1. Field of the Disclosure
The present invention generally relates to drinking vessels for containing and dispensing its contents such as beverages. More particularly, this invention relates to drinking vessels having an improved structure that includes an opening for dispensing the contents from the drinking vessel and has an additional opening for venting air into the drinking vessel. The structure further includes a closure for sealing both openings and a fluid flow interrupter for mixing the beverage in the vessel.
2. Description of Related Art
There are numerous portable drinking vessels which are commonly sold and used for the containment of beverages such as water, juice, soft drinks or shakes. Typically, such containers have a lid which covers an opening through which the vessel is filled. The lid often includes an opening for dispensing the contents from the vessel. However, it is desirable for the vessels to also include a vent opening in order to equalize the internal air pressure of the container and thus, allow the user to more easily withdraw the beverage from container. Without establishing such equilibrium, the vacuum created within the container makes it more difficult to generate the flow of the contents out of the vessel. The addition of a vent opening allows air to pass in and out of the drinking vessel and equalizes air pressure during extraction of its contents through the dispensing opening. Therefore, drinking vessels often require a vent opening in order to operate efficiently; however, when not in use, the dispensing opening and vent opening must be sealed to prevent undesirable spilling or leakage of the contents from the vessel which is undesirable to the user or consumer.
Various closure means have been implemented for these drinking vessels but such approaches have had certain shortcomings which prevent them from achieving a totally satisfactory solution. Often, such closure means do not always provide a fluid-tight closure of the openings and therefore provide an avenue by which the contents can escape unintentionally from the drinking vessel. Accordingly, it would be desirable to provide a drinking vessel with a closure that creates a fluid-tight seal with the vent opening.
In addition, problems arise with current drinking vessels when the beverage begins to settle toward the bottom of the drinking vessel. Upon settling, the beverage, such as orange juice, within the drinking vessel is no longer properly mixed to the user's taste preferences. In other instances, powders or the like are blended into a liquid carrier while both are within the drinking vessel itself. It would be desirable to provide a portable drinking vessel that allows the user to have the capability of remixing or initially stirring the contents within the drinking vessel without the need to remove the contents from the container body or mix them prior to entry into the container.
In accordance with an embodiment of the present invention, a drinking vessel is provided which includes an elongated container body defining an interior cavity with an open end. The vessel further includes a generally cylindrical closure body selectively engageable over the open end of the container body. The closure body includes a lid component and a closure arm. The lid component includes a wall having a dispensing orifice and a vent orifice. Each of these orifices is in fluid-passing communication with the interior cavity of the container body. The closure arm is pivotally connected to the wall of the lid component at a location proximate the vent orifice and is movable between a closed position and an open position. The closure arm includes a first sealing member positioned for engaging the vent orifice when in the closed position and a second sealing member positioned for engaging the dispensing orifice when in the closed position.
In another embodiment, the drinking vessel comprises an elongated container body defining an interior cavity with an open end and a generally cylindrical closure body selectively engageable over the open end of the container body. The closure body includes a lid component and a closure arm, while the container body includes an outer surface. A first portion of the outer surface has a generally circular cross-sectioned cylindrical shape and a second portion of the outer surface has a generally polygonal cross-sectioned cylindrical shape, these first and second portions being longitudinally spaced with respect to each other. The lid component includes a wall having a dispensing orifice and a vent orifice, wherein each orifice is in fluid-passing communication with the interior cavity of the container body. The closure arm is pivotally connected to the wall of the lid component at a location proximate the vent orifice and movable between a closed position and an open position, the closure arm including a first sealing member sized, structured and positioned for engaging and sealing the vent orifice when in the closed position and for unsealing the vent orifice when in the open position, the closure arm including a second sealing member sized, structured and positioned for engaging and sealing the dispensing orifice in the closed position and for opening the dispensing orifice in the open position. This first sealing member further includes an elastomeric member that cooperates with a gasket of the vent orifice to provide a fluid-tight seal when the closure arm is in the closed position.
In a further embodiment, the drinking vessel comprises an elongated container body defining an interior cavity with an open end. Also included is a generally cylindrical closure body selectively engageable over the open end of the container body, the closure body including a lid component and a closure arm. The container body includes an outer surface, a first portion of the outer surface has a generally circular cross-sectioned cylindrical shape and a second portion of the outer surface has a generally polygonal cross-sectioned cylindrical shape, these first and second portions being longitudinally spaced with respect to each other. The lid component includes a wall having a dispensing orifice and a vent orifice, wherein each orifice is in fluid-passing communication with the interior cavity of the container body. The closure arm is pivotally connected to the wall of the lid component at a location proximate the vent orifice and movable between a closed position and an open position, with the closure arm having a first sealing member sized, structured and positioned for engaging and sealing the vent orifice when in the closed position and for unsealing the vent orifice when in the open position. Further, the closure arm includes a second sealing member sized, structured and positioned for engaging and sealing the dispensing orifice in the closed position and for opening the dispensing orifice in the open position, and the first sealing member further includes an elastomeric member that cooperates with a gasket of the vent orifice to provide a fluid-tight seal when the closure arm is in the closed position. The second portion of the outer surface further includes a plurality of spaced protrusions, and the generally polygonal cross-section shape of the second portion of the outer surface is substantially hexagonal.
In the course of this description, reference will be made to the accompanying drawings, wherein:
As required, detailed embodiments of the present invention are disclosed herein; however, it is to be understood that the disclosed embodiments are merely exemplary of the invention, which may be embodied in various forms. Therefore, specific details disclosed herein are not to be interpreted as limiting, but merely as a basis for the claims and as a representative basis for teaching one skilled in the art to variously employ the present invention and virtually any appropriate manner.
As described in more detail in the discussion of the different embodiments, the drinking vessels of the present disclosure have an improved structure that generally includes an opening for dispensing the contents from the drinking vessel and has an additional opening for venting air into the drinking vessel. The structure further includes a closure which provides for a fluid-tight seal of both openings and a fluid flow interrupter for mixing beverage contents while within the drinking vessel.
Turning to the embodiment of a drinking vessel illustrated in
In the illustrated embodiment, the container body 200 has a generally elongated shape, preferably generally cylindrical, with a bottom wall 202 and an upstanding side wall 204 which terminates in an open mouth 206. Together the bottom wall 202 and side wall 204 define an interior cavity 208 (see
In order to help a user better grip or otherwise hold the drinking vessel 10, the outer surface of the container body 200 is ergonomically shaped. As perhaps best illustrated in
The outer surface includes landing areas 218 positioned between every neighboring protrusion 216. In the illustrated embodiment, there are six landing areas 218, although the number of landing areas 218 can differ depending on the number of protrusions 216. In order to further affect the shape of the outer surface, additional protrusions 220 are placed on at least some of the landing areas 218. In the illustrated embodiment, the protrusions 220 are shorter than protrusions 216 and are generally oblong shaped. In the illustrated embodiment, a shorter protrusion 220 is positioned generally centered on four of the six landing areas. It will be appreciated that size, number, shape and placement of the protrusions 220 may be changed, if desired.
The placement of these protrusions 216 and 220 helps define the shape of the outer surface of the container body 200 and more specifically the gripping portion 212 to provide an ergonomical outer surface that allows for better gripping or holding of the drinking vessel 10. The bottom wall 202 of the container body 200 has a generally circular outer surface (see
The container body 200 is typically constructed from a high strength, lightweight material such as conventional polymers or metals suitable for containing food and beverage products. In the illustrated embodiment, the container body 200 is constructed of stainless steel and the protrusions 216 and 220 are stamped into the steel (see
As mentioned above, the open mouth 206 of the container body 200 is closed by the closure body 300 which generally includes a lid component 302 and a closure arm 304. The lid component 302 and closure arm 304 are typically molded and more specifically injection molded, out of conventional polymers such as polypropelenes. However, it will be appreciated that the invention is not limited to these materials and that any suitable material may be used.
As best shown in FIGS. 6 and 11-15, the lid component 302 preferably is generally circular in order engage the top portion of the container body. The lid component 302 has a flange 310 which extends downward from a top surface 312. In the illustrated embodiment, the top surface 312 is generally sloped; however, it will be appreciated that the top surface 312 may have a variety of configurations including being generally flat, convex or concave.
In the illustrated embodiment, the lid component 302 further includes a skirt 314 which has a circumferential recess 316 defined on the top surface 312. The recess 316 is sized to tightly receive an end portion of flange 310. A gasket 318 may be positioned within recess 316 in order to render a fluid-tight seal between flange 310 and skirt 314. Alternatively, the skirt and flange could be integrally formed. Optionally, a decorative element 320 may be positioned around at least a portion of flange 310. In the illustrated embodiment, the decorative element 320 is a stainless steel ring. It is appreciated that the decorative element 320 could be constructed of different materials or may also serve as a surface for the imprinting of trademark, advertising or graphical materials for the purposes of branding, advertising or promotion. However, it also will be understood by those skilled in the art that the shape and material used to construct the lid component 302 can be modified without departing from the spirit and scope of the invention. For example, the lid component 302 can be virtually in the form of any shape that is capable of covering the open mouth 206 of the container body 200.
As mentioned above, the container body 200 is selectively secured to the closure body 300. In the illustrated embodiment, the top portion 214 of the container body 200 includes threads 222 for selectively engaging corresponding grooves 322 on an interior surface of the lid component 302 of the closure body 300. Accordingly, the container body 200 and closure body 300 may thus be selectively threadedly engaged or disengaged as desired. When the components are engaged the interior cavity 208 is formed into a closed, fluid-tight cavity.
As perhaps best illustrated in
In order to allow the beverage to be selectively dispensed from the drinking vessel 10 and to allow the flow air into the interior cavity 208 of the container body 200 during use, the lid component 302 defines a dispensing orifice 308 and a vent orifice 306 on the top surface 312. Both of these orifices 306 and 308 are passageways which extend completely through the top Surface 312. In the illustrated embodiment, the vent orifice 306 is a bore which is positioned within a depression 324 on the top surface 312. The depression 324 is sized to receive at least an end portion of the closure arm 304 and allow the closure arm 304 to be pivoted without interference with the top surface 312. As shown in the drawings, the dispensing orifice 308 is surrounded by a raised annular spout 326 which allows a user to more easily drink the contents of the drinking vessel 10.
In order to allow the user to selectively dispense the contents from the drinking vessel, the closure body 300 includes an elongated closure arm 304 that is pivotally mounted to the lid component 302. In the illustrated embodiment a hinge configuration allows the closure arm 304 to be pivoted by the user between a closed position (see
It will be appreciated that any variety of hinge configurations could be used; however, in the embodiment shown in
It will be appreciated that the shoulders 332 may be integrally formed with the lid component 302 or alternatively separately secured to the top surface by any conventional assembly techniques known in the art. Alternatively, the location of the pins 328 and sockets 330 could be interchanged such that the pins 328 are formed on the shoulders 332 and the sockets 330 are formed on the closure arm 304. Further, one skilled in the art will appreciate a variety of other configurations that allow the closure arm to pivot between the open and closed positions may be used without departing from the spirit and scope of the invention. For example, the closure arm may be integrally constructed with the lid component and form a “living” hinge.
In order to help the user more readily grasp and move the closure arm 304 between the open and closed positions, at least one tab 334 may be formed on the closure arm. In the illustrated embodiment, the tab 334 is located at the free end of the closure arm 304 and is sized and configured for grasping by the user. It will be appreciated that the tab 334 may be positioned elsewhere on the closure arm 304 or have other configurations than illustrated.
The closure arm 304 includes at least two sealing members which are used to create a fluid-tight seal with the vent and dispensing orifices. The first sealing member 336 interacts with the vent orifice 306 and the second sealing member 338 interacts with the dispensing orifice 308. The sealing members 336 and 338 are positioned on the closure arm 304 such that each member engages its respective orifice when the closure arm 304 is in the closed position. When engaged, each sealing member and its respective orifice cooperate to seal and otherwise prevent the contents from unintentionally spilling or leaking out of the drinking vessel 10.
In the illustrated embodiment, the first sealing member 336 includes projection or plug which extends from a bottom surface of the closure arm 304. The projection is positioned such that when the closure arm 304 is in the closed position the first sealing member 336 cooperatively engages with the vent orifice 306 to prevent fluid flow therethrough. Preferably, the first sealing member 336 further includes an elastic seal member 340, such as an elastomer, that covers at least an end of the projection. In the embodiment illustrated in
A gasket 342 surrounds the vent orifice 306 on the top surface of the lid component 302 to help form a fluid-tight seal between the first sealing member 336 and vent orifice 306. When the closure arm 304 is in the closed position, the gasket 342 cooperatively interacts with first sealing member and more specifically the seal member 340 on the end of the projection. In the illustrated embodiment, the gasket 342 is an elastomer that is overmolded into a channel 343 formed on the bottom surface of the lid component 302. The gasket 342 has a disc shaped end that creates a rim around the vent orifice 306. Preferably, the gasket 342 is a thermoplastic elastomer; however, it is appreciated that other materials may be used. Examples include Trefsan™ elastomers and Proflex® thermoplastic elastomers, such as Proflex GE-S Series elastomers. Included are compositions of styrenic block copolymers, including blends thereof with polypropylene and/or processing oil and other conventional additives.
In the embodiment illustrated in
It will be appreciated that elastomeric surfaces or components can be provided to enhance sealing at either or both of the vent or dispersing passageway components. Elastomeric surfaces or components can be provided on either or both of the closure arm side or the lid component side.
The drinking vessel 10 may further include a fluid flow interrupter 344 positioned within the interior cavity 208 for agitating, stirring or mixing of the contents of the drinking vessel. In the illustrated embodiment, the fluid flow interrupter 344 is connected to the skirt 314 of the lid component 302. More specifically, the interrupter 344 in the embodiment shown in the figures includes multiple spokes which extend or slope generally downward into the interior cavity 208 from an inner flange of the skirt 314. The spokes are spaced apart from one another enough to allow fluid to flow relatively easily therethrough but also to provide enough disturbance to the fluid. The spokes are connected to one another via a central hub. As shown, the interrupter 344 is constructed of a plastic material such as polypropylene; however, it is appreciated that a variety of other suitable materials may be used. It will also be understood by those skilled in the art that there are a variety of other suitable ways and forms to include fluid flow interrupters in the drinking vessel without departing from the spirit and scope of the invention. For example, the interrupter may be a separate piece that is inserted into the interior cavity. Also the interrupter can be stationary or moveable.
In operation, a user may insert the desired beverage through the open mouth 206 and into the interior cavity 208 of the container body 200. The user may selectively secure the closure body 300 to the top portion 214 of the container body 200. With the closure arm 304 in the closed position, a user may manually or otherwise shake the drinking vessel to create a disturbance of the beverage within the drinking vessel 10. When the user desires to drink the beverage, the user may pivot the closure aim 304 to the open position to unseal the dispensing orifice 308 and venting orifice 306. In this position, the beverage can be selectively dispensed from the dispensing orifice 308 and air can enter through the venting orifice 306 into the interior cavity 208 of container body 200 to allow the beverage to be dispensed out of the drinking vessel 10 more rapidly and with less exertion by the user. When the user no longer wants to dispense the beverage, the closure arm 204 can be pivoted back to the closed position such that each sealing member engages its respective orifice and create a fluid-tight seal.
It will be understood that the above examples are merely exemplary of the drinking vessel and valve arrangement of the present disclosure. Variations of these examples may become apparent to those of ordinary skill in the art upon reading the foregoing description. It will be appreciated that skilled artisans may employ such variations as desired, and drinking vessels and valves of the present disclosure may be constructed otherwise than as specifically described herein. Accordingly, all modifications and equivalents of the subject matter described herein are intended to be covered by the claims appended hereto as permitted by applicable law. Moreover, any combination of the above-described elements and all possible variations thereof are encompassed by the present disclosure unless otherwise indicated herein or otherwise clearly contradicted by context.
This application claims the benefit of U.S. Provisional Application No. 61/313,504, filed Mar. 12, 2010, which is incorporated herein by reference in its entirety.
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Number | Date | Country | |
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20110220674 A1 | Sep 2011 | US |
Number | Date | Country | |
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61313504 | Mar 2010 | US |