The disclosure relates generally to a lid assembly for liquid containers, and more particularly, to a re-closable lid assembly for liquid containers, the re-closable lid assembly allowing a consumer to drink through a spout from the liquid container while preventing accidental spills and providing easy access for cleaning.
Refillable beverage containers, such as commuter water bottles, for example, typically include a removable lid that includes a fluid aperture or drink hole, and a consumer typically fills the interior of the container (e.g., an insulated container) with a beverage (e.g., water) when the lid is removed. To drink the beverage, the consumer typically tips the container to allow the beverage to pass through the drink hole, and the consumer sips the beverage as the beverage exits the drink hole.
In some cases, a simple drink hole may be undesirable as a consumer (such as a young child or toddler) may not be sufficiently skilled to drink from the hole while not spilling. To address this problem, beverage containers with spouts were developed. Such containers include a flip out spout with a ball joint or spout base that acts as a valve to prevent fluid flow through the spout when in a closed position. When the spout is flipped out in a drinking position, the ball joint is open, allowing liquid to flow out of the container through the spout. When drinking is no longer desired, the spout can be flipped to a closed position, thereby closing the ball joint and preventing liquid from flowing out of the container. Thus, such beverage containers for children are either in the drink mode or the leak proof mode.
Other drink containers may include a straw that is manually stored in a crimped position when not in use to prevent spills. Similar to the ball joint products described above, these containers are either in the drink configuration, in which the straw is not crimped, or in the no-spill configuration, in which the straw is crimped. In any event, the user must manipulate some portion of known drink containers to transition the container between the drink configuration and the leak proof configuration.
Current spill proof water bottles have a large number of parts with many cracks and crevices allowing dirt and debris to build up without giving the consumer easy access for cleaning. Some known water bottles attempt to reduce part count and or remove or change the spill proof valve but each option introduces other issues. For example, one known water bottle includes a bite valve that does not allow for easy flushing and drying due to the bite valve design. This design causes buildup and does not yield an easy to clean product. Other products are leak proof when closed but not spill proof when in the open or drinking position.
An easily cleanable liquid container includes a straw having a pivotably mounted internal one-way spill preventing valve and a closable drinking spout with an overmolded drinking sleeve. The pivotably mounted internal one-way spill preventing valve is retained in a pivotable straw nut that is pivotably attached to a straw tube, which allows easy access to internal straw components for easier cleaning. The overmolded drinking sleeve limits the number of cracks and crevices that may collect dirt or other contaminants.
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The closable drinking spout 18 includes an inner flexible spout base 24, a spout nut 26, and the overmolded drinking tip 20. The overmolded drinking tip 20 includes a rigid core connector 28 and a pliable overmolded sleeve 30. By overmolding the sleeve 30 on the rigid core connector 28, the sleeve 30 is chemically bonded to the rigid core connector 28, thereby reducing the number of cracks and crevices in the drinking spout 18. As a result, the drinking spout 18 resists collection of dirt and debris and is therefore easy to clean. In the illustrated embodiment, the rigid core connector 28 and the pliable overmolded sleeve 30 both terminate at a distal end 34 of the overmolded drinking tip 20. In other embodiments one of the rigid core connector 28 and the pliable overmolded sleeve 30 may not extend completely to the distal end 34 of the overmolded drinking tip 20. For example, in other embodiments, the rigid core connector 28 may terminate between the distal end 34 of the overmolded drinking tip 20 and the inner flexible spout base 24, and the pliable overmolded sleeve 30 may continue from the terminus of the rigid core connector 28 to the distal end of the overmolded drinking tip 20. The pliable overmolded sleeve 30 forms a soft, pliable tube which provides a comfortable mouth engaging surface for a user.
A pivotable cover 32 is also attached to the lid housing 17. When the drinking tip 20 is in a closed position (not shown), the cover 32 receives the distal end 34 of the drinking tip 20 in a recess 36, which protects the drinking tip 20 from dirt and debris while holding the drinking tip 20 in the closed position.
The base 16 includes a pressure opening 38 and a pressure relief valve 40 is located in the pressure opening 38. The pressure relief valve 40 allows pressure inside of the container 12 to equalize with the atmospheric pressure when the drinking tip 20 is in the open position. Equalization of the internal pressure prevents a vacuum from forming within container 12.
An inner side of the base 16 includes an internally threaded straw well 42. The spout base 24 includes a skirt or annular flange 44 that fits within the straw well 42 and secures the spout base 24 to the base 16. The internal threads of the straw well 42 are sized and shaped to receive a portion of the hinged valve straw 22, which will be discussed further below.
The hinged valve straw 22 includes a straw tube 48, and a pivotable collar or straw nut 50. The straw nut 50 has a through bore 52 and a one way valve 54 located in the through bore 52. The one way valve 54 allows fluid to be drawn from the container body 12 to the drinking spout 20 when a user creates sufficient suction to open the one way valve 54 by sucking on the drinking tip 20, but prevents liquid flow in the reverse direction when sufficient suction is not produced. The one way valve 54 prevents fluid from exiting the drinking tip 20 by the force of gravity alone, even if the drinking tip 20 is in the open position.
When the hinged valve straw 22 is disconnected from the straw well 42, the hinged valve straw 22 remains connected to the base 16 by a tether 46. The tether allows the hinged valve straw 22 to be separated from the base 16 for easy cleaning while preventing the hinged valve straw 22 from being lost during the cleaning process.
The straw nut 50 is attached to the straw tube 48 by a hinge pivot 56. The hinge pivot 56 allows the straw nut 50 to pivot between an open position, which is illustrated in
The straw tube 48 may include a receiver cup 58 that is shaped to receive an inner end of the straw nut 50. A wiper seal 60 is disposed on the inner end of the straw nut 50, the wiper seal 60 being formed as a cone-shaped annular ring that seals against an inner surface of the receiver cup 58 when the straw nut 50 is in the closed position.
The straw nut 50 includes threads 64 at an outer end opposite the wiper seal 60. The threads 64 cooperate with the threads on the inner surface of the straw well 42 to removably secure the hinged valve straw 22 to the base 16.
The straw nut 50 includes an annular flange or collar 62 that joins the hinge pivot 56, thereby allowing additional clearance for the straw nut 50 when the straw nut 50 is opened.
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The spout base 24 includes the central tube 70 and a spout flange 72. The spout flange 72 fits within an annular tube recess 74 that is formed in the core connector 28. The spout nut 26 includes an internal flange 76 at one end that is sized to slide over the central tube 70. The spout nut 26 includes an external flange or skirt 78 at another end, the skirt 78 being radially flexible so that the ends of the skirt 78 form one or more retention tabs that can slide within a central bore of the core connector 28 during assembly and extend outward, into an annular channel 80 in the core connector 28 to secure the core connector 28 to the spout base 24 when fully assembled.
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In some embodiments, the pliable sleeve may be formed from a nylon/silicone overmold. In other embodiments, other pliable overmoldable materials may be used. In yet other embodiments, the spout may be formed as one piece made from a hard plastic, such as nylon, without the pliable sleeve.
In the disclosed embodiment, the pivotable valve straw is held together by a pivot pin and tether to prevent loss of the separate parts. In other embodiments, the parts of the pivotable valve straw could be separated out into loose components. In other embodiments, the wiper seal may be formed as an o-ring or face seal.
Known drinking containers are not easy to clean and contain many uncleanable cracks and crevices. The disclosed container reduces the number of cracks and crevices that capture dirt, debris, and contaminants, and the disclosed container also provides easy access to internal parts to allow a more thorough cleaning.
The disclosed hinged valve straw requires no tools to open and allows easy access to the internal valve for a more thorough cleaning. The disclosed pivotable valve straw is opened with a simple twist and pop motion.
The disclosed container features easy flushability through all drink channel paths. The disclosed container reduces the amount and severity of wells or dead-zones that are difficult to access or flush.
The disclosed container includes the overmolded spout, which reduces the number of inaccessible cracks and crevices, thereby improving cleanability. The hinged valve straw and wiper seal allow the user easy and quick access to internal components for easier cleaning.
While various embodiments have been described above, this disclosure is not intended to be limited thereto. Variations can be made to the disclosed embodiments that are still within the scope of the appended claims.
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Entry |
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Office Action for U.S. Appl. No. 16/217,771, dated Mar. 23, 2020. |
Number | Date | Country | |
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20210015280 A1 | Jan 2021 | US |
Number | Date | Country | |
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62607532 | Dec 2017 | US |
Number | Date | Country | |
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Parent | 16217771 | Dec 2018 | US |
Child | 17061771 | US |