TECHNICAL FIELD OF THE INVENTION
The present invention relates to combination bottle systems that provide flexible capacity and function for containers.
BACKGROUND OF THE INVENTION
A variety of styles and configurations of bottles and containers are used to hold liquids and foods ranging, for example, from baby formula and milk to consumables oriented for more adult tastes such as, for example, nutritional or energy drinks consumed on long commutes, vacation shores or the high vistas of the Rocky Mountains.
Millions of bottles are discarded each year. For example, of the large variety of bottles used in tending growing babies and children, approximately 70 million end in landfills across the US each year. A part of this disposal load results when babies “outgrow” both the size and function of their bottles. For example, they outgrow their nipple-topped bottles and move up the maturity ladder to what are often called “sippy cups” and then finally to bottles topped by lids configured to securely include a straw.
Fixed capacities also reduce the utility of bottles and containers. Small babies can more readily hold a smaller bottle while the grasp as well as appetite of large children is better suited to bottles of greater capacity.
Hikers sometimes include a mix of bottles in their equipment to allow adaptation to the dry conditions of desert hiking with 1500 cc water bottles while in cooler mountain environments they may employ standard 1 liter bottles. Yet, for some foods and recreational drinks, a 1 liter capacity bottle may be too much and a separate smaller bottle is required for smaller amounts of drink and food if valuable pack space is to be conserved.
Further, many bottles are still constructed from potentially mutagenic materials that may raise the risk of some cancers and birth defects.
What is needed, therefore, is a bottle and container system that provides capacity and function flexibility in an integrated system constructed from safe materials and which adapts to the age, abilities and interests of the user.
SUMMARY OF THE INVENTION
Embodiments of the present invention are directed to methods and systems for combination bottle systems that provide flexible capacity and function for containers.
Some embodiments of the present invention are directed to a combination bottle system having a base unit that is combined with various capacity-adding units and/or top units having various functional ends to provide a combination bottle and system of wide flexibility and use. Various capacities may be devised by combining one or multiple capacity-adding units to a base unit while various functions for the combined bottle may be implemented through various functional ends for the employed top unit. In some embodiments, combinations of attachment configurations of various perimeter lips of the constituent bottle units create neck features in devised combination bottles. Various configurations of attachment configurations may be combined to impose particular stacking or combination rules on constituted combination bottles devised from various embodiments of the combination bottle systems provided.
Some embodiments of the present invention are also directed to a combination bottle system includes various bottle components that are interchangeable with each other.
Some embodiments of the present invention are also directed to kits that include various bottle components suitable for particular applications.
Some embodiments of the present invention are directed to a method for assembling a combination bottle from a combination bottle system and changing the capacity (volume) of the combination bottle “on-the-go” by interchanging components of the combination bottle system.
The foregoing has outlined rather broadly the features and technical advantages of the present invention in order that the detailed description of the invention that follows may be better understood. Additional features and advantages of the invention will be described hereinafter. It should be appreciated by those skilled in the art that the conception and specific embodiments disclosed may be readily utilized as a basis for modifying or designing other structures for carrying out the same purposes of the present invention. It should also be realized by those skilled in the art that such equivalent constructions do not depart from the spirit and scope of the invention as set forth in the appended claims.
BRIEF DESCRIPTION OF THE DRAWINGS
For a more thorough understanding of the present invention, and advantages thereof, reference is now made to the following descriptions taken in conjunction with the accompanying drawings, in which:
FIG. 1A depicts an exemplar base unit employed in a combination bottle system in accordance with an embodiment of the present invention;
FIGS. 1B-1F each depict various example configurations for functional ends of interchangeable top units that may be employed with various embodiments of a combination bottle system in accordance with the present invention to provide different functionality to the combination bottle system by replacing one top unit within the combination bottle system with another top unit having a different functional end;
FIGS. 2A, 2B, and 2C each depict various example attachment configurations employed in a top unit embodiment for use with various embodiments of the present invention;
FIG. 3 depicts an embodiment from a combination bottle system employing multiple capacity adding units and a coffee style top unit;
FIG. 4 depicts another embodiment from a combination bottle system employing an open lip top unit;
FIG. 5 depicts another embodiment from a combination bottle system;
FIG. 6 depicts another embodiment from a combination bottle system employing a sippy cup top unit;
FIG. 7 illustrates a few example attachment configurations employed in an embodiment of a combination bottle;
FIG. 8 depicts yet another embodiment of a combination bottle;
FIG. 9 depicts a combination bottle in accordance with an embodiment of the present invention in which a double walled construction is employed by various units of the combination bottle;
FIG. 10 depicts another embodiment from a combination bottle system having locking components;
FIG. 11 depicts another embodiment from a combination bottle system in which a capacity adding unit includes a design element;
FIG. 12 depicts a combination bottle system embodied as a kit that includes compatible and interchangeable parts to form a variety of bottle combinations having different functions and capacities;
FIG. 13 depicts another combination bottle system embodied as a kit that includes compatible and interchangeable parts to form a variety of bottle combinations having different functions and capacities; and
FIG. 14 shows an exemplary method of assembling a combination bottle system.
DETAILED DESCRIPTION OF EMBODIMENTS
Embodiments of the present invention are directed to methods and systems for combination bottle systems that provide flexible capacity and function for containers. In accordance with embodiments of the present invention, for example, a baby bottle can be transformed into a sippy cup. The sippy cup can be transformed into a straw bottle. The effective life of the bottle is extended from approximately 1 year to 4 years. In the old way of doing things, for example, parents might buy 16 baby bottles and throw them out when the baby stopped using baby bottles as a toddler. Then the parents would buy 10 sippy cups for the toddler and throw them out when the toddler stopped using sippy cups as a child. Then the parents would buy 10 straw bottles for the child, and so on. Embodiments of the present invention enable parents to simply buy a baby bottle and then buy conversion kits to change it as the child grows older.
Embodiments of the present invention can further expand the life of the bottle beyond the straw bottle. The bottle itself can be separated into three main, interchangeable components: a base unit, a ring or capacity adding unit, and then a top unit. The base unit as used herein refers to the bottom-most unit of the combination bottle in assembly. The top unit as used herein refers to the top-most unit of the combination bottle in assembly, including and caps that may be part of the functional end. The base unit does not need to change from bottle to bottle. One or more capacity adding units can be added between the top unit and the base unit to increase the capacity or volume of the bottle assembly, for example, from 200 mL to infinite, depending on the need or use. The top unit includes a functional end that adapts the bottle to a particular use, such as baby bottle nipples, baby spouts, straw tops, coffee tops, spray nozzles, sports top, flip top and on and on. The top units can be interchangeable and substituted for each other to provide variable function for the bottle assembly. The capacity adding units can be added or removed to provide variable capacity for the bottle assembly. Multiple components can be kept with the user of the combination bottle system (for example in a carrying bag, diaper bag, gym bag, purse, backpack, etc.) to provide the ability to make rapid “on-the-go” changes to the bottle assembly as the user's needs change (e.g., a coffee cup can be quickly changed into a sports bottle having a large capacity).
The bottle components can be made of plastic, stainless steel, or any material suitable for holding beverage or food items that are intended to be ingested. The bottle components can be single colors or multiple colors. The bottle components can be single walled or double-walled for insulation and/or ruggedization. For example, the capacity adding units can be made available in multiple different colors that can be added to the other bottle components to personalize the bottle assembly. Different colored bottle components can be used to indicate the contents of the bottle (e.g., orange juice=orange, apple juice=yellow, milk=white, water=blue). Different colored bottle components can be used to indicate the user of the bottle (e.g., blue for one child, green for another child, yellow for a parent). Different color bottle components can be used to indicate capacity. For example, a blue capacity adding unit can indicate that the capacity adding unit adds 50 mL of additional volume to the bottle assembly; a green, 100 mL; a red, 200 mL; and so on. If the user needs to add 300 mL, the user can quickly grab a red capacity adding unit (200 mL) and a green capacity adding unit (100 mL). The different colored bottle components can be combined so that the bottle displays the user's school or team colors.
The bottle components can include other design elements such as words or logos. In one example, a bottle could be used by a boy from childhood to adulthood. As he gets older and his interests change, instead of buying new bottle, he can just replace a capacity adding unit with one design element with another capacity adding unit have a different design element (e.g., Thomas the Tank Engine as a toddler, a favorite superhero as a young boy, favorite sports team as an older boy, high school logo as a high school student, college logo as college student, company logo as an employee, etc.). Further, as bottle components are damaged or worn out, an individual bottle component can be replaced (or perhaps repaired) instead of discarding and replacing the entire bottle.
The capacity adding units attach and secure to each other, and to the base units and the top units, so that the bottle assembly does not come open and leak. In some embodiments of the present invention, the capacity adding units can screw and snap into place for easy assembly and prevention of unintentional disassembly. Users can be required operate a release mechanism (e.g., push a button) to then unscrew the levels of the bottle components. Such an embodiment would prevent the bottle from accidentally coming apart and leaking when being carried in a bag. The release mechanism can also be adapted to be inoperable by babies and young children to child-proof the bottle so that a baby or toddler cannot disassemble the bottle and cause a spill.
Some embodiments of the present invention are also directed to a combination bottle system includes various bottle components that are interchangeable with each other. For example, a user can go to a store and mix-and-match compatible bottle components to design a combination bottle system that has the variable capacity and interchangeable functional ends so that a user can change the bottle capacity and configuration for different uses on-the-go. For example, a user may buy an 8 ounce base unit, an 8 ounce capacity adding unit, a 16 ounce capacity adding unit, a top unit having a spill-resistant beverage lid for use in a car, a top unit having an open beverage lid, and a top unit have a sports bottle functional end. In the morning, the user configures the bottle for the morning commute by putting the spill-resistant beverage lid on the 8 ounce base unit and filling it with coffee for the morning commute to work. At work, the user adds the 8 ounce capacity adding unit to the bottle assembly and replaces the spill-resistant beverage lid with an open beverage lid so she can keep a 16 ounce beverage container on her desk while she works during the day. In the evening, when leaving the office, the user adds the 16 ounce capacity adding unit to the bottle assembly and replaces the open beverage lid with the sports bottle functional end so that she can have a 32 ounce sports bottle filled with water while she works out at the gym.
Some embodiments of the present invention are also directed to kits that include various bottle components suitable for particular applications. For example, a baby shower gift kit could include bottle components to make various combinations of baby bottles, sippy cups, and straw bottles. A sports kit could include bottle components to change the capacity and functional ends for commons sports, such as running and cycling.
Some embodiments of the present invention are directed to a club that users can join to buy new tops or get new colors or designs of bottle components.
FIG. 1A depicts aspects of an exemplar bottle system 10. As shown in FIG. 1A, base unit 20 is a container having capacity 21 and an open end 22 with a perimeter lip 24 configured with an attachment configuration 26X. Base unit 20 may be any of a variety of configurations, such as, for example, round, square, faceted or oval. Attachment configuration 26X is preferably, although not necessarily, round. While attachment configurations, such as attachment configuration 26X, is shown as threads for purposes of illustration, any attachment configuration suitable for joining base unit, the top unit, and one or more capacity adding units in a manner that prevents fluids from leaking from the bottle assembly.
Various exemplar top units are shown in FIGS. 1B-1F with each being depicted with a functional end 28. FIG. 1B shows top unit 301 having, for example, a functional end 28 that is a nipple end 32. In these figures, reference 28 refers to any functional end while particular types of functional ends are identified by their own unique reference. The top units shown FIGS. 1B-1F are interchangeable with each other. That is, any of top units shown FIGS. 1B-1F can be used in place of the other to provide different functionality to the bottle assembly.
Top unit 301 is shown having a shell 31 and a separable nipple 32 as its functional end. Top units 30 that employ separable functional ends 28 are comprised from a shell 31 and a separable functional end. In FIG. 1C, top unit 302 is shown having a functional end 28 which in this particular embodiment, is a sippy cup lip functional end 34 while in FIG. 1D, top unit 303 exhibits a functional end 28 which is a straw functional end 36 with an optional ferrule or bulb 37 to retain straw 36 in top unit 303. Top unit 304 is shown with a functional end 28 which is a push-pull access sports type functional end 29 (FIG. 1E). In FIG. 1F another functional end 28 which is a sports type functional end 29 adapted for bicycling is shown. The nipple functional end 32, sippy cup functional end 34, integrated straw functional end 36, push-pull access sports functional end 291 and flip over sports type functional end 292 are just examples of various types of functional ends 28. These examples should not be considered limiting however. It should be appreciated that functional ends 28 may be either integrated, such as shown by an integrated sippy cup functional end 34 in FIG. 1C or separable from shell 31 of top unit 30 such as is shown in FIG. 1B. It should be appreciated that as with other various functional ends, nipple functional end 32 may be separable from shell 31 or integral with top unit 30. In accordance with embodiments of the present invention, the top units are interchangeable with each other. That is, one top unit can be removed from the bottle assembly and replaced with another top unit. The top units have attachment configurations that enable the top units to be attached in a leakproof manner with a base unit, such as base unit 20, and/or capacity adding units, such as capacity adding unit 50. Top units, base units, and capacity adding units can be added in any number of combinations to provide combination bottle system having variable function and variable capacity when formed into a bottle assembly, or combination bottle, such as the combination bottles 60 shown in FIGS. 3-9 (some of which are shown in exploded view for purposes of illustration, but when assembled form a combination bottle). Each of the top units shown in FIGS. 1B-1F are interchangeable with the other units in a bottle assembly, including a base unit or a base unit in combination with one or more capacity adding units.
As shown in FIGS. 1A-1F, top units 30X include an attachment configuration 26Y that mates with an attachment configuration 26X of base unit 20 or later shown capacity-adding unit 50. As will be appreciated, top unit 30 may have functional ends 28 that provide substantially covered tops to the combination bottle as shown in FIG. 3 for use with hot liquids while another type of functional end may merely be an open lipped functional end such as that shown in FIG. 4. It will be further appreciated that these are merely examples of a few of the many different types of top units that may be employed in a bottle system in accordance with preferred embodiments of the present invention.
FIGS. 2A, 2B, and 2C depict from a top down view a base unit 20 with a semirectangular configuration devised for convenient stacking, shipment and use in suitcases or packs where space is at a premium. As those of skill will appreciate, base unit 20 as well as the capacity adding units 50 may display any of a variety of configurations such as circular or rectangular to name just a couple of examples.
Base unit 20 is depicted as configured with various exemplar types of attachment configurations 26X provided to illustrate, without limiting, a variety of example types of attachment configurations employable with various units of the combination bottle and system 10. FIG. 2A illustrates an attachment configuration 26XA in which a slot 40 is part of an attachment configuration 26X that may be part of a base unit or a capacity-adding unit 50 such as those shown in later figures. Slot 40 is configured to accept a tab from attachment configuration 26Y of a corresponding top unit 30 or capacity-adding unit 50 and a sloping channel 42 is provided to allow mating between various units of system 10. FIG. 2B depicts a screw thread attachment configuration 26X with threads 44 that are internal to the perimeter lip 24. FIG. 2C depicts a screw thread attachment configuration 26XC having threads 46 that are external on perimeter lip 24. These are just a few exemplars of attachment configurations 26X that may be used to provide one of the pair of attachment configurations 26X and 26Y that mate to provide attachment amongst base units 20, capacity-adding units 50, and top units 30.
FIG. 3 depicts an exemplar combination bottle 60 with multiple capacity-adding units 50 each having capacity 52 and a first perimeter lip 24 with an upper attachment configuration 26X and a second perimeter lip 24 with a lower attachment configuration 26Y. It should be appreciated that the combination bottle 60 shown in FIG. 3 is illustrated with three capacity-adding units 50 and a base unit 20 and a top unit 306 shown configured as with “coffee top” functional end 28 useful for drinking liquids that may be spilled, but a variety of top units 30 as well as capacity-adding units 50 of a variety of configurations may be employed with the depicted embodiment. It should also be appreciated that the upper and lower attachment configurations 26X and 26Y respectively, of a particular capacity-adding unit may be of the same type such as, for example, both screw configurations, or different types such as, for example, tab and slot connective configuration for upper attachment configuration 26X and screw configuration for lower attachment configuration 26Y, for example. Further, the upper and lower attachment configurations of a particular capacity-adding unit may both be of the same type (e.g., screw) yet one may exhibit internal threads while the other external threads or, both upper and lower attachment configurations may exhibit the same character of threads. Further, the perimeter lips 24 of a particular capacity-adding unit 50 or base unit 20 or top unit 30 may be of either “gender” (e.g., male or projecting) or in units having two perimeter lips such as, for example, exemplar capacity-adding units 50, the perimeter lips may be of different gender (e.g., one male and the other female or accepting) or the same gender.
A variety of materials are preferably employed in the construction of preferred embodiments of combination bottle 60 including, for example, materials such as stainless steel, aluminum, polyethylene terephthalate (PET), copolyester, glass, polystyrene (PS), acrylonitrile styrene (AS), bio based polymers, polyethylene (PE), polypropylene (PP), polyphenylsulfone (PPSU), bisphenol A (BPA), polyester (PES), acrylic, bamboo, melamine, or polyamide (PA). As those of skill will recognize, these materials are typically less toxic and more inert than many other materials and therefore are recommended for use in bottles and containers for foods and liquids. In preferred embodiments, materials free of endocrine disrupting chemicals are used.
As shown in FIG. 3, attachment configuration 26X and attachment configuration 26Y are mateable with each other to combine the various units of combination bottle 60. There need not be uniformity between the first and second lip gender nor in the attachment configurations of said perimeter lips. In combination bottles devised from units 20, 50 and 30, for example, attachment configurations 26X and 26Y amongst each of the constituent units 20, 30 and 50 need not be of the same configurations and, in some embodiments, imposing particular types of attachment configurations 26X and 26Y will intentionally dictate the order such units are combined and that will impose a desired connection or stacking outcome in such embodiments where desired.
FIG. 4 depicts a combination bottle 60 in accordance with an embodiment of the present invention in which a base unit 20 is combined through the mating of attachment configuration 26Y of perimeter lip 24 of base unit 20 with attachment configuration 26Y exhibited by perimeter lip 24 of capacity-adding unit 50 and the mating of attachment configuration 26Y of the perimeter lip 24 of top unit 306 with attachment configuration 26X of capacity-adding unit 50 to create an open lipped cup variant combination bottle 60.
FIG. 4 depicts various exemplar units 20, 50 and 30 arranged to illustrate another exemplar embodiment of combination bottle 60. It should be understood that the illustrations of the present disclosure are merely exemplars and the combinations available are not in any way limited to those shown whether in combinations shown or in dimensions relative or absolute. As illustrated in FIG. 4, multiple units such as base unit 20 and capacity-adding units 50 with diameter A may be combined into a multi-piece bottle assembly (combination bottle 60) in accordance with an embodiment of the present invention. Various interchangeable top units 30 may be chosen for employment in combination bottle 60 as those of skill will understand after appreciating this disclosure.
FIG. 5 depicts a combination bottle 60 in accordance with an embodiment of the present invention in which a base unit 20 is combined through the mating of attachment configuration 26X of perimeter lip 24 of base unit 20 with attachment configuration 26Y exhibited by perimeter lip 24 of capacity-adding unit 50 and the mating of attachment configuration 26Y of the perimeter lip 24 of top unit 302 with attachment configuration 26X of upper perimeter lip 24 of capacity-adding unit 50 to create a larger sippy cup variant combination bottle 60 for extended car trips, for example.
FIG. 6 illustrates the combination of an exemplar base unit 20 having attachment configuration 26X on a projecting (e.g., “male”) perimeter lip 24 configured for mating to an attachment configuration 26Y configured on a corresponding lower projecting perimeter lip of a capacity adding unit 50. When the present disclosure refers to a perimeter lip without specifying that it is projecting or accepting/receiving it should be understood that such perimeter lip may be either.
In some of the provided views, attachment configuration 26X is configured on a projecting perimeter lip 24 and attachment configuration 26Y is configured on an accepting perimeter lip 24 but as those of skill will understand after appreciating this disclosure, some embodiments may exhibit attachment configurations 26X and 26Y with each found on projecting perimeter lips 24. It will be noted that upper perimeter lip 24 of capacity adding unit 50 creates a diameter A2 in capacity adding unit 50 that is smaller than diameter A1 of the body 55 of capacity adding unit 50.
As shown in FIG. 7, configured in the upper-most capacity-adding unit 50 of the figure is perimeter lip 24 configured with an attachment configuration exhibiting slot 40 and channel 42 to accept tab 54 on either another capacity-adding unit 50 or, as shown, a top unit 30 as shown in FIG. 7. Depicted top unit 30 includes a functional end 28 which is a sports top nozzle 29 and a finger ring 41 although no particular configuration should be implied as this should be understood to be merely an example of one of the many configurations of functional tops used with combination bottle 60.
FIG. 8 depicts a base unit 20 with capacity 21 having an attachment configuration 26X exhibited on its perimeter lip 24. Depicted combination bottle 60 includes base unit 20 and capacity-adding unit 50 with capacity 51 and, as illustrated, top unit 30 having attachment configuration 26Y that mates with attachment configuration 26X of unit 50. Top unit 30 includes a separable cap 308 configured with a functional unit 28 which is an adult suction functional end 33 to provide a sealed container until suction is applied to top unit 30.
It will be appreciated that because diameter B is less than diameter A1 this results in combination bottle 60 a neck of smaller diameter and shown height C which may provide a convenient hand-hold in bottle 60. Surface 54 of mid-level capacity-adding unit 50 of FIG. 8 is shown in a planar configuration which creates a bottom surface on that capacity-adding unit 50 which provides added stability between the constituent units. For added leak prevention, an optional washer may be employed to enhance the fit between capacity-adding unit 50 and base unit 20 or another capacity-adding unit 50 with which it is mated through the mating of respective attachment configurations 26X and 26Y.
FIG. 9 depicts a double-walled construction that may be employed in configurations employed with fluids that are preferably maintained in temperature. Space 51 between walls 53 is preferably air but may be partial vacuum or even filled with argon or other insulative gas as those of skill will appreciate. Thus, combination bottles that provide improved thermal stability with safe materials while offering flexible capacities and utility are provided by such embodiments.
FIG. 10 depicts another exemplar embodiment from a combination bottle system having locking components. Combination bottle 1060 is shown assembled in the form of a child's sippy cup having a base unit 1020, a capacity adding unit 1050, and a top unit 1030. Top unit 1030 has a sippy-cup functional end 1028. Top unit 1030 screws and snaps into capacity adding unit 1050 for easy assembly and prevention of unintentional disassembly. To remove top unit 1030, the user is required operate release mechanism 1052 to be able to unscrew top unit 1030 from capacity adding unit 1050. Release mechanism 1052 is preferably adapted so that an adult can operate the release mechanism, but a young child (i.e., sippy-cup aged) would have difficulty operating the release mechanism. For example, release mechanism 1052 can comprise a button the user must push while at the same time twisting top unit 1030 and capacity adding unit 1050 relative to each other to unscrew them. Pressing the button while twisting can make it more difficult for a young child to separate top unit 1030 from capacity adding unit 1050. Pressing the button while twisting can make it more difficult for the top unit 1030 from capacity adding unit 1050 to accidentally come apart and leak when being carried in a bag. Alternatively, the button can be biased in such a way that the force required to press it sufficiently to unlock top unit 1030 and capacity adding unit 1050 would be difficult for a young child.
Similarly, capacity adding unit 1050 screws and snaps into base unit 1020 for easy assembly and prevention of unintentional disassembly. To remove capacity adding unit 1050, the user is required operate release mechanism 1022 to be able to unscrew capacity adding unit 1050 from base unit 1020. Release mechanism 1022 is preferably adapted so that an adult can operate the release mechanism, but a young child (i.e., sippy-cup aged) would have difficulty operating the release mechanism. For example, release mechanism 1022 can comprise a button the user must push while twisting top unit 1030 and capacity adding unit 1050 relative to each other to unscrew them. In a preferred embodiment, the means of connecting and locking/unlocking top unit 1030 with capacity adding unit 1050 via release mechanism 1052 and the means of connecting and locking/unlocking capacity adding unit 1050 with base unit 1020 via release mechanism 1022 are the same and/or compatible with each other. This would enable multiple capacity adding unit to be added or removed as needed, and top units with different functional ends to be substituted for each other. When capacity adding units are not needed, top unit 1030 can be directly connected to and locked into place with base unit 1020.
FIG. 11 depicts another embodiment from a combination bottle system in which a capacity adding unit includes a design element. Combination bottle 1160 is shown assembled in the form of a sports bottle having a base unit 1120, a capacity adding unit 1050, a capacity adding unit 1051 including design element 1153, and a top unit 1130. Top unit 1130 has a sports bottle functional end 1128. Top unit 1130 connects to capacity adding unit 1150. Capacity adding unit 1150 connects to capacity adding unit 1151. Capacity adding unit 1151 connects to base unit 1120. Capacity adding unit 1151 includes design element 1153. Design element 1153 can be used to customize combination bottle 1160 in accordance with the user's preferences. In this example, design element 1153 includes a high school logo that can be used to show school pride. Other design elements can include other words, pictures, logos, or a color or combination of colors. In one exemplary embodiment, capacity adding unit 1150 and base unit 1120 can be made of stainless steel for ruggedization. Capacity adding unit 1151 can be made of colored plastic. Top unit 1130 can be made of plastic of matching or complementing color.
FIG. 12 depicts a combination bottle system embodied as a kit that includes compatible and interchangeable parts to form a variety of bottle combinations having different functions and capacities. Combination bottle system 1200 includes at least one top unit having a functional end and at least one base unit. A preferred embodiment also includes at least one capacity adding unit. The exemplary embodiment of combination bottle system 1200 shown in FIG. 12 includes top unit 1230a having functional end 1228a, top unit 1230b having functional end 1228b, capacity adding unit 1251a having design element 1253a, capacity adding unit 1251b having design element 1253b, capacity adding unit 1251c having design element 1253c, and base unit 1220. The combination bottle system can be packaged as a kit or parts can be selected by the user from a vendor that sells components for the combination bottle system. Combination bottle system 1200 can include design element 1203 that can be indicative of the personalization of the combination bottle system.
In the example shown FIG. 12, combination bottle system 1200 is packaged as a kit suited to function as a gift for a student entering high school. The student participates in band and soccer and will graduate in the year 2022. Design elements 1253a, 1253b, and 1253c can be selected to personalize combination bottle system 1200 to the student receiving the gift (e.g., 1253a is “SHS BAND”, 1253b is “SHS SOCCER”, 1253c is “SHS CLASS OF 2022”). Functional ends 1228a and 1228b of top units 1230a and 1230b can be selected for what might be commonly used by a high school student (e.g., sports bottle functional end 1228a and spill-resistant beverage lid 1228b). Optional design element 1203 displays a gift message that is indicative of the personalization of the combination bottle system (“WELCOME TO SPRINGFIELD HIGH SCHOOL”). The student can replace or combine capacity adding units 1251a-c to indicate the personalization the student wants. For example, on a band trip the student might use capacity adding unit 1251a with “SHS BAND” design element 1253a. For soccer practice, the student might use two capacity adding units for extra hydration: capacity adding unit 1251b with “SHS SOCCER” design element 1253b, capacity adding unit 1251c with “SHS CLASS OF 2022” design element 1253c. The student may collect other capacity adding units customized to their interests.
FIG. 13 depicts another combination bottle system embodied as a kit that includes compatible and interchangeable parts to form a variety of bottle combinations having different functions and capacities. The exemplary embodiment of combination bottle system 1300 shown in FIG. 13 includes top unit 1330a having functional end 1328a, top unit 1330b having functional end 1328b, top unit 1330c having functional end 1328c, capacity adding unit 1351a having release mechanism 1352a, capacity adding unit 1351b having design element 1353b, capacity adding unit 1351c having design element 1353c, and base unit 1320. The combination bottle system can be packaged as a kit or parts can be selected by the user from a vendor that sells components for the combination bottle system. Combination bottle system 1300 can include design element 1303 that can be indicative of the personalization of the combination bottle system.
In the example shown FIG. 13, combination bottle system 1300 is packaged as a kit suited to function as a gift for a baby shower. Functional ends 1328a, 1328b, and 1328c of top units 1330a, 1330b, and 1328c can be selected for what a baby would need as the baby grows into a young child (e.g., baby bottle nipple 1328a, a sippy cup end 1328b, and a straw cup end 1328c). Multiple capacity adding units 1351a, 1351b, and 1351c are included in combination bottle system 1300 so that capacity can be added to the system as needed (e.g., as the baby grows older). Multiple capacity adding units 1351a, 1351b, and 1351c can be provided in different colors. The different colors can be used to differentiate bottle contents (e.g., white=formula, yellow=juice, etc.). The different colors can be used to indicate the volume added by the capacity adding units (e.g., white=4 ounces, pink=6 ounces, blue=8 ounces, etc.). Multiple capacity adding units 1351a, 1351b, and 1351c include release mechanisms 1352a, 1352b, and 1352c. Release mechanisms 1352a, 1352b, and 1352c are preferably adapted so that an adult can operate the release mechanism, but a baby or young child would have difficulty operating the release mechanism. This would prevent or reduce the ability of the baby or young child to separate the bottle components and cause a spill. Optional design element 1303 can display a gift message that is indicative of the personalization of the combination bottle system (“CONGRATUATIONS, IT'S A GIRL!”).
FIGS. 12 and 13 are merely schematic diagrams showing exemplary contents of kits in accordance with combination bottle systems 1200 and 1300. The diagrams are not intended to indicate the actual appearance of the kits or the arrangement of items within. That is, the kits may be embodied in any form of standard packaging for similar products. Further, the user may pick and choose which items to include in the combination bottle system. For example, the user may pick and choose among mix-and-match items offered from a vendor and assemble their own combination bottle system in lieu of purchasing a pre-prepared kit.
Some embodiments of the present invention are directed to a method for assembling a combination bottle from a combination bottle system and changing the capacity (volume) of the combination bottle “on-the-go” by interchanging components of the combination bottle system. FIG. 14 shows an exemplary method of assembling a combination bottle system. The method includes a user selecting a base unit (step 1502) and a top unit (step 1504) having a functional end adapted for the user's particular application (e.g., baby bottle nipples, baby spouts, straw tops, coffee tops, spray nozzles, sports top, flip top, etc.). The user then determines whether the combined volume of the base unit and top unit in assembly is sufficient for the user's particular application (step 1506). If the combined volume of the base unit and top unit in assembly is sufficient for the user's particular application, then the base unit and the top unit are connected in accordance with the type of attachment configurations of the base unit and the top unit (step 1508). For example, if the top unit and the base unit are threaded, then the top unit and the base unit are screwed together to form a leak-resistant seal. If the combined volume of the base unit and top unit in assembly is not sufficient for the user's particular application, then the user can select one or more capacity adding units are selected so that the combined volume of the base unit, the top unit, and the capacity adding unit(s) is sufficient for the user's needs (steps 1510 and 1512). The capacity adding units are then disposed between the top unit and the base unit in a manner that provides a leak-resistant coupling between each unit and whereby fluid is able to communicate through the top unit, the capacity adding unit(s), and the base unit in assembly (step 1514). If more than one capacity adding unit is used in the bottle assembly, then the capacity adding units are coupled to each other. The top unit is coupled to an uncoupled end of the assembled capacity adding units. The base unit is coupled to the other uncoupled end of the assembled capacity adding units. Multiple components can be kept with the user of the combination bottle system (for example in a carrying bag, diaper bag, gym bag, purse, backpack, etc.) to provide the ability to make rapid “on-the-go” changes to the bottle assembly as the user's needs change (e.g., a coffee cup can be quickly changed into a sports bottle having a large capacity).
Although the present invention and its advantages have been described in detail, it should be understood that various changes, substitutions and alterations can be made herein without departing from the scope of the invention as defined by the appended claims. Moreover, the scope of the present application is not intended to be limited to the particular embodiments of the process, machine, manufacture, composition of matter, means, methods and steps described in the specification. As one of ordinary skill in the art will readily appreciate from the disclosure of the present invention, processes, machines, manufacture, compositions of matter, means, methods, or steps, presently existing or later to be developed that perform substantially the same function or achieve substantially the same result as the corresponding embodiments described herein may be utilized according to the present invention. Accordingly, the appended claims are intended to include within their scope such processes, machines, manufacture, compositions of matter, means, methods, or steps.
Patent Application
20180370684
