The field of the disclosure relates generally to a closure and a closure system, and more specifically to a closure that includes a tapered sidewall or skirt and a tapered internal thread, and a container that includes a tapered neck and a tapered external thread.
Containers are often used to store products or contents. It is often desirable to close the container with a closure (e.g., a bottle cap) in order to contain the product or contents in the container. Some known closures include a tamper-evident band that indicates whether the closure has been tampered with or removed from the container. Tamper-evident bands are desirable in certain applications (for example, in the food and beverage industry, pharmaceutical industry, etc.) in order to promote the safety of consumer products.
Some known closures also include a tether that keeps the closure tethered or attached to the container when the closure is removed from the container. Tethered closure assemblies help to reduce the chance that the closure may be lost when it is removed from the container.
During certain procedures, such as container capping and/or filling operations, the closure is placed on top of the container to cover an opening in the container, and is subsequently secured to the neck of the container. In some of these procedures, the closure is not immediately secured (e.g., threaded) to the container, and simply rests on top of the container. During these procedures, the container may be jostled (e.g., due to movement of the container along production or filling lines). If the closure is not firmly seated on the container neck, the closure may be disturbed and/or fall off the container, which can result in misapplied closures, closures being improperly presented to a capper of a capping/filling line, containers not being closed, etc.
Accordingly, there is a need for improved closures and corresponding closure systems.
In one aspect, a closure for a container includes a top panel, a skirt depending from the top panel and extending circumferentially about a central axis, a tamper-evident band attached to the skirt, and at least one thread extending from an interior surface of the skirt. The skirt extends from a first end attached to the top panel to a second end opposite the first end. The skirt is tapered radially outward from the first end to the second end such that a diameter of the skirt at the second end is greater than the diameter of the skirt at the first end.
In another aspect, a closure for a container includes a top panel including a transition section along an outer peripheral edge thereof, a skirt depending from the top panel at the transition section and extending circumferentially about a central axis, a tamper-evident band, a deflectable tab, and a plurality of threads extending from an interior surface of the skirt. The skirt extends from a first end attached to the top panel to a second end opposite the first end. The tamper-evident band is frangibly attached to the skirt by a plurality of frangible tabs at the second end of the skirt. The tamper-evident band is tethered to the skirt by a hinge such that the skirt remains connected to the tamper-evident band after the frangible tabs are separated. The deflectable tab extends from the hinge and is operable to engage a retention section of the tamper-evident band to hold the closure in an opened position. The skirt is tapered radially outward from the first end to the second end such that a diameter of the skirt at the second end is greater than the diameter of the skirt at the first end, and such that a radial spacing between the plurality of threads and the central axis increases as each of the threads extends towards the second end of the skirt.
In yet another aspect, a closure system includes a container and a closure threadably connectable to the container. The container includes a sidewall defining a cavity and a neck extending from the sidewall and defining an opening to the cavity. The neck extends from a first end defining the opening to a second end joined to the sidewall, and includes at least one thread on an exterior surface thereof. The neck is tapered radially outward from the first end towards the second end. The closure includes a top panel, a skirt depending from the top panel extending circumferentially about a central skirt axis, a tamper-evident band attached to the skirt, and at least one thread extending from an interior surface of the skirt and configured to threadably engage the at least one thread of the container neck. The skirt extends from a first end attached to the top panel to a second end opposite the first end. The skirt is tapered radially outward from the first end to the second end such that a diameter of the skirt at the second end is greater than the diameter of the skirt at the first end. A taper angle of the skirt corresponds to a taper angle of the neck.
Various refinements exist of the features noted in relation to the above-mentioned aspects of the present disclosure. Further features may also be incorporated in the above-mentioned aspects of the present disclosure as well. These refinements and additional features may exist individually or in any combination. For instance, various features discussed below in relation to any of the illustrated embodiments of the present disclosure may be incorporated into any of the above-described aspects of the present disclosure, alone or in any combination.
A closure and a corresponding closure system are described herein that facilitate improved resistance of a closure that is placed over an opening of a container to being inadvertently removed from the container, for example, during container filling and/or capping operations, and during use by consumers. For example, embodiments of the closures and closure systems disclosed herein utilize a taper effect to facilitate placement and/or securement of the closure on the neck of a container, e.g., during the manufacturing and assembly process.
In contrast to at least some known closures and closure systems, the closures and closure systems of the present disclosure can have a thread height that is substantially constant (i.e., is not reduced) along the height or length of the closure and/or the container neck. For example, some known closures and closure systems have a reduced thread height near the bottom of the closure and/or near the top of the neck of the container, with the height of the thread increasing towards the top of the closure and/or the bottom of the neck. While this can facilitate positioning the closure on the container neck (e.g., during a filling operation of the container), the reduced thread height can cause the closure to be improperly or insufficiently secured to the container neck, resulting in the closure being inadvertently removed (e.g., at later stages of a filling operation or during transport). Embodiments of the closures and closure systems described herein can include container necks having external threads with a substantially constant or non-reduced height near the opening of the container and/or closures having internal threads with a substantially constant or non-reduced height.
The closure 100 of the illustrated embodiment has a generally closed cylindrical shape, with the top panel 102 being generally circular and the skirt 104 being generally cylindrical. Additionally, the top panel 102 includes a transition section 110 along an outer peripheral edge 112 thereof that joins the skirt 104. In the illustrated embodiment, the transition section 110 is generally curved. In other embodiments, the transition section 110 can be of any suitable configuration that allows the closure 100 and/or the closure system 300 to function as described herein.
The skirt 104 depends from the top panel 102 and extends circumferentially about the central axis 116. The skirt 104 is spaced radially outward from the sealing ring 114. In the illustrated embodiment, the skirt 104 extends from a first end 118 attached to the transition section 110 of the top panel 102 to a second end 120 opposite to the first end 118. The second end 120 may be, for example, at a location where the skirt 104 attaches to the tamper-evident band 106. In the illustrated embodiment, the skirt 104 includes an exterior surface 122 and an interior surface 124 with at least one internal thread 126 extending radially inward from the interior surface 124. The at least one internal thread 126 can be a single, continuous internal thread extending helically around the interior surface 124 of the skirt 104, or the at least one thread 126 can include multiple different threads. As shown in
According to this configuration, the skirt 104 includes a radial taper of the diameter D (specifically, the diameter of the interior surface 124) of the skirt 104. The radial taper of the skirt 104 can be, for example and without limitation, a generally linear taper of the diameter D of the skirt 104, as is shown in the embodiment depicted in
Further, as shown in
With additional reference to
As shown in
The tapered configuration of the closure (e.g., the increased diameter D of the skirt 104 and increased radial spacing of the internal threads 126 at the second end 120 of the skirt 104) can result in a relatively larger diameter D2 of the attachment band 108 in the folded configuration (shown in
In some embodiments, the tamper-evident band 106 is frangibly attached to the skirt 104 by at least one frangible tab 154 (shown in
The tamper-evident band 106 may also include a hinge 156 formed in the tamper-evident band 106 (shown in
The tamper-evident band 106 can also include one or more circumferentially-extending slots 158 that facilitate hingedly moving the closure 100 about the hinge 156. The example embodiment includes a single continuous slot 158 that is generally defined by parallel edges of the tamper-evident band 106. In the embodiment shown in
In the illustrated embodiment, the hinge 156 also includes a deflectable tab 160 including a tooth 162 that extends radially outward from the tab 160. The deflectable tab 160 (specifically, the tooth 162) may be operable to engage a retention section 164 of the tamper-evident band 106 (shown in
Referring again to
As shown in
As shown in
Moreover, in the illustrated embodiment, each external thread 214 has a substantially constant height as the thread extends from the first end 206 towards the second end 210. For example, each external thread 214 may have a constant height except for the thread start and end portions.
Further, as shown in
In one example embodiment, during a filing or capping operation of the container 200, the closure 100 is positioned on top of the opening 232 of the container 200. When the closure 100 is initially positioned on top of the container 200, the attachment band 108 may rest on the tamper-evident bead 218 (specifically, along the top curved edge 222). The closure 100 is subsequently secured to the container 200 by engaging the internal thread 126 of the skirt 104 of the closure 100 with the external thread 214 of the neck 202 of the container 200. During this process, the free end 146 of the attachment band 108 traverses the tamper-evident bead 218 and engages the straight edge 220 of the tamper-evident bead 218 of the neck 202 of the container 200, such that the tamper-evident band 106 is inhibited or prevented from being removed from container 200 with the rest of the closure 100. The attachment band 108 is folded into the folded configuration before the closure 100 is installed onto the container 200. An example of the attachment band 108 in the folded configuration and engaging the tamper-evident bead 218 of the neck 202 of the container 200 is shown in
The tapered closure 100 and tapered neck 202 of the container 200 facilitate positioning and securing the closure 100 to the container 200 during certain processes, such as filling and/or capping procedures. For example, the increased diameter D2 of the attachment band 108 in the folded configuration and the decreased diameter D3 of the first end 206 of the neck 202 and the corresponding external thread 214 of the neck 202 near the first end 206 of the neck 202 facilitate more securely placing and retaining the closure 100 on the neck 202 of the container 200 prior to the closure 100 being further secured (e.g., threaded) to the container 200. Such a configuration allows for less interference between portions of the closure 100 (e.g., the attachment band 108) and the neck 202 (e.g., external thread 214 of the neck 202 of the container 200), for example, during wipe on closure applications in container filling or capping operations. This configuration consequently allows the closure 100 to sit further down on the neck 202 of the container 200 (i.e., closer to the second end 210 of the neck 202 of the container 200) before the closure 100 is further secured to the container 200 via threading the closure 100 onto the container 200 via the internal thread 126 of the skirt 104 of the closure 100 engaging the external thread 214 of the neck 202 of the container 200. With the closure 100 sitting further down on the neck 202 of the container 200 before the closure 100 is further secured to the container, it is more likely that the closure 100 will remain positioned on the neck 202 of the container 200 before the closure 100 is further secured to the container 200. Additionally, the closure 100 sitting further down on the neck 202 of the container 200 enables the closure 100 to be more-easily secured (e.g., threaded) to the container 200 via production equipment.
Accordingly, when the closure 100 is placed on the container 200 prior to being secured to the container 200, the taper effect integrated into both the closure 100 and the container 200 helps to keep the closure 100 on the container 200 prior to the closure 100 being further secured to the container 200, and also enables the closure 100 to be better secured to the container 200 via production equipment. Such a configuration presents advantages during production (e.g., filling and capping operations) and consumer use.
The tapered configuration of the closure 100 and neck 202 also facilitates opening and closing tethered closures (e.g., by the end user). For example, the increased clearance between the bottom of the closure and the top of the container neck resulting from the tapered configuration allow the tethered closure to be rotated between the closed and open position and vice-versa (e.g., via the hinge) without the closure and neck interfering or impeding movement of the closure.
Moreover, the tapered configuration of the closure 100 and neck 202 allows for a reduced clearance (i.e., tighter fit) between the closure and neck threads when the closure 100 is secured to the neck 202, thereby enhancing the engagement of the closure and neck threads. The increased engagement is particularly advantageous for lightweight containers or bottles (e.g., containers formed of thin-walled plastics, such as lightweight high-density polyethylene (HDPE) used to package fresh milk and juices), where deformation of the container neck might otherwise cause the closure to be dislodged from the container during transport and/or bottle handling.
The present disclosure provides at least the following technical benefits and advantages: (i) eliminating leaks and spills on container filling lines; (ii) eliminating leaks and spills during container distribution; (iii) eliminating leaks and spills during handling and use of the container by consumers; (iv) easy application of the closure to the container on container filling lines, (v) reduction in cost incurred to container filling corporations.
Additionally, the present disclosure provides solutions to at least the following problems: (i) a tendency of conventional closures placed on conventional containers to be inadvertently removed from the container prior to being secured to the container and (ii) application issues related to filling machines with wipe on closure applicators. For example, during wipe on closure applications, closures are presented and applied to the containers via an inclined ramp down which the closures can slide, with the neck of the container being placed at the bottom of the ramp and receiving a closure via the ramp during application. When conventional closures are used in wipe on closure application systems, the conventional closures may be incorrectly placed or aligned on the container on which they are applied in the wipe on application process due to, for example, interference between the internal side surfaces of the closure and the external side surfaces of the neck of the container. Incorrect placement or alignment of closures on the container can result in the closure being incorrectly presented to production equipment later on in the production process, which can cause the closure to be incorrectly (e.g., crookedly) installed on the container. If the closure is incorrectly installed on the container, the closure may not adequately seal the container, and/or the closure may not be adequately secured to the container. For example, if the closure is not adequately secured to the container, pressure within the container (e.g., due to movement or jostling during transport) may cause the closure to be inadvertently removed from the container. Additionally, if the closure is not adequately sealed to the container, then the contents of the container may spill (e.g., during transportation or consumer use).
Although specific features of various embodiments of the disclosure may be shown in some drawings and not in others, this is for convenience only. In accordance with the principles of the disclosure, any feature of a drawing may be referenced and/or claimed in combination with any feature of any other drawing.
This written description uses examples to disclose the invention, including the best mode, and also to enable any person skilled in the art to practice the invention, including making and using any devices or systems and performing any incorporated methods. The patentable scope of the invention is defined by the claims, and may include other examples that occur to those skilled in the art. Such other examples are intended to be within the scope of the claims if they have structural elements that do not differ from the literal language of the claims, or if they include equivalent structural elements with insubstantial differences from the literal languages of the claims.