Abstract:
A capsule that is inserted into the neck of a bottle, or within a pull-up liquid dispenser cap, said capsule being a container or receptacle for sealably containing a liquid and/or dry material and a dispenser for releasing the material when desired into the bottle through the orifice previously occupied by the first and second plugs frangibly sealed in a first position and unsealed mechanically by the consumer depressing an elongated shaft releasing the liquid and/or dry materials into the container body in second position. The present invention allows the use of materials that would discolor, degrade or interact with other substances when added to the contents of the bottle, to remain stable and/or inactive until the time of use.

Description:
BACKGROUND OF THE INVENTION 
     1. Field of the Invention 
     This invention relates to a liquid and/or dry ingredient dispensing capsule that is inserted into the neck or throat of a bottle or into the cap. The capsule stores liquid and/or dry substances which can be rapidly dispensed into the bottle by manual activation when desired and thereafter readily consumed by the user. The capsule may be pre-mounted in the bottle at the factory after the bottle itself is partially filled with a liquid or used with an existing bottle. A conventional bottle cap is used to seal the bottle contents, including the capsule. 
     2. Description of the Prior Art 
     Many foods, drugs, cosmetics, adhesives, polishes, cleansers, dyes and other substances are frequently supplied in liquid, powder or crystal form and do not retain their stability, strength and effectiveness for long after they have been mixed in solution or suspension. This incompatibility after mixing therefore mandates that the product be utilized relatively soon after mixture to prevent deterioration, discoloration, interactions and the like. 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 chemical to insure that proper results are obtained. 
     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 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. 
     In a practical way of providing such desired results, containers have been provided having two compartments in which two ingredients may be stored separately until it is desired to mix them, at which time it is possible to establish communication between the compartments so that the separated ingredients may move from one compartment to the other. 
     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. Unlike the present invention, the Steigerwald arrangement situates a powder containing receptacle on top of rather than within the container and utilizes a cutting means rather than a two-part sealed plunger means to confine then discharge the receptacle contents. 
     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 capsule body insertable in but not screwed onto a liquid containing bottle and further comprises two sealable plugs or closures rather than one snap fit plug and a disposable, non-reusable interior mounted capsule versus top threaded reusable upper container for pre-stored dry or liquid. 
     Another such device for separate storage and subsequent mixing of two products was disclosed in U.S. Pat. No. 5,246,142 to DiPalma which comprised 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&#39;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 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. Morane is also not a two plug system as is the present invention. 
     The present invention provides a liquid and/or dry ingredients containing capsule that is inserted within the neck or throat of a liquid container, such as a bottle of water, and includes a dispenser. The capsule materials are completely sealed within the capsule body, and remain separated from the liquid in the bottle until the exact moment of usage, which is determined by the consumer by manually dispensing the capsule material (powder or liquid). The capsule can also be conveniently mounted in the throat of the bottle or within/under a standard prior art pull-up liquid dispenser cap without interfering with the sealing of the bottle itself in its normal capping operation. Thus, active ingredients, e.g. activated oxygen, vitamins, herbs, nutrients, or other substances having a short activity life when added to a is particular liquid can now be safely and sealably stored in a capsule 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. 
     The present invention also offers the advantage that it does not require significant modification of bottle caps or existing bottles. In fact, it can be inserted into existing bottles without interfering with the sealability of the conventional bottle and bottle cap. 
     None of the above prior art taken either alone or in combination, describes, suggests or renders obvious the instant invention as claimed. 
     SUMMARY OF THE INVENTION 
     A dispensing capsule for containing a liquid and/or powder materials having substantially a cylindrical liquid impervious body, sized in diameter to fit within the inside diameter of a bottle neck, said capsule having a top circular opening and a bottom circular opening. 
     The device includes a first disk-shaped plug, sized to sealably fit in said top opening of said capsule body and a second circular disk-shaped plug sized to fit sealably in the bottom opening of said capsule. 
     The first and second sealable plugs are connected together axially by an elongated shaft that is rigid and has an end portion extending beyond the first and second plugs. 
     The purpose of the elongated shaft and its extended end portion is to allow the consumer to depress the end of the elongated shaft which, with sufficient force, will cause the plugs which are sealed to the top and bottom openings of the capsule body to be forced away or displaced from the openings of the top and bottom. This will allow any liquid and/or dry contents within the capsule body to be immediately dispensed into the liquid bottle. 
     In one embodiment, the diameter of the upper disk shaped plug is different from the diameter of the bottom shaped plug. The bottom plug typically will have a larger diameter to allow more liquid or dry contents to be dispensed from the capsule immediately into the bottle and also allows the upper plug to fall through the lower opening into the container. However, the lower plug is larger in diameter than the upper plug so that the entire upper and lower plug and shaft cannot be consumed or retrieved from the bottle, even though the contents of the bottle are empty because the plug will not fit through the upper opening in the capsule body. 
     In an alternate embodiment, the upper plug diameter could be larger than the lower plug diameter which would prevent the entire plug mechanism from being received into the bottle itself and would allow the plug to be removed by the consumer once the seals are broken and the contents of the capsule emptied into the bottle prior to actually drinking the liquid in the bottle. 
     In another embodiment, the upper disk shaped plug could be the same diameter as the lower disk shape plug. 
     Although the plugs have been described as disk-shaped and circular, a variety of different shaped plugs could be used to accomplish the objective of the invention. 
     To operate the invention, the capsule containing a desired liquid and/or dry ingredients to be dispensed into a liquid in a bottle is inserted into the neck of a bottle containing liquid, typically at the factory, and a conventional bottle cap is added to the bottle. The entire contents of the bottle are then sealed. At the factory, the capsule has been filled with the desired liquid and/or dry ingredients. The plugs are sealed watertight so that the ingredients inside the capsule is contained and cannot drip or fall into the liquid in the bottle once the capsule is inserted in place and so the liquid in the bottle cannot seep into the capsule. At the time the consumer desires to drink the liquid in the bottle, the consumer would remove the bottle cap in the conventional way, and depress the elongated shaft, tearing the first and second plugs away from their seals, creating an opening which allows the contents of the capsule to be dispensed immediately into the liquid in the bottle. As can be seen, the chemical activity life is not effected whatsoever since the consumer is ready to drink the materials in the bottle once mixed. The consumer is then able to pour the mixture from the bottle into a receptacle or may drink directly from the bottle while the plug mechanism stays within the bottle itself or is removed manually by the consumer. 
     Another embodiment discloses a capsule body which further includes at least a third plug situated and spaced horizontally between said first and second plugs, and further including a means connected to said third plug for disengaging the seal of said third plug and further including said third plug in a first mode sealed to said capsule body. The diameters of all said plugs are preferably equal in diameter, however, the diameters could vary based on the overall shape of said capsule. 
     Yet another embodiment discloses a capsule, impervious to liquid, for insertion within a prior art pull-up liquid dispenser cap, that contains liquid and/or dry material to be subsequently dispensed into a bottle. The pull-up dispenser cap contains a top opening with a nipple utilized for drinking and a bottom opening larger than the top opening and having a displaceable bottom sealing closure engaging said bottom opening in first position during storage phase which prevents any liquid or dry material from escaping from the capsule body. An elongated plunger located within said cap extends vertically downward and engages and displaces the bottom closure of said capsule body into a second position during utility phase allowing the contents within said capsule body to be dispensed into the bottle when desired. 
     Another embodiment discloses a capsule, for insertion into a bottleneck, that contains liquid and/or dry materials to be subsequently dispensed into a bottle which includes a first, second, and third plugs. The first plug fits inside said capsule top opening, said second plug fits inside said capsule bottom opening, said third plug is positioned between the first and second plugs and extends in a planar direction within and horizontally bifurcating said capsule body. The first, second and third plugs in a first mode are sealed to said capsule body preventing any liquid or dry materials from escaping from the capsule body. There is a means connected to said first plug and said second plug for disengaging the seal of said first plug and said second plug which allows the material therein to be dispensed from said capsule body into a bottle when desired. The means for such disengagement may be such as to pierce the second plug. The second closure can also be fitted onto or within said capsule bottom opening. The first closure may be circular and disk shaped and of smaller diameter and of greater thickness than the said second closure which may be membranous or circular and disc shaped. The first closure can snapably fit inside of and seal the top opening of the capsule. 
     In the preferred embodiment of the invention, the capsule containing a liquid or powder includes a hollow, rigid, preferably plastic cylinder, sized in diameter to fit within the neck of a conventional hand-held liquid container or bottle and including an upper annular lip that projects radially from its central axis. The purpose of the extended peripheral lip is to support the capsule across the top of the bottle neck opening so that the capsule does not fall into the bottle. A secondary purpose of the lip is that the lip includes a plurality of apertures which will allow the liquid in the bottle to be poured out of the neck of the bottle when the capsule has been activated. 
     The capsule also includes a second element in the form of a plunger that includes a cylinder closed at one end by an end face. Disposed within the plunger cylinder are two separated plunging elements that are semi-circular in cross section and tapered from two central plunger stems. The taper is a smooth contour on both plunger element sides so that on each plunger element there is a central rigid, elongated stem that forms the central rib of the actual plunging element itself. The plunger element walls taper from the stem on each side outwardly and curvedly. 
     The capsule includes at its base portion a sealed liquid-proof membrane, such as aluminum foil, plastic, or any other type of sealing membrane, that can be unsealed and opened by the activity of the plunger elements. The sealing member is adhesively connected to the base perimeter of the cylindrical housing. The liquid or powder to be dispensed is disposed within the capsule cylindrical housing and within the plunging element. The body of the plunger element has an outside diameter that allows the plunger element to fit snugly inside the container capsule cylindrical housing so that the plunger element can be moved manually relative to the outside housing by depressing the plunger element with the operator&#39;s thumb. The capsule base is covered with the sealing member so that whatever material, dry or liquid, contained therein cannot escape until the plunger is depressed, separating the sealing member from the capsule base perimeter, except at two critical points. The capsule also includes a top sealing member, such as aluminum foil, plastic, or the like, that is adhesively attached as a thin, liquid-proof member around the capsule top also so that material cannot escape. 
     The capsule is inserted in the neck of a bottle. At the time one desires to dispense the powder or liquid contained in the capsule, the cap of the bottle is removed and the top sealing member is physically removed by hand from around the lip of the upper capsule body. Once the upper sealing member has been removed, the user will then depress the plunging element downwardly, which causes the plunging element on both sides to engage the bottom seal and to slowly (against the periphery of each plunging element) separate most of the bottom sealing element from the capsule body along the base, allowing the capsule material to be dispensed into the bottle by gravity. Note that the sealing element continues to be attached to the base of the capsule at two points so that the sealing member does not fall into the liquid. Thus, the sealing element is actually opened in two halves along each side of the capsule base, but remains connected to the capsule base at two points at 180 degrees across from each other. 
     It is an object of this invention to provide an insertable capsule that includes active ingredients that can be readily dispensed into a liquid container 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 bottle at any time, the capsule being housed within the liquid containing bottle in a sealed condition. 
     Still another object of this invention is to provide for sanitary release of the desired ingredients from the capsule into a liquid-containing bottle at a time selected by the consumer, without pre-mixing. 
    
    
     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. 
     BRIEF DESCRIPTION OF THE DRAWING 
     FIG. 1 shows a side elevational cross-sectional view of one embodiment of the invention disposed within the neck of a conventional bottle as would be in use. 
     FIG. 2 shows a side elevational view of the first and second disk shaped plugs and the elongated shaft used to seal the capsule body in one embodiment of the present invention. 
     FIG. 3 shows a side elevation, cross sectional view of one embodiment of the capsule, shaft, bottle and plugs at the time of dispensing ingredients from capsule into liquid-containing bottle, including the sequential movement of the plugs and shaft. 
     FIG. 4 shows a side elevational view of the outer capsule body of the present invention. 
     FIG. 5 shows a side elevational cross-sectional view of the inner capsule body of the present invention without the first plug. 
     FIG. 6 shows a side elevational cross sectional view of the outside portion of the outer capsule body of the present invention. 
     FIG. 7 is a side elevational cross sectional view of an alternate embodiment of the present invention. 
     FIG. 8 is a side elevational cross sectional view of an alternate embodiment of the present invention. 
     FIG. 9 is an alternate embodiment of the present invention showing four compartments within the capsule. 
     FIG. 10 is a side elevational cross-sectional view disclosing vertically partitioned sections of an alternate embodiment of the present invention. 
     FIG. 11 is a side elevation perspective view showing horizontally partitioned sections of the capsule body of the embodiment of FIG.  1 . 
     FIG. 12 shows a side elevation cross sectional view of the preferred embodiment. 
     FIG. 13 shows an exploded side elevation cross sectional view of a snapable means for sealing the plug within the opening in the capsule body as circled “A” in. FIG.  12 . 
     FIG. 14 shows a side elevation cross sectional view of alternate embodiment of the capsule body molded as part of the prior art pull-up liquid dispenser cap with bottom sealing closure disengaged. 
     FIG. 15 is a side elevation view in cross-section of an alternate embodiment of the invention. 
     FIG. 16 is a side elevation of view partially cut away of the bottom portion of the alternate embodiment shown in FIG.  15 . 
     FIG. 17 is a side elevation view partially in cross-section of the alternate embodiment shown in FIG.  15 . 
     FIG. 18 is a top plan view of the alternate embodiment shown in FIG.  15 . 
     FIG. 19 shows an exploded view of an alternative embodiment of the invention that is the preferred embodiment of the invention. 
     FIG. 20 shows a bottom plan view of the plunging element used in the present invention. 
     FIG. 21 shows a side elevational view of the plunging element used in the present invention. 
     FIG. 22 shows a side elevational view rotated  90  degrees from the view shown in FIG. 21 of the plunging element used in the present invention. 
     FIG. 23 shows a bottom perspective view of the plunging element and capsule base sealing member. 
     FIG. 24 shows an exploded perspective view of yet another embodiment with vents to permit liquid flow through the capsule. 
    
    
     DETAILED DESCRIPTION OF THE INVENTION 
     Referring now to the drawings and in particular FIG. 1, the present invention is shown generally at  10  comprised of a first capsule body  12  that constitutes the outer body portion of the present invention which is preferably made of a liquid impervious material, preferably polyvinyl plastic. The outer capsule body  12  is cylindrically shaped and includes a tapered smaller cylindrical bottom opening and a top opening. The outer body  12  has an outside diameter that is typically sized to fit snuggly within the neck of a conventional plastic liquid containing bottle, as an example. 
     The upper diameter of the opening of the outer capsule body may include a flange chambered wall portion  26  as shown in FIG.  4 . The flange prevents the capsule from sliding into the inside of the bottle itself, and is slightly larger than the opening of the bottle. In some embodiments this could be in conjunction with a tapered or chambered portion of the bottleneck at the top opening that is pre-cut to receive a capsule lip around the upper portion of the outer body. 
     The inner capsule body  14  is cylindrically shaped and has a large bottom opening and a much smaller top opening that is also circular and tapered conical wall portion at its top edge terminating in a cylindrical opening as shown in FIG.  5 . The first body  12  is sealably attached to the second body  14  with the first body  12  having a groove portion that receives the open base of the second body  14  which can be sealed. The outside diameter of the second body fits snuggly and sealably against the inside diameter of the first capsule body  12 . This sealable fit can be accomplished by constructing the capsule bodies  12  and  14  of a softer, moldable material of rubber or synthetic rubber or by using a strong, space-filling water repellant, plastic adhesive. 
     The capsule may also consist of more than one section created by partitions  17  and  19  joined by shaft  15 , first plug  16  and second plug  18 , either vertically oriented or horizontally and stackably configured within the capsule so as to accommodate more than one ingredient to be added to the bottle just prior to consumption. FIGS. 9 and 10 reflect these partitioned alternate embodiments. These alternate embodiments can feasibly include 2 to 5 partitioned sections, maybe more, depending on the size of the capsule and bottle on which it is to be used. FIG. 9 discloses shaft  15  widened to the diameter of the capsule to create the longitudal partition to accommodate two ingredients. Although two, three, or four sections can easily be created, FIG. 9 depicts the shaft divided into two full capsule diameter longitudinal partitions at right angles to each other so as to create four quadrants in which liquid or dry ingredients can be factory filled and stored prior to mixing. Three quadrants can also be created in a similar manner by extending shaft  15  in a Y-shaped planar fashion to full diameter of said capsule. 
     A first disk-shaped plug  16  is sealably mounted within the top opening  30  inside the inner capsule body  14 . The seal can be of a pressure-type, snapable interlocking ring as shown in FIG. 13 or other means by which the plug attains airtight disposition against the capsule wall. The first plug includes a cylindrical walled body that is sized in height to correspond to the height of the opening in the upper end of inside capsule body  14 . The upper plug  16  has an axial elongated shaft  15  disposed and actually unitarily connected there with an extended portion  16   a  sized from the plug body approximately at or below the level of the bottle top opening itself extended with  16   a  shown of such a length. The entire shaft  15  terminates at its bottom and a second larger diameter disk shaped plug  18  that has its outside diameter sized to sealably fit within the bottom opening  32  of the outside capsule body  12  in the same manner as for the top opening plug. Again the height of the disk  18  is sized to correspond to the length of the opening walls cylindrically for a sealable fit with the outside capsule body  12 . As shown in FIG. 1, liquid and/or dry ingredients  28  would be sealably housed within the capsule inside body  14  and within the first and second plugs  16  and  18  in a sealable condition. The bottle itself  20  and bottleneck  22  cannot receive any of the ingredients housed in the capsule itself, because they are sealed. 
     The bottle  20  accommodates a liquid component  24 . A mixing of the dry or liquid contents  28  of capsule  12  with the liquid  24  is performed in bottle  20  so as to produce a ready to use solution, mixture, suspension or emulsion. To dispense the mixed contents  28  of capsule  12  the consumer would depress the elongated shaft  15  as shown in FIGS. 2 and 3 using extended portion  16   a , downwardly ripping away the seal formed by the first plug  16  and the second plug  18  causing the entire shaft and first and second plugs to fall within the container itself while at the same time dispensing the capsule contents  28  therein. The plugs and shaft unit within the container would aid in the physical mixing of the capsule ingredients  28  with the liquid  24  within the bottle  20  as shown in FIG.  3 . Note, when the diameter of the second plug  18  is larger than the diameter of the top opening of the inside capsule wall  14 , the shaft plug mechanism is prevented from being removed from the bottle itself during consumption and thereby prevents the consumer from accidentally receiving the first and second plug. The plug/shaft mechanism can be made of a floatable or lightweight material to avoid blocking the outflow of the fluid when the bottle is tipped in the drinking or pouring process. The capsule can be made of dark, opaque material to provide limited light (U.V. rays) access of the capsule contents to guard against deterioration from light. 
     In an alternate embodiment, shown in FIG. 7, the plug diameters could be reversed in that the lower plug  18  is of smaller diameter and the upper plug  16  is of larger diameter which would prevent the entire plug mechanism from being dispensed within the bottle and allowing it to be physically removed if desired by the consumer after the ingredients in the capsule have been dispensed and mixed. The physical presence of the entire plug mechanism within the liquid aids mixing on agitation. 
     Another embodiment would provide equal diameters of the lower plug  18  and the upper plug  16  as shown in FIG.  8 . 
     The upper opening of the outer capsule body  12  includes a lip  44  that engages the top edge of the bottle so that when a cap is screwed on the bottle it would seal and prevent the entire capsule from falling into the bottle without requiring modification of the bottleneck as shown in FIG.  6 . 
     In operation, the entire capsule  10  or each partitioned section created within capsule  12  would be filled with the desired dry or liquid ingredients to be dispensed and plugs  16  and  18  sealed at the factory. The capsule is then inserted into the neck  22  of bottle  20  containing a liquid  24  and a sealable cap is added to the bottle. The size and shape of the capsule can be modified to accommodate varying amounts of ingredients to be added to the bottle. The bottle with its liquid contents  24  and the capsule could sit for extended periods without ever being activated. When the consumer wishes to drink the contents of the bottle, he would remove the cap of the bottle and depress the elongated shaft using the extended portion  16   a , ripping away the seals of plug  16  and  18 , and emptying the capsule contents  28  into the bottle. The user can then drink the materials which have been mixed in the bottle. The entire bottle and capsule can be recycled or discarded as desired. 
     Another embodiment, FIG. 10, discloses for example, five representative (first through fifth) horizontal planar plugs  34 ,  36 ,  38 ,  40  and  42  creating at least 5 fillable sections of capsule, the diameter of all plugs being equivalent and sized so as to negate the tapering of the outside capsule body and extending the full diameter of the bottleneck  22 . The plugs are unsealed when extended portion  16   a  is depressed manually which releases the contents of all sections of the capsule  12  along with the plugs and shaft into the bottle. The size of capsule and bottle, thickness of plugs, and the number, type and quantity of contents selected will determine the number of horizontal plugs in the desired embodiment. Shaft  15  may be extended in a vertical planar fashion creating partitions  17  and/or  19  as shown in FIG.  9  and extending to the full diameter of the capsule longitudinally bifurcating said capsule into two fillable sections both with the presence of the horizontal plugs as shown in side cross section view in FIG. 10 or without said horizontal plugs as shown in top cross sectional view of FIG. 9, thereby creating only 4 fillable sections  21 ,  23 ,  25 , and  27  extending the full longitudinal length of said capsule from said first plug  16  to said second plug  18 . 
     FIG. 11, is an alternate embodiment similar to the first embodiment described in FIG. 1 wherein shaft  15  is cylindrical and elongated but not extended in a vertical planar fashion to the full diameter of the capsule. FIG. 11 additionally discloses two (but could contain one or more) unitarily molded horizontal planar extension plugs  70  and  72 , located between said first plug  16  and said second plug  18  and of sufficient thickness to provide water-tight compartments between said plugs  70  and  72 . This embodiment would provide three factory fillable compartments when two plugs  70  and  72 , are situated, four factory fillable compartments when three plugs are situated between plugs  16  and  18 , and so on. The number of additional plugs between plugs  16  and  18  is as in other embodiments primarily dependent upon the size of the capsule and bottle, plug thickness, and the number of different ingredients to be stored in said capsule  12 . 
     FIG. 12, the preferred embodiment of the present invention, comprises a capsule body  12  cylindrically shaped and with a top opening sealed by a disk shaped plug  68  in first mode as shown and bottom opening sealed by a membrane  48 , preferably heat welded, to the capsule body, however any means sufficient to create a water tight seal with the capsule can be used. There is a first end, extended portion  16   a  of the elongated shaft  15  and a second end  46 , shaped and sized so as to cut a sufficiently large opening when pushed into contact with and piercing membrane  48  to allow the entire contents to fall quickly into the container without obstruction or blockage. Manual downward pressure should be applied to the extended portion  16   a  sufficient to place the second end  46  into contact with and cutting the membrane  48  to allow the capsule contents  28  to fall into the liquid  24  within the container. The membrane  48  can be made of foil, coated paper, liquid resistant material, or polyvinyl sheet of easily tearable thickness. Shaft  15  in this embodiment should be of such length as to not pierce the membrane seal  48  during normal storage, or with movement during transportation by manufacturer or consumer, but also of sufficient length as to reach and also pierce the membrane  48  covering the bottom opening of capsule  60  when moderate manual pressure is applied to extended portion  16   a  which thereby disengages seal  58  at plug  68 . The disengagement of seal  58  at plug  68  and opening created by the piercing of membrane  48  will enable the subsequently mixed contents  28  of the capsule and liquid  24  in the bottle to flow back through to the consumer in the drinking process. The capsule can also be manually removed by consumer and discarded prior to drinking. An exploded cross sectional side elevation view of the interlocking ring sealing means of plug  68  is shown at FIG.  13 . The container  60  below plug  68  is connected to capsule  12  preferably by a heat sealing means, said container  60  being constructed from materials which are water resistant, light weight, durable and inexpensive such as polyvinyls, reinforced or coated papers, or metal and filled at the factory with the desired liquid and/or dry contents  28  to be added to the bottle  20  prior to use. 
     FIG. 14 is another alternate embodiment in which a prior art pull-up liquid dispenser cap shown generally at  50  is modified with the improvement comprising receptacle  62  being unitarily molded to or snapably attached under dispenser cap  50  and directly accessible to the nipple  64 . Receptacle  62 , is liquid impervious and constructed with an opening  66  located in the top portion of said receptacle adjacent nipple  64  of a size to accommodate an elongated plunger  54  with first end  52  extending above said top portion of receptacle  62  and shaft  54  extending vertically downward into direct contact with bottom sealing closure  56  of receptacle  62 . Bottom closure  56  can be constructed of durable liquid impervious material, such as polyvinyl or electromeric membrane which will disengage from one side of the receptacle while remaining hingeably or sealably attached at the opposite side of said receptacle thereby preventing closure  56  from descending into the liquid  24  in bottle  20  yet allowing sufficient area to enable the mixed liquid to flow back from bottle  20  to the consumer through second top opening  74  and nipple  64  in said cap  50  without blockage during normal drinking process. Plunger  54  is sized to fit snuggly and sealably to prevent the dry or liquid contents  28  from seeping out of opening  66 . Plunger  54  is vertically slideable with moderate manual pressure to first end  52  so as to disengage or unseal the bottom closure  56  of capsule  62  allowing contents  28  to fall into the liquid  24  in the bottle. 
     Referring now to FIG. 15, an alternate embodiment of the invention is shown which is comprised of a two-piece assembly making the construction easier and less costly. The outer body also includes a molded lower disk portion that seals the unit but has a wall portion that allows the plunger to force open the bottom of the container. A portion of the invention includes a conical insert having a diameter sized to only fit along the top opening of the outside housing. The unit includes the plunger  74  and sealed upper  76  or lower portions  78  which can be broken open by pushing down the plunger. 
     FIG. 16 shows how the bottom of the plunger is molded as one-piece with the bottom portion of the housing. The weakened wall portion will allow the bottom part of the plunger to rip away from and leave an opening so that the material can be dispensed as above. The operation of this invention is similar to the preferred embodiment but requires fewer pieces for construction. 
     FIG. 17 shows the entire housing mounted in the bottle cap of our bottle top opening with side view of cap screw threads  82 . The present invention includes slotted side walls  80  providing a space between the invention housing and the inside of the bottle wall. The space allows the fluid or liquid once mixed to be deployed out of the bottle cap neck without removing the capsule. 
     FIG. 18 shows the top plan view of slotted aide walls  80  through which fluid can pass from the bottle to the consumer without removing the capsule. 
     Referring now to FIGS. 19,  20 ,  21 , and  22 , the referred embodiment of the invention is shown. Capsule  100  includes a capsule body  102  which is basically a rigid, cylindrical chamber  104  which may be made of plastic that includes an annular lip  106  that has a larger diameter than the hollow cylinder  104 . Lip  106  engages the top of the bottle to keep the entire device from falling into the bottle. However, the outside diameter of the capsule  102  is sized to fit comfortably within the neck of a conventional liquid bottle, or it could be made for different sized bottles by changing the diameter so that the capsule fits snugly in the top of the bottle. A plurality of apertures  108  allow for passage of liquid from within the bottle once the cap has been removed, so that someone can consume the liquid in the bottle which passes through apertures  108  from inside the bottle to outside the bottle with the capsule in place. Alternatively, the capsule could be removed once the materials have been dispensed. The plunger  110  has a top cylindrical portion  112  with an outside diameter that fits snugly within the capsule body  104 . The plunger  110  also includes a pair of plunging elements  114  and a side elongated plunging brace or stem member  116  on each side and a space  130  on each side. 
     The device includes a thin liquid-proof liquid barrier  118  that is sealed around the base  104   a  of the capsule. Adhesive  118   b  deposited on the thin membrane which can be waterproof plastic or aluminum foil includes an adhesive  118   b  that allows it to fit and be sealed to the bottom edge  104   a  of the capsule housing  104 . A second sealing member  120  is provided for sealing the entire capsule across the top and fits with an adhesive exactly the size of the lip of the capsule. 
     Referring now to FIGS. 20,  21 ,  22 , and  23 , the plunger is shown having an upper body portion that is cylindrical  112 , the outside diameter of which fits within the capsule body  104  shown in FIG.  19 . The plunging elements  114  are curved and are semi-circular or semi-cylindrical in shape and are also tapered along the bottom in an upward direction along surface  114   a . As the plunging element is depressed, the surface area  114   a  contacts the lower sealing member  118  and pushes against the sealing member, separating it from the base of the capsule along surface  104   a  without tearing it. Thus, almost the entire sealing member  118  is separated from the bottom of capsule  104  along  104   a  surface area, except for two important areas. Areas  118   a  on the sealing member represent areas that remain fixed to the capsule base  104   a  and do not separate, so that the foil or plastic seal  118  does not fall into the liquid in the bottle. Because of the shape of the plunging elements  114  and the taper along the bottom  114   a  and space  130  on each side, the sealing member can be quickly and safely separated by pushing down on plunger  112  until a point is reached when almost the entire sealing member has been separated, allowing the contents, whether it be powder or liquid, to be dispersed into the bottle. At spaces  130 , the plunging member does not contact the sealing member, allowing areas  118   a  to remain attached to the capsule base. 
     FIG. 23 shows the plunging element  112  inverted, and the curvature of the plunging elements  114  can be seen along their surfaces that are tapered  114   a , which contact the sealing member. 
     Referring back to FIGS. 19 and 23, the space  130  on each side of the device insures that the plunging element  114  does not contact sealing member  118  at all 180 degrees from each other. The sealing member has an area  118   a  on both sides across from each other that remain sealed to the base surface  104   a  of the capsule body  104 . This means that the sealing member will not fall into the container. Thus, the areas designated  118   a  on sealing member  118  in FIG. 23 would not contact the plunging element surface  114  at all because of space  130  in the plunger on each side. Therefore, the sealing member is not severed or disconnected from the body of the capsule  104  when the plunger has been depressed so that the plunging element  116  starts the removal process of the seal from the capsule body. Rather than tearing it, the tapered portion then smoothly depresses more on the sealing element, causing it to spread apart from the body. 
     Referring now to FIG. 24, yet another embodiment of the invention is shown generally at  200  in an exploded view that includes the capsule body  203  having a lip  204  that prevents the capsule body  203 , which is sized to fit into the neck of a bottle, from falling into the bottle. Sealing members  201  and  205  are attached to and sealed at the top and bottom of the capsule. The plunger  202  fits within housing  203  and is depressed downwardly to effectively remove seal  205  to dispense liquid or powder that is in housing  203  and plunger  202 . Plunger  202  has a plurality of vents  206  disposed around its upper portion which allows liquid to pass therethrough. After the seal  201  is removed and the plunger is activated and seal  205  is removed, it is desirous to drink liquid from the bottle or container. Capsule body  203  includes a plurality of vents  207  disposed around its base. When the plunger  202  has been activated by depressing it downwardly, there will come a time when vent  206  in plunger  202  is aligned with vent  207  in capsule body  203 , which will then allow fluid to flow from inside the bottle through vent  207  through vent  206  out the bottle. 
     The instant invention has been described herein in what is considered 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.