Adjustable vessel holders include closures with an open position and a closed position that enables the vessel holders to be adjusted to hold vessels of different sizes.
Can holders that encircle the circumference and bottom of a can while leaving the top exposed for a user to drink from the can are known as koozies®. These commonly are formed of a foam polymer that has an internal circumference that allows the can holder to hug the can once inserted, and the holder includes a bottom that prevents the can from falling out of the bottom of the holder. The holder is often insulated.
According to certain implementations, an adjustable vessel holder is configured to be adjusted between a first position and a second position and includes a sleeve and at least two closures coupled to the sleeve. The at least two closures configured to have a closed position and an open position. In the closed position of the closures, the adjustable vessel holder is in the first position and is configured to receive a vessel having a first external circumference. In the open position of the closures, the adjustable vessel holder is in the second position and is configured to receive a different vessel having a second external circumference larger than the first.
In various implementations and alternatives, at least one of the closures may be a zipper, or a hook and loop closure. Between the closed and open positions of the at least two closures, the closures may have one or more intermediate positions. The sleeve may have a bottom portion configured to support a bottom of a vessel upon insertion into the vessel holder. At least one of the closures may be coupled to a sidewall of the sleeve.
In various implementations and alternatives, in the first position, the vessel holder at a top end has a first internal perimeter, and in the second position, the vessel holder at the top end has a second internal perimeter that is larger than the first internal perimeter. In such implementations, in the first position and second position, the vessel holder may have an internal perimeter at a bottom end of the vessel holder that is substantially the same, and the internal perimeter at the bottom end of the vessel holder is smaller than the second internal perimeter at the top end of the vessel.
In various implementations and alternatives, the sleeve includes a gusset configured to expand in the open position of the closure. The vessel holder may be constructed of an insulated material.
In various implementations and alternatives, in the first position, the vessel holder may be configured to hold a beverage can having an external circumference, and in the second position, the vessel holder is configured to hold a cup with at least a portion having a larger external circumference compared to the external circumference of the beverage can.
According to further implementations, an adjustable vessel holder is configured to be adjusted between a first position and a second position, and includes sleeve and at least one closure coupled to the sleeve and a gusset coupled to the sleeve. The at least one closure is configured to have a closed position and an open position. In the closed position of the closure, the gusset is collapsed and the adjustable vessel holder is in the first position and is configured with a first internal perimeter configured to receive a first vessel having a first external circumference. In the open position of the closure, the gusset is expanded such that the adjustable vessel holder is in the second position and is configured with a second internal perimeter that is larger than the first internal perimeter and is configured to receive a different vessel having a larger external circumference relative to the first vessel.
In various implementations and alternatives, in the first position and second position, the vessel holder has an internal perimeter at a bottom end of the vessel holder that is substantially the same, and the internal perimeter at the bottom end of the vessel holder is smaller than the second internal perimeter at the top end of the vessel.
In various implementations and alternatives, the at least one closure is a zipper or a hook and loop closure.
In various implementations and alternatives, the sleeve includes a bottom portion configured to support a bottom of a vessel upon insertion into the vessel holder.
In various implementations and alternatives, the at least one closure includes two closures. The vessel holder may be constructed of an insulated material. The sleeve may be constructed of at least one of a flexible polymer, a fabric, or combinations.
According to further implementations, an adjustable beverage container holder is configured to be adjusted between a first position and a second position and includes a sleeve and at least one closure coupled to the sleeve and a gusset coupled to the sleeve. The at least one closure is configured to have a closed position and an open position. In the closed position of the closure, the gusset is collapsed and the adjustable beverage container holder is in the first position and is configured with a first internal perimeter configured to receive a first beverage container having a first external circumference. In the open position of the closure, the gusset is expanded such that the adjustable beverage container holder is in the second position and is configured with a second internal perimeter that is larger than the first internal perimeter and is configured to receive a different beverage container having a larger external circumference relative to the first beverage container.
Disclosed are adjustable vessel holders configured to be adjusted between a first position and a second position to enable the vessel holders to be adjusted to hold vessels of different sizes. For instance, in a first position, the vessel holder may be configured to hold a can (e.g. holding a beverage), and in the second position, the vessel holder may be configured to hold a cup for holding liquid. The adjustable vessel holders are adjustable due to at least one closure being coupled to a sleeve that can be moved between a closed and an open position. This enables the adjustable vessel holders to have an adjustable internal volume.
Referring to
The sleeve 20 of the adjustable vessel holder 10 may be formed of a flexible or pliable material such as a polymer (e.g., polyethylene, polypropylene, neoprene), a fabric (e.g., cotton, nylon, wool) or combinations (e.g. a fabric covered polymer foam). The material may be woven, knit and so on. The sleeve 20 may be formed of multiple segments, or may be unitarily formed one piece of material. The sleeve 20 may be configured with elasticity to enable the adjustable vessel holder 10 to conform to an external surface of a vessel inserted therein. For instance, the sleeve 20 may include a flexible polymer such as a foamed polypropylene that may expand upon insertion of a vessel. The sleeve 20 may additionally or alternatively be configured with pliable material that does not necessarily have elasticity or much elasticity (e.g., woven cotton or nylon). Particularly, because the adjustable vessel holder 10 includes at least one closure (e.g., closure 30), the sleeve 20 may be constructed of a material that can pliably surround a vessel inserted in to the vessel holder 10 but the material does not require elasticity since the closure can be opened prior to insertion of the vessel, and be closed, at least partially or fully, upon insertion of the vessel. In some implementations, the sleeve 20 may be insulated to assist with keeping a cooled beverage cool while arranged in the adjustable vessel holder 10.
The closure of the adjustable vessel holder 10, e.g., one or more of closures 30, 40, may extend along a sidewall 120 of the sleeve 20 and be coupled to the sleeve 20. The coupling may be via fastening, adhering, joining, gluing, sewing, and so on. In a closed position of the vessel holder 10, the sleeve and the closure may define an internal volume that may be shaped cylindrically (see, e.g.,
The one or more closures, e.g., closures 30, 40, may be configured as one or more of a zipper, a hook and loop closure, a snap closure, a hook closure, a folding closure, a magnetic closure, a fan-shaped closure, and combinations thereof. One, two, three, four or more closures may be provided on the adjustable vessel holder 10. The closure may cause two edges of the sleeve 20, e.g., edges of the sidewall 120, to be drawn together when the closure moves from the open position (
In some implementations, the closure causes a gusset 122 (see
In some implementations, a bottom portion 70 of the adjustable vessel holder 10 is optionally provided. The bottom portion 70 may be integrally formed with the sleeve 20 or may be separately constructed and joined to the sleeve 20.
In some implementations, a lip 124 may be provided on a top portion 50 of the adjustable vessel holder 10. The lip 124 may be integrally formed by the sleeve 20 or may be separately constructed and joined to the sleeve 20. The lip 124 may define the opening of the adjustable vessel holder 10 where the vessel is inserted. The lip 124 may facilitate securing the vessel in an interior of the adjustable vessel holder 10, for instance, by providing a slightly smaller internal perimeter at the opening of the vessel holder 10 as compared to a region below the opening where the lip 124 terminates and the sleeve 20 is provided as the internal perimeter of the adjustable vessel holder 10.
The adjustable vessel holder 10 may be constructed by adjoining the sleeve 20 to the one or more closures, e.g., closures 30, 40, to define an internal volume (e.g., with a generally cylindrical shape) with at least one opened end, e.g., at the top end 50 of the adjustable vessel holder 10. The construction enables the closure of the adjustable vessel holder 10 to remain in a closed position or an opened position as desired, and can be moved between the opened and closed positions by a user separating or fastening the closure with one or two hands.
In one example of use, the adjustable vessel holder 10 is provided in a closed position and a beverage can is inserted therein. The can may have a diameter of about 1.6 to 2.8 inches, and at least the top end 50 of the adjustable vessel holder 10 may have an internal perimeter that can receive the external circumference of such a can. For instance, where the diameter of the can is 2.6 inches and the circumference is 8.2 in., the first internal perimeter 80 of the adjustable vessel holder 10 may have a circumference of about 8.2 in. or slightly smaller or slightly larger (e.g. +/−0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9 or 1.0 in.) depending on the material used to construct the sleeve 20 and closure 30 and/or 40. A bottom end 60 of the adjustable vessel holder 10 may have a similar internal perimeter as the top end 50 or may be slightly smaller or slightly larger (e.g. +/−0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9 or 1.0 in.). Continuing with this example of use, in the open position of the adjustable vessel holder 10, while the beverage can may still be received therein, other vessels may be used to replace the can. In the open position, the second internal circumference 90 may be relatively larger and may have a perimeter adapted to receive a cup with a tapering sidewall. The cup may have a diameter of about 3.0 to 4.2 inches, and the adjustable vessel holder 10 may have a second internal circumference that can receive the cup. For instance, where the diameter of the cup at its top end is about 3.5 inches and an outer circumference of about 11 in., the top end 50 of the adjustable vessel holder 10 may have a second internal perimeter 90 with a circumference of about 11 in. or slightly smaller or slightly larger (e.g. +/−0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9 or 1.0 in.) depending on the material used to construct the sleeve 20 and closure 30 and/or 40. It will be understood that the internal perimeter of the adjustable vessel holder 10 may include any internal perimeter and that the vessel holder 10 generally includes a smaller internal perimeter in the closed position of the closure(s). The height of the adjustable vessel holder may be about 4.0 to about 10.0 in., about 4.0 to about 8.0 in., about 4.0 to about 6.0 in., about 3.0 to about 6.0 in., or about 5.5 in. When the vessel is inserted, the internal perimeter of the vessel holder 10 may conform to the vessel and may define an internal circumference that conforms to all or a portion of the external circumference of the vessel inserted therein. In addition, the internal perimeter 80 at the top end 50 of the adjustable vessel holder 10 may be different from an internal perimeter at the bottom end 60 of the adjustable vessel holder 10. For instance, the adjustable vessel holder 10 may be configured to have a top internal perimeter with a circumference of about 11.4 in., a bottom internal perimeter with a circumference of about 9.25 in., and a height of about 5.5 in.
In some implementations, the adjustable vessel holder 10 can move between the closed and open positions by way of one or more intermediate positions in order to receive vessels of a variety of sizes, e.g., 5-10, 10-20, 10-50, 10-100 or more different sizes. A zipper closure and/or a hook and loop closure, for instance, may be moved to many different partially open or partially closed positions between the top end 50 and the bottom end 60 of the adjustable vessel holder 10. Accordingly, the closure(s) may be incrementally adjusted between the open and the closed positions.
Various components of the adjustable vessel holder 10 may be integrally constructed or constructed using methods of fastening or fasteners. The integral construction may be, for instance, by molding (e.g., injection molding) a chemically inert polymer such as HDPE, PTFE or PVDF, plastic, material, and so on. These and other materials may be fastened to form the adjustable vessel holder 10.
Although certain embodiments of the present disclosure are described herein with reference to the examples in the accompanying figures, it would be apparent to those skilled in the art that several modifications to the described embodiments, as well as other embodiments of the present invention are possible without departing from the spirit and scope of the present disclosure.
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Number | Date | Country |
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304889941 | Nov 2018 | CN |
Entry |
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Notice of Grant received for Chinese Design Patent Application No. 2017305120860 dated Sep. 5, 2018, 5 pages including 2 pages of English translation. |
Number | Date | Country | |
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20210052096 A1 | Feb 2021 | US |