The present invention provides a tamper evident fitment assembly and more particularly a tamper evident fitment assembly for use in aseptic packaging applications.
Many systems are used for filling and dispensing liquids and other flowable products from packages produced under aseptic conditions. Generally these packages are made from a plastic material and have at least one spout through which the liquid or flowable material is filled and dispensed. It is critical that package or seal tampering be readily apparent upon inspection for aseptically packaged food products, and the tampering indicator must be robust enough to withstand the packaging, transporting, filling and sealing conditions. The packaging used in these circumstances is relatively inexpensive and is only meant for single use. Nevertheless it is important that such packaging maintain its aseptic integrity until the packaged goods are consumed and any failure of the aseptic or hermetic seal prior to use of the package contents must be readily apparent. Generally it is preferred that these packages be kept under aseptic conditions throughout the manufacturing and filling process, as well as prior to dispensing of the liquid or flowable product. Such conditions may be required if the flowable product will readily undergo deterioration or degradation when exposed to a non-aseptic environment.
Often the systems used for packaging under aseptic conditions involve the production of the bag and fitment at one facility and then transporting them to a second facility for filling during which the bag is then placed in an aseptic environment. It can be difficult to maintain such aseptic conditions throughout this process.
It is therefore desirable to provide a tamper evident fitment assembly for use in aseptic applications that addresses the requirements discussed above.
The present invention provides a tamper evident closure and dispensing assembly that includes a spout and a cap with a tamper indicating band that may be assembled into a pre-cap position and attached to a container under sterile/aseptic conditions and transported to a filling facility. During transportation the pre-cap position will maintain the container in an aseptic condition. When filling of the container is required, the container is placed in a filling station which is maintained under aseptic conditions and the cap is removed from the spout. The container is then filled and the cap is placed back on the spout in a full cap position. Removal of the cap from the full cap position will separate the tamper indicating band from the cap thereby indicating that the seal on the container has been broken.
The present invention provides a tamper evident closure and dispensing assembly for use with a fluid dispensing container for flowable material. The assembly comprises a spout for attachment to a container, the spout having an upper end and a lower end, and having a dispensing passage therethrough. The assembly further comprises a cap having a top with an external depending skirt and a tamper indicating band releasably attached to the skirt. The cap further including an internal skirt depending from the top and spaced inwardly from the external skirt and operable to be received within the fluid passage to provide a seal between the cap and the spout. The assembly has a first position in which the cap is received on the upper end of the spout with the tamper indicating band abutting the external rib and the internal skirt being received within the passage and providing a seal therebetween, and a second position in which the cap is located on the lower end of the spout with the external rib located between the external skirt and the tamper indicating band and the upper end of the spout located adjacent the top of the cap, the internal skirt being received within the passage and providing a seal there between.
The present invention further provides a tamper evident closure and dispensing assembly comprising a spout having an upper end and a lower end, the spout defining a dispensing passage therethrough and a cap sized to be received on the spout and having a tamper indicating band releasably attached thereto. The assembly has a first position in which the cap and the tamper indicating band are received on the upper end of the spout and a seal is provided between the cap and the spout and from which when the cap is removed the tamper indicating band remains attached to the cap, and a second position in which the cap and the tamper indicating band are located adjacent the lower end of the spout and a seal is provided between the cap and the spout and from which when the cap is removed the tamper indicating band detaches from the cap and remains on the spout, thereby providing evidence that the assembly has been tampered with.
An important feature of the present invention is that the cap frictionally engages a top portion of the spout. No screw threads or similar securing means are required to retain the cap on the spout.
In another aspect of the invention there is provided a tamper evident closure and dispensing assembly for use with a container for flowable material, the closure comprising a cap and a spout secured to the container, the cap having a frangible tamper evident band associated with it, the cap having an annular recess for frictionally engaging and retaining a top portion of the spout, the cap and spout having cooperating detent and locking elements to allow the assembly, when secured to a container to move from a first position where the cap is removably sealed to the spout and the tamper evident band is not broken when the cap is removed for filling, to a second position when the cap is removably sealed to the spout and the tamper evident band is broken upon removal of the cap to dispense flowable material.
In another aspect of the invention there is provided a tamper evident closure and dispensing assembly, wherein the cap includes an internal skirt depending from a top portion of the cap and spaced inwardly from the cap sidewall, the frangible tamper evident band depends from the lower edge of the cap sidewall and the area between the sidewall and the internal skirt forms the annular recess in the cap and includes a lower and an upper detent that determine the pre-cap and full cap positions, respectively for the top portion of the spout that is sealingly engaged within the annular recess of the cap when the assembly is in use.
In another aspect of the invention there is provided a tamper evident closure and dispensing assembly, wherein the cap includes a locking ring that cooperatively and removably engages an annular projection located on an inner edge of the tamper evident band in the pre-cap position and in the full cap position the annular projection located on an inner edge of the tamper evident band is engaged beneath the locking ring, whereby in the pre-cap position the frangible tamper evident band is not broken upon removal of the cap, but in the full cap position, the frangible tamper evident band must be broken to remove the cap.
In another aspect of the invention there is provided a tamper evident closure and dispensing assembly, wherein the cap includes a locking ring and at least one tab that cooperatively engage and lock an annular projection located on an inner edge of the tamper evident band in the pre-cap position and in the full cap position the annular projection located on an inner edge of the tamper evident band is engaged and locked between the locking ring and the at least one tab, whereby in the pre-cap position the frangible tamper evident band is not broken upon removal of the cap, but in the full cap position, the frangible tamper evident band must be broken to remove the cap.
The present invention is better understood with reference to the attached description and to the following Figures, wherein:
The tamper evident fitment assembly of the present invention will now be described with reference to
The tamper evident fitment assembly 10 of the present invention may be used on a container that requires handling and filling in an aseptic environment. The fitment assembly and its use will be described in such an environment. However, it will be understood by a person skilled in the art, that the use of the fitment assembly of the present invention is not limited to such a use and other applications fall within the scope of the invention.
The tamper evident fitment assembly 10 includes a cap 12 and a spout 16 having an annular flange 14 at its base that is operable for attachment to a container, not shown. The attachment of the flange 14 to a container can be achieved many ways that will be known to a person skilled in the art. Examples of ways to attach the flange 14 to the fitment include, but are not limited to, heat sealing, welding and chemical bonding, e.g. adhesive. The cap 12 is sized to be received on the spout 16, and can be located on the spout 16 in several different positions in which hermetic sealing between the cap 12 and the spout 16 is maintained to provide an aseptic environment The positions include an aseptic pre-cap position and an aseptic full cap position, which will be described further below.
As can be seen more clearly in
In the illustrated embodiment, the spout 16 also includes a series of different sized valve engagement rings 24 that allow the spout and hence the container to be secured to a variety of fillers or dispensers, not shown. The size and location of each ring 24 may be selected in accordance with the type of filler and/or dispenser the spout 16 is attached to. It will be understood by a person skilled in the art that the positioning and size of the rings 24 may be varied for optimizing the securing of the spout 16 to such apparatus. Spout regions 16a are provided between the valve engagement rings 24 to receive and secure the dispensing or filler valves. The spout 16 may include two valve engagement rings 24; however it will be understood by a person skilled in the art that the number may vary depending on the end use of the container and fitment assembly 10. The spout 16 may also include external threads 40 for a threaded connection of the spout 16 to a dispensing connector.
As described above, the cap 12 is sized to be received on the spout 16 and includes a top 26 with an external skirt 28 depending from the top 26 and a tamper indicating band 30 releasably attached to the external skirt 28 at the opposite end from the top 26. The external skirt 28 has an internal ledge 32 located adjacent the top 26 of the cap 12, distal from the tamper indicating band 30. The cap 12 further includes a cork 34, also referred to as an internal skirt, depending from the top and spaced inwardly from the external skirt 28. The cork 34 is sized to be received within the fluid passage 22 of the spout 16 to provide a seal between the cap 12 and the spout 16 when the cap 12 is received on the spout 16.
As can be seen in
As discussed above, the cap 12 includes a tamper indicating band 30 releasably attached to the external skirt 28. The tamper indicating band 30 is attached to the external skirt 28 by a series of frangible bridges 36. The frangible bridges 36 are integrally formed with the cap 12 and band 30. Located on the internal surface of the tamper indicating band 30 is a shoulder 38 that extends inwardly and is located at a distance from the external skirt 28. The shoulder may be continuous around the band perimeter or be interrupted and functions as a tamper evident ring lock as will be described below. The exterior of spout 16 includes a circumferential lip 18. External screw threads 40 are located just below the lip 18. An annular locking ring 41 is located just below the screw threading 40. Locking ring 41 may be continuous or interrupted also. Spaced from and below the locking ring 41 is at least one tab 39, which cooperates with locking ring 41 to engage and retain tamper evident ring lock 38, when the cap 12 is positioned on the spout 16. The at least one tab 39 may be a continuous annular ring or it may comprise a plurality of tabs spaced about the circumference of the spout 16. In
As can be seen in
Turning to
In order to fill the container with the required flowable material the cap 12 must be removed from the spout 16 in order to allow for the flowable material to pass through the passage 22. The cap 12 is removed from the spout 16, as shown in
Once the container has been filled, the cap 12 is then placed back onto the spout 16.
When the cap 12 is placed on the spout 16 in the full cap position the cap 12 is moved further onto the spout 16 towards the flange 14 than in the previously described pre-cap position, illustrated in
When the flowable material is required to be dispensed from the container the cap 12 must be removed from the spout 16.
The assembly and use of the tamper evident fitment assembly 10 will now be briefly discussed. The spout 16 and cap 12 are manufactured separately by suitable means known in the art. After manufacture the spout 16 and cap 12 are shipped to the container manufacturing location. The spout 16 is attached to the container, not shown, at flange 14 by suitable means known in the art. After attachment of the spout 16, the cap 12 is placed on the spout 16 in the pre-cap position, described above. The container and fitment assembly 10 are irradiated, by suitable means known in the art, in order to create an aseptic environment in the container. The container with the fitment assembly 10 may then be shipped to a filling station. When filling of the container is required, the container is placed in a filling machine, which operates under aseptic conditions. Once in the filling machine a capper apparatus will remove the cap 12 from the pre-cap position with the tamper indicating band 30 still attached to the cap 12. The filling machine will then fill the container with flowable material through the fluid passage 22 until the container is full. At this time, the cap 12 will be placed back onto the spout 16 and pushed into the full cap position. The container may then be removed from the filling machine and stored or shipped, as required. When the cap 12 is removed from the full cap position the tamper indicating band 30 will separate from the external skirt 28 thereby indicating that the fitment assembly 10 has been tampered with. The types of filling machines and the operation of such machines will be understood by a person of skill in the art.
The fitment assembly 10 may be made from any suitable material known by a person skilled in the art. For example, the spout 16 and the cap 12 may be made from any suitable plastic, in particular any plastic suitable for injection molding, which will be known by a person skilled in the art. Examples include, but are not limited to, linear low density polyethylene and polypropylene. Generally the cap may be made of a plastic that has sufficient flexibility to allow the spout 16 to move past the lower indent 32 to achieve the full cap position.
It will also be understood by a person skilled in the art that the dimensions of the spout 16 and cap 12 may vary depending on the filling machine with which the container is to be used. When varying the dimensions the relative size of the spout 16 to the cap 12 must be maintained in order to provide the friction fit between the two and thereby maintaining an aseptic environment when required.
Although the invention has been described in terms of a particular preferred embodiment thereof, the skilled practitioner will understand that variations may be made within the scope of the appended claims.
This application is a Divisional patent application claiming priority under 35 U.S.C. §121 from U.S. patent application Ser. No. 10/566,537, filed on Sep. 11, 2006, which in turn claims priority under 35 U.S.C. §371 (c) to International Application No. PCT/CA2004/001436 filed on Jul. 30, 2004, which further in turn claims priority under to U.S. Provisional Patent Application Ser. No. 60/491,702, filed on Aug. 1, 2003. The entire content of each these applications is hereby incorporated by reference.
Number | Date | Country | |
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60491702 | Aug 2003 | US |
Number | Date | Country | |
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Parent | 10566537 | Sep 2006 | US |
Child | 12981858 | US |