Patent Application
20250002213
The present general inventive concept relates generally to drinkware, and particularly, to a universal drinkware connector.
Drinkware come in a wide variety of shapes, sizes, and/or types. In general, drinkware are containers for holding a liquid, such as a beverage that may be consumed during drinking by a user. Typically, most drinkware includes glasses and/or cups that are used for drinking.
However, there are additional types of drinkware that have additional functionality. In particular, other drinkware may be insulated drinkware and/or sealed drinkware. These types of drinkware include tumblers, mugs, bottles, jugs, can coolers, and/or can sleeves. Additionally, these types of drinkware are often used for travel and/or storage that allow the liquid to be maintained at a given temperature (e.g., hot, cold) based on a preference of a user.
The wide range of shapes, sizes, and/or types of the drinkware prevent them from easily connecting to each other, such as at an opening of each drinkware. Moreover, each drinkware uses its own type of a lid to cover contents within the drinkware that cannot be used with other drinkware. Thus, the existing types of drinkware have no attachment that allows them to connect to other drinkware of different brands.
One brand of drinkware manufacturer, Aged & Ore, have a travel decanter that is transported between two insulated tumblers to prevent leaks and/or spillage. However, this travel decanter makes no use of an attachment and/or any other connector to transport the travel decanter. Instead, the travel decanter requires the specific two insulated tumblers to be used rather than allow any other type or brand of drinkware to connect together. In other words, the insulated tumblers would not connect to a bottle and/or a jug developed by another manufacturer.
Therefore, there is a need for a universal drinkware connector that connects different types, sizes, and/or brands of drinkware together.
The present general inventive concept provides a universal drinkware connector.
Additional features and utilities of the present general inventive concept will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the general inventive concept.
The foregoing and/or other features and utilities of the present general inventive concept may be achieved by providing a universal drinkware connector to connect a first drinkware to a second drinkware, the universal drinkware connector including a central aperture to receive a beverage container therethrough, a first wall circumferentially disposed around the central aperture at a first end of the central aperture to removably connect to the first drinkware, a second wall circumferentially disposed around the central aperture at a second end of the central aperture to removably connect to the second drinkware, and an outer barrier disposed between the first wall and the second wall to separate the first drinkware from the second drinkware while the first drinkware and the second drinkware are connected to the outer barrier.
The first wall may have a size greater than a size of the second wall.
The first wall may have a shape different than a shape of the second wall.
An outer surface of the first wall may taper from a center of the central aperture toward the first end of the central aperture.
The first wall may connect to the first drinkware differently than the second wall connects to the second drinkware.
The foregoing and/or other features and utilities of the present general inventive concept may also be achieved by providing a universal drinkware connector to connect a first drinkware to a second drinkware, the universal drinkware connector including a central surface, including a protrusion receiving channel disposed on at least a portion of the central surface, and a dispensing aperture disposed on at least a portion of an edge of the central surface to dispense at least one liquid therethrough, a first wall circumferentially disposed around the central surface at a first end of the central surface to removably connect to the first drinkware, a second wall circumferentially disposed around the central surface at a second end of the central surface to removably connect to the second drinkware, and a slider movably connected to at least a portion of the central surface to cover the dispensing aperture in a first position and at least partially uncover the dispensing aperture in a second position.
The central surface may reduce an amount of the at least one liquid being dispensed through the dispensing aperture by obstructing the at least one liquid as it moves through the dispensing aperture during dispensing.
The slider may form an air tight and liquid tight seal while the slider is disposed over the dispensing aperture.
The slider may include a protruding portion angularly disposed away from the slider and disposed within the protrusion receiving channel to facilitate movement of the slider on the central surface.
The universal drinkware connector may further include an outer barrier disposed between the first wall and the second wall to separate the first drinkware from the second drinkware while the first drinkware and the second drinkware are connected to the outer barrier.
The foregoing and/or other features and utilities of the present general inventive concept may also be achieved by providing a universal drinkware connector to connect a first drinkware to a second drinkware, the universal drinkware connector including a central aperture to receive a beverage container therethrough, a first wall circumferentially disposed around the central aperture at a first end of the central aperture to removably connect to the first drinkware, a second wall circumferentially disposed around the central aperture at a second end of the central aperture to removably connect to the second drinkware, an outer barrier disposed between the first wall and the second wall to separate the first drinkware from the second drinkware while the first drinkware and the second drinkware are connected to the outer barrier, a pressure switch movably disposed on at least a portion of the outer barrier to move from a first position to at least partially toward a second position with respect to a first lateral direction, and move from the second position to the first position with respect to a second lateral direction, and a plurality of sealing members disposed on and within at least a portion of the outer barrier to cover openings in the outer barrier in response to moving the pressure switch in the first position, and uncover the openings in the outer barrier in response to moving the pressure switch in the second position.
The plurality of sealing members may affect a pressure level within the first drinkware and the second drinkware based on movement of air therethrough.
The plurality of sealing members may increase a pressure level within the first drinkware and the second drinkware in response to covering the openings.
The plurality of sealing members may decrease a pressure level within the first drinkware and the second drinkware in response to uncovering the openings.
The plurality of sealing members may be circumferentially disposed around a perimeter of the outer barrier and distanced from each other.
The foregoing and/or other features and utilities of the present general inventive concept may also be achieved by providing a universal drinkware connector to connect a first drinkware to a second drinkware, the universal drinkware connector including a central surface, including a protrusion receiving channel disposed on at least a portion of the central surface, and a dispensing aperture disposed on at least a portion of an edge of the central surface, a first wall circumferentially disposed around the central surface at a first end of the central surface to removably connect to the first drinkware, a second wall circumferentially disposed around the central surface at a second end of the central surface to removably connect to the second drinkware, a slider movably connected to at least a portion of the central surface to cover the dispensing aperture in a first position and at least partially uncover the dispensing aperture in a second position, an outer barrier disposed between the first wall and the second wall to separate the first drinkware from the second drinkware while the first drinkware and the second drinkware are connected to the outer barrier, a pressure switch movably disposed on at least a portion of the outer barrier to move from a first position to at least partially toward a second position with respect to a first lateral direction, and move from the second position to the first position with respect to a second lateral direction, and a plurality of sealing members disposed on and within at least a portion of the outer barrier to cover openings in the outer barrier in response to moving the pressure switch in the first position, and uncover the openings in the outer barrier in response to moving the pressure switch in the second position.
The plurality of sealing members may affect a pressure level within the first drinkware and the second drinkware based on movement of air therethrough.
The plurality of sealing members may increase a pressure level within the first drinkware and the second drinkware in response to covering the openings.
The plurality of sealing members may decrease a pressure level within the first drinkware and the second drinkware in response to uncovering the openings.
The plurality of sealing members may be circumferentially disposed around a perimeter of the outer barrier and distanced from each other.
These and/or other features and utilities of the present generally inventive concept will become apparent and more readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:
Various example embodiments (a.k.a., exemplary embodiments) will now be described more fully with reference to the accompanying drawings in which some example embodiments are illustrated. In the figures, the thicknesses of lines, layers and/or regions may be exaggerated for clarity.
Accordingly, while example embodiments are capable of various modifications and alternative forms, embodiments thereof are shown by way of example in the figures and will herein be described in detail. It should be understood, however, that there is no intent to limit example embodiments to the particular forms disclosed, but on the contrary, example embodiments are to cover all modifications, equivalents, and alternatives falling within the scope of the disclosure. Like numbers refer to like/similar elements throughout the detailed description.
It is understood that when an element is referred to as being “connected” or “coupled” to another element, it can be directly connected or coupled to the other element or intervening elements may be present. In contrast, when an element is referred to as being “directly connected” or “directly coupled” to another element, there are no intervening elements present. Other words used to describe the relationship between elements should be interpreted in a like fashion (e.g., “between” versus “directly between,” “adjacent” versus “directly adjacent,” etc.).
The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments. As used herein, the singular forms “a,” “an” and “the” are intended to include the plural forms as well, unless the context clearly indicates otherwise. It will be further understood that the terms “comprises,” “comprising,” “includes” and/or “including,” when used herein, specify the presence of stated features, integers, steps, operations, elements and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components and/or groups thereof.
Unless otherwise defined, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which example embodiments belong. It will be further understood that terms, e.g., those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the relevant art. However, should the present disclosure give a specific meaning to a term deviating from a meaning commonly understood by one of ordinary skill, this meaning is to be taken into account in the specific context this definition is given herein.
The universal drinkware connector 100 may be constructed from at least one of plastic, metal, glass, wood, and rubber, etc., but is not limited thereto. The universal drinkware connector 100 may be transparent or opaque based on a preference of a user and/or a manufacturer.
Referring to
Referring again to
The central aperture 110 may have a size (e.g., a diameter, a circumference) and/or a shape corresponding to a size (e.g., a diameter, a circumference) and/or a shape of a beverage container 30 (i.e., a transport vessel). Specifically, the size of the central aperture 110 may be greater than the size of the beverage container 30 to receive and/or snugly fit the beverage container 30 therethrough.
The first wall 120 may include a first inner surface 121 and a first outer surface 122, but is not limited thereto.
The first inner surface 121 may be circumferentially disposed around a perimeter (i.e., a circumference) of a first end of the central aperture 110 and on a first side of the first wall 120. In other words, the first inner surface 121 may form a border around the central aperture 110.
The first outer surface 122 may be disposed on a second side of the first wall 120 opposite with respect to the first side of the first wall 120. Moreover, the first outer surface 122 may border around the first inner surface 121. Also, the first outer surface 122 may have a size (e.g., a diameter, a circumference) greater than a size (e.g., a diameter, a circumference) of the first inner surface 121. Although the first outer surface 122 is illustrated to have a shape (e.g., cylindrical) similar to a shape (e.g., cylindrical) of the first inner surface 121, the shape of the first outer surface 122 may be different from the shape of the first inner surface 121. For example, the shape of the first inner surface 121 may be circular and the shape of the first outer surface 122 may be rectangular. This difference in shape may be beneficial for the shape and/or the size of the beverage container 30 with respect to the first inner surface 121, while the first outer surface 122 may be used for storage on a planar surface (e.g., a desk, a table) without rolling movement.
Furthermore, the first outer surface 122 may taper (i.e., narrow) from a center of the central aperture 110 toward the first end of the central aperture 110 and/or an edge of the first wall 120 between the first inner surface 121 and/or the first outer surface 122. In other words, the size of the first outer surface 122 at the center of the central aperture 110 may be greater than the size of the first outer surface 122 at the edge of the first wall 120 and/or the first end of the central aperture 110.
Referring again to
The second wall 130 may include a second inner surface 131 and a second outer surface 132, but is not limited thereto.
The second inner surface 131 may be circumferentially disposed around a perimeter (i.e., a circumference) of a second end of the central aperture 110 and on a first side of the second wall 130. In other words, the second inner surface 131 may form a border around the central aperture 110.
The second outer surface 132 may be disposed on a second side of the second wall 130 opposite with respect to the first side of the second wall 130. Moreover, the second outer surface 132 may border around the second inner surface 131. Also, the second outer surface 132 may have a size (e.g., a diameter, a circumference) greater than a size (e.g., a diameter, a circumference) of the second inner surface 131. Although the second outer surface 132 is illustrated to have a shape (e.g., cylindrical) similar to a shape (e.g., cylindrical) of the second inner surface 131, the shape of the second outer surface 132 may be different from the shape of the second inner surface 131. For example, the shape of the second inner surface 131 may be circular and the shape of the second outer surface 132 may be rectangular. This difference in shape may be beneficial for the shape and/or the size of the beverage container 30 with respect to the second inner surface 131, while the second outer surface 132 may be used for storage on a planar surface (e.g., a desk, a table) without rolling movement.
Furthermore, the second outer surface 132 may taper (i.e., narrow) from a center of the central aperture 110 toward the second end of the central aperture 110 and/or an edge of the second wall 130 between the second inner surface 131 and/or the second outer surface 132. In other words, the size of the second outer surface 132 at the center of the central aperture 110 may be greater than the size of the second outer surface 132 at the edge of the second wall 130 and/or the second end of the central aperture 110.
Referring again to
The size and/or the shape of the first outer surface 122 may be equivalent to the size and/or the shape of the second outer surface 132. Alternatively, the size and/or the shape of the first outer surface 122 may be different from the size and/or the shape of the second outer surface 132. For example, the size of the first outer surface 122 may be less than or greater than the size of the second outer surface 132. Accordingly, the first wall 120 may receive a first type, size, shape, and/or brand of drinkware while the second wall 130 may receive a second type, size, shape, and/or brand of drinkware different from the drinkware on the first wall 120.
The outer barrier 140 may be circumferentially disposed around a perimeter (i.e., a circumference) of a center between the first outer surface 122 and/or the second outer surface 132. Additionally, the outer barrier 140 may have a size (e.g., a diameter, circumference) greater than the size of the first outer surface 122 and/or the second outer surface 132. Accordingly, the outer barrier 140 may protrude away from the central aperture 110 at a distance greater than the first outer surface 122 and/or the second outer surface 132 being disposed around the central aperture 110.
The first gasket 150 may be circumferentially disposed on at least a portion of the first outer surface 122. The first gasket 150 may provide a seal.
The second gasket 160 may be circumferentially disposed on at least a portion of the second outer surface 132. The second gasket 160 may provide a seal.
The handle 170 may be disposed on at least a portion of the outer barrier 140. The handle 170 may facilitate gripping thereof. Additionally, the handle 170 may have a fastener connected thereto. For example, the handle 170 may have a hook, a clasp, a clamp, a clip, an adhesive (e.g., tape, glue), a magnet, and/or any combination thereof. As such, the fastener may detachably connect to an external object, such as a bag, backpack, article of clothing, etc. Also, the fastener may detachably connect to other accessories, such as a spoon, a fork, a knife, a straw, and/or any other accessory. Alternatively, the accessory may be detachably connected to any other portion of the universal drinkware connector 100.
Referring to
Subsequently, the central aperture 110 may receive a beverage container 30 therethrough. Finally, the second wall 130 may be removably disposed (i.e., inserted) within a second drinkware 20, such as tumblers, mugs, bottles, jugs, can coolers, can sleeves, and/or other types of insulated drinkware. Thus, the second wall 130 may have a size and/or a shape corresponding to a size (e.g., diameter, circumference) and/or a shape (e.g., a circle, cylindrical) of an opening of the second drinkware 20. As such, the second wall 130 may be constructed based on a known type and/or a known brand of the second drinkware 20, such as Igloo, Yeti, Corkcicle, Seriously Ice Cold, RTIC, Pelican, Coleman, Thermos, and/or any other drinkware. It is important to note that the second drinkware 20 may be similar to the first drinkware 10 or different in size, shape, type, and/or brand.
Therefore, the first drinkware 10 and/or the second drinkware 20 may simultaneously store the beverage container 30 therein through the central aperture 110, such that the beverage container 30 may be stored at a preconfigured temperature (e.g., hot, cold) where the first drinkware 10 and/or the second drinkware 20 are insulated drinkware.
Furthermore, as described above previously, the first wall 120 may threadably connect to a threaded surface within the first drinkware 10. Similarly, the second wall 130 may threadably connect to a threaded surface within the second drinkware 20. As such, the first outer surface 122 of the first wall 120 and/or the second outer surface 132 of the second wall 130 may have the shape and/or the size corresponding to the size and/or the shape of the first drinkware 10 and/or the second drinkware 20, respectively.
As such, the first wall 120 may connect the first drinkware 10 to the second drinkware 20 using the second wall 130.
Referring again to
The first gasket 150 may form an air tight and/or liquid tight (i.e., water tight) seal while the first wall 120 is disposed within the first drinkware 10. Moreover, the first gasket 150 may resist removal of the first wall 120 from the first drinkware 10. In other words, the first gasket 150 may prevent accidental removal of the first wall 120 from the first drinkware 10. For example, the first gasket 150 may be constructed of rubber and/or increase a friction level against an interior of the first drinkware 10.
The second gasket 160 may form an air tight and/or liquid tight (i.e., water tight) seal while the second wall 130 is disposed within the second drinkware 20. Moreover, the second gasket 160 may resist removal of the second wall 130 from the second drinkware 20. In other words, the second gasket 160 may prevent accidental removal of the second wall 130 from the second drinkware 20. For example, the second gasket 160 may be constructed of rubber and/or increase a friction level against an interior of the second drinkware 20.
Therefore, the universal drinkware connector 100 may connect the first drinkware 10 to the second drinkware 20. Also, the universal drinkware connector 100 may facilitate transport of the beverage container 30 while the universal drinkware connector 100 is connected to the first drinkware 10 and/or the second drinkware 20.
The universal drinkware connector 200 may be constructed from at least one of plastic, metal, glass, wood, and rubber, etc., but is not limited thereto. The universal drinkware connector 200 may be transparent or opaque based on a preference of a user and/or a manufacturer.
Referring to
Referring again to
The central surface 210 may include a protrusion receiving channel 211 and a dispensing aperture 212 (i.e., a pour spout), but is not limited thereto.
The protrusion receiving channel 211 may be disposed on at least a portion of the central surface 210. The protrusion receiving channel 211 may be elongate to facilitate movement therein.
The dispensing aperture 212 may be disposed on at least a portion of an edge of the central surface 210. The dispensing aperture 212 may receive at least one liquid therethrough.
The first wall 220 may include a first inner surface 221 and a first outer surface 222, but is not limited thereto.
The first inner surface 221 may be circumferentially disposed around a perimeter (i.e., a circumference) of a first end of the central surface 210 and on a first side of the first wall 220. In other words, the first inner surface 221 may form a border around the central surface 210.
The first outer surface 222 may be disposed on a second side of the first wall 220 opposite with respect to the first side of the first wall 220. Moreover, the first outer surface 222 may border around the first inner surface 221. Also, the first outer surface 222 may have a size (e.g., a diameter, a circumference) greater than a size (e.g., a diameter, a circumference) of the first inner surface 221. Although the first outer surface 222 is illustrated to have a shape (e.g., cylindrical) similar to a shape (e.g., cylindrical) of the first inner surface 221, the shape of the first outer surface 222 may be different from the shape of the first inner surface 221. For example, the shape of the first inner surface 221 may be circular and the shape of the first outer surface 222 may be rectangular.
Furthermore, the first outer surface 222 may taper (i.e., narrow) from a plane of the central surface 210 as disposed on the first inner surface 221 toward an edge of the first wall 220 at a distance furthest from the central surface 210 on the first wall 220 between the first inner surface 221 and/or the first outer surface 222. In other words, the size of the first outer surface 222 along the plane of the central surface 210 as disposed on the first inner surface 221 may be greater than the size of the first outer surface 222 at the edge of the first wall 220.
Referring again to
The second wall 230 may include a second inner surface 231 and a second outer surface 232, but is not limited thereto.
The second inner surface 231 may be circumferentially disposed around a perimeter (i.e., a circumference) of a second end of the central surface 210 and on a first side of the second wall 230. In other words, the second inner surface 231 may form a border around the central surface 210.
The second outer surface 232 may be disposed on a second side of the second wall 230 opposite with respect to the first side of the second wall 230. Moreover, the second outer surface 232 may border around the second inner surface 231. Also, the second outer surface 232 may have a size (e.g., a diameter, a circumference) greater than a size (e.g., a diameter, a circumference) of the second inner surface 231. Although the second outer surface 232 is illustrated to have a shape (e.g., cylindrical) similar to a shape (e.g., cylindrical) of the second inner surface 231, the shape of the second outer surface 232 may be different from the shape of the second inner surface 231. For example, the shape of the second inner surface 231 may be circular and the shape of the second outer surface 232 may be rectangular.
Furthermore, the second outer surface 232 may taper (i.e., narrow) from a plane of the central surface 210 as disposed on the second inner surface 231 toward an edge of the second wall 230 at a distance furthest from the central surface 210 on the second wall 230 between the second inner surface 231 and/or the second outer surface 232. In other words, the size of the second outer surface 232 along the plane of the central surface 210 as disposed on the second inner surface 231 may be greater than the size of the second outer surface 232 at the edge of the second wall 230.
Referring again to
The size and/or the shape of the first outer surface 222 may be equivalent to the size and/or the shape of the second outer surface 232. Alternatively, the size and/or the shape of the first outer surface 222 may be different from the size and/or the shape of the second outer surface 232. For example, the size of the first outer surface 222 may be less than or greater than the size of the second outer surface 232. Accordingly, the first wall 220 may receive a first type, size, shape, and/or brand of drinkware while the second wall 230 may receive a second type, size, shape, and/or brand of drinkware different from the drinkware on the first wall 220.
The outer barrier 240 may be circumferentially disposed around a perimeter (i.e., a circumference) of a center between the first outer surface 222 and/or the second outer surface 232. Additionally, the outer barrier 240 may have a size (e.g., a diameter, circumference) greater than the size of the first outer surface 222 and/or the second outer surface 232. Accordingly, the outer barrier 240 may protrude away from the central surface 210 at a distance greater than the first outer surface 222 and/or the second outer surface 232 being disposed around the central surface 210.
The first gasket 250 may be circumferentially disposed on at least a portion of the first outer surface 222. The first gasket 250 may provide a seal.
The second gasket 260 may be circumferentially disposed on at least a portion of the second outer surface 232. The second gasket 260 may provide a seal.
The slider 270 may be movably (i.e., slidably) connected to at least a portion of the central surface 210. The slider 270 may move (i.e., slide) from a first position on the central surface 210 to at least partially toward a second position with respect to a first lateral direction. Conversely, the slider 270 may move from the second position to the first position with respect to a second lateral direction.
Furthermore, the slider 270 may cover the dispensing aperture 212 in the first position and at least partially uncover the dispensing aperture 212 in the second position. For example, the slider 270 may be moved toward the dispensing aperture 212 to prevent dispensing the at least one liquid therethrough. On the other hand, the slider 270 may be moved away from the dispensing aperture 212 to facilitate dispensing (i.e., pouring) the at least one liquid through the dispensing aperture 212.
The slider 270 may include a protruding portion 271, but is not limited thereto.
The protruding portion 271 may be angularly (i.e., perpendicularly) disposed away from the slider 270 with respect to a direction. The protruding portion 271 may be connected within the protrusion receiving channel 211. As such, the protruding portion 271 may move to any position along an entire length of the protrusion receiving channel 211. Accordingly, the protrusion receiving channel 211 may facilitate movement of the protruding portion 271 and/or the slider 270.
The handle 280 may be disposed on at least a portion of the outer barrier 240. The handle 280 may facilitate gripping thereof. Additionally, the handle 280 may have a fastener connected thereto. For example, the handle 280 may have a hook, a clasp, a clamp, a clip, an adhesive (e.g., tape, glue), a magnet, and/or any combination thereof. As such, the fastener may detachably connect to an external object, such as a bag, backpack, article of clothing, etc. Also, the fastener may detachably connect to other accessories, such as a spoon, a fork, a knife, a straw, and/or any other accessory. Alternatively, the accessory may be detachably connected to any other portion of the universal drinkware connector 200.
Referring to
Finally, the second wall 230 may be removably disposed (i.e., inserted) within a second drinkware 50, such as tumblers, mugs, bottles, jugs, can coolers, can sleeves, and/or other types of insulated drinkware. Thus, the second wall 230 may have a size and/or a shape corresponding to a size (e.g., diameter, circumference) and/or a shape (e.g., a circle, cylindrical) of an opening of the second drinkware 50. As such, the second wall 230 may be constructed based on a known type and/or a known brand of the second drinkware 50, such as Igloo, Yeti, Corkcicle, Seriously Ice Cold, RTIC, Pelican, Coleman, Thermos, and/or any other drinkware. It is important to note that the second drinkware 50 may be similar to the first drinkware 40 or different in size, shape, type, and/or brand.
Furthermore, as described above previously, the first wall 220 may threadably connect to a threaded surface within the first drinkware 40. Similarly, the second wall 230 may threadably connect to a threaded surface within the second drinkware 50. As such, the first outer surface 222 of the first wall 220 and/or the second outer surface 232 of the second wall 230 may have the shape and/or the size corresponding to the size and/or the shape of the first drinkware 40 and/or the second drinkware 50, respectively.
As such, the first wall 220 may connect the first drinkware 40 to the second drinkware 50 using the second wall 230.
Referring again to
The first gasket 250 may form an air tight and/or liquid tight (i.e., water tight) seal while the first wall 220 is disposed within the first drinkware 40. Moreover, the first gasket 250 may resist removal of the first wall 220 from the first drinkware 40. In other words, the first gasket 250 may prevent accidental removal of the first wall 220 from the first drinkware 40. For example, the first gasket 250 may be constructed of rubber and/or increase a friction level against an interior of the first drinkware 40.
The second gasket 260 may form an air tight and/or liquid tight (i.e., water tight) seal while the second wall 230 is disposed within the second drinkware 50. Moreover, the second gasket 260 may resist removal of the second wall 230 from the second drinkware 50. In other words, the second gasket 260 may prevent accidental removal of the second wall 230 from the second drinkware 50. For example, the second gasket 260 may be constructed of rubber and/or increase a friction level against an interior of the second drinkware 50.
Also, referring again to
Therefore, the universal drinkware connector 200 may connect the first drinkware 40 to the second drinkware 50. Also, the universal drinkware connector 200 may facilitate dispensing of the at least one liquid while the universal drinkware connector 200 is connected to the first drinkware 40 and/or the second drinkware 50.
The universal drinkware connector 300 may be constructed from at least one of plastic, metal, glass, wood, and rubber, etc., but is not limited thereto. The universal drinkware connector 300 may be transparent or opaque based on a preference of a user and/or a manufacturer.
Referring to
Referring again to
The central aperture 310 may have a size (e.g., a diameter, a circumference) and/or a shape corresponding to a size (e.g., a diameter, a circumference) and/or a shape of a beverage container 30 (i.e., a transport vessel). Specifically, the size of the central aperture 310 may be greater than the size of the beverage container 30 to receive and/or snugly fit the beverage container 30 therethrough.
The first wall 320 may include a first inner surface 321 and a first outer surface 322, but is not limited thereto.
The first inner surface 321 may be circumferentially disposed around a perimeter (i.e., a circumference) of a first end of the central aperture 310 and on a first side of the first wall 320. In other words, the first inner surface 321 may form a border around the central aperture 310.
The first outer surface 322 may be disposed on a second side of the first wall 320 opposite with respect to the first side of the first wall 320. Moreover, the first outer surface 322 may border around the first inner surface 321. Also, the first outer surface 322 may have a size (e.g., a diameter, a circumference) greater than a size (e.g., a diameter, a circumference) of the first inner surface 321. Although the first outer surface 322 is illustrated to have a shape (e.g., cylindrical) similar to a shape (e.g., cylindrical) of the first inner surface 321, the shape of the first outer surface 322 may be different from the shape of the first inner surface 321. For example, the shape of the first inner surface 321 may be circular and the shape of the first outer surface 322 may be rectangular. This difference in shape may be beneficial for the shape and/or the size of the beverage container 30 with respect to the first inner surface 321, while the first outer surface 322 may be used for storage on a planar surface (e.g., a desk, a table) without rolling movement.
Furthermore, the first outer surface 322 may taper (i.e., narrow) from a center of the central aperture 310 toward the first end of the central aperture 310 and/or an edge of the first wall 320 between the first inner surface 321 and/or the first outer surface 322. In other words, the size of the first outer surface 322 at the center of the central aperture 310 may be greater than the size of the first outer surface 322 at the edge of the first wall 320 and/or the first end of the central aperture 310.
Referring again to
The second wall 330 may include a second inner surface 331 and a second outer surface 332, but is not limited thereto.
The second inner surface 331 may be circumferentially disposed around a perimeter (i.e., a circumference) of a second end of the central aperture 310 and on a first side of the second wall 330. In other words, the second inner surface 331 may form a border around the central aperture 310.
The second outer surface 332 may be disposed on a second side of the second wall 330 opposite with respect to the first side of the second wall 330. Moreover, the second outer surface 332 may border around the second inner surface 331. Also, the second outer surface 332 may have a size (e.g., a diameter, a circumference) greater than a size (e.g., a diameter, a circumference) of the second inner surface 331. Although the second outer surface 332 is illustrated to have a shape (e.g., cylindrical) similar to a shape (e.g., cylindrical) of the second inner surface 331, the shape of the second outer surface 332 may be different from the shape of the second inner surface 331. For example, the shape of the second inner surface 331 may be circular and the shape of the second outer surface 332 may be rectangular. This difference in shape may be beneficial for the shape and/or the size of the beverage container 30 with respect to the second inner surface 331, while the second outer surface 332 may be used for storage on a planar surface (e.g., a desk, a table) without rolling movement.
Furthermore, the second outer surface 332 may taper (i.e., narrow) from a center of the central aperture 310 toward the second end of the central aperture 310 and/or an edge of the second wall 330 between the second inner surface 331 and/or the second outer surface 332. In other words, the size of the second outer surface 332 at the center of the central aperture 310 may be greater than the size of the second outer surface 332 at the edge of the second wall 330 and/or the second end of the central aperture 310.
Referring again to
The size and/or the shape of the first outer surface 322 may be equivalent to the size and/or the shape of the second outer surface 332. Alternatively, the size and/or the shape of the first outer surface 322 may be different from the size and/or the shape of the second outer surface 332. For example, the size of the first outer surface 322 may be less than or greater than the size of the second outer surface 332. Accordingly, the first wall 320 may receive a first type, size, shape, and/or brand of drinkware while the second wall 330 may receive a second type, size, shape, and/or brand of drinkware different from the drinkware on the first wall 320.
The outer barrier 340 may be circumferentially disposed around a perimeter (i.e., a circumference) of a center between the first outer surface 322 and/or the second outer surface 332. Additionally, the outer barrier 340 may have a size (e.g., a diameter, circumference) greater than the size of the first outer surface 322 and/or the second outer surface 332. Accordingly, the outer barrier 340 may protrude away from the central aperture 310 at a distance greater than the first outer surface 322 and/or the second outer surface 332 being disposed around the central aperture 310.
The first gasket 350 may be circumferentially disposed on at least a portion of the first outer surface 322. The first gasket 350 may provide a seal.
The second gasket 360 may be circumferentially disposed on at least a portion of the second outer surface 332. The second gasket 360 may provide a seal.
The pressure switch 370 may be movably (i.e., slidably) disposed on at least a portion of the outer barrier 340. The pressure switch 370 may move (i.e., slide) from a first position on the outer barrier 340 to at least partially toward a second position with respect to a first lateral direction. Conversely, the pressure switch 370 may move from the second position on the outer barrier 340 to the first position with respect to a second lateral direction.
Each of the plurality of sealing members 380 may include a gasket, a barrier, and a door, but is not limited thereto.
The plurality of sealing members 380 may be disposed on and/or within at least a portion of the outer barrier 340. The plurality of sealing members 380 may be circumferentially disposed around a perimeter of the outer barrier 340 and distanced from each other. Additionally, each of the plurality of sealing members 380 may be connected to the pressure switch 370. The plurality of sealing members 380 may cover (i.e., increase pressure) openings in the outer barrier 340 in response to moving the pressure switch 370 in the first position. Conversely, the plurality of sealing members 380 may uncover (i.e., decrease pressure) openings in the outer barrier 340 in response to moving the pressure switch 370 in the second position. As such, the pressure switch 370 may adjust a pressure level based on movement of air through the plurality of sealing members 380.
The handle 390 may be disposed on at least a portion of the outer barrier 340. The handle 390 may facilitate gripping thereof. Additionally, the handle 390 may have a fastener connected thereto. For example, the handle 390 may have a hook, a clasp, a clamp, a clip, an adhesive (e.g., tape, glue), a magnet, and/or any combination thereof. As such, the fastener may detachably connect to an external object, such as a bag, backpack, article of clothing, etc. Also, the fastener may detachably connect to other accessories, such as a spoon, a fork, a knife, a straw, and/or any other accessory. Alternatively, the accessory may be detachably connected to any other portion of the universal drinkware connector 300.
Referring to
Subsequently, the central aperture 310 may receive a beverage container 30 therethrough. Finally, the second wall 330 may be removably disposed (i.e., inserted) within a second drinkware 20, such as tumblers, mugs, bottles, jugs, can coolers, can sleeves, and/or other types of insulated drinkware. Thus, the second wall 330 may have a size and/or a shape corresponding to a size (e.g., diameter, circumference) and/or a shape (e.g., a circle, cylindrical) of an opening of the second drinkware 20. As such, the second wall 330 may be constructed based on a known type and/or a known brand of the second drinkware 20, such as Igloo, Yeti, Corkcicle, Seriously Ice Cold, RTIC, Pelican, Coleman, Thermos, and/or any other drinkware. It is important to note that the second drinkware 20 may be similar to the first drinkware 10 or different in size, shape, type, and/or brand.
Therefore, the first drinkware 10 and/or the second drinkware 20 may simultaneously store the beverage container 30 therein through the central aperture 310, such that the beverage container 30 may be stored at a preconfigured temperature (e.g., hot, cold) where the first drinkware 10 and/or the second drinkware 20 are insulated drinkware.
It is important to note that the universal drinkware connector 300 may also be applicable with respect to
Furthermore, as described above previously, the first wall 320 may threadably connect to a threaded surface within the first drinkware 10. Similarly, the second wall 330 may threadably connect to a threaded surface within the second drinkware 20. As such, the first outer surface 322 of the first wall 320 and/or the second outer surface 332 of the second wall 330 may have the shape and/or the size corresponding to the size and/or the shape of the first drinkware 10 and/or the second drinkware 20, respectively.
As such, the first wall 320 may connect the first drinkware 10 to the second drinkware 20 using the second wall 330.
Referring again to
The first gasket 350 may form an air tight and/or liquid tight (i.e., water tight) seal while the first wall 320 is disposed within the first drinkware 10. Moreover, the first gasket 350 may resist removal of the first wall 320 from the first drinkware 10. In other words, the first gasket 350 may prevent accidental removal of the first wall 320 from the first drinkware 10. For example, the first gasket 350 may be constructed of rubber and/or increase a friction level against an interior of the first drinkware 10.
The second gasket 360 may form an air tight and/or liquid tight (i.e., water tight) seal while the second wall 330 is disposed within the second drinkware 20. Moreover, the second gasket 360 may resist removal of the second wall 330 from the second drinkware 20. In other words, the second gasket 360 may prevent accidental removal of the second wall 330 from the second drinkware 20. For example, the second gasket 360 may be constructed of rubber and/or increase a friction level against an interior of the second drinkware 20.
Moreover, the pressure switch 370 may adjust the pressure level within the first drinkware 10 and/or the second drinkware 20. For example, the pressure switch 370 may decrease the pressure level by moving the pressure switch 370 to decrease the pressure level within the first drinkware 10 and/or the second drinkware 20, such as from carbonation buildup from a beverage (e.g., soda, sparkling water, etc.) and/or from any other reason. Accordingly, the plurality of sealing members 380 may move to allow air to move therethrough. Subsequently, the pressure switch 370 may be moved such that the plurality of sealing members 380 prevent movement of the air and increase the pressure level within the first drinkware 10 and/or the second drinkware 20.
Therefore, the universal drinkware connector 300 may connect the first drinkware 10 to the second drinkware 20. Also, the universal drinkware connector 300 may facilitate transport of the beverage container 30 while the universal drinkware connector 300 is connected to the first drinkware 10 and/or the second drinkware 20.
The universal drinkware connector 400 may be constructed from at least one of plastic, metal, glass, wood, and rubber, etc., but is not limited thereto. The universal drinkware connector 400 may be transparent or opaque based on a preference of a user and/or a manufacturer.
Referring to
Referring again to
The central surface 410 may include a protrusion receiving channel 411 and a dispensing aperture 412 (i.e., a pour spout), but is not limited thereto.
The protrusion receiving channel 411 may be disposed on at least a portion of the central surface 410. The protrusion receiving channel 411 may be elongate to facilitate movement therein.
The dispensing aperture 412 may be disposed on at least a portion of an edge of the central surface 410. The dispensing aperture 412 may receive at least one liquid therethrough.
The first wall 420 may include a first inner surface 421 and a first outer surface 422, but is not limited thereto.
The first inner surface 421 may be circumferentially disposed around a perimeter (i.e., a circumference) of a first end of the central surface 410 and on a first side of the first wall 420. In other words, the first inner surface 421 may form a border around the central surface 410.
The first outer surface 422 may be disposed on a second side of the first wall 420 opposite with respect to the first side of the first wall 420. Moreover, the first outer surface 422 may border around the first inner surface 421. Also, the first outer surface 422 may have a size (e.g., a diameter, a circumference) greater than a size (e.g., a diameter, a circumference) of the first inner surface 421. Although the first outer surface 422 is illustrated to have a shape (e.g., cylindrical) similar to a shape (e.g., cylindrical) of the first inner surface 421, the shape of the first outer surface 422 may be different from the shape of the first inner surface 421. For example, the shape of the first inner surface 421 may be circular and the shape of the first outer surface 422 may be rectangular.
Furthermore, the first outer surface 422 may taper (i.e., narrow) from a plane of the central surface 410 as disposed on the first inner surface 421 toward an edge of the first wall 420 at a distance furthest from the central surface 410 on the first wall 420 between the first inner surface 421 and/or the first outer surface 422. In other words, the size of the first outer surface 422 along the plane of the central surface 410 as disposed on the first inner surface 421 may be greater than the size of the first outer surface 422 at the edge of the first wall 420.
Referring again to
The second wall 430 may include a second inner surface 431 and a second outer surface 432, but is not limited thereto.
The second inner surface 431 may be circumferentially disposed around a perimeter (i.e., a circumference) of a second end of the central surface 410 and on a first side of the second wall 430. In other words, the second inner surface 431 may form a border around the central surface 410.
The second outer surface 432 may be disposed on a second side of the second wall 430 opposite with respect to the first side of the second wall 430. Moreover, the second outer surface 432 may border around the second inner surface 431. Also, the second outer surface 432 may have a size (e.g., a diameter, a circumference) greater than a size (e.g., a diameter, a circumference) of the second inner surface 431. Although the second outer surface 432 is illustrated to have a shape (e.g., cylindrical) similar to a shape (e.g., cylindrical) of the second inner surface 431, the shape of the second outer surface 432 may be different from the shape of the second inner surface 431. For example, the shape of the second inner surface 431 may be circular and the shape of the second outer surface 432 may be rectangular.
Furthermore, the second outer surface 432 may taper (i.e., narrow) from a plane of the central surface 410 as disposed on the second inner surface 431 toward an edge of the second wall 430 at a distance furthest from the central surface 410 on the second wall 430 between the second inner surface 431 and/or the second outer surface 432. In other words, the size of the second outer surface 432 along the plane of the central surface 410 as disposed on the second inner surface 431 may be greater than the size of the second outer surface 432 at the edge of the second wall 430.
Referring again to
The size and/or the shape of the first outer surface 422 may be equivalent to the size and/or the shape of the second outer surface 432. Alternatively, the size and/or the shape of the first outer surface 422 may be different from the size and/or the shape of the second outer surface 432. For example, the size of the first outer surface 422 may be less than or greater than the size of the second outer surface 432. Accordingly, the first wall 420 may receive a first type, size, shape, and/or brand of drinkware while the second wall 430 may receive a second type, size, shape, and/or brand of drinkware different from the drinkware on the first wall 420.
The outer barrier 440 may be circumferentially disposed around a perimeter (i.e., a circumference) of a center between the first outer surface 422 and/or the second outer surface 432. Additionally, the outer barrier 440 may have a size (e.g., a diameter, circumference) greater than the size of the first outer surface 422 and/or the second outer surface 432. Accordingly, the outer barrier 440 may protrude away from the central surface 410 at a distance greater than the first outer surface 422 and/or the second outer surface 432 being disposed around the central surface 410.
The first gasket 450 may be circumferentially disposed on at least a portion of the first outer surface 422. The first gasket 450 may provide a seal.
The second gasket 460 may be circumferentially disposed on at least a portion of the second outer surface 432. The second gasket 460 may provide a seal.
The slider 470 may be movably (i.e., slidably) connected to at least a portion of the central surface 410. The slider 470 may move (i.e., slide) from a first position on the central surface 410 to at least partially toward a second position with respect to a first lateral direction. Conversely, the slider 470 may move from the second position to the first position with respect to a second lateral direction.
Furthermore, the slider 470 may cover the dispensing aperture 412 in the first position and at least partially uncover the dispensing aperture 412 in the second position. For example, the slider 470 may be moved toward the dispensing aperture 412 to prevent dispensing the at least one liquid therethrough. On the other hand, the slider 470 may be moved away from the dispensing aperture 412 to facilitate dispensing (i.e., pouring) the at least one liquid through the dispensing aperture 412.
The slider 470 may include a protruding portion 471, but is not limited thereto.
The protruding portion 471 may be angularly (i.e., perpendicularly) disposed away from the slider 470 with respect to a direction. The protruding portion 471 may be connected within the protrusion receiving channel 411. As such, the protruding portion 471 may move to any position along an entire length of the protrusion receiving channel 411. Accordingly, the protrusion receiving channel 411 may facilitate movement of the protruding portion 471 and/or the slider 470.
The pressure switch 480 may be movably (i.e., slidably) disposed on at least a portion of the outer barrier 440. The pressure switch 480 may move (i.e., slide) from a first position on the outer barrier 440 to at least partially toward a second position with respect to a first lateral direction. Conversely, the pressure switch 480 may move from the second position on the outer barrier 440 to the first position with respect to a second lateral direction.
Each of the plurality of sealing members 490 may include a gasket, a barrier, and a door, but is not limited thereto.
The plurality of sealing members 490 may be disposed on and/or within at least a portion of the outer barrier 440. The plurality of sealing members 490 may be circumferentially disposed around a perimeter of the outer barrier 440 and distanced from each other. Additionally, each of the plurality of sealing members 490 may be connected to the pressure switch 480. The plurality of sealing members 490 may cover (i.e., increase pressure) openings in the outer barrier 440 in response to moving the pressure switch 480 in the first position. Conversely, the plurality of sealing members 490 may uncover (i.e., decrease pressure) openings in the outer barrier 440 in response to moving the pressure switch 480 in the second position. As such, the pressure switch 480 may adjust a pressure level based on movement of air through the plurality of sealing members 490.
The handle 495 may be disposed on at least a portion of the outer barrier 440. The handle 495 may facilitate gripping thereof. Additionally, the handle 495 may have a fastener connected thereto. For example, the handle 495 may have a hook, a clasp, a clamp, a clip, an adhesive (e.g., tape, glue), a magnet, and/or any combination thereof. As such, the fastener may detachably connect to an external object, such as a bag, backpack, article of clothing, etc. Also, the fastener may detachably connect to other accessories, such as a spoon, a fork, a knife, a straw, and/or any other accessory. Alternatively, the accessory may be detachably connected to any other portion of the universal drinkware connector 400.
Referring to
Finally, the second wall 430 may be removably disposed (i.e., inserted) within a second drinkware 50, such as tumblers, mugs, bottles, jugs, can coolers, can sleeves, and/or other types of insulated drinkware. Thus, the second wall 430 may have a size and/or a shape corresponding to a size (e.g., diameter, circumference) and/or a shape (e.g., a circle, cylindrical) of an opening of the second drinkware 50. As such, the second wall 430 may be constructed based on a known type and/or a known brand of the second drinkware 50, such as Igloo, Yeti, Corkcicle, Seriously Ice Cold, RTIC, Pelican, Coleman, Thermos, and/or any other drinkware. It is important to note that the second drinkware 50 may be similar to the first drinkware 40 or different in size, shape, type, and/or brand.
It is important to note that the universal drinkware connector 400 may also be applicable with respect to
Furthermore, as described above previously, the first wall 420 may threadably connect to a threaded surface within the first drinkware 40. Similarly, the second wall 430 may threadably connect to a threaded surface within the second drinkware 50. As such, the first outer surface 422 of the first wall 420 and/or the second outer surface 432 of the second wall 430 may have the shape and/or the size corresponding to the size and/or the shape of the first drinkware 40 and/or the second drinkware 50, respectively.
As such, the first wall 420 may connect the first drinkware 40 to the second drinkware 50 using the second wall 430.
Referring again to
The first gasket 450 may form an air tight and/or liquid tight (i.e., water tight) seal while the first wall 420 is disposed within the first drinkware 40. Moreover, the first gasket 450 may resist removal of the first wall 420 from the first drinkware 40. In other words, the first gasket 450 may prevent accidental removal of the first wall 420 from the first drinkware 40. For example, the first gasket 450 may be constructed of rubber and/or increase a friction level against an interior of the first drinkware 40.
The second gasket 460 may form an air tight and/or liquid tight (i.e., water tight) seal while the second wall 430 is disposed within the second drinkware 50. Moreover, the second gasket 460 may resist removal of the second wall 430 from the second drinkware 50. In other words, the second gasket 460 may prevent accidental removal of the second wall 430 from the second drinkware 50. For example, the second gasket 460 may be constructed of rubber and/or increase a friction level against an interior of the second drinkware 50.
Also, referring again to
The pressure switch 480 may adjust the pressure level within the first drinkware 40 and/or the second drinkware 50. For example, the pressure switch 480 may decrease the pressure level by moving the pressure switch 480 to decrease the pressure level within the first drinkware 40 and/or the second drinkware 50, such as from carbonation buildup from a beverage (e.g., soda, sparkling water, etc.) and/or from any other reason. Accordingly, the plurality of sealing members 490 may move to allow air to move therethrough. Subsequently, the pressure switch 480 may be moved such that the plurality of sealing members 490 prevent movement of the air and increase the pressure level within the first drinkware 40 and/or the second drinkware 50.
Therefore, the universal drinkware connector 400 may connect the first drinkware 40 to the second drinkware 50. Also, the universal drinkware connector 400 may facilitate dispensing of the at least one liquid while the universal drinkware connector 400 is connected to the first drinkware 40 and/or the second drinkware 50.
The present general inventive concept may include a universal drinkware connector 100 to connect a first drinkware 10 to a second drinkware 20, the universal drinkware connector 100 including a central aperture 110 to receive a beverage container 30 therethrough, a first wall 120 circumferentially disposed around the central aperture 110 at a first end of the central aperture 110 to removably connect to the first drinkware 10, a second wall 130 circumferentially disposed around the central aperture 110 at a second end of the central aperture 110 to removably connect to the second drinkware 20, and an outer barrier 140 disposed between the first wall 120 and the second wall 130 to separate the first drinkware 10 from the second drinkware 20 while the first drinkware 10 and the second drinkware 20 are connected to the outer barrier 140.
The first wall 120 may have a size greater than a size of the second wall 130.
The first wall 120 may have a shape different than a shape of the second wall 130.
An outer surface 122 of the first wall 120 may taper from a center of the central aperture 110 toward the first end of the central aperture 110.
The first wall 120 may connect to the first drinkware 10 differently than the second wall 120 connects to the second drinkware 20.
The present general inventive concept may also include a universal drinkware connector 200 to connect a first drinkware 40 to a second drinkware 50, the universal drinkware connector 200 including a central surface 210, including a protrusion receiving channel 211 disposed on at least a portion of the central surface 210, and a dispensing aperture 212 disposed on at least a portion of an edge of the central surface 210 to dispense at least one liquid therethrough, a first wall 220 circumferentially disposed around the central surface 210 at a first end of the central surface 210 to removably connect to the first drinkware 40, a second wall 230 circumferentially disposed around the central surface 210 at a second end of the central surface 210 to removably connect to the second drinkware 50, and a slider 270 movably connected to at least a portion of the central surface 210 to cover the dispensing aperture 212 in a first position and at least partially uncover the dispensing aperture 212 in a second position.
The central surface 210 may reduce an amount of the at least one liquid being dispensed through the dispensing aperture 212 by obstructing the at least one liquid as it moves through the dispensing aperture 212 during dispensing.
The slider 270 may form an air tight and liquid tight seal while the slider 270 is disposed over the dispensing aperture 212.
The slider 270 may include a protruding portion 271 angularly disposed away from the slider 270 and disposed within the protrusion receiving channel 211 to facilitate movement of the slider 270 on the central surface 210.
The universal drinkware connector 200 may further include an outer barrier 240 disposed between the first wall 220 and the second wall 230 to separate the first drinkware 40 from the second drinkware 50 while the first drinkware 40 and the second drinkware 50 are connected to the outer barrier 240.
The present general inventive concept may also include a universal drinkware connector 300 to connect a first drinkware 10 to a second drinkware 20, the universal drinkware connector 300 including a central aperture 310 to receive a beverage container 30 therethrough, a first wall 320 circumferentially disposed around the central aperture 310 at a first end of the central aperture 310 to removably connect to the first drinkware 10, a second wall 330 circumferentially disposed around the central aperture 310 at a second end of the central aperture 310 to removably connect to the second drinkware 20, an outer barrier 340 disposed between the first wall 320 and the second wall 330 to separate the first drinkware 10 from the second drinkware 20 while the first drinkware 10 and the second drinkware 20 are connected to the outer barrier 340, a pressure switch 370 movably disposed on at least a portion of the outer barrier 340 to move from a first position to at least partially toward a second position with respect to a first lateral direction, and move from the second position to the first position with respect to a second lateral direction, and a plurality of sealing members 380 disposed on and within at least a portion of the outer barrier 340 to cover openings in the outer barrier 340 in response to moving the pressure switch 370 in the first position, and uncover the openings in the outer barrier 340 in response to moving the pressure switch 370 in the second position.
The plurality of sealing members 380 may affect a pressure level within the first drinkware 10 and the second drinkware 20 based on movement of air therethrough.
The plurality of sealing members 380 may increase a pressure level within the first drinkware 10 and the second drinkware 20 in response to covering the openings.
The plurality of sealing members 380 may decrease a pressure level within the first drinkware 10 and the second drinkware 20 in response to uncovering the openings.
The plurality of sealing members 380 may be circumferentially disposed around a perimeter of the outer barrier 340 and distanced from each other.
The present general inventive concept may also include a universal drinkware connector 400 to connect a first drinkware 40 to a second drinkware 50, the universal drinkware connector 400 including a central surface 410, including a protrusion receiving channel 411 disposed on at least a portion of the central surface 410, and a dispensing aperture 412 disposed on at least a portion of an edge of the central surface 410, a first wall 420 circumferentially disposed around the central surface 410 at a first end of the central surface 410 to removably connect to the first drinkware 40, a second wall 430 circumferentially disposed around the central surface 410 at a second end of the central surface 410 to removably connect to the second drinkware 50, a slider 470 movably connected to at least a portion of the central surface 410 to cover the dispensing aperture 412 in a first position and at least partially uncover the dispensing aperture 412 in a second position, an outer barrier 440 disposed between the first wall 420 and the second wall 430 to separate the first drinkware 40 from the second drinkware 50 while the first drinkware 40 and the second drinkware 50 are connected to the outer barrier 440, a pressure switch 480 movably disposed on at least a portion of the outer barrier 440 to move from a first position to at least partially toward a second position with respect to a first lateral direction, and move from the second position to the first position with respect to a second lateral direction, and a plurality of sealing members 490 disposed on and within at least a portion of the outer barrier 440 to cover openings in the outer barrier 440 in response to moving the pressure switch 480 in the first position, and uncover the openings in the outer barrier 440 in response to moving the pressure switch 480 in the second position.
The plurality of sealing members 490 may affect a pressure level within the first drinkware 40 and the second drinkware 50 based on movement of air therethrough.
The plurality of sealing members 490 may increase a pressure level within the first drinkware 40 and the second drinkware 50 in response to covering the openings.
The plurality of sealing members 490 may decrease a pressure level within the first drinkware 40 and the second drinkware 50 in response to uncovering the openings.
The plurality of sealing members 490 may be circumferentially disposed around a perimeter of the outer barrier 440 and distanced from each other.
Although a few embodiments of the present general inventive concept have been shown and described, it will be appreciated by those skilled in the art that changes may be made in these embodiments without departing from the principles and spirit of the general inventive concept, the scope of which is defined in the appended claims and their equivalents.
