US20220250782A1 - Portable Container And Method Of Use - Google Patents
Portable Container And Method Of Use Download PDFInfo
- Publication number
- US20220250782A1 US20220250782A1 US17/731,028 US202217731028A US2022250782A1 US 20220250782 A1 US20220250782 A1 US 20220250782A1 US 202217731028 A US202217731028 A US 202217731028A US 2022250782 A1 US2022250782 A1 US 2022250782A1
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- US
- United States
- Prior art keywords
- container
- cap
- aperture
- dual
- substance
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
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Images
Classifications
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- A—HUMAN NECESSITIES
- A45—HAND OR TRAVELLING ARTICLES
- A45F—TRAVELLING OR CAMP EQUIPMENT: SACKS OR PACKS CARRIED ON THE BODY
- A45F5/00—Holders or carriers for hand articles; Holders or carriers for use while travelling or camping
- A45F5/02—Fastening articles to the garment
- A45F5/021—Fastening articles to the garment to the belt
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47G—HOUSEHOLD OR TABLE EQUIPMENT
- A47G19/00—Table service
- A47G19/22—Drinking vessels or saucers used for table service
- A47G19/2205—Drinking glasses or vessels
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47G—HOUSEHOLD OR TABLE EQUIPMENT
- A47G19/00—Table service
- A47G19/22—Drinking vessels or saucers used for table service
- A47G19/2205—Drinking glasses or vessels
- A47G19/2266—Means for facilitating drinking, e.g. for infants or invalids
- A47G19/2272—Means for facilitating drinking, e.g. for infants or invalids from drinking glasses or cups comprising lids or covers
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D1/00—Containers having bodies formed in one piece, e.g. by casting metallic material, by moulding plastics, by blowing vitreous material, by throwing ceramic material, by moulding pulped fibrous material, by deep-drawing operations performed on sheet material
- B65D1/02—Bottles or similar containers with necks or like restricted apertures, designed for pouring contents
- B65D1/06—Bottles or similar containers with necks or like restricted apertures, designed for pouring contents with closable apertures at bottom
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D23/00—Details of bottles or jars not otherwise provided for
- B65D23/003—Suspension means
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D23/00—Details of bottles or jars not otherwise provided for
- B65D23/12—Means for the attachment of smaller articles
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D41/00—Caps, e.g. crown caps or crown seals, i.e. members having parts arranged for engagement with the external periphery of a neck or wall defining a pouring opening or discharge aperture; Protective cap-like covers for closure members, e.g. decorative covers of metal foil or paper
- B65D41/02—Caps or cap-like covers without lines of weakness, tearing strips, tags, or like opening or removal devices
- B65D41/04—Threaded or like caps or cap-like covers secured by rotation
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D51/00—Closures not otherwise provided for
- B65D51/24—Closures not otherwise provided for combined or co-operating with auxiliary devices for non-closing purposes
- B65D51/242—Closures not otherwise provided for combined or co-operating with auxiliary devices for non-closing purposes provided with means for facilitating lifting or suspending of the container
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D83/00—Containers or packages with special means for dispensing contents
- B65D83/06—Containers or packages with special means for dispensing contents for dispensing powdered or granular material
-
- A—HUMAN NECESSITIES
- A45—HAND OR TRAVELLING ARTICLES
- A45F—TRAVELLING OR CAMP EQUIPMENT: SACKS OR PACKS CARRIED ON THE BODY
- A45F2200/00—Details not otherwise provided for in A45F
- A45F2200/05—Holder or carrier for specific articles
- A45F2200/0583—Beverage vessels, e.g. bottles
-
- A—HUMAN NECESSITIES
- A45—HAND OR TRAVELLING ARTICLES
- A45F—TRAVELLING OR CAMP EQUIPMENT: SACKS OR PACKS CARRIED ON THE BODY
- A45F3/00—Travelling or camp articles; Sacks or packs carried on the body
- A45F3/16—Water-bottles; Mess-tins; Cups
- A45F3/18—Water-bottles; Mess-tins; Cups of rigid material
Definitions
- This disclosure generally relates to containers for retaining and transporting a product, such as a liquid, solid, or powder product.
- Supplements such as protein powders
- Transporting these supplements in plastic bags can result in difficulties during transportation and during mixing of the supplements for consumption.
- shaker or mixer bottles can be used to hold a serving of the protein powder to which water or a beverage is added before consumption.
- shaker or mixer bottles are bulky and inconvenient to carry.
- a bottle in a first aspect, comprises: a body that includes a first end forming a first aperture and a second end forming a second aperture, the first aperture having a first diameter and the second aperture having a second diameter, the first diameter being larger than the second diameter; a first cap removably coupled to the first end of the body; and a second cap removably coupled to the second end of the body.
- a portable container in a second aspect, comprises: a hollow body including a base portion including a base aperture defining a first diameter, a finish portion including a finish aperture defining a second diameter smaller than the first diameter, and a transition section positioned between and connecting the base portion and the finish portion; a base cap removably connected to the base portion to cover the base aperture; a finish cap removably connected to the finish portion to cover the finish aperture; and a carrier device removably connected to the finish cap.
- an apparatus for storing and transporting a substance comprises: a body including opposing first and second ends, the first end including a first male mating section and the second end including a second male mating section, the first male mating section defining a first opening and a first outer diameter and the second male mating section defining a second opening and a second outer diameter; a first cap including a first female mating section configured and dimensioned to removably receive the first male mating section such that the first cap covers the first opening, the first female mating section defining a third outer diameter larger than the first outer diameter; a second cap including a second female mating section configured and dimensioned to removably receive the second male mating section such that the second cap covers the second opening, the second female mating section defining a fourth outer diameter larger than the second outer diameter; and a carrier configured and dimensioned to removably connect to any of the body, the first cap, and the second cap.
- a portable container for a product includes a body, and a cap that is configured for connection to the body.
- the body includes: a lower end portion with a lid; a first body portion extending from the lower end portion and having a generally cylindrical configuration; a second body portion extending from the first body portion and including an outer wall having a generally arcuate configuration; a third body portion extending from the second body portion and including an outer wall having a generally linear, tapered configuration; a stopper extending radially outward of the third body portion; an upstanding wall extending (upwardly) from the stopper; and a nozzle positioned concentrically within the upstanding wall, wherein the upstanding wall includes a first threaded section, and the nozzle defines an opening and includes a generally uniform outer surface.
- the cap includes an outer wall defining an inner surface with a second threaded section that is configured for engagement with the first threaded section to facilitate connection and disconnection of the cap and the body.
- the lid may be removably connectable to the lower end portion of the body.
- the nozzle may define an outermost transverse cross-sectional dimension (e.g., a diameter) that lies substantially within the range of approximately 20 mm to approximately 23 mm to facilitate insertion of the nozzle into a beverage bottle.
- the outermost transverse cross-sectional dimension of the nozzle may be approximately 21.7 mm such that the outermost transverse cross-sectional dimension of the nozzle substantially approximates an inner transverse cross-sectional dimension of a beverage bottle inlet.
- the outermost transverse cross-sectional dimension can include other diameters including but not limited to 1 mm to 100 mm.
- the cap may further include an inner wall defining a receptacle that is configured to receive the nozzle.
- the receptacle may be configured to receive the nozzle in an interference fit to inhibit the product from escaping the container.
- a container in another aspect of the present disclosure, includes a body, and a cap that is configured for connection to the body.
- the body has an upper end portion that includes: an upstanding wall with a first threaded section that is formed on an outer surface thereof, and a nozzle that is spaced radially inward from the upstanding wall, wherein the nozzle defines an opening and includes a generally uniform outer surface.
- the cap includes an outer wall defining an inner surface including a second threaded section that is configured for engagement with the first threaded section to facilitate connection and disconnection of the cap and the body.
- the body may further include: a first body portion having a generally cylindrical configuration; a second body portion extending from the first body portion and including an outer wall having a generally arcuate configuration; and a third body portion extending from the second body portion and including an outer wall having a generally linear, tapered configuration.
- the second body portion may define a transverse cross-sectional dimension (e.g., a diameter) that decreases towards the third body portion
- the third body portion may define a transverse cross-sectional dimension that decreases towards the nozzle to facilitate passage of a product into and out of the container.
- the outer wall of the third body portion and the nozzle may be integrally formed.
- the body may further include a stopper that is positioned adjacent to the third body portion, wherein the upstanding wall extends upwardly from the stopper.
- the stopper and the cap may be configured for contact to inhibit rocking of the cap upon connection to the body.
- the body may further include a lower end portion with an integral lid.
- the lower end portion of the body may include a removable lid.
- the lower end portion of the body may include a third threaded section
- the lid may include a fourth threaded section that is configured for engagement with the third threaded section to facilitate connection and disconnection of the lid to the lower end portion of the body.
- the cap may further include an inner wall defining a receptacle that is configured to receive the nozzle.
- the receptacle may be configured to receive the nozzle in an interference fit to inhibit the product from escaping the container.
- the nozzle may define an outermost transvers cross-sectional dimension (e.g., a diameter) that lies substantially within the range of approximately 20 mm to approximately 23 mm to facilitate insertion of the nozzle into a beverage bottle.
- the nozzle may define an outermost transverse cross-sectional dimension of approximately 21.7 mm such that the outermost transverse cross-sectional dimension substantially approximates an inner transverse cross-sectional dimension of a beverage bottle inlet.
- a container in another aspect of the present disclosure, includes a body, and a cap that is configured for connection to the body.
- the body includes: a first section having a generally linear cross-sectional configuration; a second section extending from the first section and having a generally arcuate cross-sectional configuration; and a third section extending from the second section and having a generally linear, tapered cross-sectional configuration.
- the body may further include an upstanding wall having a first threaded section formed on an outer surface thereof that is configured for engagement with a corresponding second threaded section included on an inner surface of the cap, and a nozzle that is spaced radially inward from the upstanding wall, wherein the nozzle defines an opening and includes a generally uniform outer surface.
- the second section of the body may define a transverse cross-sectional dimension (e.g., a diameter) that decreases towards the third section
- the third section may define a transverse cross-sectional dimension that decreases towards the nozzle to facilitate passage of a product into and out of the container.
- a method may include utilizing a first cap to seal a first aperture located at a top end of a dual cap container; introducing a first substance into a body portion of the dual cap container via a second aperture located at a bottom end of the dual cap container; utilizing a second cap to seal the second aperture; removing the first cap to expose the first aperture; and dispensing the first substance from the body portion of the dual cap container via the first aperture.
- the method may further include determining that the second aperture has a larger size than the first aperture; and introducing the first substance into the body portion of the dual cap container via the second aperture based on determining that the second aperture has a larger size than the first aperture.
- introducing the first substance into the body portion of the dual cap container via the second aperture can include using the body portion of the dual cap container, the second cap, a spoon, a container, a folded piece of paper, and/or a dispensing apparatus, to at least partially fill the body portion of the dual cap container with the first substance via the second aperture.
- the first aperture can be defined by a nozzle. Dispensing the first substance from the body portion of the dual cap container via the first aperture can include inserting the nozzle into a mixing container; and dispensing the first substance into the mixing container.
- the first mixture may be mixed with the second substance contained in the mixing container.
- the second substance can be either a liquid and/or a powder.
- a method may include utilizing a body portion of a dual cap container as a scoop to at least partially fill the body portion with a first substance via a first aperture located at a bottom end of the dual cap container; and dispensing the first substance via a second aperture located at a top end of the dual cap container, the second aperture having a smaller size than the first aperture.
- the body portion of the dual cap container is substantially cylindrical, and the method may further include removing a first cap to expose the first aperture prior to utilizing the body portion of the dual cap container as the scoop; and utilizing a second cap to seal the second aperture prior to utilizing the body portion of the dual cap container as the scoop.
- the method may further include determining that the dual cap container is empty after dispensing of the first substance via the second aperture; and inserting a cleaning implement through the first aperture for cleaning an internal surface of the body portion of the dual cap container.
- the method may further include placing the dual cap container in a dishwashing machine in a washing arrangement that allows water to flow into the body portion via the first aperture and flow out via the second aperture.
- the second aperture may be defined by a nozzle and dispensing the first substance from the body portion of the dual cap container via the second aperture may include inserting the nozzle into a mixing container and dispensing the first substance into the mixing container.
- the first substance is a powder
- dispensing the first substance into the mixing container can include arranging the dual cap container to provide a funnel function by anchoring the nozzle to the mixing container and allowing the powder to flow out of the dual cap container into the mixing container via the second aperture.
- the mixing container contains a liquid and the method further may further include agitating the mixing container to mix the powder with the liquid.
- the powder is a protein powder and the liquid is either a beverage or water.
- a method may include filling at least a portion of a body portion of a dual cap container by introducing a first substance via a first aperture located at a bottom end of the dual cap container; transporting the dual cap container by use a of a carrier device attachable to the dual cap container; and dispensing the first substance via a second aperture located at a top end of the dual cap container, the second aperture having a smaller size than the first aperture.
- the carrier device is a carabiner, a chain, a lanyard, a rope, and/or a ring.
- the second aperture is defined by a nozzle and dispensing the first substance from the body portion of the dual cap container via the second aperture can include inserting the nozzle into a mixing container; dispensing the first substance into the mixing container; and mixing the first substance with a second substance contained in the mixing container.
- the first substance is a powder and the second substance is a liquid.
- filling the at least the portion of the body portion of the dual cap container by introducing the first substance via the first aperture can include removing a cap to expose the bottom end of the dual cap container and using the body portion of the dual cap container as a scoop to at least partially fill the body portion of the dual cap container with the first substance.
- the first substance is a powder and filling the portion of the body portion of the dual cap container can include removing a cap to expose the bottom end of the dual cap container and pouring the powder into the body portion of the dual cap container.
- a method may include providing a dual cap container having a base aperture that is located at a bottom end of the dual cap container and is larger in size than a top aperture located at a top end of the dual cap container, and providing an indication that the dual cap container is usable for transporting a substance and for transferring the substance into a mixing container.
- the substance is a protein powder, a whey powder, a supplement powder, an organic powder, an all-natural powder, a vegan powder, or a nutritional powder.
- the dual cap container is configured to be operated as a scoop for scooping the substance into a body portion of the dual cap container via the base aperture located at the bottom end of the dual cap container and for dispensing the substance into the mixing container via the top aperture located at the top end of the dual cap container.
- the dual cap container is configured to be transported by use of a carrier device attached to the dual cap container.
- FIG. 1 is a perspective side view of an example of a dual cap container according to one embodiment of this disclosure.
- FIG. 2 is an exploded, perspective view of the container seen in FIG. 1 .
- FIG. 3 is a bottom (underside) view of the second cap of the container seen in FIG. 1 .
- FIG. 4 is an exploded, perspective view of an example of a container according to another embodiment of this disclosure.
- FIG. 5 is a first perspective view of an example of a container according to another embodiment of this disclosure.
- FIG. 6 is a second perspective view of the container seen in FIG. 5 .
- FIGS. 7 and 8 are opposite side views of the container seen in FIG. 5 .
- FIG. 9 is a front view of the container seen in FIG. 5 .
- FIG. 10 is a rear view of the container seen in FIG. 5 .
- FIG. 11 is a top view of the container seen in FIG. 5 .
- FIG. 12 is a bottom (underside) view of the container seen in FIG. 5 .
- FIG. 13 is a longitudinal (vertical) cross-sectional view of the container seen in FIG. 5 .
- FIG. 14 is an exploded, perspective, top view of the container seen in FIG. 5 .
- FIG. 15 is an exploded, perspective, bottom view of the container seen in FIG. 5 .
- FIG. 16 is an exploded, side view of the container seen in FIG. 5 .
- FIG. 17 is a cross-sectional view of a rib of a container according to another embodiment of this disclosure.
- FIG. 18A and FIG. 18B show a flowchart of a method of use of a portable dual cap container in accordance with the disclosure.
- FIG. 19 illustrates an example method to introduce a substance into a dual cap container in accordance with the disclosure.
- FIG. 20 illustrates some example implements that may be used to introduce a substance into a dual cap container in accordance with the disclosure.
- FIG. 21 illustrates an example configuration that can be used for washing a dual cap container in accordance with the disclosure.
- Embodiments according to this disclosure include a portable and miniature dual cap container or bottle that is adapted to contain a product (also referred to as a substance or material).
- the portable and miniature container only has a single cap on either end (i.e., a single top cap and corresponding single top opening or a single bottom cap and corresponding single bottom opening) as opposed to having a dual cap configuration.
- the portable and miniature dual cap container can be used to carry servings or varying amounts of the product.
- the portable and miniature dual cap container can be sized to accommodate one, two, or more servings of the product and 30 grams, 60 grams, or more grams of the product.
- the product may be purchased in individual servings or in bulk in a large container, which is inconvenient and impractical to carry around.
- the product may be a supplement including but not limited to a protein powder, a whey powder, organic powder, all-natural powder, vegan powder, a nutritional powder, a pre-workout powder, nutritional foods, nutritional liquids, and vitamins Protein powder may be bought in a multiple serving (e.g., 50-serving) large tub or container having a heavy weight (e.g., 3.5 pounds).
- a shaker, mixer, blender, or the like bottle may be used to carry at least one serving of the product.
- Shaker bottles usually have capacities of 16, 20, 28, 32, or more or less ounces. As such, they are more portable than, for example, a 3.5-pound large tub or container.
- a typical use of the shaker bottle may be that a person, using a scoop, pours at least one serving (e.g., two tablespoons or 30 grams) of the supplement powder (e.g., whey protein powder) into the shaker bottle; the person carries the shaker bottle to the gym; after a workout, the person adds water or another liquid (e.g., milk) to the shaker bottle, closes the lid tightly and shakes the shaker bottle to mix the powder with the liquid to form a dietary or nutritional mixture that is consumed.
- the shaker bottle may be washed after the person consumes the mixture.
- the shaker bottle may include a whisk ball, which aids in the mixing and may prevent the clumping of the supplement powder during mixing.
- Shaker bottles are bulky and inconvenient. Shaker bottle caps can easily crack causing leaks and splashes during shaking. Shaker bottles can be prone to retaining odors when not immediately cleaned. Even if immediately washed, it may be difficult to remove powder sediments accumulated in the bottom and other corners of the shaker bottles.
- Other disadvantages are associated with shaker bottles. For example, it can be sub-optimal to drink from a shaker bottle due to the large top cap and nozzle area and the whisk ball can be difficult to clean and can be easily lost.
- a method and system in accordance with the present disclosure provides a portable container with carrier device (also referred to as a “bottle” or “container”) that does not exhibit the above-mentioned disadvantages.
- the portable container can be small enough to fit in a pocket or can be easily and efficiently carried on the carrier device (e.g., keychain) attached to the portable container.
- the container can be clipped or attached to a bag (e.g., gym bag) or an article of clothing (e.g., belt loops) via the keychain.
- a container according to this disclosure can be used for carrying a small amount of a product, such as one serving of a protein powder.
- the container is portable and miniature with a dual cap and includes a keychain that can be optional.
- the design of the container can be shaped to have a similar design as a large tub or container.
- the container can comprise a plurality of pieces including but not limited to a main hollow body (also referred to as a “body”), a bottom cap coupled to a bottom end of the main hollow body, and a top cap coupled to a top end (that is opposite the bottom end) of the main hollow body.
- An optional keychain e.g., carabiner keychain
- the container can comprise a single removable top cap that has a wider mouth (i.e., a “wide mouth” or “wider mouth” opening) top opening that allows the user to fill the bottle with supplement powder and to dump the supplement powder back into another bottle (e.g., a shaker bottle) using the same wider mouth top opening.
- the container can comprise a single removable top cap that has a funnel sized top opening that allows the user to fill the bottle with supplement powder and to insert the container into a water bottle or drink bottle opening via the funnel sized top opening to funnel the supplement powder out of the container and into the water bottle or drink bottle.
- the container can comprise a single removable bottom cap that has a wider mouth bottom opening that allows the user to fill the bottle with supplement powder and to dump the supplement powder back into another bottle (e.g., a shaker bottle) using the same wider mouth bottom opening.
- the container can still have the top cap that is fixated and cannot be removed (e.g., screwed off).
- the container can comprise a single removable bottom cap that has a funnel sized bottom opening that allows the user to fill the bottle with supplement powder and to insert the container into a water bottle or drink bottle opening via the funnel sized bottom opening to funnel the supplement powder out of the container and into the water bottle or drink bottle.
- the container can still have the top cap that is fixated and cannot be removed (e.g., screwed off).
- the container does not comprise any removable caps and is shaped like a miniature supplement container with a top cap that includes carrier device (e.g., carabiner keychain).
- the container includes a first opening at one end (e.g., a bottom end) for receiving the product.
- the first opening enables the scooping of one or more servings of the powder into the container from another bulk container. That is, when the bottom cap of the container is removed (e.g., unscrewed), the body of the container (more specifically, a bottom end of the body) can be used to scoop the product into to the body for storage and transportation. The bottom cap can then be reattached to the first opening to secure the product inside the container.
- the first opening can be closed with different types of mating structures (e.g., the bottom cap) and via different attachment mechanisms (e.g., screwing, clipping, etc.) that seals the first opening.
- the seal can be airtight.
- the container includes a second opening at an opposite end of the one end (e.g., a top end) for transferring or releasing the product into another container or bottle (e.g., a mixing container, a water bottle, a soda bottle, etc.).
- the second opening can be formed within a portion of the container (e.g., a nozzle also referred to as a finish portion) that is formed within the container proximate to where the container couples with the top cap.
- the top cap can conceal the nozzle portion of the main body.
- the mixing container can be, for example, a disposable or recyclable standard water bottle that can be found at various grocery markets.
- the second opening of the container can be substantially similar and slightly smaller (e.g., by one or more microns) in size to that of an opening of a receiving bottle (e.g., a water bottle) to enable the nozzle to be inserted into the receiving bottle.
- the second opening can be at least slightly smaller than that of the receiving bottle (also referred to as a mixing container) such that the product can be easily poured into the mixing container without causing any of the product to spill outside the mixing container.
- the mixing container is a water bottle with an opening size of 0.75 inches
- the second opening of the container can be smaller or equal to 0.75 inches.
- the second opening can be 0.5 to 0.7 inches.
- the second opening is sized so as to fit into the opening of the mixing container.
- the second opening can be sealed with a cap.
- Terms such as ‘substantially,’ ‘generally,’ ‘approximately,’ etc., as used herein can include but is not limited to variations on the order ⁇ 20%.
- the container is a single cap container (and not a dual cap container) that only includes one single opening (i.e., either a top opening or a bottom opening and not both a top and bottom opening). Therefore, in the single cap container, the scooping and the emptying of the contents housed within the container is accomplished via the same single opening.
- the one single opening can have various sizes or diameters including but not limited to a wide mouth size, a funnel opening size, and other sizes.
- a typical use of the portable dual cap container comprising the main body, the top cap removably coupled to the main body, and the bottom cap removably coupled to the main body can include the steps of: removing the bottom cap to expose the first opening of the main body; using the initially altered dual cap container (that now only includes the main body and the top cap coupled to the main body because the bottom cap has been removed/detached) as a scoop to scoop an amount (e.g., a small amount, at least one serving, more than two servings, etc.) of product (e.g., supplement powder) from a large tub or container into the initially altered dual cap container for storage and/or transportation; resealing the first opening by coupling or reattaching the bottom cap back to the main body to provide the dual cap container in original form factor; when ready to consume the product housed or stored within the dual cap container in original form factor, removing the top cap to expose the second opening formed via a nozzle portion of the main body; pouring or releasing or dumping the product from the
- FIG. 1 is a perspective side view of a dual cap container 100 according to one embodiment of this disclosure.
- the dual cap container 100 can be structured as a container or as a bottle.
- the dual cap container 100 is in a closed state.
- the dual cap container 100 includes a body 102 , a shoulder 104 (also referred to as a transition portion), a first cap (lid) 106 (also referred to as a bottom cap), and a second cap (lid) 108 (also referred to as a top cap).
- the dual cap container 100 is a single cap container with only either the first cap 106 or the second cap 108 .
- the body 102 can be generally vertical with a constant outer diameter.
- the shoulder can have a variable outer diameter and decreases in diameter as the shoulder moves away from the first cap 106 and towards the second cap 108 .
- the body 102 is shown as circular but can also be shaped to be in a variety of shapes including but not limited to square, rectangle, elongated cylindrical, hexagonal, trapezoidal, and other shapes.
- the first cap 106 is removably connected or coupled or attached (e.g., via screwing, clipping, snapping, etc.) to a bottom end of the dual cap container 100 proximate to the body 102 .
- the first cap 106 can be used as a base upon which the dual cap container 100 can rest or stand.
- the first cap 106 can be removed from the dual cap container 100 to expose a first opening (also referred to as a first aperture) of the dual cap container 100 .
- a first opening also referred to as a first aperture
- the removal of the first opening enables the dual cap container 100 to be used to scoop a product, such as from a bulk container, into an internal chamber of the dual cap container 100 .
- first cap 106 can be used as a base, a surface of the first cap 106 which can rest on a horizontal surface is closed such that, when the first cap 106 is connected to the body 102 , and the dual cap container 100 is rested on a horizontal surface and the product contained therein is retained inside the dual cap container 100 .
- the second cap 108 is removably connected or coupled or attached (e.g., via screwing, clipping, snapping, etc.) to a top end of the dual cap container 100 proximate to the shoulder 104 .
- the second cap 108 can be removed to expose a second opening (e.g., second opening 123 shown in FIG. 2 ) of the dual cap container 100 .
- the top end of the dual cap container 100 includes a nozzle or finish portion (not shown in FIG. 1 ) that is concealed when the second cap 108 is coupled to the top end of the dual cap container 100 .
- the nozzle or finish portion includes the second opening (also referred to as a second aperture).
- the second opening can be used to transfer the product stored within the dual cap container 100 to another container, such as to a mixing container, which may be a water bottle.
- the product can be transferred to the mixing container by inserting the nozzle of the dual cap container 100 into an opening or aperture of the mixing container.
- the shoulder 104 can include a stopper 110 .
- the stopper 110 can be shaped as a ring around the top end of the dual cap container 100 that interfaces between the top end of the dual cap container 100 and the second cap 108 when the second cap 108 is attached.
- the stopper 110 is optional as the second cap 108 can be coupled to the top end of the dual cap container 100 so that the second cap would interface more directly or closely with the shoulder 104 .
- the body 102 and the shoulder 104 of the dual cap container 100 can be formed as one continuous piece. Therefore, the dual cap container 100 can include separate pieces comprising the first cap 106 (i.e., the bottom cap), the body 102 and shoulder 104 continuous piece, the second cap 108 , and a carrier device.
- the shoulder 104 can have the same body diameter at a point 112 as the body 102 .
- the shoulder 104 can slope inwardly toward the center of the dual cap container 100 such that the shoulder 104 has a second diameter (closer to the stopper 110 and away from the point 112 ) that is smaller than the constant diameter of the body 102 .
- the shoulder 104 connects to the nozzle (not shown) with the stopper 110 acting as an intermediary structure.
- the dual cap container 100 can include a carrier device 116 .
- the carrier device 116 can comprise a variety of devices including but not limited to a keychain, a carabiner keychain, a lanyard, a rope, a ring, a metal ring, and any combination thereof.
- the carrier device 116 can be attached to a top surface 118 of the second cap 108 .
- the top surface 118 is a side of the second cap 108 that is opposite the side that is removably connected to the dual cap container 100 (e.g., via the nozzle).
- the top surface 118 comprises an outer surface of the second cap 108 .
- the second cap 108 (i.e., the top cap) includes an inner surface (not shown) that comes into contact with the nozzle of the dual cap container 100 .
- the carrier device 116 can also be attached to other surfaces of the dual cap container 100 including but not limited to a side surface of the second cap 108 , to a surface of the body 102 , or to a surface of the shoulder 104 .
- the dual cap container 100 can be shaped to be a miniature sized container.
- the dual cap container 100 when the first cap 106 is attached to the body 102 and the second cap 108 is attached to the top end of the dual cap container 100 , can be two to four inches in height with a body diameter that can be 1.5 to two inches. Other dimensions are also possible.
- a length of body and the body diameter of the body 102 can be such that the body 102 is of sufficient volume to hold a desired amount of the product (e.g., one or two or more servings of protein powder, pre-workout powder, etc.).
- the dual cap container 100 can house a variety of volumes of supplement powder or other substances including but not limited to 45 cubic centimeters (cc), 75 cc, 90 cc, 150 cc, 180 cc, or other volumes.
- the dimensions of the container that houses 180 cc of substance would be substantially twice (i.e., two times or 2 ⁇ or double) the dimensions of the container that houses 90 cc of substance.
- the length of body of the body 102 can be such that the dual cap container 100 resembles a shaker bottle or water bottle (i.e., a length that is much longer than the width and so the container is not shaped as a miniature supplement tub) and thus can house not only substantially more than the desired amount of the product (e.g., one or more servings) but can also house the water or other liquid (e.g., milk) that the user would like to mix the product with before consumption.
- the diameter of an opening of the nozzle can also be varied based on varying openings of receiving devices.
- FIG. 2 is an exploded perspective view of the embodiment of FIG. 1 .
- FIG. 2 illustrates an exploded view of the dual cap container 100 of FIG. 1 . Descriptions of elements with the same numerals as those of FIG. 1 are omitted.
- the first cap 106 includes a first female mating structure 126 (also referred to as an internal mating structure) via which the first cap 106 can be removably connected to the body 102 via a first male mating structure 121 of the body 102 .
- the first female mating structure 126 can include a first set of threaded screws and the first male mating structure 121 can include a set of threaded screws corresponding to the first set of threaded screws.
- the body 102 includes a ledge 120 and the first male mating structure 121 (also referred to as an external mating structure).
- the first cap 106 is removably connected to the body 102 by mating the first female mating structure 126 to the first male mating structure 121 .
- the ledge 120 is a recess between the first male mating structure 121 and an outer wall of the body 102 .
- the first male mating structure 121 and the first female mating structure 126 are threading mating structures.
- the first female mating structure 126 can be an interior threading that is formed on at least a portion of an interior wall of the first cap 106 (i.e., around an inner circumference of the first cap 106 ) such that when the first female mating structure 126 is mated with the first male mating structure 121 , the exterior walls of the first cap 106 and the body 102 are aligned.
- the first cap 106 can include a different type of mating structure (e.g., a male mating structure) and the bottom end of the body 102 can include a different type of mating structure (e.g., a female mating structure).
- a different type of mating structure e.g., a male mating structure
- the bottom end of the body 102 can include a different type of mating structure (e.g., a female mating structure).
- the nozzle 114 (also referred to as a finish section) is shown to be positioned above the stopper 110 (also referred to as a collar) and a lip 124 .
- the lip 124 borders the second opening 123 via which the product contained in the dual cap container 100 can be transferred out, poured out, or the like, such as to a mixing container.
- An outside wall of the nozzle 114 forms a mating structure (e.g., a male mating structure) that can be mated with a corresponding mating structure (e.g., a female mating structure) of the second cap 108 to seal or cover the second opening 123 .
- the seal can be airtight.
- the stopper 110 includes a first collar side (not shown) and a second collar side 125 .
- the first collar side is connected to the shoulder 104 and the second collar side 125 is connected to the nozzle 114 .
- the mating structure of the nozzle 114 can include a threaded section that corresponds to a threaded section of the mating structure of the second cap 108 .
- FIG. 3 is an underside view of the second cap 108 of the embodiment of FIG. 1 .
- FIG. 3 depicts a perspective view 310 and a bottom view 320 of the second cap 108 .
- the perspective view 310 shows an inner second cap wall 128 , a gap 130 , an outer second cap wall 132 , and a portion of a bottom surface of the second cap 108 .
- the gap 130 is an area between the inner second cap wall 128 and the outer second cap wall 132 .
- the inner second cap wall 128 borders or contains a mating structure of the second cap 108 (e.g., female mating structure) that receives the nozzle 114 of the dual cap container 100 (i.e., receiving the male mating structure of the nozzle 114 ).
- the female mating structure of the inner second cap wall 128 includes a threading structure formed on an inside wall of the inner second cap wall 128 such that the second cap 108 can be mated with a threading structure formed on an outside wall of the nozzle 114 serving as a corresponding male mating structure.
- the second cap 108 can rest or come in close proximity or form an airtight seal with the stopper 110 (e.g., to inhibit, if not entirely prevent, rocking of the second cap 108 , or other such undesirable movement).
- the gap 130 can be such that the outer second cap wall 132 aligns with an outer circumference of the second collar side 125 . In FIG. 3 , the portion of the nozzle 114 shown is not part of the second cap 108 .
- the bottom view 320 reveals the inner second cap wall 128 , the gap 130 , and the outer second cap wall 132 .
- a dual cap container does not include the stopper 110 between the shoulder 104 and the nozzle 114 .
- the nozzle 114 connects to the shoulder 104 at the point 112 .
- the second cap 108 does not include the gap 130 . As such, there is only one wall of the second cap 108 instead of separate walls comprising the inner second cap wall 128 and the outer second cap wall 132 .
- FIG. 4 is an exploded perspective view of an example of a dual cap container 400 according to another embodiment of this disclosure.
- the dual cap container 400 can include similar structures as the dual cap container 100 . Descriptions of elements with the same numerals as those of FIG. 1 are omitted.
- the dual cap container 400 differs from the from the dual cap container 100 , mainly, in that the dual cap container 400 does not include a shoulder component (e.g., the shoulder 104 of FIG. 1 ), and does not include a stopper (e.g., the stopper 110 ). By not including a shoulder component, the dual cap container 100 forms a straight-edge design (i.e., there is a vertical straight-edge aligning the first cap 106 , the body 102 , and the second cap 108 ).
- a shoulder component e.g., the shoulder 104 of FIG. 1
- a stopper e.g., the stopper 110
- a top body side 402 of the body 102 encloses the side of the body 102 that is opposite the side (i.e., bottom side) that includes the first female mating structure 126 .
- the nozzle 114 is connected to the top body side 402 . In some implementations, the centers of the nozzle 114 and the top body side 402 are aligned.
- the nozzle 114 includes an opening for releasing contents of the dual cap container 400 into a receiving device.
- the diameter of the opening can be the same as the diameter of the second opening 123 or can be varied. Additionally, when the second cap 108 is mated with the nozzle 114 , the second cap 108 can rest on the top body side 402 or come in close contact or form an airtight seal.
- the outer second cap wall 132 can align with an outer circumference of the top body side 402 . In other words, they can share the same or a similar diameter.
- the portable dual cap container can be an elongated bottle (e.g., the same height and size as a water bottle).
- the elongated portable dual cap container can have a capacity of 20, 28, 32 ounces.
- the elongated portable dual cap container can have larger or smaller volumes.
- the elongated portable dual cap container can have downward tapered sides or have a continuous outer diameter.
- the elongated portable dual cap container have come in varying shapes including but not limited to a cylindrical shape resembling that of a shaker bottle.
- the elongated portable dual cap container can include a mixer ball for mixing housed contents.
- the body defines an interior chamber that can house a substance.
- the bottle can be formed from a material that is impermeable to fluids.
- the material can be a plastic material (e.g., PET, PETE, HDPE, PVC, LDPE, PP, PS) that is BPA free and recyclable.
- the material can also be other materials that can be used to store and/or transport food and/or fluids including but not limited to glass and certain spill proof fabrics.
- An embodiment according to this disclosure is a bottle.
- the bottle comprises a body, the body including a first end forming a first aperture and a second end forming a second aperture, the first aperture having a first diameter and the second aperture having a second diameter, the first diameter being larger than the second diameter; a first cap removably coupled to the first end of the body; and a second cap removably coupled to the second end of the body.
- the bottle further comprises a carrier device removably coupled to the second cap.
- the first cap includes a first threaded section and the first end of the body includes a second threaded section, the first and the second threaded sections being configured and dimensioned for engagement such that the first cap is attachable to and removable from the first end of the body by rotation.
- the second cap includes a third threaded section and the second end of the body includes a fourth threaded section, the third and the fourth threaded sections being configured and dimensioned for engagement such that the second cap is attachable to and removable from the second end of the body by rotation.
- the second end of the body includes a male mating portion, the male mating portion defining the second aperture and including the fourth threaded section.
- the male mating portion is removably inserted into an opening of a receiving device to release a substance into the receiving device.
- the body defines an interior chamber that houses the substance.
- the bottle is formed from a material that is impermeable to fluids.
- the body includes a main body portion having a constant outer diameter and a transition portion having a variable outer diameter.
- the bottle further comprises a stopper configured and dimensioned for engagement with the second cap, the stopper being positioned between the transition portion of the body and the second aperture.
- the transition portion includes a first end positioned adjacent the main body portion and a second end positioned adjacent the stopper, an outer diameter of the transition portion decreasing from the first end to the second end.
- the second cap includes an outer ring portion defining a first inner diameter and an inner ring portion defining a second inner diameter, the first inner diameter being larger than the second inner diameter, the inner ring portion including the fourth threaded section.
- An outer diameter of the male mating portion is smaller than the second inner diameter such that the male mating portion is received by a female mating portion of the inner ring portion, and an outer diameter of the stopper is similar to the first inner diameter such that the stopper is substantially flush with the second cap.
- the second cap includes a receiver configured and dimensioned for mechanical connection to the carrier device such that the carrier device is attachable to and removable from the receiver, the receiver defining an opening configured and dimensioned to receive the carrier device.
- the carrier device comprises a carabiner keychain coupled to a ring, the ring configured and dimensioned for removable positioning within the opening defined by the receiver to facilitate the mechanical connection of the carrier device to the receiver.
- the male mating portion defining the second aperture does not include the fourth threaded section which is instead coupled to a ringed wall structure that surrounds the male mating portion of the second end of the body.
- the second cap does not include an inner ring portion and only includes the outer ring portion that includes the fourth threaded section.
- the ringed wall structure has a diameter that is slightly smaller than the diameter of the outer ring portion of the second cap so that the ringed wall structure and the outer ring portion of the second cap can engage via reciprocal thread and fourth threaded sections.
- the portable container comprises a hollow body including a base portion including a base aperture defining a first diameter, a finish portion including a finish aperture defining a second diameter smaller than the first diameter, and a transition section positioned between and connecting the base portion and the finish portion; a base cap removably connected to the base portion to cover the base aperture; a finish cap removably connected to the finish portion to cover the finish aperture; and a carrier device removably connected to the finish cap.
- the carrier device can be optional.
- the base aperture is larger than the finish aperture.
- the base aperture can have an opening that is approximately 2 ⁇ , 3 ⁇ , 4 ⁇ , 5 ⁇ , etc.
- the size of the finish aperture that is sized to fit into a standard water or drink bottle opening i.e., the finish aperture has a funnel sized opening.
- the base aperture can also be substantially similar in size to the finish aperture.
- the base aperture and finish aperture can both be “wider mouth” openings or can both be “funnel sized” openings.
- the base aperture can also be smaller than the finish aperture allowing the user to scoop the substance housed within the portable container using the finish aperture and to funnel the substance housed within the portable container out of the base aperture.
- the base cap is removably connected to the base portion via screw threads positioned on an inner circumference of the base cap and an outer circumference of the base portion.
- the finish cap is removably connected to the finish portion via screw threads positioned on an inner circumference of the finish cap and an outer circumference of the finish portion.
- the base and finish caps can be removably connected to the base portion and finish portion respectively via other mechanisms including but not limited to snaps and clips.
- the apparatus comprises a body including opposing first and second ends, the first end including a first male mating section and the second end including a second male mating section, the first male mating section defining a first opening and a first outer diameter and the second male mating section defining a second opening and a second outer diameter; a first cap including a first female mating section configured and dimensioned to removably receive the first male mating section such that the first cap covers the first opening, the first female mating section defining a third outer diameter larger than the first outer diameter; a second cap including a second female mating section configured and dimensioned to removably receive the second male mating section such that the second cap covers the second opening, the second female mating section defining a fourth outer diameter larger than the second outer diameter; and a carrier configured and dimensioned to removably connect to any of the body, the first cap, and the second cap.
- a diameter of a top surface of the first cap is
- the single bottom cap container comprises a hollow body including a base portion including a base aperture defining a first diameter, a finish portion with a non-removable finish cap, and a transition section positioned between and connecting the base portion and the finish portion; a single bottom cap removably connected to the base portion to cover the base aperture; and a carrier device removably connected to the finish cap that is not removable from the finish portion (i.e., the finish portion and the finish cap are continuous).
- the carrier device can be optional.
- the single bottom cap container allows substances (e.g., supplement protein powder) to be filled into the container and emptied out of the container via the same base aperture.
- the single bottom cap is removably connected to the base portion via screw threads positioned on an inner circumference of the base cap and an outer circumference of the base portion.
- the single bottom cap can be removably connected to the base portion via other mechanisms including but not limited to snaps and clips.
- the single top cap container comprises a hollow body including a base portion, a finish portion including a finish aperture defining a second diameter smaller than the first diameter, and a transition section positioned between and connecting the base portion and the finish portion; a single top cap removably connected to the finish portion to cover the finish aperture; and a carrier device removably connected to the single top cap.
- the carrier device can be optional.
- the single top cap container allows substances (e.g., supplement protein powder) to be filled into the container and emptied out of the container via the same finish aperture.
- the finish aperture can be sized like a funnel (i.e., sized with a funnel sized opening) so that the finish aperture can fit into a standard water or drink bottle opening.
- the finish aperture can also be sized with a wider mouth opening that easily allows the container to be filled and emptied from the same top end opening (i.e., the finish aperture) of the container.
- the single top cap is removably connected to the finish portion via screw threads positioned on an inner circumference of the finish cap and an outer circumference of the finish portion.
- the single top cap can be removably connected to the base portion via other mechanisms including but not limited to snaps and clips.
- the container 200 is substantially similar to the various embodiments discussed herein above including but not limited to the container 100 of FIG. 1 and the container 400 of FIG. 4 and, accordingly, will be described with a focus on any differences therebetween in the interest of brevity.
- the container 200 includes a body 202 having upper and lower (first and second) end portions 204 u, 204 l, and a removable (first) cap (lid) 206 . It is envisioned that the body 202 may be configured and dimensioned to accommodate any desirable volume of product. For example, in various embodiments, the body 202 may define an internal volume substantially within the range of approximately 50 cubic centimeters (cc) to approximately 350 cc, although larger and smaller volumes would not be beyond the scope of the present disclosure.
- the body 202 includes a (first or lower) body portion (section) 208 i with an outer wall 210 i, a (second or middle) body portion (section) 208 ii with an outer wall 210 ii that extends (upwardly) from the body portion 208 i, and a (third or upper) body portion (section) 208 iii with an outer wall 210 iii that extends (upwardly) from the body portion 208 ii.
- the outer wall 210 i can also be referred to as an annular wall that is generally circular in cross-section.
- the body portion 208 i includes the outer wall 210 i being generally cylindrical and defining a substantially uniform outer transverse cross-sectional dimension (e.g., diameter) Di ( FIG. 7 ).
- the body portion 208 ii includes the outer wall 210 ii having a generally arcuate configuration defining a variable outer transverse cross-sectional dimension (e.g., diameter) Dii that decreases moving from the body portion 208 i (the outer wall 210 i ) towards the body portion 208 iii (the outer wall 210 iii ).
- the body portion 208 iii includes the outer wall 210 iii having a generally linear, tapered (e.g., frustoconical) configuration defining a variable outer transverse cross-sectional dimension (e.g., a diameter) Diii that decreases towards the nozzle 212 .
- the body 202 thus includes a tapered configuration that extends inwardly from the body portion 208 i to a stopper 214 , which extends radially outward from the body 208 (e.g., from the body portion 208 iii ).
- the container 200 may be configured such that the taper forms interior surfaces of the body 202 to encourage (or otherwise facilitate) passage of the product into and out of the container 200 by reducing drag and/or resistance via the elimination of any intrusive or interruptive corners or edges.
- interior surfaces of the body 202 corresponding to the nozzle 212 , the body portion 208 iii, and the body portion 208 i i may be formed continuously (e.g., monolithically).
- the stopper 214 may engage the cap 206 to frictionally retain the cap 206 on the body 202 and/or prevent over-insertion of the nozzle 212 into the cap 206 .
- the stopper 214 may be configured as an annular flange that extends radially outward relative to the body 202 . It is envisioned that the stopper 214 may be directly connected to the body portion 208 iii or, alternatively, that the stopper 214 may be indirectly connected to the body portion 208 iii such that the stopper 214 is positioned generally adjacent to the body portion 208 iii.
- the container 200 may include a neck 216 ( FIGS. 7-10 ) with a generally arcuate internal configuration that acts as a transition between the body portion 208 iii and the stopper 214 to further eliminate any intrusive or interruptive corners, edges, etc., that may otherwise impede the flow of product into and out of the container 200 .
- the upper end portion 204 u of the body 202 further includes an upstanding wall 218 that may, as shown, extend (vertically upward) from the stopper 214 .
- the upstanding wall 218 includes an outer surface 220 with a threaded section 222 , and defines a maximum outer transverse cross-sectional dimension (e.g., a maximum outer diameter) Duw that lies substantially within the range of approximately 36 mm to approximately 40 mm, although larger and smaller values for Duw would not be beyond the scope of the present disclosure.
- the nozzle 212 is spaced radially inward from the upstanding wall 218 so as to define a gap G ( FIG. 14 ) therebetween.
- the nozzle 212 defines an opening 224 through which product enters and exits the container 200 . More specifically, as seen in FIG. 14 , for example, in the illustrated embodiment, the nozzle 212 and the upstanding wall 218 are arranged in concentric relation to define the gap G therebetween.
- the gap G may, for example, be positioned immediately above the outer wall 210 iii.
- the upstanding wall 218 may terminate at a height (e.g., axial dimension) that is lower than the nozzle 212 .
- the nozzle 212 includes an outer surface 226 that is generally uniform in configuration. More specifically, the nozzle 212 is devoid of any threading, which allows the transverse cross-sectional dimension of the nozzle 212 to be increased (when compared to previous embodiments of the disclosure), while still allowing for insertion into the inlet of a beverage container (e.g., water bottle).
- a beverage container e.g., water bottle
- the nozzle 212 may define a maximum outer transverse cross-sectional dimension (e.g., a maximum outer diameter) Dn that lies substantially within the range of approximately 20 mm to approximately 23 mm, although larger and smaller values for Dn would not be beyond the scope of the present disclosure.
- the nozzle 212 defines a maximum outer transverse cross-sectional dimension Dn of approximately 21.7 mm With the outer surface 226 being uniform (e.g., devoid of threading), the maximum outer transverse cross-sectional dimension Dn may be increased relative to other nozzles having outer surfaces that are non-uniform (e.g., with threading) and still allow insertion of the nozzle 212 into other containers (e.g., nozzles of standard-sized beverage containers).
- an inner surface (not labeled) of the nozzle 212 may have a larger maximum inner transverse cross-sectional dimension (e.g., a maximum inner diameter; not labeled) as compared to those other nozzles having outer surfaces that are non-uniform. This larger maximum inner diameter may better facilitate the flow of product from the container 200 through the nozzle 212 into the beverage container.
- the maximum outer diameter Dn of the nozzle 212 is smaller than a maximum inner diameter of the upstanding wall 218 (not labeled) to define the gap G therebetween. A corresponding nozzle of the beverage container may be received in the gap G when the nozzle 212 is inserted therein for product of the container 200 to be poured into the beverage container.
- the nozzle 212 is shown as being integrally (e.g., monolithically) formed with the outer wall 210 iii of the body portion 208 iii in the illustrated embodiment, as seen in FIG. 13 , alternate constructions would not be beyond the scope of the present disclosure.
- the nozzle 212 and the body portion 208 iii may be formed as separate (discrete) structures that are connected together (e.g., via ultrasonic welding, or any other suitable process).
- the cap 206 includes an inner wall 228 defining a receptacle 230 that is configured to receive the nozzle 212 , and an outer wall 232 that is spaced radially outward from the inner wall 228 .
- the inner wall 228 may be concentric with the outer wall 232 and form another gap (not labeled) therebetween, which generally corresponds to the gap G of the container 200 .
- the inner wall 228 has a lesser height in comparison to the outer wall 232 but the inner wall 228 and outer wall 232 can have a variety of varying height levels including but not limited to same heights.
- the receptacle 230 may be configured to receive the nozzle 212 so as to inhibit (if not entirely prevent) the escape of product from the container 200 .
- the receptacle 230 e.g., inner surfaces of the inner wall 228 defining the receptacle and/or of an upper wall of the cap 206 defining
- the nozzle 212 may engage the nozzle 212 (e.g., in radial and/or axial directions, respectively).
- Such engagement may form an interference (e.g., snap-fit) arrangement by which the cap 206 is retained to the nozzle 212 , or the receptacle 230 and the nozzle 212 may be manufactured within tolerances that facilitate the formation of a tight-fit and/or a seal therebetween.
- a sealing member (not shown) may be positioned between the nozzle 212 and the cap 206 to further inhibit the escape of product from the container 200 .
- the inner wall 228 of the cap 206 may have an inner diameter (not labeled) that is approximately equal to the maximum outer diameter Dn of the nozzle 212 , so as to engage the nozzle 212 radially to inhibit escape of the product from the container 200 .
- the outer wall 232 of the cap 206 defines a transverse cross-sectional dimension (e.g., a diameter) Dc that substantially approximates a transverse cross-sectional dimension (e.g., a diameter) Ds defined by the stopper 214 (see also FIG. 7 ).
- a transverse cross-sectional dimension e.g., a diameter
- Dc a transverse cross-sectional dimension
- Ds defined by the stopper 214
- an axial end of the outer wall 232 may engage an upper surface of the stopper 214 to facilitate support of the cap 206 by the stopper 214 to inhibit, if not entirely prevent, rocking of the cap 206 (or other such undesirable movement), as mentioned above.
- respective outer transverse cross-sectional dimensions Dc, Ds of the cap 206 and the stopper 214 may lie substantially within the range of approximately 40 mm to approximately 44 mm, although larger and smaller values for Dc, Ds would not be beyond the scope of the present disclosure.
- the outer wall 232 of the cap 206 includes a (second) threaded section 234 on an inner surface 236 thereof that is configured for engagement with the threaded section 222 included on the outer surface 220 of the upstanding wall 218 .
- the body 202 further includes a (second) cap (lid) 238 .
- the lower end portion 204 l may include a threaded section 240 that is configured for engagement with a corresponding threaded section 242 ( FIG. 14 ) included on the cap 238 such that the cap 238 can be removed from the body 202 of the container 200 (e.g., to allow for filling and re-filling of the container 200 with the product).
- the cap 238 may be integrally (e.g., monolithically) formed with the lower end portion 204 l (i.e., such that the cap 238 is fixedly connected to the body 202 of the container 200 ). In such embodiments, it is envisioned that the container 200 may be pre-filled with the product.
- the container 200 includes a first cap 1610 , a body 1620 , and a second cap 1630 .
- the container 200 can include a single cap.
- the container 200 can include only a top cap (e.g., the first cap 1610 ) and no bottom cap (e.g., the second cap 1630 ) or the container 200 can include only a bottom cap (e.g., the second cap 1630 ) and no top cap (e.g., the first cap 1610 ).
- the container 200 can include ribs or other gripping patterns on either of the caps to aid the user of the container 200 with screwing and/or unscrewing either of the caps 1610 and 1630 from the body 1620 .
- the container 200 can include a variety of clipping mechanisms on the top cap including but not limited to carabiner keychain devices that can come in variety of shapes and sizes.
- FIG. 17 illustrates a cross-sectional view of a rib 1730 of a container 1700 (not fully shown) in accordance with another embodiment of this disclosure.
- the container 1700 is similar to container 200 of FIG. 2 with the addition of the rib 1730 which can enable better coupling between a bottom cap (e.g., second cap 1630 of FIG. 16 ) of the container 1700 and a main body portion (e.g., body 1620 of FIG. 16 ) of the container 1700 to avoid unintentional screwing and/or separation.
- a first set of threads 1710 that are part of the main body of the container 1700 is engaged with a second set of threads 1720 of the bottom cap.
- the rib 1730 includes a raised rib or ridge portion that is adjacent to a portion of the first set of threads 1710 . While only one rib 1730 is shown in FIG. 17 , the container 1700 could contain another rib on the opposite side.
- the rib 1730 helps guide the first and second threads 1710 and 1720 towards engagement and can prevent the main body from flexing and causing a popping or disengagement or unintended separation from the bottom cap.
- FIG. 18A and FIG. 18B show a flowchart 1800 of a method of use of a portable dual cap container in accordance with the disclosure. The method is equally applicable to all of the various embodiments disclosed herein and is described in an example section of U.S. application Ser. No. 15/839,328 filed Dec.
- a typical use of the portable dual cap container comprising the main body, the top cap removably coupled to the main body, and the bottom cap removably coupled to the main body can include the steps of: removing the bottom cap to expose the first opening of the main body; using the initially altered dual cap container (that now only includes the main body and the top cap coupled to the main body because the bottom cap has been removed/detached) as a scoop to scoop an amount (e.g., a small amount, at least one serving, more than two servings, etc.) of product (e.g., supplement powder) from a large tub or container into the initially altered dual cap container for storage and/or transportation; resealing the first opening by coupling or reattaching the bottom cap back to the main body to provide the dual cap container in original form factor; when ready to consume the product housed or stored within the dual cap container in original form factor, removing the top cap to expose the second opening formed via a nozzle portion of the main body; pouring or releasing or dumping
- a first cap of a dual cap container is utilized for sealing a first aperture located a top end of the dual cap container.
- the dual cap container can be any container in accordance with the disclosure (such as, for example, the dual cap container 100 , the container 200 , and the dual cap container 400 described herein) or can, in general, be any container having at least one aperture located a top end and a second aperture located at a bottom end, the cross-sectional area of the second aperture exceeding the cross-sectional area of the first aperture.
- block 1805 pertains to utilizing a cap of a dual cap container to seal an aperture located at a top end of the dual cap container.
- Various aspects associated with an example cap 108 are described above and illustrated in FIG. 3 .
- An example implementation of block 1805 may involve engaging a female mating structure formed on an inside wall of an inner second cap wall 128 of the cap 108 with a male mating structure formed on an outside wall of the nozzle 114 that is a part of the body 102 of the dual cap container 100 .
- a first substance (a protein powder, for example) is introduced into a body portion of the dual cap container via a base aperture that is located at a base end of the dual cap container.
- a first substance a protein powder, for example
- An example implementation of block 1810 may involve disengaging the cap 106 from the dual cap container 100 and using the body 102 of the dual cap container 100 to scoop a product into an internal chamber of the dual cap container 100 via a base aperture of the dual cap container 100 .
- the cap 106 is removably connected or coupled or attached (e.g., via screwing, clipping, snapping, etc.) to a bottom end of the dual cap container 100 proximate to the body 102 .
- the cap 106 can be used as a base upon which the dual cap container 100 can rest or stand. More particularly, a major surface of the cap 106 can rest on a horizontal surface (floor, tabletop, etc.) when the cap 106 is connected to the body 102 and the dual cap container 100 is placed upon the horizontal surface.
- the cap 106 can be removed from the dual cap container 100 to expose a first opening (also referred to herein as a base aperture) of the dual cap container 100 .
- the action indicated in block 1810 may be carried out based on following instructions provided in instructional material such as, for example, a booklet or a video.
- the instructional material may provide a teaching that the base aperture of the dual cap container is larger in size than the aperture at the top end of the dual cap container and is particularly configured to facilitate a use of the base aperture to introduce a substance into the dual cup container.
- Some example procedures to do so can include using the dual cup container as a scoop.
- Some other example procedures to do so can include using implements such as, for example, a spoon, a handheld scoop, a folded piece of paper, or the cap that was removed from the based portion of the dual cup container.
- the instructional material may further point out other aspects of the dual cup container such as, for example, how to clean or wash the dual cap container in various ways such as, for example, by carrying out any of the example procedures described below.
- the action indicated in block 1810 may be carried out based on a visual inspection of the dual cup container.
- the visual inspection can indicate that the base aperture of the dual cap container is larger in size than the aperture at the top end of the dual cap container thereby allowing the use of the dual cap container as a handy tool that can be used to scoop a substance into the dual cup container.
- the shape of the base aperture is substantially similar to the shape of the aperture at the top end of the dual cap container (both are circular in shape).
- the shape of the base aperture can be different than the shape of the aperture at the top end of the dual cap container.
- the body portion of the dual cap container includes cylindrical sections and curved sections that have a substantially circular cross section.
- the cross-sectional shape of the body portion of a dual cap container can be polygonal.
- at least some of the body portion of the dual cap container can be quadrilateral (a square or a rectangle, for example).
- the base of the dual cap container in this example embodiment can be a square or a rectangle and the base aperture located in the base can be circular, rectangular, square, or oval, for example.
- a bottom cap can have a shape corresponding to the base aperture and include a mating feature such as, for example, a threaded section or a snap-fit section.
- the top portion of the dual cap container in this example embodiment can be a square or a rectangle and the aperture located in the top portion can be circular, rectangular, square, or oval, for example.
- a top cap can have a shape corresponding to the aperture located in the top portion and include a mating feature such as, for example, a threaded section or a snap-fit section.
- the cross-sectional area of the base aperture is larger than the cross-sectional area of the top aperture in all embodiments.
- an area of the base aperture of a dual cap container having a quadrilateral profile exceeds the area of a top aperture having any shape (quadrilateral or circular, for example).
- top cap can have a circular profile and can include a threaded portion for mating with a body portion of the dual cap container and the bottom cap can have a different profile (rectangle, square, or oval, for example) and can include an interface portion that provides for a snap-fit or friction-fit mating with a body portion of the dual cap container.
- a second cap is utilized to seal the first aperture located at the bottom end of the dual cap container.
- Various aspects associated with an example second cap 106 are described above and illustrated in FIG. 2 and other figures.
- An example implementation of block 1815 may involve sealing the base aperture located at the bottom end of the dual cap container 100 by engaging the first female mating structure 126 of the cap 106 with the first male mating structure 121 of the dual cap container 100 .
- the dual cap container is transported by use of a carrier device such as, for example, a keychain, a carabiner keychain, a lanyard, a rope, a ring, and/or a metal ring.
- the dual cap container 100 includes a carrier device 116 (shown in FIG. 2 and other figures).
- the carrier device 116 can be provided upon a top surface 118 of the second cap 108 .
- a carrier device such as, for example, the carrier device 116 , can be attached to other surfaces of the dual cap container 100 including but not limited to a side surface of the second cap 108 , to a surface of the body 102 , or to a surface of the shoulder 104 .
- Block 1820 is optional and may be omitted in some scenarios.
- the first cap can be removed for exposing the first aperture at the top end of the dual cap container and at block 1830 , the first substance can be dispensed from the body portion of the dual cap container.
- a typical use of the portable dual cap container can include removing the top cap to expose the second opening formed via a nozzle portion of the main body; pouring or releasing or dumping the product from the subsequently altered dual cap container (that now only includes the main body and the bottom cap coupled to the main body because the top cap has been removed/detached), via the second opening formed by the nozzle portion, into a water or drink bottle with an opening that is slightly larger in diameter than the diameter of the nozzle portion (i.e., so that the nozzle portion can be inserted into the opening of the water or drink bottle) where the product can be mixed with the liquid of the water or drink bottle; and resealing the second opening with the top cap to reform the dual cap container in original form factor for future usage.
- the second cap is removed to expose the second aperture located at the bottom end of the dual cap container.
- a cleaning device is inserted through the second aperture for cleaning an internal surface of the body portion of the dual cap container.
- the cleaning device can be, for example, a bottle cleaning brush, a sponge, a cloth rag, or a paper towel.
- one or more cleaning agents such as water, detergent, soap etc. can be used for cleaning.
- a cleaning operation can be carried out without using a liquid such as, for example, by rubbing the internal surface with a dry paper towel.
- block 1850 can be omitted and the action indicated in block 1855 may be carried out.
- water may be used to rinse out the dual cap container.
- the second cap is removed to expose the second aperture located at the bottom end of the dual cap container.
- the first cap is removed to expose the first aperture located at the top end of the dual cap container.
- the action indicated in block 1865 is executed after the action indicated in block 1860 is executed (as described above). In another example scenario, the action indicated in block 1865 may be executed before the action indicated in block 1860 is executed.
- the dual cap container is placed in a washing machine in an upright position to allow water to flow through the dual cap container.
- the dual cap container is placed in a dish washing machine in an upside-down position whereby the second aperture located at the bottom end of the dual cap container constitutes an entryway for water to enter the dual cap container and flow downwards through the dual cap container.
- the larger diameter of the second aperture in comparison to the first aperture allows the dual cap container to operate as a funnel.
- the higher velocity flow through the first aperture provides an advantageous cleaning operation for cleaning the dual cap container.
- a wash procedure is executed by the washing machine.
- FIG. 19 illustrates an example method to introduce a substance 1916 into a dual cap container (such as, for example, the dual cap container 1905 ) in accordance with the disclosure.
- the substance 1916 can be any of various types of substances, mixtures, fluids, or liquids, such as, for example, a protein powder, a whey powder, an organic powder, an all-natural powder, a vegan powder, a nutritional powder, a pre-workout powder, a nutritional food, a nutritional liquid, a vitamin mixture, a health drink, and/or a slurry.
- the container 1915 in which the substance 1916 is contained can be any of various types of containers such as, for example, a tub, a drum, a barrel, a can, or a box.
- the dual cap container 1905 is held by an arm 1910 of a user (not shown) in a manner that allows the dual cap container 1905 to be used as a scoop for introducing the substance 1916 into the dual cap container 1905 via the base aperture. More particularly, the dual cap container 1905 can be held at any suitable angle (horizontal, tilted, or upright) by gripping the body portion of the dual cap container in a hand grip that is characterized by an index finger 1912 of the user being located closer to a bottom end of the dual cap container 1905 than a little finger 1911 .
- the bottom end of the dual cap container 1905 includes a rim portion 1906 that can have any of various contours such as for example, identical to the rest of the rim portion or having an oval projection such as provided in a conventional scoop.
- the rim portion 1906 can be operated as an excavator for insertion into the substance 1916 and scooping the substance 1916 into the interior portion of the dual cap container 1905 . This step is described above with reference to block 1810 of the flowchart 1800 .
- markings may be provided upon the body portion of the dual cap container 1905 .
- the markings may be used by the user to fill the dual cap container 1905 with a desired amount of the substance 1916 (15 grams of a powder or 20 ounces of a liquid, for example). If an amount of substance introduced into the dual cap container 1905 exceeds a desired amount, the excess amount can be discarded from the dual cap container via the base aperture and/or via the top aperture. Discarding via the base aperture can be carried out, for example, by tipping the excess powder out of the dual cap container 1905 via the base aperture.
- Discarding via the top aperture can be carried out, for example, by sealing the base aperture using the bottom cap, and removing the top cap for exposing the top aperture. Discarding via the top aperture can be carried out, for example, by tipping the excess powder out of the dual cap container 1905 via the top aperture.
- the operation described above with respect to block 1815 of the flowchart 1800 base aperture can be carried out by using the bottom cap to seal the aperture located at the bottom end of the dual cap container 1905 .
- FIG. 20 illustrates some example implements that may be used to introduce a substance into a dual cap container such as, for example, the dual cap container 1905 , in accordance with the disclosure.
- the example implements include a bottom cap 2010 of the dual cap container 1905 , a scoop 2015 , a spoon 2020 , and a folded piece of paper 2025 . Any one or more of these implements can be used to transfer a substance such as the substance 1916 described above, from the container 1915 to the dual cap container 1905 .
- the dual cap container 1905 is held in an upright position by grasping the body portion of the dual cap container 1905 in the manner described above.
- the aperture at the bottom end of the dual cap container 1905 is exposed and accessible from above the dual cap container.
- the substance 1916 (for example) can be poured into the dual cap container 1905 in a direction that is indicated by an arrow 2006 .
- FIG. 21 illustrates an example configuration that can be used for washing a dual cap container such as, for example, the dual cap container 1905 , in accordance with the disclosure.
- a first action that may be performed for carrying out the hand wash procedure involves removing both the top cap and the bottom cap of the dual cap container 1905 .
- the dual cap container 1905 can then be grasped in the manner described above and illustrated in FIG. 20 (index finger 1912 of the user being located closer to a bottom end of the dual cap container 1905 than a little finger 1911 ).
- the example configuration shown in FIG. 21 can also represent a funnel function configuration where the dual cap container 1905 is used as a funnel to introduce one or more substances into a container.
- the funnel configuration may be used to introduce two or more powders into a shaker bottle (a whey powder and a protein powder, for example) and/or to introduce a solution into the shaker bottle (water, juice, etc.).
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Abstract
Bottles and containers and methods of use have been disclosed. In an aspect, the bottle comprises a body that includes a first end forming a first aperture and a second end forming a second aperture. The first aperture has a first diameter and the second aperture has a second diameter. The first diameter can be larger than the second diameter. The bottle further includes a first cap removably coupled to the first end of the body and a second cap removably coupled to the second end of the body.
Description
- This application is a continuation-in-part of U.S. application Ser. No. 16/728,391 which was filed on Dec. 27, 2019, which claims the benefit of, and priority to, International Patent Application No. PCT/US18/65191, filed on Dec. 12, 2018, which claims the benefit of, and priority to, U.S. application Ser. No. 15/839,328, which was filed on Dec. 12, 2017; this application is also a continuation-in-part of U.S. application Ser. No. 15/839,328, which was filed on Dec. 12, 2017, which is a continuation-in-part of U.S. application Ser. Nos. 29/587,289 and 29,587,298, each of which was filed on Dec. 12, 2016. The entire disclosures of each of the above-identified applications are hereby incorporated by reference.
- This disclosure generally relates to containers for retaining and transporting a product, such as a liquid, solid, or powder product.
- Supplements, such as protein powders, are used before, during, and after workouts. Transporting these supplements in plastic bags can result in difficulties during transportation and during mixing of the supplements for consumption. In addition, shaker or mixer bottles can be used to hold a serving of the protein powder to which water or a beverage is added before consumption. Among other problems, shaker or mixer bottles are bulky and inconvenient to carry.
- Disclosed herein are implementations of containers for retaining and transporting a product, such as a liquid, solid, or powder product.
- In a first aspect, a bottle is disclosed. The bottle comprises: a body that includes a first end forming a first aperture and a second end forming a second aperture, the first aperture having a first diameter and the second aperture having a second diameter, the first diameter being larger than the second diameter; a first cap removably coupled to the first end of the body; and a second cap removably coupled to the second end of the body.
- In a second aspect, a portable container is disclosed. The portable container comprises: a hollow body including a base portion including a base aperture defining a first diameter, a finish portion including a finish aperture defining a second diameter smaller than the first diameter, and a transition section positioned between and connecting the base portion and the finish portion; a base cap removably connected to the base portion to cover the base aperture; a finish cap removably connected to the finish portion to cover the finish aperture; and a carrier device removably connected to the finish cap.
- In a third aspect, an apparatus for storing and transporting a substance is disclosed. The apparatus comprises: a body including opposing first and second ends, the first end including a first male mating section and the second end including a second male mating section, the first male mating section defining a first opening and a first outer diameter and the second male mating section defining a second opening and a second outer diameter; a first cap including a first female mating section configured and dimensioned to removably receive the first male mating section such that the first cap covers the first opening, the first female mating section defining a third outer diameter larger than the first outer diameter; a second cap including a second female mating section configured and dimensioned to removably receive the second male mating section such that the second cap covers the second opening, the second female mating section defining a fourth outer diameter larger than the second outer diameter; and a carrier configured and dimensioned to removably connect to any of the body, the first cap, and the second cap.
- In one aspect of the present disclosure, a portable container for a product is disclosed that includes a body, and a cap that is configured for connection to the body. The body includes: a lower end portion with a lid; a first body portion extending from the lower end portion and having a generally cylindrical configuration; a second body portion extending from the first body portion and including an outer wall having a generally arcuate configuration; a third body portion extending from the second body portion and including an outer wall having a generally linear, tapered configuration; a stopper extending radially outward of the third body portion; an upstanding wall extending (upwardly) from the stopper; and a nozzle positioned concentrically within the upstanding wall, wherein the upstanding wall includes a first threaded section, and the nozzle defines an opening and includes a generally uniform outer surface. The cap includes an outer wall defining an inner surface with a second threaded section that is configured for engagement with the first threaded section to facilitate connection and disconnection of the cap and the body.
- In certain embodiments, the lid may be removably connectable to the lower end portion of the body.
- In certain embodiments, the nozzle may define an outermost transverse cross-sectional dimension (e.g., a diameter) that lies substantially within the range of approximately 20 mm to approximately 23 mm to facilitate insertion of the nozzle into a beverage bottle. For example, in one particular embodiment, the outermost transverse cross-sectional dimension of the nozzle may be approximately 21.7 mm such that the outermost transverse cross-sectional dimension of the nozzle substantially approximates an inner transverse cross-sectional dimension of a beverage bottle inlet. The outermost transverse cross-sectional dimension can include other diameters including but not limited to 1 mm to 100 mm.
- In certain embodiments, the cap may further include an inner wall defining a receptacle that is configured to receive the nozzle. For example, the receptacle may be configured to receive the nozzle in an interference fit to inhibit the product from escaping the container.
- In another aspect of the present disclosure, a container is disclosed that includes a body, and a cap that is configured for connection to the body. The body has an upper end portion that includes: an upstanding wall with a first threaded section that is formed on an outer surface thereof, and a nozzle that is spaced radially inward from the upstanding wall, wherein the nozzle defines an opening and includes a generally uniform outer surface.
- The cap includes an outer wall defining an inner surface including a second threaded section that is configured for engagement with the first threaded section to facilitate connection and disconnection of the cap and the body.
- In certain embodiments, the body may further include: a first body portion having a generally cylindrical configuration; a second body portion extending from the first body portion and including an outer wall having a generally arcuate configuration; and a third body portion extending from the second body portion and including an outer wall having a generally linear, tapered configuration.
- In certain embodiments, the second body portion may define a transverse cross-sectional dimension (e.g., a diameter) that decreases towards the third body portion, and the third body portion may define a transverse cross-sectional dimension that decreases towards the nozzle to facilitate passage of a product into and out of the container.
- In certain embodiments, the outer wall of the third body portion and the nozzle may be integrally formed.
- In certain embodiments, the body may further include a stopper that is positioned adjacent to the third body portion, wherein the upstanding wall extends upwardly from the stopper.
- In certain embodiments, the stopper and the cap may be configured for contact to inhibit rocking of the cap upon connection to the body.
- In certain embodiments, the body may further include a lower end portion with an integral lid. Alternatively, the lower end portion of the body may include a removable lid. In such embodiments, the lower end portion of the body may include a third threaded section, and the lid may include a fourth threaded section that is configured for engagement with the third threaded section to facilitate connection and disconnection of the lid to the lower end portion of the body.
- In certain embodiments, the cap may further include an inner wall defining a receptacle that is configured to receive the nozzle. For example, the receptacle may be configured to receive the nozzle in an interference fit to inhibit the product from escaping the container.
- In certain embodiments, the nozzle may define an outermost transvers cross-sectional dimension (e.g., a diameter) that lies substantially within the range of approximately 20 mm to approximately 23 mm to facilitate insertion of the nozzle into a beverage bottle. For example, in one particular embodiment, the nozzle may define an outermost transverse cross-sectional dimension of approximately 21.7 mm such that the outermost transverse cross-sectional dimension substantially approximates an inner transverse cross-sectional dimension of a beverage bottle inlet.
- In another aspect of the present disclosure, a container is disclosed that includes a body, and a cap that is configured for connection to the body. The body includes: a first section having a generally linear cross-sectional configuration; a second section extending from the first section and having a generally arcuate cross-sectional configuration; and a third section extending from the second section and having a generally linear, tapered cross-sectional configuration.
- In certain embodiments, the body may further include an upstanding wall having a first threaded section formed on an outer surface thereof that is configured for engagement with a corresponding second threaded section included on an inner surface of the cap, and a nozzle that is spaced radially inward from the upstanding wall, wherein the nozzle defines an opening and includes a generally uniform outer surface.
- In certain embodiments, the second section of the body may define a transverse cross-sectional dimension (e.g., a diameter) that decreases towards the third section, and the third section may define a transverse cross-sectional dimension that decreases towards the nozzle to facilitate passage of a product into and out of the container.
- In another aspect of the present disclosure, a method may include utilizing a first cap to seal a first aperture located at a top end of a dual cap container; introducing a first substance into a body portion of the dual cap container via a second aperture located at a bottom end of the dual cap container; utilizing a second cap to seal the second aperture; removing the first cap to expose the first aperture; and dispensing the first substance from the body portion of the dual cap container via the first aperture.
- In some embodiments, the method may further include determining that the second aperture has a larger size than the first aperture; and introducing the first substance into the body portion of the dual cap container via the second aperture based on determining that the second aperture has a larger size than the first aperture.
- In some embodiments, introducing the first substance into the body portion of the dual cap container via the second aperture can include using the body portion of the dual cap container, the second cap, a spoon, a container, a folded piece of paper, and/or a dispensing apparatus, to at least partially fill the body portion of the dual cap container with the first substance via the second aperture.
- In some embodiments, the first aperture can be defined by a nozzle. Dispensing the first substance from the body portion of the dual cap container via the first aperture can include inserting the nozzle into a mixing container; and dispensing the first substance into the mixing container.
- In some embodiments, the first mixture may be mixed with the second substance contained in the mixing container.
- In some embodiments, the second substance can be either a liquid and/or a powder.
- In another aspect of the present disclosure, a method may include utilizing a body portion of a dual cap container as a scoop to at least partially fill the body portion with a first substance via a first aperture located at a bottom end of the dual cap container; and dispensing the first substance via a second aperture located at a top end of the dual cap container, the second aperture having a smaller size than the first aperture.
- In some embodiments, the body portion of the dual cap container is substantially cylindrical, and the method may further include removing a first cap to expose the first aperture prior to utilizing the body portion of the dual cap container as the scoop; and utilizing a second cap to seal the second aperture prior to utilizing the body portion of the dual cap container as the scoop.
- In some embodiments, the method may further include determining that the dual cap container is empty after dispensing of the first substance via the second aperture; and inserting a cleaning implement through the first aperture for cleaning an internal surface of the body portion of the dual cap container.
- In some embodiments, the method may further include placing the dual cap container in a dishwashing machine in a washing arrangement that allows water to flow into the body portion via the first aperture and flow out via the second aperture.
- In some embodiments, the second aperture may be defined by a nozzle and dispensing the first substance from the body portion of the dual cap container via the second aperture may include inserting the nozzle into a mixing container and dispensing the first substance into the mixing container.
- In some embodiments, the first substance is a powder, and dispensing the first substance into the mixing container can include arranging the dual cap container to provide a funnel function by anchoring the nozzle to the mixing container and allowing the powder to flow out of the dual cap container into the mixing container via the second aperture.
- In some embodiments, the mixing container contains a liquid and the method further may further include agitating the mixing container to mix the powder with the liquid.
- In some embodiments, the powder is a protein powder and the liquid is either a beverage or water.
- In another aspect of the present disclosure, a method may include filling at least a portion of a body portion of a dual cap container by introducing a first substance via a first aperture located at a bottom end of the dual cap container; transporting the dual cap container by use a of a carrier device attachable to the dual cap container; and dispensing the first substance via a second aperture located at a top end of the dual cap container, the second aperture having a smaller size than the first aperture.
- In some embodiments, the carrier device is a carabiner, a chain, a lanyard, a rope, and/or a ring.
- In some embodiments, the second aperture is defined by a nozzle and dispensing the first substance from the body portion of the dual cap container via the second aperture can include inserting the nozzle into a mixing container; dispensing the first substance into the mixing container; and mixing the first substance with a second substance contained in the mixing container.
- In some embodiments, the first substance is a powder and the second substance is a liquid.
- In some embodiments, filling the at least the portion of the body portion of the dual cap container by introducing the first substance via the first aperture can include removing a cap to expose the bottom end of the dual cap container and using the body portion of the dual cap container as a scoop to at least partially fill the body portion of the dual cap container with the first substance.
- In some embodiments, the first substance is a powder and filling the portion of the body portion of the dual cap container can include removing a cap to expose the bottom end of the dual cap container and pouring the powder into the body portion of the dual cap container.
- In another aspect of the present disclosure, a method may include providing a dual cap container having a base aperture that is located at a bottom end of the dual cap container and is larger in size than a top aperture located at a top end of the dual cap container, and providing an indication that the dual cap container is usable for transporting a substance and for transferring the substance into a mixing container.
- In some embodiments, the substance is a protein powder, a whey powder, a supplement powder, an organic powder, an all-natural powder, a vegan powder, or a nutritional powder.
- In some embodiments, the dual cap container is configured to be operated as a scoop for scooping the substance into a body portion of the dual cap container via the base aperture located at the bottom end of the dual cap container and for dispensing the substance into the mixing container via the top aperture located at the top end of the dual cap container.
- In some embodiments, the dual cap container is configured to be transported by use of a carrier device attached to the dual cap container.
- The disclosure is best understood from the following detailed description when read in conjunction with the accompanying drawings. It is emphasized that, according to common practice, the various features of the drawings are not to-scale. On the contrary, the dimensions of the various features are arbitrarily expanded or reduced for clarity.
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FIG. 1 is a perspective side view of an example of a dual cap container according to one embodiment of this disclosure. -
FIG. 2 is an exploded, perspective view of the container seen inFIG. 1 . -
FIG. 3 is a bottom (underside) view of the second cap of the container seen inFIG. 1 . -
FIG. 4 is an exploded, perspective view of an example of a container according to another embodiment of this disclosure. -
FIG. 5 is a first perspective view of an example of a container according to another embodiment of this disclosure. -
FIG. 6 is a second perspective view of the container seen inFIG. 5 . -
FIGS. 7 and 8 are opposite side views of the container seen inFIG. 5 . -
FIG. 9 is a front view of the container seen inFIG. 5 . -
FIG. 10 is a rear view of the container seen inFIG. 5 . -
FIG. 11 is a top view of the container seen inFIG. 5 . -
FIG. 12 is a bottom (underside) view of the container seen inFIG. 5 . -
FIG. 13 is a longitudinal (vertical) cross-sectional view of the container seen inFIG. 5 . -
FIG. 14 is an exploded, perspective, top view of the container seen inFIG. 5 . -
FIG. 15 is an exploded, perspective, bottom view of the container seen inFIG. 5 . -
FIG. 16 is an exploded, side view of the container seen inFIG. 5 . -
FIG. 17 is a cross-sectional view of a rib of a container according to another embodiment of this disclosure. -
FIG. 18A andFIG. 18B show a flowchart of a method of use of a portable dual cap container in accordance with the disclosure. -
FIG. 19 illustrates an example method to introduce a substance into a dual cap container in accordance with the disclosure. -
FIG. 20 illustrates some example implements that may be used to introduce a substance into a dual cap container in accordance with the disclosure. -
FIG. 21 illustrates an example configuration that can be used for washing a dual cap container in accordance with the disclosure. - The figures and the following description relate to various embodiments by way of illustration only. It should be noted that from the following description, alternative embodiments of the structures and methods disclosed herein will be readily recognized as viable alternatives that may be employed without departing from the principles of what is claimed.
- Embodiments according to this disclosure include a portable and miniature dual cap container or bottle that is adapted to contain a product (also referred to as a substance or material). In some implementations, the portable and miniature container only has a single cap on either end (i.e., a single top cap and corresponding single top opening or a single bottom cap and corresponding single bottom opening) as opposed to having a dual cap configuration. The portable and miniature dual cap container can be used to carry servings or varying amounts of the product. For example, the portable and miniature dual cap container can be sized to accommodate one, two, or more servings of the product and 30 grams, 60 grams, or more grams of the product. The product may be purchased in individual servings or in bulk in a large container, which is inconvenient and impractical to carry around. For example, the product may be a supplement including but not limited to a protein powder, a whey powder, organic powder, all-natural powder, vegan powder, a nutritional powder, a pre-workout powder, nutritional foods, nutritional liquids, and vitamins Protein powder may be bought in a multiple serving (e.g., 50-serving) large tub or container having a heavy weight (e.g., 3.5 pounds).
- A shaker, mixer, blender, or the like bottle (collectively referred to herein as shaker bottle) may be used to carry at least one serving of the product. Shaker bottles usually have capacities of 16, 20, 28, 32, or more or less ounces. As such, they are more portable than, for example, a 3.5-pound large tub or container. A typical use of the shaker bottle may be that a person, using a scoop, pours at least one serving (e.g., two tablespoons or 30 grams) of the supplement powder (e.g., whey protein powder) into the shaker bottle; the person carries the shaker bottle to the gym; after a workout, the person adds water or another liquid (e.g., milk) to the shaker bottle, closes the lid tightly and shakes the shaker bottle to mix the powder with the liquid to form a dietary or nutritional mixture that is consumed. The shaker bottle may be washed after the person consumes the mixture. The shaker bottle may include a whisk ball, which aids in the mixing and may prevent the clumping of the supplement powder during mixing.
- Many disadvantages are associated with shaker bottles. Shaker bottles are bulky and inconvenient. Shaker bottle caps can easily crack causing leaks and splashes during shaking. Shaker bottles can be prone to retaining odors when not immediately cleaned. Even if immediately washed, it may be difficult to remove powder sediments accumulated in the bottom and other corners of the shaker bottles. Other disadvantages are associated with shaker bottles. For example, it can be sub-optimal to drink from a shaker bottle due to the large top cap and nozzle area and the whisk ball can be difficult to clean and can be easily lost.
- As such, a method and system in accordance with the present disclosure provides a portable container with carrier device (also referred to as a “bottle” or “container”) that does not exhibit the above-mentioned disadvantages. The portable container can be small enough to fit in a pocket or can be easily and efficiently carried on the carrier device (e.g., keychain) attached to the portable container. The container can be clipped or attached to a bag (e.g., gym bag) or an article of clothing (e.g., belt loops) via the keychain. A container according to this disclosure can be used for carrying a small amount of a product, such as one serving of a protein powder. The container is portable and miniature with a dual cap and includes a keychain that can be optional. The design of the container can be shaped to have a similar design as a large tub or container. The container can comprise a plurality of pieces including but not limited to a main hollow body (also referred to as a “body”), a bottom cap coupled to a bottom end of the main hollow body, and a top cap coupled to a top end (that is opposite the bottom end) of the main hollow body. An optional keychain (e.g., carabiner keychain) can be coupled to any of the main hollow body, top cap, and bottom cap.
- Either the removable top cap or the removable bottom cap or both can be optional as well. For example, the container can comprise a single removable top cap that has a wider mouth (i.e., a “wide mouth” or “wider mouth” opening) top opening that allows the user to fill the bottle with supplement powder and to dump the supplement powder back into another bottle (e.g., a shaker bottle) using the same wider mouth top opening. In another example, the container can comprise a single removable top cap that has a funnel sized top opening that allows the user to fill the bottle with supplement powder and to insert the container into a water bottle or drink bottle opening via the funnel sized top opening to funnel the supplement powder out of the container and into the water bottle or drink bottle. In another example, the container can comprise a single removable bottom cap that has a wider mouth bottom opening that allows the user to fill the bottle with supplement powder and to dump the supplement powder back into another bottle (e.g., a shaker bottle) using the same wider mouth bottom opening. In this example, the container can still have the top cap that is fixated and cannot be removed (e.g., screwed off). In another example, the container can comprise a single removable bottom cap that has a funnel sized bottom opening that allows the user to fill the bottle with supplement powder and to insert the container into a water bottle or drink bottle opening via the funnel sized bottom opening to funnel the supplement powder out of the container and into the water bottle or drink bottle. In this example, the container can still have the top cap that is fixated and cannot be removed (e.g., screwed off). In another example, the container does not comprise any removable caps and is shaped like a miniature supplement container with a top cap that includes carrier device (e.g., carabiner keychain).
- The container includes a first opening at one end (e.g., a bottom end) for receiving the product. For example, the first opening enables the scooping of one or more servings of the powder into the container from another bulk container. That is, when the bottom cap of the container is removed (e.g., unscrewed), the body of the container (more specifically, a bottom end of the body) can be used to scoop the product into to the body for storage and transportation. The bottom cap can then be reattached to the first opening to secure the product inside the container. As such, the container eliminates the need for a separate scoop, such as one that is used as described above with respect to shaker bottles. The first opening can be closed with different types of mating structures (e.g., the bottom cap) and via different attachment mechanisms (e.g., screwing, clipping, etc.) that seals the first opening. The seal can be airtight.
- The container includes a second opening at an opposite end of the one end (e.g., a top end) for transferring or releasing the product into another container or bottle (e.g., a mixing container, a water bottle, a soda bottle, etc.). The second opening can be formed within a portion of the container (e.g., a nozzle also referred to as a finish portion) that is formed within the container proximate to where the container couples with the top cap. In other words, when the top cap is coupled to the body, the top cap can conceal the nozzle portion of the main body. The mixing container can be, for example, a disposable or recyclable standard water bottle that can be found at various grocery markets. As such, the second opening of the container can be substantially similar and slightly smaller (e.g., by one or more microns) in size to that of an opening of a receiving bottle (e.g., a water bottle) to enable the nozzle to be inserted into the receiving bottle. The second opening can be at least slightly smaller than that of the receiving bottle (also referred to as a mixing container) such that the product can be easily poured into the mixing container without causing any of the product to spill outside the mixing container. For example, if the mixing container is a water bottle with an opening size of 0.75 inches, then the second opening of the container can be smaller or equal to 0.75 inches. For example, the second opening can be 0.5 to 0.7 inches. Desirably, the second opening is sized so as to fit into the opening of the mixing container. The second opening can be sealed with a cap. Terms such as ‘substantially,’ ‘generally,’ ‘approximately,’ etc., as used herein can include but is not limited to variations on the order ±20%.
- In some implementations, the container is a single cap container (and not a dual cap container) that only includes one single opening (i.e., either a top opening or a bottom opening and not both a top and bottom opening). Therefore, in the single cap container, the scooping and the emptying of the contents housed within the container is accomplished via the same single opening. The one single opening can have various sizes or diameters including but not limited to a wide mouth size, a funnel opening size, and other sizes.
- A typical use of the portable dual cap container comprising the main body, the top cap removably coupled to the main body, and the bottom cap removably coupled to the main body can include the steps of: removing the bottom cap to expose the first opening of the main body; using the initially altered dual cap container (that now only includes the main body and the top cap coupled to the main body because the bottom cap has been removed/detached) as a scoop to scoop an amount (e.g., a small amount, at least one serving, more than two servings, etc.) of product (e.g., supplement powder) from a large tub or container into the initially altered dual cap container for storage and/or transportation; resealing the first opening by coupling or reattaching the bottom cap back to the main body to provide the dual cap container in original form factor; when ready to consume the product housed or stored within the dual cap container in original form factor, removing the top cap to expose the second opening formed via a nozzle portion of the main body; pouring or releasing or dumping the product from the subsequently altered dual cap container (that now only includes the main body and the bottom cap coupled to the main body because the top cap has been removed/detached), via the second opening formed by the nozzle portion, into a water or drink bottle with an opening that is slightly larger in diameter than the diameter of the nozzle portion (i.e., so that the nozzle portion can be inserted into the opening of the water or drink bottle) where the product can be mixed with the liquid of the water or drink bottle; and resealing the second opening with the top cap to reform the dual cap container in original form factor for future usage.
-
FIG. 1 is a perspective side view of adual cap container 100 according to one embodiment of this disclosure. Thedual cap container 100 can be structured as a container or as a bottle. Thedual cap container 100 is in a closed state. As such, thedual cap container 100 includes abody 102, a shoulder 104 (also referred to as a transition portion), a first cap (lid) 106 (also referred to as a bottom cap), and a second cap (lid) 108 (also referred to as a top cap). In some implementations, thedual cap container 100 is a single cap container with only either thefirst cap 106 or thesecond cap 108. Thebody 102 can be generally vertical with a constant outer diameter. The shoulder can have a variable outer diameter and decreases in diameter as the shoulder moves away from thefirst cap 106 and towards thesecond cap 108. Thebody 102 is shown as circular but can also be shaped to be in a variety of shapes including but not limited to square, rectangle, elongated cylindrical, hexagonal, trapezoidal, and other shapes. - The
first cap 106 is removably connected or coupled or attached (e.g., via screwing, clipping, snapping, etc.) to a bottom end of thedual cap container 100 proximate to thebody 102. Thefirst cap 106 can be used as a base upon which thedual cap container 100 can rest or stand. Thefirst cap 106 can be removed from thedual cap container 100 to expose a first opening (also referred to as a first aperture) of thedual cap container 100. As mentioned above, the removal of the first opening enables thedual cap container 100 to be used to scoop a product, such as from a bulk container, into an internal chamber of thedual cap container 100. As thefirst cap 106 can be used as a base, a surface of thefirst cap 106 which can rest on a horizontal surface is closed such that, when thefirst cap 106 is connected to thebody 102, and thedual cap container 100 is rested on a horizontal surface and the product contained therein is retained inside thedual cap container 100. - The
second cap 108 is removably connected or coupled or attached (e.g., via screwing, clipping, snapping, etc.) to a top end of thedual cap container 100 proximate to theshoulder 104. Thesecond cap 108 can be removed to expose a second opening (e.g., second opening 123 shown inFIG. 2 ) of thedual cap container 100. The top end of thedual cap container 100 includes a nozzle or finish portion (not shown inFIG. 1 ) that is concealed when thesecond cap 108 is coupled to the top end of thedual cap container 100. The nozzle or finish portion includes the second opening (also referred to as a second aperture). As mentioned above, the second opening can be used to transfer the product stored within thedual cap container 100 to another container, such as to a mixing container, which may be a water bottle. The product can be transferred to the mixing container by inserting the nozzle of thedual cap container 100 into an opening or aperture of the mixing container. - The
shoulder 104 can include astopper 110. Thestopper 110 can be shaped as a ring around the top end of thedual cap container 100 that interfaces between the top end of thedual cap container 100 and thesecond cap 108 when thesecond cap 108 is attached. Thestopper 110 is optional as thesecond cap 108 can be coupled to the top end of thedual cap container 100 so that the second cap would interface more directly or closely with theshoulder 104. Thebody 102 and theshoulder 104 of thedual cap container 100 can be formed as one continuous piece. Therefore, thedual cap container 100 can include separate pieces comprising the first cap 106 (i.e., the bottom cap), thebody 102 andshoulder 104 continuous piece, thesecond cap 108, and a carrier device. As such, theshoulder 104 can have the same body diameter at apoint 112 as thebody 102. Theshoulder 104 can slope inwardly toward the center of thedual cap container 100 such that theshoulder 104 has a second diameter (closer to thestopper 110 and away from the point 112) that is smaller than the constant diameter of thebody 102. Theshoulder 104 connects to the nozzle (not shown) with thestopper 110 acting as an intermediary structure. - In some embodiments, the
dual cap container 100 can include acarrier device 116. Thecarrier device 116 can comprise a variety of devices including but not limited to a keychain, a carabiner keychain, a lanyard, a rope, a ring, a metal ring, and any combination thereof. Thecarrier device 116 can be attached to atop surface 118 of thesecond cap 108. Thetop surface 118 is a side of thesecond cap 108 that is opposite the side that is removably connected to the dual cap container 100 (e.g., via the nozzle). Thetop surface 118 comprises an outer surface of thesecond cap 108. The second cap 108 (i.e., the top cap) includes an inner surface (not shown) that comes into contact with the nozzle of thedual cap container 100. Thecarrier device 116 can also be attached to other surfaces of thedual cap container 100 including but not limited to a side surface of thesecond cap 108, to a surface of thebody 102, or to a surface of theshoulder 104. - The
dual cap container 100 can be shaped to be a miniature sized container. In an embodiment that does not include the carrier device 116 (e.g., a carabiner keychain), thedual cap container 100, when thefirst cap 106 is attached to thebody 102 and thesecond cap 108 is attached to the top end of thedual cap container 100, can be two to four inches in height with a body diameter that can be 1.5 to two inches. Other dimensions are also possible. In other embodiments, a length of body and the body diameter of thebody 102 can be such that thebody 102 is of sufficient volume to hold a desired amount of the product (e.g., one or two or more servings of protein powder, pre-workout powder, etc.). For example, thedual cap container 100 can house a variety of volumes of supplement powder or other substances including but not limited to 45 cubic centimeters (cc), 75 cc, 90 cc, 150 cc, 180 cc, or other volumes. The dimensions of the container that houses 180 cc of substance would be substantially twice (i.e., two times or 2× or double) the dimensions of the container that houses 90 cc of substance. In addition, the length of body of thebody 102 can be such that thedual cap container 100 resembles a shaker bottle or water bottle (i.e., a length that is much longer than the width and so the container is not shaped as a miniature supplement tub) and thus can house not only substantially more than the desired amount of the product (e.g., one or more servings) but can also house the water or other liquid (e.g., milk) that the user would like to mix the product with before consumption. The diameter of an opening of the nozzle can also be varied based on varying openings of receiving devices. -
FIG. 2 is an exploded perspective view of the embodiment ofFIG. 1 .FIG. 2 illustrates an exploded view of thedual cap container 100 ofFIG. 1 . Descriptions of elements with the same numerals as those ofFIG. 1 are omitted. - The
first cap 106 includes a first female mating structure 126 (also referred to as an internal mating structure) via which thefirst cap 106 can be removably connected to thebody 102 via a firstmale mating structure 121 of thebody 102. The firstfemale mating structure 126 can include a first set of threaded screws and the firstmale mating structure 121 can include a set of threaded screws corresponding to the first set of threaded screws. Thebody 102 includes aledge 120 and the first male mating structure 121 (also referred to as an external mating structure). Thefirst cap 106 is removably connected to thebody 102 by mating the firstfemale mating structure 126 to the firstmale mating structure 121. Theledge 120 is a recess between the firstmale mating structure 121 and an outer wall of thebody 102. In some implementations, the firstmale mating structure 121 and the firstfemale mating structure 126 are threading mating structures. The firstfemale mating structure 126 can be an interior threading that is formed on at least a portion of an interior wall of the first cap 106 (i.e., around an inner circumference of the first cap 106) such that when the firstfemale mating structure 126 is mated with the firstmale mating structure 121, the exterior walls of thefirst cap 106 and thebody 102 are aligned. In some implementations, thefirst cap 106 can include a different type of mating structure (e.g., a male mating structure) and the bottom end of thebody 102 can include a different type of mating structure (e.g., a female mating structure). - The nozzle 114 (also referred to as a finish section) is shown to be positioned above the stopper 110 (also referred to as a collar) and a
lip 124. Thelip 124 borders the second opening 123 via which the product contained in thedual cap container 100 can be transferred out, poured out, or the like, such as to a mixing container. An outside wall of thenozzle 114 forms a mating structure (e.g., a male mating structure) that can be mated with a corresponding mating structure (e.g., a female mating structure) of thesecond cap 108 to seal or cover the second opening 123. The seal can be airtight. Thestopper 110 includes a first collar side (not shown) and asecond collar side 125. The first collar side is connected to theshoulder 104 and thesecond collar side 125 is connected to thenozzle 114. The mating structure of thenozzle 114 can include a threaded section that corresponds to a threaded section of the mating structure of thesecond cap 108. -
FIG. 3 is an underside view of thesecond cap 108 of the embodiment ofFIG. 1 .FIG. 3 depicts aperspective view 310 and abottom view 320 of thesecond cap 108. Theperspective view 310 shows an innersecond cap wall 128, agap 130, an outersecond cap wall 132, and a portion of a bottom surface of thesecond cap 108. Thegap 130 is an area between the innersecond cap wall 128 and the outersecond cap wall 132. The innersecond cap wall 128 borders or contains a mating structure of the second cap 108 (e.g., female mating structure) that receives thenozzle 114 of the dual cap container 100 (i.e., receiving the male mating structure of the nozzle 114). In some implementations, the female mating structure of the innersecond cap wall 128 includes a threading structure formed on an inside wall of the innersecond cap wall 128 such that thesecond cap 108 can be mated with a threading structure formed on an outside wall of thenozzle 114 serving as a corresponding male mating structure. When thesecond cap 108 is coupled to thenozzle 114 of thedual cap container 100, thesecond cap 108 can rest or come in close proximity or form an airtight seal with the stopper 110 (e.g., to inhibit, if not entirely prevent, rocking of thesecond cap 108, or other such undesirable movement). In some implementations, thegap 130 can be such that the outersecond cap wall 132 aligns with an outer circumference of thesecond collar side 125. InFIG. 3 , the portion of thenozzle 114 shown is not part of thesecond cap 108. Thebottom view 320 reveals the innersecond cap wall 128, thegap 130, and the outersecond cap wall 132. - In some implementations, a dual cap container according to this disclosure does not include the
stopper 110 between theshoulder 104 and thenozzle 114. As such, thenozzle 114 connects to theshoulder 104 at thepoint 112. In some implementations, thesecond cap 108 does not include thegap 130. As such, there is only one wall of thesecond cap 108 instead of separate walls comprising the innersecond cap wall 128 and the outersecond cap wall 132. -
FIG. 4 is an exploded perspective view of an example of adual cap container 400 according to another embodiment of this disclosure. Thedual cap container 400 can include similar structures as thedual cap container 100. Descriptions of elements with the same numerals as those ofFIG. 1 are omitted. Thedual cap container 400 differs from the from thedual cap container 100, mainly, in that thedual cap container 400 does not include a shoulder component (e.g., theshoulder 104 ofFIG. 1 ), and does not include a stopper (e.g., the stopper 110). By not including a shoulder component, thedual cap container 100 forms a straight-edge design (i.e., there is a vertical straight-edge aligning thefirst cap 106, thebody 102, and the second cap 108). In thedual cap container 400, atop body side 402 of thebody 102 encloses the side of thebody 102 that is opposite the side (i.e., bottom side) that includes the firstfemale mating structure 126. Thenozzle 114 is connected to thetop body side 402. In some implementations, the centers of thenozzle 114 and thetop body side 402 are aligned. Thenozzle 114 includes an opening for releasing contents of thedual cap container 400 into a receiving device. The diameter of the opening can be the same as the diameter of the second opening 123 or can be varied. Additionally, when thesecond cap 108 is mated with thenozzle 114, thesecond cap 108 can rest on thetop body side 402 or come in close contact or form an airtight seal. In some implementations, the outersecond cap wall 132 can align with an outer circumference of thetop body side 402. In other words, they can share the same or a similar diameter. - In another embodiment, the portable dual cap container can be an elongated bottle (e.g., the same height and size as a water bottle). As such, the elongated portable dual cap container can have a capacity of 20, 28, 32 ounces. The elongated portable dual cap container can have larger or smaller volumes. In some implementations, the elongated portable dual cap container can have downward tapered sides or have a continuous outer diameter. The elongated portable dual cap container have come in varying shapes including but not limited to a cylindrical shape resembling that of a shaker bottle. The elongated portable dual cap container can include a mixer ball for mixing housed contents.
- The body defines an interior chamber that can house a substance. The bottle can be formed from a material that is impermeable to fluids. The material can be a plastic material (e.g., PET, PETE, HDPE, PVC, LDPE, PP, PS) that is BPA free and recyclable. The material can also be other materials that can be used to store and/or transport food and/or fluids including but not limited to glass and certain spill proof fabrics.
- An embodiment according to this disclosure is a bottle. The bottle comprises a body, the body including a first end forming a first aperture and a second end forming a second aperture, the first aperture having a first diameter and the second aperture having a second diameter, the first diameter being larger than the second diameter; a first cap removably coupled to the first end of the body; and a second cap removably coupled to the second end of the body. In some implementations, the bottle further comprises a carrier device removably coupled to the second cap.
- The first cap includes a first threaded section and the first end of the body includes a second threaded section, the first and the second threaded sections being configured and dimensioned for engagement such that the first cap is attachable to and removable from the first end of the body by rotation. The second cap includes a third threaded section and the second end of the body includes a fourth threaded section, the third and the fourth threaded sections being configured and dimensioned for engagement such that the second cap is attachable to and removable from the second end of the body by rotation.
- The second end of the body includes a male mating portion, the male mating portion defining the second aperture and including the fourth threaded section. The male mating portion is removably inserted into an opening of a receiving device to release a substance into the receiving device. The body defines an interior chamber that houses the substance. The bottle is formed from a material that is impermeable to fluids. The body includes a main body portion having a constant outer diameter and a transition portion having a variable outer diameter. In some implementations, the bottle further comprises a stopper configured and dimensioned for engagement with the second cap, the stopper being positioned between the transition portion of the body and the second aperture. The transition portion includes a first end positioned adjacent the main body portion and a second end positioned adjacent the stopper, an outer diameter of the transition portion decreasing from the first end to the second end.
- The second cap includes an outer ring portion defining a first inner diameter and an inner ring portion defining a second inner diameter, the first inner diameter being larger than the second inner diameter, the inner ring portion including the fourth threaded section. An outer diameter of the male mating portion is smaller than the second inner diameter such that the male mating portion is received by a female mating portion of the inner ring portion, and an outer diameter of the stopper is similar to the first inner diameter such that the stopper is substantially flush with the second cap. The second cap includes a receiver configured and dimensioned for mechanical connection to the carrier device such that the carrier device is attachable to and removable from the receiver, the receiver defining an opening configured and dimensioned to receive the carrier device. The carrier device comprises a carabiner keychain coupled to a ring, the ring configured and dimensioned for removable positioning within the opening defined by the receiver to facilitate the mechanical connection of the carrier device to the receiver.
- In some implementations, the male mating portion defining the second aperture does not include the fourth threaded section which is instead coupled to a ringed wall structure that surrounds the male mating portion of the second end of the body. The second cap does not include an inner ring portion and only includes the outer ring portion that includes the fourth threaded section. The ringed wall structure has a diameter that is slightly smaller than the diameter of the outer ring portion of the second cap so that the ringed wall structure and the outer ring portion of the second cap can engage via reciprocal thread and fourth threaded sections.
- Another embodiment according to this disclosure is a portable container. The portable container comprises a hollow body including a base portion including a base aperture defining a first diameter, a finish portion including a finish aperture defining a second diameter smaller than the first diameter, and a transition section positioned between and connecting the base portion and the finish portion; a base cap removably connected to the base portion to cover the base aperture; a finish cap removably connected to the finish portion to cover the finish aperture; and a carrier device removably connected to the finish cap. The carrier device can be optional. In this embodiment, the base aperture is larger than the finish aperture. For example, the base aperture can have an opening that is approximately 2×, 3×, 4×, 5×, etc. (based on the overall volume that can be housed by the portable container) the size of the finish aperture that is sized to fit into a standard water or drink bottle opening (i.e., the finish aperture has a funnel sized opening). The base aperture can also be substantially similar in size to the finish aperture. For example, the base aperture and finish aperture can both be “wider mouth” openings or can both be “funnel sized” openings. The base aperture can also be smaller than the finish aperture allowing the user to scoop the substance housed within the portable container using the finish aperture and to funnel the substance housed within the portable container out of the base aperture. The base cap is removably connected to the base portion via screw threads positioned on an inner circumference of the base cap and an outer circumference of the base portion. The finish cap is removably connected to the finish portion via screw threads positioned on an inner circumference of the finish cap and an outer circumference of the finish portion. The base and finish caps can be removably connected to the base portion and finish portion respectively via other mechanisms including but not limited to snaps and clips.
- Another embodiment according to this disclosure is an apparatus for storing and transporting a substance. The apparatus comprises a body including opposing first and second ends, the first end including a first male mating section and the second end including a second male mating section, the first male mating section defining a first opening and a first outer diameter and the second male mating section defining a second opening and a second outer diameter; a first cap including a first female mating section configured and dimensioned to removably receive the first male mating section such that the first cap covers the first opening, the first female mating section defining a third outer diameter larger than the first outer diameter; a second cap including a second female mating section configured and dimensioned to removably receive the second male mating section such that the second cap covers the second opening, the second female mating section defining a fourth outer diameter larger than the second outer diameter; and a carrier configured and dimensioned to removably connect to any of the body, the first cap, and the second cap. A diameter of a top surface of the first cap is larger than a diameter of a top surface of the second cap.
- Another embodiment according to this disclosure is a single bottom cap container. The single bottom cap container comprises a hollow body including a base portion including a base aperture defining a first diameter, a finish portion with a non-removable finish cap, and a transition section positioned between and connecting the base portion and the finish portion; a single bottom cap removably connected to the base portion to cover the base aperture; and a carrier device removably connected to the finish cap that is not removable from the finish portion (i.e., the finish portion and the finish cap are continuous). The carrier device can be optional. The single bottom cap container allows substances (e.g., supplement protein powder) to be filled into the container and emptied out of the container via the same base aperture. The single bottom cap is removably connected to the base portion via screw threads positioned on an inner circumference of the base cap and an outer circumference of the base portion. The single bottom cap can be removably connected to the base portion via other mechanisms including but not limited to snaps and clips.
- Another embodiment according to this disclosure is a single top cap container. The single top cap container comprises a hollow body including a base portion, a finish portion including a finish aperture defining a second diameter smaller than the first diameter, and a transition section positioned between and connecting the base portion and the finish portion; a single top cap removably connected to the finish portion to cover the finish aperture; and a carrier device removably connected to the single top cap. The carrier device can be optional. The single top cap container allows substances (e.g., supplement protein powder) to be filled into the container and emptied out of the container via the same finish aperture. The finish aperture can be sized like a funnel (i.e., sized with a funnel sized opening) so that the finish aperture can fit into a standard water or drink bottle opening. The finish aperture can also be sized with a wider mouth opening that easily allows the container to be filled and emptied from the same top end opening (i.e., the finish aperture) of the container. The single top cap is removably connected to the finish portion via screw threads positioned on an inner circumference of the finish cap and an outer circumference of the finish portion. The single top cap can be removably connected to the base portion via other mechanisms including but not limited to snaps and clips.
- With reference now to
FIGS. 5-16 , acontainer 200 in accordance with another embodiment of this disclosure will be discussed. Thecontainer 200 is substantially similar to the various embodiments discussed herein above including but not limited to thecontainer 100 ofFIG. 1 and thecontainer 400 ofFIG. 4 and, accordingly, will be described with a focus on any differences therebetween in the interest of brevity. - The
container 200 includes abody 202 having upper and lower (first and second)end portions 204 u, 204 l, and a removable (first) cap (lid) 206. It is envisioned that thebody 202 may be configured and dimensioned to accommodate any desirable volume of product. For example, in various embodiments, thebody 202 may define an internal volume substantially within the range of approximately 50 cubic centimeters (cc) to approximately 350 cc, although larger and smaller volumes would not be beyond the scope of the present disclosure. - The
body 202 includes a (first or lower) body portion (section) 208 i with anouter wall 210 i, a (second or middle) body portion (section) 208 ii with anouter wall 210 ii that extends (upwardly) from thebody portion 208 i, and a (third or upper) body portion (section) 208 iii with anouter wall 210 iii that extends (upwardly) from thebody portion 208 ii. Theouter wall 210 i can also be referred to as an annular wall that is generally circular in cross-section. In the illustrated embodiment, thebody portion 208 i includes theouter wall 210 i being generally cylindrical and defining a substantially uniform outer transverse cross-sectional dimension (e.g., diameter) Di (FIG. 7 ). Thebody portion 208 ii includes theouter wall 210 ii having a generally arcuate configuration defining a variable outer transverse cross-sectional dimension (e.g., diameter) Dii that decreases moving from thebody portion 208 i (theouter wall 210 i) towards thebody portion 208 iii (theouter wall 210 iii). Thebody portion 208 iii includes theouter wall 210 iii having a generally linear, tapered (e.g., frustoconical) configuration defining a variable outer transverse cross-sectional dimension (e.g., a diameter) Diii that decreases towards thenozzle 212. Thebody 202 thus includes a tapered configuration that extends inwardly from thebody portion 208 i to astopper 214, which extends radially outward from the body 208 (e.g., from thebody portion 208 iii). It is envisioned that thecontainer 200 may be configured such that the taper forms interior surfaces of thebody 202 to encourage (or otherwise facilitate) passage of the product into and out of thecontainer 200 by reducing drag and/or resistance via the elimination of any intrusive or interruptive corners or edges. For example, as shown inFIG. 13 , interior surfaces of thebody 202 corresponding to thenozzle 212, thebody portion 208 iii, and thebody portion 208 ii may be formed continuously (e.g., monolithically). - The
stopper 214, for example, may engage thecap 206 to frictionally retain thecap 206 on thebody 202 and/or prevent over-insertion of thenozzle 212 into thecap 206. As shown, thestopper 214 may be configured as an annular flange that extends radially outward relative to thebody 202. It is envisioned that thestopper 214 may be directly connected to thebody portion 208 iii or, alternatively, that thestopper 214 may be indirectly connected to thebody portion 208 iii such that thestopper 214 is positioned generally adjacent to thebody portion 208 iii. For example, to facilitate manufacturing, as well as the flow of product into and of the container, it is envisioned that thecontainer 200 may include a neck 216 (FIGS. 7-10 ) with a generally arcuate internal configuration that acts as a transition between thebody portion 208 iii and thestopper 214 to further eliminate any intrusive or interruptive corners, edges, etc., that may otherwise impede the flow of product into and out of thecontainer 200. - With particular reference to
FIGS. 13-15 , theupper end portion 204 u of thebody 202 further includes anupstanding wall 218 that may, as shown, extend (vertically upward) from thestopper 214. Theupstanding wall 218 includes anouter surface 220 with a threadedsection 222, and defines a maximum outer transverse cross-sectional dimension (e.g., a maximum outer diameter) Duw that lies substantially within the range of approximately 36 mm to approximately 40 mm, although larger and smaller values for Duw would not be beyond the scope of the present disclosure. - The
nozzle 212 is spaced radially inward from theupstanding wall 218 so as to define a gap G (FIG. 14 ) therebetween. Thenozzle 212 defines anopening 224 through which product enters and exits thecontainer 200. More specifically, as seen inFIG. 14 , for example, in the illustrated embodiment, thenozzle 212 and theupstanding wall 218 are arranged in concentric relation to define the gap G therebetween. The gap G may, for example, be positioned immediately above theouter wall 210 iii. Furthermore, theupstanding wall 218 may terminate at a height (e.g., axial dimension) that is lower than thenozzle 212. - In contrast to the preceding embodiments, the
nozzle 212 includes anouter surface 226 that is generally uniform in configuration. More specifically, thenozzle 212 is devoid of any threading, which allows the transverse cross-sectional dimension of thenozzle 212 to be increased (when compared to previous embodiments of the disclosure), while still allowing for insertion into the inlet of a beverage container (e.g., water bottle). For example, it is envisioned that thenozzle 212 may define a maximum outer transverse cross-sectional dimension (e.g., a maximum outer diameter) Dn that lies substantially within the range of approximately 20 mm to approximately 23 mm, although larger and smaller values for Dn would not be beyond the scope of the present disclosure. In one particular embodiment, thenozzle 212 defines a maximum outer transverse cross-sectional dimension Dn of approximately 21.7 mm With theouter surface 226 being uniform (e.g., devoid of threading), the maximum outer transverse cross-sectional dimension Dn may be increased relative to other nozzles having outer surfaces that are non-uniform (e.g., with threading) and still allow insertion of thenozzle 212 into other containers (e.g., nozzles of standard-sized beverage containers). With theouter surface 226 having a larger maximum outer diameter from being uniform, an inner surface (not labeled) of thenozzle 212 may have a larger maximum inner transverse cross-sectional dimension (e.g., a maximum inner diameter; not labeled) as compared to those other nozzles having outer surfaces that are non-uniform. This larger maximum inner diameter may better facilitate the flow of product from thecontainer 200 through thenozzle 212 into the beverage container. The maximum outer diameter Dn of thenozzle 212 is smaller than a maximum inner diameter of the upstanding wall 218 (not labeled) to define the gap G therebetween. A corresponding nozzle of the beverage container may be received in the gap G when thenozzle 212 is inserted therein for product of thecontainer 200 to be poured into the beverage container. - Although the
nozzle 212 is shown as being integrally (e.g., monolithically) formed with theouter wall 210 iii of thebody portion 208 iii in the illustrated embodiment, as seen inFIG. 13 , alternate constructions would not be beyond the scope of the present disclosure. For example, it is envisioned that thenozzle 212 and thebody portion 208 iii may be formed as separate (discrete) structures that are connected together (e.g., via ultrasonic welding, or any other suitable process). - With particular reference to
FIGS. 14 and 15 , the (first) cap (lid) 206 will be discussed. Thecap 206 includes aninner wall 228 defining areceptacle 230 that is configured to receive thenozzle 212, and anouter wall 232 that is spaced radially outward from theinner wall 228. For example, theinner wall 228 may be concentric with theouter wall 232 and form another gap (not labeled) therebetween, which generally corresponds to the gap G of thecontainer 200. In some implementations, theinner wall 228 has a lesser height in comparison to theouter wall 232 but theinner wall 228 andouter wall 232 can have a variety of varying height levels including but not limited to same heights. In various embodiments of the disclosure, it is envisioned that thereceptacle 230 may be configured to receive thenozzle 212 so as to inhibit (if not entirely prevent) the escape of product from thecontainer 200. For example, it is envisioned that the receptacle 230 (e.g., inner surfaces of theinner wall 228 defining the receptacle and/or of an upper wall of thecap 206 defining) may engage the nozzle 212 (e.g., in radial and/or axial directions, respectively). Such engagement may form an interference (e.g., snap-fit) arrangement by which thecap 206 is retained to thenozzle 212, or thereceptacle 230 and thenozzle 212 may be manufactured within tolerances that facilitate the formation of a tight-fit and/or a seal therebetween. Additionally, or alternatively, it is envisioned that a sealing member (not shown) may be positioned between thenozzle 212 and thecap 206 to further inhibit the escape of product from thecontainer 200. Theinner wall 228 of thecap 206 may have an inner diameter (not labeled) that is approximately equal to the maximum outer diameter Dn of thenozzle 212, so as to engage thenozzle 212 radially to inhibit escape of the product from thecontainer 200. - The
outer wall 232 of thecap 206 defines a transverse cross-sectional dimension (e.g., a diameter) Dc that substantially approximates a transverse cross-sectional dimension (e.g., a diameter) Ds defined by the stopper 214 (see alsoFIG. 7 ). As a result, an axial end of theouter wall 232 may engage an upper surface of thestopper 214 to facilitate support of thecap 206 by thestopper 214 to inhibit, if not entirely prevent, rocking of the cap 206 (or other such undesirable movement), as mentioned above. Furthermore, as referenced above, the axial end of theouter wall 232 may engage the upper surface of thestopper 214 to retain thecap 206 thereon frictionally and/or to prevent further insertion of thenozzle 212 into thecap 206. It is envisioned that respective outer transverse cross-sectional dimensions Dc, Ds of thecap 206 and thestopper 214 may lie substantially within the range of approximately 40 mm to approximately 44 mm, although larger and smaller values for Dc, Ds would not be beyond the scope of the present disclosure. - To facilitate connection and disconnection of the
cap 206 and thebody 202, theouter wall 232 of thecap 206 includes a (second) threadedsection 234 on aninner surface 236 thereof that is configured for engagement with the threadedsection 222 included on theouter surface 220 of theupstanding wall 218. - In the embodiment seen in
FIGS. 5-15 , thebody 202 further includes a (second) cap (lid) 238. As described above in connection with the embodiment seen inFIG. 2 , for example, it is envisioned that the lower end portion 204 l may include a threadedsection 240 that is configured for engagement with a corresponding threaded section 242 (FIG. 14 ) included on thecap 238 such that thecap 238 can be removed from thebody 202 of the container 200 (e.g., to allow for filling and re-filling of thecontainer 200 with the product). Alternatively, however, it is envisioned that thecap 238 may be integrally (e.g., monolithically) formed with the lower end portion 204 l (i.e., such that thecap 238 is fixedly connected to thebody 202 of the container 200). In such embodiments, it is envisioned that thecontainer 200 may be pre-filled with the product. - In
FIG. 16 , thecontainer 200 includes afirst cap 1610, abody 1620, and asecond cap 1630. In some implementations, thecontainer 200 can include a single cap. For example, thecontainer 200 can include only a top cap (e.g., the first cap 1610) and no bottom cap (e.g., the second cap 1630) or thecontainer 200 can include only a bottom cap (e.g., the second cap 1630) and no top cap (e.g., the first cap 1610). Thecontainer 200 can include ribs or other gripping patterns on either of the caps to aid the user of thecontainer 200 with screwing and/or unscrewing either of thecaps body 1620. Thecontainer 200 can include a variety of clipping mechanisms on the top cap including but not limited to carabiner keychain devices that can come in variety of shapes and sizes. -
FIG. 17 illustrates a cross-sectional view of a rib 1730 of a container 1700 (not fully shown) in accordance with another embodiment of this disclosure. Thecontainer 1700 is similar tocontainer 200 ofFIG. 2 with the addition of the rib 1730 which can enable better coupling between a bottom cap (e.g.,second cap 1630 ofFIG. 16 ) of thecontainer 1700 and a main body portion (e.g.,body 1620 ofFIG. 16 ) of thecontainer 1700 to avoid unintentional screwing and/or separation. InFIG. 17 , a first set ofthreads 1710 that are part of the main body of thecontainer 1700 is engaged with a second set ofthreads 1720 of the bottom cap. The rib 1730 includes a raised rib or ridge portion that is adjacent to a portion of the first set ofthreads 1710. While only one rib 1730 is shown inFIG. 17 , thecontainer 1700 could contain another rib on the opposite side. The rib 1730 helps guide the first andsecond threads -
FIG. 18A andFIG. 18B show aflowchart 1800 of a method of use of a portable dual cap container in accordance with the disclosure. The method is equally applicable to all of the various embodiments disclosed herein and is described in an example section of U.S. application Ser. No. 15/839,328 filed Dec. 12, 2017, as follows: A typical use of the portable dual cap container comprising the main body, the top cap removably coupled to the main body, and the bottom cap removably coupled to the main body can include the steps of: removing the bottom cap to expose the first opening of the main body; using the initially altered dual cap container (that now only includes the main body and the top cap coupled to the main body because the bottom cap has been removed/detached) as a scoop to scoop an amount (e.g., a small amount, at least one serving, more than two servings, etc.) of product (e.g., supplement powder) from a large tub or container into the initially altered dual cap container for storage and/or transportation; resealing the first opening by coupling or reattaching the bottom cap back to the main body to provide the dual cap container in original form factor; when ready to consume the product housed or stored within the dual cap container in original form factor, removing the top cap to expose the second opening formed via a nozzle portion of the main body; pouring or releasing or dumping the product from the subsequently altered dual cap container (that now only includes the main body and the bottom cap coupled to the main body because the top cap has been removed/detached), via the second opening formed by the nozzle portion, into a water or drink bottle with an opening that is slightly larger in diameter than the diameter of the nozzle portion (i.e., so that the nozzle portion can be inserted into the opening of the water or drink bottle) where the product can be mixed with the liquid of the water or drink bottle; and resealing the second opening with the top cap to reform the dual cap container in original form factor for future usage. - Drawing attention now to the
flowchart 1800 shown inFIG. 18A , inblock 1805, a first cap of a dual cap container is utilized for sealing a first aperture located a top end of the dual cap container. The dual cap container can be any container in accordance with the disclosure (such as, for example, thedual cap container 100, thecontainer 200, and thedual cap container 400 described herein) or can, in general, be any container having at least one aperture located a top end and a second aperture located at a bottom end, the cross-sectional area of the second aperture exceeding the cross-sectional area of the first aperture. - In an example embodiment,
block 1805 pertains to utilizing a cap of a dual cap container to seal an aperture located at a top end of the dual cap container. Various aspects associated with anexample cap 108 are described above and illustrated inFIG. 3 . An example implementation ofblock 1805 may involve engaging a female mating structure formed on an inside wall of an innersecond cap wall 128 of thecap 108 with a male mating structure formed on an outside wall of thenozzle 114 that is a part of thebody 102 of thedual cap container 100. - At
block 1810, a first substance (a protein powder, for example) is introduced into a body portion of the dual cap container via a base aperture that is located at a base end of the dual cap container. Various aspects associated with anexample cap 106 are described above and illustrated inFIG. 2 and other figures. An example implementation ofblock 1810 may involve disengaging thecap 106 from thedual cap container 100 and using thebody 102 of thedual cap container 100 to scoop a product into an internal chamber of thedual cap container 100 via a base aperture of thedual cap container 100. - As described above, the
cap 106 is removably connected or coupled or attached (e.g., via screwing, clipping, snapping, etc.) to a bottom end of thedual cap container 100 proximate to thebody 102. Thecap 106 can be used as a base upon which thedual cap container 100 can rest or stand. More particularly, a major surface of thecap 106 can rest on a horizontal surface (floor, tabletop, etc.) when thecap 106 is connected to thebody 102 and thedual cap container 100 is placed upon the horizontal surface. Thecap 106 can be removed from thedual cap container 100 to expose a first opening (also referred to herein as a base aperture) of thedual cap container 100. - In an example scenario, the action indicated in
block 1810 may be carried out based on following instructions provided in instructional material such as, for example, a booklet or a video. The instructional material may provide a teaching that the base aperture of the dual cap container is larger in size than the aperture at the top end of the dual cap container and is particularly configured to facilitate a use of the base aperture to introduce a substance into the dual cup container. Some example procedures to do so can include using the dual cup container as a scoop. Some other example procedures to do so can include using implements such as, for example, a spoon, a handheld scoop, a folded piece of paper, or the cap that was removed from the based portion of the dual cup container. The instructional material may further point out other aspects of the dual cup container such as, for example, how to clean or wash the dual cap container in various ways such as, for example, by carrying out any of the example procedures described below. - In another example scenario, the action indicated in
block 1810 may be carried out based on a visual inspection of the dual cup container. The visual inspection can indicate that the base aperture of the dual cap container is larger in size than the aperture at the top end of the dual cap container thereby allowing the use of the dual cap container as a handy tool that can be used to scoop a substance into the dual cup container. - In the various example embodiments described above (and illustrated in the various figures), the shape of the base aperture is substantially similar to the shape of the aperture at the top end of the dual cap container (both are circular in shape). However, in various other embodiments, the shape of the base aperture can be different than the shape of the aperture at the top end of the dual cap container. Furthermore, in the various example embodiments described above (and illustrated in the various figures), the body portion of the dual cap container includes cylindrical sections and curved sections that have a substantially circular cross section. However, in another example embodiment in accordance with the disclosure, the cross-sectional shape of the body portion of a dual cap container can be polygonal. For example, at least some of the body portion of the dual cap container can be quadrilateral (a square or a rectangle, for example). The base of the dual cap container in this example embodiment can be a square or a rectangle and the base aperture located in the base can be circular, rectangular, square, or oval, for example. A bottom cap can have a shape corresponding to the base aperture and include a mating feature such as, for example, a threaded section or a snap-fit section. The top portion of the dual cap container in this example embodiment can be a square or a rectangle and the aperture located in the top portion can be circular, rectangular, square, or oval, for example. A top cap can have a shape corresponding to the aperture located in the top portion and include a mating feature such as, for example, a threaded section or a snap-fit section.
- Irrespective of the shape and/or type of dual cap container, the cross-sectional area of the base aperture is larger than the cross-sectional area of the top aperture in all embodiments. For example, an area of the base aperture of a dual cap container having a quadrilateral profile (area of a rectangle or a square) exceeds the area of a top aperture having any shape (quadrilateral or circular, for example).
- One or both caps of a dual cap container can also have various cross-sectional shapes in accordance with the disclosure. Thus, for example, in an example embodiment, the top cap can have a circular profile and can include a threaded portion for mating with a body portion of the dual cap container and the bottom cap can have a different profile (rectangle, square, or oval, for example) and can include an interface portion that provides for a snap-fit or friction-fit mating with a body portion of the dual cap container.
- At
block 1815, a second cap is utilized to seal the first aperture located at the bottom end of the dual cap container. Various aspects associated with an examplesecond cap 106 are described above and illustrated inFIG. 2 and other figures. An example implementation ofblock 1815 may involve sealing the base aperture located at the bottom end of thedual cap container 100 by engaging the firstfemale mating structure 126 of thecap 106 with the firstmale mating structure 121 of thedual cap container 100. - At
block 1820 the dual cap container is transported by use of a carrier device such as, for example, a keychain, a carabiner keychain, a lanyard, a rope, a ring, and/or a metal ring. In an example implementation, thedual cap container 100 includes a carrier device 116 (shown inFIG. 2 and other figures). thecarrier device 116 can be provided upon atop surface 118 of thesecond cap 108. In another example implementation, a carrier device such as, for example, thecarrier device 116, can be attached to other surfaces of thedual cap container 100 including but not limited to a side surface of thesecond cap 108, to a surface of thebody 102, or to a surface of theshoulder 104.Block 1820 is optional and may be omitted in some scenarios. - At
block 1825, the first cap can be removed for exposing the first aperture at the top end of the dual cap container and atblock 1830, the first substance can be dispensed from the body portion of the dual cap container. In an example embodiment described above, a typical use of the portable dual cap container can include removing the top cap to expose the second opening formed via a nozzle portion of the main body; pouring or releasing or dumping the product from the subsequently altered dual cap container (that now only includes the main body and the bottom cap coupled to the main body because the top cap has been removed/detached), via the second opening formed by the nozzle portion, into a water or drink bottle with an opening that is slightly larger in diameter than the diameter of the nozzle portion (i.e., so that the nozzle portion can be inserted into the opening of the water or drink bottle) where the product can be mixed with the liquid of the water or drink bottle; and resealing the second opening with the top cap to reform the dual cap container in original form factor for future usage. - At
block 1835, a determination may be made whether the dual cap container is to be washed. If no washing is desired, the action indicated inblock 1805 and subsequent blocks are executed. If washing is desired, at block 1840 (shown inFIG. 18B ), a determination may be made whether the dual cap container is to be hand washed or machine washed. - If hand washing is desired, at
block 1845, the second cap is removed to expose the second aperture located at the bottom end of the dual cap container. - At
block 1850, a cleaning device is inserted through the second aperture for cleaning an internal surface of the body portion of the dual cap container. The cleaning device can be, for example, a bottle cleaning brush, a sponge, a cloth rag, or a paper towel. In one example scenario, one or more cleaning agents such as water, detergent, soap etc. can be used for cleaning. In another example scenario, a cleaning operation can be carried out without using a liquid such as, for example, by rubbing the internal surface with a dry paper towel. In an example scenario, block 1850 can be omitted and the action indicated inblock 1855 may be carried out. - At
block 1855, which can be an optional action depending upon the type of cleaning carried out inblock 1850, water may be used to rinse out the dual cap container. - If, at
block 1840, it is determined that a machine wash is desired, atblock 1860, the second cap is removed to expose the second aperture located at the bottom end of the dual cap container. - At
block 1865, the first cap is removed to expose the first aperture located at the top end of the dual cap container. - In an example scenario, the action indicated in
block 1865 is executed after the action indicated inblock 1860 is executed (as described above). In another example scenario, the action indicated inblock 1865 may be executed before the action indicated inblock 1860 is executed. - At
block 1870, the dual cap container is placed in a washing machine in an upright position to allow water to flow through the dual cap container. In an example scenario, the dual cap container is placed in a dish washing machine in an upside-down position whereby the second aperture located at the bottom end of the dual cap container constitutes an entryway for water to enter the dual cap container and flow downwards through the dual cap container. The larger diameter of the second aperture in comparison to the first aperture, allows the dual cap container to operate as a funnel. The higher velocity flow through the first aperture provides an advantageous cleaning operation for cleaning the dual cap container. - At
block 1875, a wash procedure is executed by the washing machine. -
FIG. 19 illustrates an example method to introduce asubstance 1916 into a dual cap container (such as, for example, the dual cap container 1905) in accordance with the disclosure. Thesubstance 1916 can be any of various types of substances, mixtures, fluids, or liquids, such as, for example, a protein powder, a whey powder, an organic powder, an all-natural powder, a vegan powder, a nutritional powder, a pre-workout powder, a nutritional food, a nutritional liquid, a vitamin mixture, a health drink, and/or a slurry. Thecontainer 1915 in which thesubstance 1916 is contained can be any of various types of containers such as, for example, a tub, a drum, a barrel, a can, or a box. - In the illustrated scenario, the
dual cap container 1905 is held by anarm 1910 of a user (not shown) in a manner that allows thedual cap container 1905 to be used as a scoop for introducing thesubstance 1916 into thedual cap container 1905 via the base aperture. More particularly, thedual cap container 1905 can be held at any suitable angle (horizontal, tilted, or upright) by gripping the body portion of the dual cap container in a hand grip that is characterized by anindex finger 1912 of the user being located closer to a bottom end of thedual cap container 1905 than alittle finger 1911. - The bottom end of the
dual cap container 1905 includes arim portion 1906 that can have any of various contours such as for example, identical to the rest of the rim portion or having an oval projection such as provided in a conventional scoop. Therim portion 1906 can be operated as an excavator for insertion into thesubstance 1916 and scooping thesubstance 1916 into the interior portion of thedual cap container 1905. This step is described above with reference to block 1810 of theflowchart 1800. - In an example implementation, markings (grams, ounces, etc.) may be provided upon the body portion of the
dual cap container 1905. The markings may be used by the user to fill thedual cap container 1905 with a desired amount of the substance 1916 (15 grams of a powder or 20 ounces of a liquid, for example). If an amount of substance introduced into thedual cap container 1905 exceeds a desired amount, the excess amount can be discarded from the dual cap container via the base aperture and/or via the top aperture. Discarding via the base aperture can be carried out, for example, by tipping the excess powder out of thedual cap container 1905 via the base aperture. Discarding via the top aperture can be carried out, for example, by sealing the base aperture using the bottom cap, and removing the top cap for exposing the top aperture. Discarding via the top aperture can be carried out, for example, by tipping the excess powder out of thedual cap container 1905 via the top aperture. - After filling the
dual cap container 1905 with a desired amount of thesubstance 1916, the operation described above with respect to block 1815 of theflowchart 1800 base aperture can be carried out by using the bottom cap to seal the aperture located at the bottom end of thedual cap container 1905. -
FIG. 20 illustrates some example implements that may be used to introduce a substance into a dual cap container such as, for example, thedual cap container 1905, in accordance with the disclosure. The example implements include abottom cap 2010 of thedual cap container 1905, ascoop 2015, aspoon 2020, and a folded piece ofpaper 2025. Any one or more of these implements can be used to transfer a substance such as thesubstance 1916 described above, from thecontainer 1915 to thedual cap container 1905. In this example scenario, thedual cap container 1905 is held in an upright position by grasping the body portion of thedual cap container 1905 in the manner described above. The aperture at the bottom end of thedual cap container 1905 is exposed and accessible from above the dual cap container. The substance 1916 (for example) can be poured into thedual cap container 1905 in a direction that is indicated by anarrow 2006. -
FIG. 21 illustrates an example configuration that can be used for washing a dual cap container such as, for example, thedual cap container 1905, in accordance with the disclosure. A first action that may be performed for carrying out the hand wash procedure involves removing both the top cap and the bottom cap of thedual cap container 1905. Thedual cap container 1905 can then be grasped in the manner described above and illustrated inFIG. 20 (index finger 1912 of the user being located closer to a bottom end of thedual cap container 1905 than a little finger 1911). - A determination may be made whether a hand wash procedure or a machine wash procedure is desired (as described above with respect to block 1840 of the flowchart 1800). If a hand wash procedure is desired, the example procedure described above with reference to block 1845,
block 1850, and block 1855 of theflowchart 1800 may be carried out. - If a machine wash procedure is desired, the example procedure described above with reference to block 1860,
block 1865,block 1870, and block 1875 of theflowchart 1800 may be carried out. The flow of water through thedual cap container 1905 is indicated by anarrow 2105 and anarrow 2110. - The example configuration shown in
FIG. 21 can also represent a funnel function configuration where thedual cap container 1905 is used as a funnel to introduce one or more substances into a container. For example, the funnel configuration may be used to introduce two or more powders into a shaker bottle (a whey powder and a protein powder, for example) and/or to introduce a solution into the shaker bottle (water, juice, etc.). - While the disclosure has been described in connection with certain embodiments, it is to be understood that the disclosure is not to be limited to the disclosed embodiments but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the scope of the appended claims, which scope is to be accorded the broadest interpretation so as to encompass all such modifications and equivalent structures as is permitted under the law.
- Persons skilled in the art will understand that the various embodiments of the disclosure described herein and shown in the accompanying figures constitute non-limiting examples, and that additional components and features may be added to any of the embodiments discussed hereinabove without departing from the scope of the present disclosure. Additionally, persons skilled in the art will understand that the elements and features shown or described in connection with one embodiment may be combined with those of another embodiment without departing from the scope of the present disclosure and will appreciate further features and advantages of the presently disclosed subject matter based on the description provided. Variations, combinations, and/or modifications to any of the embodiments and/or features of the embodiments described herein that are within the abilities of a person having ordinary skill in the art are also within the scope of the disclosure, as are alternative embodiments that may result from combining, integrating, and/or omitting features from any of the disclosed embodiments.
- Use of the term “optionally” with respect to any element of a claim means that the element may be included or omitted, with both alternatives being within the scope of the claim. Additionally, use of broader terms such as “comprises,” “includes,” and “having” should be understood to provide support for narrower terms such as “consisting of,” “consisting essentially of,” and “comprised substantially of.” Accordingly, the scope of protection is not limited by the description set out above but is defined by the claims that follow and includes all equivalents of the subject matter of the claims.
- In the preceding description, reference may be made to the spatial relationship between the various structures illustrated in the accompanying drawings, and to the spatial orientation of the structures. However, as will be recognized by those skilled in the art after a complete reading of this disclosure, the structures described herein may be positioned and oriented in any manner suitable for their intended purpose. Thus, the use of terms such as “above,” “below,” “upper,” “lower,” “inner,” “outer,” “left,” “right,” “upward,” “downward,” “inward,” “outward,” etc., should be understood to describe a relative relationship between the structures and/or a spatial orientation of the structures. Those skilled in the art will also recognize that the use of such terms may be provided in the context of the illustrations provided by the corresponding figure(s).
- Each and every claim is incorporated as further disclosure into the specification and represents embodiments of the present disclosure. Also, the phrases “at least one of A, B, and C” and “A and/or B and/or C” should each be interpreted to include only A, only B, only C, or any combination of A, B, and C.
Claims (20)
1. A method comprising:
utilizing a first cap to seal a first aperture located at a top end of a dual cap container;
introducing a first substance into a body portion of the dual cap container via a second aperture located at a bottom end of the dual cap container;
utilizing a second cap to seal the second aperture;
removing the first cap to expose the first aperture; and
dispensing the first substance from the body portion of the dual cap container via the first aperture.
2. The method of claim 1 , further comprising:
determining that the second aperture has a larger size than the first aperture; and
introducing the first substance into the body portion of the dual cap container via the second aperture based on determining that the second aperture has a larger size than the first aperture.
3. The method of claim 1 , wherein introducing the first substance into the body portion of the dual cap container via the second aperture comprises:
using one of the body portion of the dual cap container, the second cap, a spoon, a container, a folded piece of paper, or a dispensing apparatus, to at least partially fill the body portion of the dual cap container with the first substance via the second aperture.
4. The method of claim 1 , wherein the first aperture is defined by a nozzle and wherein dispensing the first substance from the body portion of the dual cap container via the first aperture comprises:
inserting the nozzle into a mixing container; and
dispensing the first substance into the mixing container.
5. The method of claim 4 , further comprising:
mixing the first substance with a second substance contained in the mixing container.
6. The method of claim 5 , wherein the second substance contained in the mixing container comprises at least one of a liquid or a powder.
7. A method comprising:
utilizing a body portion of a dual cap container as a scoop to at least partially fill the body portion with a first substance via a first aperture located at a bottom end of the dual cap container; and
dispensing the first substance via a second aperture located at a top end of the dual cap container, the second aperture having a smaller size than the first aperture.
8. The method of claim 7 , wherein the body portion of the dual cap container is substantially cylindrical, and wherein the method further comprises:
removing a first cap to expose the first aperture prior to utilizing the body portion of the dual cap container as the scoop; and
utilizing a second cap to seal the second aperture prior to utilizing the body portion of the dual cap container as the scoop.
9. The method of claim 7 , further comprising:
determining that the dual cap container is empty after dispensing of the first substance via the second aperture; and
inserting a cleaning implement through the first aperture for cleaning an internal surface of the body portion of the dual cap container.
10. The method of claim 7 , further comprising:
placing the dual cap container in a dishwashing machine in a washing arrangement that allows water to flow into the body portion via the first aperture and flow out via the second aperture.
11. The method of claim 7 , wherein the second aperture is defined by a nozzle and wherein dispensing the first substance from the body portion of the dual cap container via the second aperture comprises:
inserting the nozzle into a mixing container; and
dispensing the first substance into the mixing container.
12. The method of claim 11 , wherein the first substance is a powder, and wherein dispensing the first substance into the mixing container comprises:
arranging the dual cap container to provide a funnel function by anchoring the nozzle to the mixing container; and
allowing the powder to flow out of the dual cap container into the mixing container via the second aperture.
13. The method of claim 12 , wherein the mixing container contains a liquid and wherein the method further comprises:
agitating the mixing container to mix the powder with the liquid.
14. The method of claim 13 , wherein the powder is a protein powder and the liquid is one of a beverage or water.
15. A method comprising:
filling at least a portion of a body portion of a dual cap container by introducing a first substance via a first aperture located at a bottom end of the dual cap container;
transporting the dual cap container by use a of a carrier device attachable to the dual cap container; and
dispensing the first substance via a second aperture located at a top end of the dual cap container, the second aperture having a smaller size than the first aperture.
16. The method of claim 15 , wherein the carrier device is at least one of a carabiner, a chain, a lanyard, a rope, or a ring.
17. The method of claim 15 , wherein the second aperture is defined by a nozzle and wherein dispensing the first substance from the body portion of the dual cap container via the second aperture comprises:
inserting the nozzle into a mixing container;
dispensing the first substance into the mixing container; and
mixing the first substance with a second substance contained in the mixing container.
18. The method of claim 17 , wherein the first substance is a powder and the second substance is a liquid.
19. The method of claim 15 , wherein filling the at least the portion of the body portion of the dual cap container by introducing the first substance via the first aperture comprises:
removing a cap to expose the bottom end of the dual cap container; and
using the body portion of the dual cap container as a scoop to at least partially fill the body portion of the dual cap container with the first substance.
20. The method of claim 15 , wherein the first substance is a powder and wherein filling the at least the portion of the body portion of the dual cap container comprises:
removing a cap to expose the bottom end of the dual cap container; and
pouring the powder into the body portion of the dual cap container.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US17/731,028 US20220250782A1 (en) | 2016-12-12 | 2022-04-27 | Portable Container And Method Of Use |
Applications Claiming Priority (5)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US29/587,289 USD844435S1 (en) | 2016-12-12 | 2016-12-12 | Bottle |
US15/839,328 US20180162582A1 (en) | 2016-12-12 | 2017-12-12 | Portable Dual Cap Container And Method Of Use |
PCT/US2018/065191 WO2019118587A1 (en) | 2017-12-12 | 2018-12-12 | Portable container and method of use |
US16/728,391 US20200140135A1 (en) | 2016-12-12 | 2019-12-27 | Portable Container And Method Of Use |
US17/731,028 US20220250782A1 (en) | 2016-12-12 | 2022-04-27 | Portable Container And Method Of Use |
Related Parent Applications (1)
Application Number | Title | Priority Date | Filing Date |
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US16/728,391 Continuation-In-Part US20200140135A1 (en) | 2016-12-12 | 2019-12-27 | Portable Container And Method Of Use |
Publications (1)
Publication Number | Publication Date |
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US20220250782A1 true US20220250782A1 (en) | 2022-08-11 |
Family
ID=82703557
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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US17/731,028 Pending US20220250782A1 (en) | 2016-12-12 | 2022-04-27 | Portable Container And Method Of Use |
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US (1) | US20220250782A1 (en) |
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