1. Field of the Invention
This invention relates to a liquid and/or dry ingredient button activated dispensing cap that is threadably (or non-threaded) mounted to the body of a primary container bottle, pack, pouch, carton, drum, can or any other liquid (or non-liquid) container. The dispensing cap stores liquid and/or dry substances which can be rapidly dispensed into the primary container by manual activation of a button actuator when desired. The mixed contents can be thereafter readily consumed by the user after the cap body is removed from the primary container.
2. Description of the Prior Art
Many foods, drugs, cosmetics, mouth washes, adhesives, polishes, cleansers, dyes and other substances are compounds or mixtures that are frequently supplied in liquid, powder or crystal form and do not retain their stability, strength and effectiveness for long after the ingredients have been mixed in solution or suspension with a different liquid. This incompatibility after mixing therefore mandates that the product be utilized relatively soon after mixture to obtain full strength benefits or to prevent loss of effective strength, deterioration, discoloration, interactions and reduce effectiveness. It is also important that admixtures of various ingredients be done under conditions wherein a measured amount of one ingredient is added to a measured amount of the other liquid or chemical to insure that proper results are obtained. The process of loss of effectiveness is often termed “shelf life.” Once two different chemicals are combined, the process of deterioration often begins.
Another concern involves merchandising of certain products, where it is frequently desirable to supply two companion products to the consumer in a single package. Thus, many products are, by their very nature, required to be used by the consumer shortly after their manufacture and mixture as they lose certain desirable characteristics with a short period of time, yet the product can be stored for extended periods of time if one ingredient is maintained separate from the other. In such case, the two ingredients may be mixed together to form the desired product shortly before use. In marketing such goods, it obviously is desirable that both ingredients be sold as part of the same package. From an aesthetic as well as a handling standpoint, it is desirable that but a single package be utilized for maintaining such compounds separated.
The use of conventional liquid containers such as plastic bottles for carrying water, juices, power drinks and other desirable liquids for human consumption is quite well known. There are, however, several non-active and active substances such as activated oxygen, vitamins, minerals, herbs, nutrients and flavors that would be desirable to be added to liquids such as water, juices or other beverages to give the consumer added benefits, particularly those useful for the health of the consumer. Many of the substances, however, that provide additional benefits when mixed into another liquid have short shelf lives, discolor, interact or degrade quickly when combined with liquids or other substances. Therefore, many beverages are currently sold without the added beneficial ingredients.
It is known in the art to provide dispensers containing a concentrate of soluble materials to a fixed quantity of solute, usually water, for dispensing. Thus, the prior art teaches containers for beverages wherein the interior of the container is divided into a compartment having a basic ingredient and a compartment which can be ruptured so as to mix, within the container the basic ingredient and some form of modifier, diluent or flavoring. The basic reason for this prior art container is to provide the mixing action at the time of consumption since prior mixing would have adverse effects. The basic ingredient is often not suitable for consumption by itself and requires mixing with a diluent/modifier prior to consumption.
Prior art intra-container mixing prior to use was disclosed in U.S. Pat. No. 5,370,222 to Steigerwald comprising an open threaded container containing a liquid, a powder containing releasable receptacle sealed with foil which is cut by a cutting mandrel during screwing of the receptacle onto the container.
U.S. Pat. No. 5,863,126 to Guild discloses a baby bottle fluid mixing system comprising a pre-stored powdered substance confined within a first upper container screw disposed atop a second lower container separated by an internal stemmed disk sealed in a snap fit arrangement at the aperture between the bottles, which descends into the lower bottle after removal from the aperture for use. The present invention discloses a dispensing cap body screwed onto a liquid containing bottle.
Another such device for separate storage and subsequent mixing of two products is disclosed in U.S. Pat. No. 5,246,142 to DiPalma which comprises a first ingredient container, a second ingredient dispenser compartment plunger arrangement with a weakened wall region inserted within and separated from the container, a removable container closure connected to the plunger and a plunger projection for engagement which ruptures the weakened wall region to release the second ingredient into the first ingredient container. Unlike the present invention, DiPalma's singular sealing means is the reservoir for the second ingredient and fails to create upon activation an orifice for immediate dispensing of the mixed products.
U.S. Pat. No. 5,692,644 to Gueret discloses a container separately storing, then mixing and dispensing two products in which a first liquid containing bottle is separated by a movable wall from a second reservoir containing powder. Force applied to a cylindrical piston in the direction toward the dispensing orifice of the container cuts the seal between the two reservoirs, thereby facilitating the combination and mixing of the two products within the first reservoir of the container. The Gueret apparatus differs from all embodiments of the present invention in that the piston is an integral portion of the slideable base which is snapably attached to the bottle and when compressed with external manual pressure breaks the seals, pushing the contents up into the bottom portion of the liquid-containing bottle thereby accomplishing the mixing of the two products and simultaneously reducing the exterior dimensions of the bottle. The present invention dispenses the dry product without a piston or slideable base integrated within the bottle nor does the overall size of the bottle change during use.
Another separate storage and dispensing device was disclosed in U.S. Pat. No. 4,638,927 to Morane which comprised a bottle for liquid having at its neck a leak proof envelope separately storing and enclosing additional product, with a slidable push button perforator in the cap on the bottle neck which opens the envelope to discharge the envelope contents into the liquid in the bottle, thereafter being dispensed through a duct in the cap rather than passing through the perforated center cap area as is the case with the present invention.
U.S. Pat. No. 3,156,369 issued to Bowes, et al. on Nov. 10, 1964 shows a bicameral container that includes a bottle cap dispenser.
Child safety is a concern with respect to dispensing containers to ensure that the dispensing process does not entail creating small frangible items or pieces of foil or paper that could harm a child.
The cost of manufacturing must always be considered in determining whether or not a containing dispenser is practical in everyday use.
The present invention provides a liquid and/or dry ingredients containing dispensing cap that is threadably mounted on a container neck of any type liquid container including packs, bags, cans and plastic or glass bottles. With a bottle as an example, the invention may be mounted typically on top of the neck or throat of a liquid container, such as a bottle of water. The device includes a manual push button dispenser. The stored ingredients are completely sealed within the storage compartment body, and remain separated from the liquid in the bottle until the exact moment of usage, which is determined by the consumer by manually depressing the button actuator dispensing the ingredients (powder or liquid). The dispensing cap be mounted to any type of threaded circular opening affixed or part of any type of package or carton. Thus, active ingredients, e.g. activated oxygen, vitamins, herbs, nutrients or other substances having a short activity life (shelf life) when added to a particular liquid can now be safely and sealably stored in a dispensing device until time for use and can be subsequently added to the desired liquid, thereby ensuring that the shelf life and time of activity of the materials are not jeopardized even though they are housed within the liquid container. Once activated, the contents of the bottle can be consumed by the user by removing the device from the primary container opening.
The present invention also offers the advantage that it does not require significant modification of existing liquid containers, packages, cartons, bottle caps or existing bottles. In fact, it can be inserted onto existing primary container threaded openings, bottle necks and spouts.
The dispensing device may be added at the factory to a liquid bearing container and pre-mounted on the primary container threaded opening at the factory after the container itself is partially filled with a liquid or used with an existing container. The dispensing device can be sold separately or prepackaged in the beverage container.
An ingredient dispensing device threadably mounted or mountable to a primary container for sealably containing separate liquid and/or powder materials, said dispensing device having substantially a cylindrical liquid-impervious sleeve integrally formed with a threaded peripheral container cap body. A button actuator is slideably mounted to the cap body. A cylindrical storage chamber fits moveably inside the cap body sleeve. When the button actuator is depressed, a safety seal is broken, and the button actuator contacts the storage chamber top contact area, forcing the storage chamber downward, tearing the bottom seal on the cap body sleeve.
The threaded cap body includes a cylindrical sleeve cylinder having a sealed closed end and an open end surrounded by a peripheral extended annular lip. The bottom of the cap body sleeve is sealed with a foil or molded plastic having a line of weakening. The cap body is made of a liquid impervious material such as plastic, polypropylene or polyethylene but not limited thereto. Other materials are suitable. However, the threaded cap body could also be made of metal, glass or fabric. The sealed bottom end wall of the cap body sleeve is integrally molded with the cylinder wall as a single piece with the bottom end wall having a thinner annular area near its perimeter to act as a weakened fungible sleeve bottom end cap.
The button actuator has an inverted cylindrical shape with a central plunger projection that is pressed against a contact area or center wall area at the top of the storage chamber. The button actuator exterior top surface acts as a button shaped surface to be manually depressed.
The cylindrical wall forming the button actuator is sized in diameter to fit in an upper circular slot in the threaded cap body upper surface surrounding the cap body sleeve that receives the ingredient storage chamber.
The ingredient storage chamber is a cylinder having an open bottom end with a cutting edge and a top center contact area that engages the button dispensing actuator. The outside diameter of the storage chamber is less than the inside diameter of the threaded cap sleeve, such that the storage chamber fits inside the threaded cap sleeve. The perimeter defining the bottom open end of the storage chamber cylinder formed by the cylinder wall is annular and includes a cutting edge.
The bottom wall of the threaded cap sleeve cylinder has a weakened area around its bottom periphery. When the storage chamber is manually forced downwardly by the bottom actuator, the bottom wall separates, dispensing the contents, while remaining attached to the cap sleeve cylinder.
In the preferred embodiment of the invention, the ingredient storage chamber sealably fits inside the threaded cap sleeve in the unused position, forming a dispenser with ingredients stored inside. The button actuator fits above the storage chamber on the top of the threaded cap body. The ingredients can be liquid or granular or powder and are placed in the cap body at the factory. With the ingredients in place in the storage chamber and cap body sleeve, the button actuator fits inside the cap body containing the ingredients and is pushed downwardly to the safety seal. Thus, the dispensing cap has a closed top and a sealed bottom that act as a unit.
The entire dispensing device which includes a threaded primary container top opening could also be mounted into the threaded circular wall of a carton, package, or flexible container. As an example, a bottle of water can be covered by the dispensing cap that is screwed onto the bottle neck.
At the time of use, the button top is be manually depressed, forcing the storage chamber downwardly manually until the storage chamber bottom edge engages the sealed bottom of the cap sleeve, ripping and tearing away portions of the bottom sealed wall along the lines of weakening causing the contents, liquid or powder, to be quickly dispensed by gravity into the liquid in the bottle, which in this example contains water. The different types of ingredients and uses are extensive. Packages for hair coloring, kitchen foods such as steak and marinate or herbs, automotive products and oral tooth care products are a few examples of a variety of products that may require use of two different liquid or powder chemicals that must be separated until actual use.
Once the ingredients are thoroughly mixed with the liquid in the primary container, the user can drink directly from the primary container (bottle) by removing (unscrew) the entire dispensing device from the primary container (bottle). The dispensing device, once sealed at the factory, is self-contained and can be sold independently and later put onto the threaded opening in a liquid container, pouch, carton, jug, can or the like or can be added at the factory when the liquid is added to the bottle. The purpose of having a separate dispensing container is to extend the shelf lives of the combined ingredients contained within the device with the container ingredients. Many ingredients have a short shelf life once added to a liquid such as water or other drink. By having the individual devices that are completely sealed until the time of use, the active ingredients can be kept separate from the main ingredient such as the liquid in the bottle, carton, package or container.
In yet another embodiment, the dispensing cap could have two or more compartments formed with dividers to separate different chemicals for dispensing from one cap body.
It is an object of the invention to provide a threaded dispensing device that includes active ingredients that can be readily dispensed into any type of primary container housing a second material at a desired time, thus not interfering with the shelf life or physical/chemical integrity of the ingredients to be combined.
It is an object of this invention to provide a liquid and/or dry ingredient bearing receptacle that includes a dispenser to allow consumers to dispense the liquid or powder into the liquid bearing container, pouch, package, carton at any time, the dispensing device being housed within the liquid containing container in a sealed condition.
Still another object of this invention is to provide for sanitary release of the desired ingredients from a dispensing device of any size or shape into a liquid-containing package at a time selected by the consumer.
In accordance with these and other objects which will become apparent hereinafter, the instant invention will now be described with particular reference to the accompanying drawings.
Referring now to the drawings in a particular
Referring now to
A cylindrical ingredient storage chamber 12 is shown. The base opening includes a bladed or cutting edge 12a that surrounds the bottom periphery of the ingredient storage chamber 12. The top of the storage chamber includes a contact area 12b which is basically a ribbed member having a central area that allows the entire ingredient storage chamber to be depressed downwardly causing the cutting edge 12a to intersect a sealed base 14 in the cap body 10. The ingredient storage chamber 12 fits snuggly inside the cap body sleeve 10d that is concentrically formed in the cap body that includes the extended base portion 10a. The outside diameter of the ingredient storage chamber 12 is sized to fit snuggly on the inside diameter of sleeve 10d in the cap body 10.
The cap body 10 includes a threaded portion and exterior threaded housing 10c that allows it to fit on a bottle cap neck which is also threaded or any other type of container that has a circular threaded neck that is the opening into or out of the primary container. Thus the cap body 10 serves as a primary container cap that can be threadably closed and sealed on top of a container such as a plastic or glass water bottle. The cap 10 also includes a safety seal 22 that prevents removal of the cap 10 from a bottle until the safety seal 22 has been ripped apart and away from the cap body 10. In addition the cap body includes an upper cylindrical portion 10b that has a circular slot 11 that surrounds the cylindrical sleeve 10d that allows the button actuator 20 cylindrical body to slide downwardly during the activation process as it is attached to the cap body 10. In addition to the bottom sealed wall 14 which includes lines of weakening to allow dispensing of the material from the cap body ingredient storage chamber 12, an additional sealing ring 15 could be applied to the base of cap body 10 for sealing the base of the unit.
Referring now to
As shown in the un-activated position, the button actuator 20 is in a raised position relative to the cap body 10. A safety ring 100 physically prevents the button actuator 20 from being moved downwardly unless there is sufficient enough manual force to break the release ring 100 away from the button actuator 20 which would then allow the button actuator 20 to be forced downwardly in groove 11. The button actuator 20 has a top surface 20b that is engaged with the hand or finger to push downwardly to activate the entire system and dispense the ingredients in the storage chamber 12c. Button actuator 20 has a internal protrusion 20a which may be a pair of trapezoidal or triangularly shaped walls disposed at 90 degrees to each other that have a tip portion that can be depressed against the upper opening wall central area 12b that is permanently integrated in the ingredient storage chamber 12. The button actuator 20 may include an interior protrusion 20d that engages a lip 10e on the outside exterior of the sleeve body 10a which acts as a stop for the protrusion 20d on the button actuator 20 as its depressed inside slot 11.
The cap body 10 which includes sleeve body 10a that receives the ingredient storage chamber 12 and which includes a storage chamber area 12c has a base seal 14 extending across the bottom sleeve opening. The seal 14 may be integrated and molded with the cap body 10 and have a line of weakening or it could be a foil seal that has a cap disposed on top of it for sealing purposes such as ring 15 shown in
The dispensing device is shown in
In summary the device is comprised of the button actuator 20 which includes a cylindrical chamber and a conical plunger 20a, a moveable cylindrically shaped ingredient storage chamber 12 and a primary container threaded cap 10 which itself has a sleeve passage way disposed there through that is sealed on its bottom side 14 before the device is actuated. Note that in use the device has been connected to a primary container that has a threaded circular neck opening sealed with a locking ring 22. The entire cap and dispensing device cannot be removed from the body without breaking the safety ring 22. Once the ingredients have been dispensed into the primary container, in order to access the mixed ingredients that are in the primary container and in the storage chamber, the entire cap body 10 and the entire device must be removed from the primary container such as a bottle so that the content can be poured out or be withdrawn from the bottle itself such as by drinking the liquid inside.
The present invention can also be used not only on a bottle that includes a neck and a screw on cap, but installed permanently on the threaded circular opening of any carton, container, package or bottle.
The instant invention has been shown and described herein in what is considered to be the most practical and preferred embodiment. It is recognized, however, that departures may be made therefrom within the scope of the invention and that obvious modifications will occur to a person skilled in the art.
Number | Name | Date | Kind |
---|---|---|---|
3156369 | Bowes et al. | Nov 1964 | A |
4638927 | Morane | Jan 1987 | A |
5246142 | DiPalma et al. | Sep 1993 | A |
5370222 | Steigerwald et al. | Dec 1994 | A |
5692644 | Gueret | Dec 1997 | A |
5863126 | Guild | Jan 1999 | A |
5927549 | Wood | Jul 1999 | A |
5967309 | Robles-Gonzalez et al. | Oct 1999 | A |
6098795 | Mollstam et al. | Aug 2000 | A |
6148996 | Morini | Nov 2000 | A |
6165523 | Story | Dec 2000 | A |
6372270 | Denny | Apr 2002 | B1 |
6705462 | Kasuya | Mar 2004 | B2 |
6840373 | Gibler et al. | Jan 2005 | B2 |
6854595 | Kiser | Feb 2005 | B2 |
7347322 | Cho | Mar 2008 | B2 |
7740134 | Sweeney et al. | Jun 2010 | B2 |
20050161348 | Morini | Jul 2005 | A1 |
20060144727 | Fontana | Jul 2006 | A1 |
Number | Date | Country |
---|---|---|
WO 2006111803 | Oct 2006 | WO |
Number | Date | Country | |
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61141680 | Dec 2008 | US |