimed in one or more of the preceding claims, characterized in that when the rigid cup-shaped element (3) is fitted on the opening of the container (1) it extends to a certain extent beyond the free edge of the container (1) thereby forming a drinking cup or glass element (301).
24. A device as claimed in claim 23 , characterized in that the extension (30) of the rigid cup-shaped element (3) is shaped and has such a diameter that its free edge substantially abuts or adheres against the outer surface of the container (1).
25. A device as claimed in claim 23 or 24 , characterized in that the extension (30) is made of one piece with the rigid cup-shaped element (3).
26. A device as claimed in claim 23 or 24 , characterized in that the end portion of the skirt wall (30), associated to the rigid cup-shaped element (3) has a shape (34) that is complementary to that of said rigid cup-shaped element (3), whereby said end portion forms a closed glass bottom that has such a size as to be able to be force fitted and/or coupled by chemical and/or physical adhesion arrangements to the rigid cup-shaped element (3).
27. A device as claimed in one or more of the preceding claims 23 to 26 , characterized in that the free edge of the skirt wall (30) that forms the extension of the rigid cup-shaped element (3) whose shape mates the shape of the container (1) is covered and protected by a label (32) that overlaps both the container (1) and partly a portion of the wall of said extension (30)
28. A device as claimed in one or more of the preceding claims, characterized in that a plate, a disk (33) or similar is provided outside the closed bottom of the rigid cup-shaped element (3), for forming the base foot of the drinking glass (30), whose diameter is preferably greater than that of the rigid cup-shaped element (3).
29. A device as claimed in one or more of the preceding claims, characterized in that the rigid cup-shaped element (3) has a sealing end ring (36) which extends all along the free edge of the open side of said rigid cup-shaped element (3), which ring (36) is separated from the rest of the rigid cup-shaped element (3) by a tear-off line, requiring a predetermined breaking force, and which ring (36) is designed to engage by snap engagement and/or crimping behind a continuous or discontinuous outer radial annular shoulder (35) of the container (1), which shoulder is situated at such a distance from the edge of the opening that, when the container is perfectly closed, the ring (35) is engaged on the container, whereas the extension of the rigid cup-shaped element (3) that forms the drinking glass extends toward the bottom of the container (1) in such a shape and for such an axial length as to lie over and beyond the sealing ring (32) and as to generate such a small annular interstice with the container wall as to prevent any access, by hand or other tools, to the sealing ring (35) itself.
30. A device as claimed in one or more of the preceding claims, characterized in that a drinking glass element (31) is provided, whose shape is complementary to the bottom of the container (1), and allows it to be coupled to said bottom of the container (1) by slight elastic force fitting, the skirt wall of said drinking glass element (31) having such a length that a label (32) lies over the free edge of said drinking glass element (31) at least along an end portion of said free edge.
31. A device as claimed in one or more of the preceding claims, characterized in that it has both a drinking glass element (30) associated to the rigid cup-shaped element (3) and a drinking glass element (31) associated to the bottom of the container (1), the free edges of both drinking glass elements being covered by the label (32) of the container.
33. A process for making a metal truncated cone-shaped capsule as claimed in one or more of claims 1 to 6 , characterized the steps of:
firmly holding the rigid cup-shaped element (3) from the side opposite to the open side to be closed by the diaphragm (2), preferably by using an electromagnet (37) which comes in contact with the rigid cup-shaped element (3) of the capsule from the outside of the closed side thereof;
Pushing the rigid cup-shaped element (3) into a cylindrical hole or an aperture having an appropriate diameter, along the axis of said rigid cup-shaped element (3) and/or of the cylindrical hole, an extensible plastic diaphragm (2) being subtended over the opening of said hole, in any suitable manner.
Stretching the diaphragm (2) with the help of the free edge of the rigid cup-shaped element (3) upon penetration thereof in the cylindrical hole and/or passage thereof through the cylindrical hole, which diaphragm (2) will take, due to its internal transverse stresses, the shape of a paraboloid of revolution.
Cutting the diaphragm (2) all around the rigid cup-shaped element (3), for instance by using a sharp annular blade (38), placed at a certain distance from the hole and behind it, by using the same pressure force of the rigid cup-shaped element on the diaphragm (2), which annular blade 38 is overhanging and integral with the inside of the cylindrical hole, whose diameter is greater than the outside diameter of the rigid cup-shaped element (3) and smaller than that of the cylindrical hole.
Whereas, due to the transverse resilient stresses caused by longitudinal stretching of the extensible plastic polymer, the edge cut from the diaphragm (2) shrinks around the outer surface of the free edge of the rigid cup-shaped element (3), its diameter becoming smaller than the greatest diameter of the truncated cone-shaped rigid cup-shaped element (3), and is finally locked in position.
34. A process for making a composite capsule as claimed in claim 11 , characterized in that a diaphragm disk (2), whose diameter is greater than the inside diameter of the capsule (3) is first made to coaxially adhere by vacuum to the closed, suitably perforated bottom of a hollow cylinder (21) whose inside diameter is smaller than the inside diameter of the capsule (3) to be later forced into the capsule (3) and caused to adhere thereto, by the portion of the diaphragm disk (2), which exceeds the diameter of the cylinder (21), along a cylindrical portion, next to the free edge of the capsule (3).
35. A process as claimed in claim 34 , characterized in that the hollow cylinder (21) is replaced by a hollow truncated cone having a closed bottom whose smaller diameter is suitably perforated.
36. An apparatus or tool for implementing the process as claimed in claim 34 , characterized in that it consists of a modular cylinder (21), i.e. composed of several parts, whose outside diameter is smaller than the inside diameter of the capsule (3), said modular cylinder (21) being longitudinally divided into at least two sectors (27) which have a 180° angular width, are hollow and equal, have a closed bottom and may be transversely spread apart by pneumatic cam actuators, e.g. by pistons (28) and cylinders (28 bis) appropriately arranged between the sectors (27) or by inflatable bags, whereas they may be drawn closer by suitable springs, e.g. annular springs that outwardly and inwardly surround the sectors (27) of the modular cylinder (21).
37. An apparatus as claimed in claim 36 , characterized in that each hollow sector (27) of the cylinder (21) is maintained under vacuum and has at least one hole in its closed bottom for communication with its inner cavity.
38. An apparatus as claimed in claim 36 or 37 , characterized in that it has mechanical drive means that accomplish the steps of grasping the diaphragm disk (2), introducing it in the rigid cup-shaped element (3) and then pressing the portion thereof that exceeds the diameter of the cylinder (21) against the inner cylindrical portion of the rigid cup-shaped element (3), provided for adhesion.
39. A process for making the capsule as claimed in claim 11 , wherein the open side of the rigid cup-shaped element (3) is first flared by a conical wedge (14) and later flattened by a flat head cylinder (15), whereas the rigid cup-shaped element (3) is held by vacuum (20) in a correspondingly shaped housing (16), and a diaphragm disk (2) is laid on the plane of the portion that is bent at 90° with respect to the cylinder axis, in any suitable manner, whereupon the flattened edge, with the diaphragm (2) fitted thereon is brought back to its original position by a first bend back step, and subsequently straightened by rolling it by suitable rollers 17 and counter rollers 18 and/or by a coaxial compression of conical sectors 19, which are connected to form a sort of mandrel.
40. A process as claimed in claim 34 or 39 , for maling the composite capsule as claimed in claim 11 , characterized in that the steps of flaring, flattening, fitting the diaphragm disk (2) and subsequently restoring the position of the bent portion is carried out on the rectangular or trapezoidal surfaces delimited by the cuts (12) formed in the cylindrical walls of the capsule (3), on which the diaphragm (2) adheres.
41. A process as claimed in claim 39 , characterized in that the steps of flaring or flattening the free edge of the capsule (3) at 90° is obtained by spin molding the capsule (3) from a ductile metal.
42. A process as claimed in claim 41 , characterized in that a metal pellet is introduced in an appropriate openable mold and forced by spinning to spread through the whole space in the mold, the steps as claimed in claim 41 being carried out later on.
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CH11982002 | 2002-07-08 | ||
CH20021198/02 | 2002-07-08 | ||
PCT/EP2003/050285 WO2004005151A2 (en) | 2002-07-08 | 2003-07-03 | Container closure with sealing element and process and appartus for making it |
Publications (1)
Publication Number | Publication Date |
---|---|
US20050269283A1 true US20050269283A1 (en) | 2005-12-08 |
Family
ID=30005587
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US10/528,297 Abandoned US20050269283A1 (en) | 2002-07-08 | 2003-07-03 | Container closure wirh sealing element and process and apparatus for making it |
Country Status (6)
Country | Link |
---|---|
US (1) | US20050269283A1 (en) |
EP (1) | EP1519881A2 (en) |
CN (1) | CN1735539A (en) |
AU (1) | AU2003251005A1 (en) |
RU (1) | RU2326033C2 (en) |
WO (1) | WO2004005151A2 (en) |
Cited By (5)
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US20080302755A1 (en) * | 2005-10-11 | 2008-12-11 | Ribi Pack S.P.A. | Tamperproof Cap For Sealing Bottles Using A Stretchable Plastic Polymer Membrane On A Hollow Frame Within A Preformed Rigid Cover |
US20120187073A1 (en) * | 2009-06-26 | 2012-07-26 | Sidel S.P.A. Con Socio Unico | Liquid bottling method and machine, in particular for carbonated liquids or oxygen sensitive liquids |
US20130125430A1 (en) * | 2011-11-23 | 2013-05-23 | Mia M. Whittemore | Identification device and method for containers |
CN108083221A (en) * | 2018-01-30 | 2018-05-29 | 洛阳理工学院 | A kind of new refueling nozzle oiling sealing device |
TWI808239B (en) * | 2019-01-30 | 2023-07-11 | 日商日鐵日新製鋼股份有限公司 | Manufacturing method of cylindrical rotating member |
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AT12801U1 (en) * | 2011-07-19 | 2012-11-15 | Winkler Mark | DRINKING BOTTLE WITH FLEXIBLE AND HYGENIC CLOSURE SOLUTION |
EP2902336B1 (en) * | 2011-11-18 | 2018-08-29 | Tetra Laval Holdings & Finance S.A. | A membrane and a neck including such membrane |
JP6679492B2 (en) | 2014-02-07 | 2020-04-15 | ボール コーポレイションBall Corporation | Metal container with screwed closure |
FR3025505B1 (en) * | 2014-09-05 | 2019-03-22 | Constellium Neuf-Brisach | PROCESS FOR MANUFACTURING TEXTURED-SMOOTH MIXED METAL CAPSULE CAPSULES |
DE102015114732B3 (en) | 2015-09-03 | 2017-02-09 | Jirko Bannas | Drinking glass, in particular for use in a combination of beverage bottle and drinking glass |
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JP7170431B2 (en) * | 2017-09-25 | 2022-11-14 | 株式会社東芝 | Container and method for closing opening in container |
EP3877103A4 (en) | 2018-11-05 | 2023-01-04 | Ball Corporation | Metallic container with a threaded closure |
BR112021026071A2 (en) | 2019-06-26 | 2022-02-08 | Ball Corp | Method and apparatus for sealing a metal container with a metal end closure |
CN113943658B (en) * | 2021-11-30 | 2022-09-30 | 赛宁(苏州)生物科技有限公司 | Cell culture bottle |
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- 2003-07-03 CN CNA03821279XA patent/CN1735539A/en active Pending
- 2003-07-03 WO PCT/EP2003/050285 patent/WO2004005151A2/en not_active Application Discontinuation
- 2003-07-03 RU RU2005103589/12A patent/RU2326033C2/en not_active IP Right Cessation
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Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20080302755A1 (en) * | 2005-10-11 | 2008-12-11 | Ribi Pack S.P.A. | Tamperproof Cap For Sealing Bottles Using A Stretchable Plastic Polymer Membrane On A Hollow Frame Within A Preformed Rigid Cover |
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US9156669B2 (en) * | 2009-06-26 | 2015-10-13 | Sidel S.P.A. | Liquid bottling method and machine, in particular for carbonated liquids or oxygen sensitive liquids |
US20130125430A1 (en) * | 2011-11-23 | 2013-05-23 | Mia M. Whittemore | Identification device and method for containers |
CN108083221A (en) * | 2018-01-30 | 2018-05-29 | 洛阳理工学院 | A kind of new refueling nozzle oiling sealing device |
TWI808239B (en) * | 2019-01-30 | 2023-07-11 | 日商日鐵日新製鋼股份有限公司 | Manufacturing method of cylindrical rotating member |
Also Published As
Publication number | Publication date |
---|---|
CN1735539A (en) | 2006-02-15 |
WO2004005151A3 (en) | 2004-05-27 |
RU2005103589A (en) | 2006-01-20 |
AU2003251005A8 (en) | 2004-01-23 |
RU2326033C2 (en) | 2008-06-10 |
AU2003251005A1 (en) | 2004-01-23 |
WO2004005151A2 (en) | 2004-01-15 |
EP1519881A2 (en) | 2005-04-06 |
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Legal Events
Date | Code | Title | Description |
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STCB | Information on status: application discontinuation |
Free format text: ABANDONED -- FAILURE TO RESPOND TO AN OFFICE ACTION |