Patent Publication Number: US-2023137829-A1

Title: Apparatus, system and method for mixing liquid in a beverage container

Description:
CROSS-REFERENCE TO RELATED APPLICATIONS 
     This application is related to U.S. application Ser. No. 17/459,734, filed Aug. 27, 2021. The contents of this application are hereby incorporated by reference in their entirety. 
    
    
     FIELD OF THE INVENTION 
     The present invention relates generally to an apparatus, system and process for mixing contents of a beverage container, and more particularly to system and method for mixing contents of a keg using an apparatus that connects to a conventional keg valve. 
     BACKGROUND 
     Bars, restaurants and other establishments that serve alcoholic beverages commonly have serving equipment that includes refrigerators, couplers, regulators, lines and taps for beer kegs. Often, a bar will offer a large selection of beers, each with its own line and customized tap. One of the most common configurations includes a Sankey-D coupler, which is a widely used coupling device in bars and restaurants for beer kegs. 
     Although this equipment has provided high efficiencies in serving beer, the same is not true for mixed drinks. Alcoholic beverage laws prohibit the sale of spirits in containers larger than 1.75 liters; hence there are no kegs or taps for mixed drinks. At the same time, the preparation of mixed drinks requires skill and experience to know the various constituents of the mixed drink, the relative quantities, and to consistently mix the drink in the right proportions, often in a crowded, busy environment. These factors result in significant losses, inefficiencies and decreased quality arising from inconsistent and inaccurate mixing by bartenders of different skill levels as well as the time it takes even a skilled bartender to combine all the constituents of the mixed drink. 
     In addition to the prohibition on selling spirits in containers larger than 1.75 liters, there is an additional challenge that has prevented the use of kegs to serve mixed drinks on tap. Kegs are generally filled with a keg filling device that uses an industrial, pressurized system to fill the keg. Conventional keg filling devices require large, high volume tanks and pressure to fill the keg through a coupling device such as a Sankey-D coupler. For example, an industrial filling equipment uses a filling Sankey with a larger internal opening to allow liquid to flow faster when filling than a normal Sankey used for dispensing. These conventional keg filling devices further typically take a large amount of space and fill the keg through a liquid dispensing tube of the coupler. Setting up such conventional keg filling devices requires large spaces and an investment in heavy equipment to install tanks. Further, the conventional keg filling devices cannot be transported without large trucks and cannot be used without large tanks and pressure. Hence, there is no easy way to fill kegs without the use of large, heavy, expensive equipment. 
     These and other drawbacks have greatly inhibited the efficient serving of mixed drinks at bars, restaurants and other establishments. 
     SUMMARY 
     According to an embodiment, an apparatus, system, and method is provided that enables bars, restaurants, and other establishments to serve mixed drinks and craft cocktails on draft using a standard beer keg system, such as a Sankey (or Sanke) keg and related Sankey coupler, lines, and taps. The Sankey keg may include the Sankey-D valve, for example, or other Sankey valves, such as Sankey S, A, G, U, or M type systems. Exemplary embodiments may use a Sankey-D valve as an example; however, this is meant to be non-limiting. 
     According to one example, a keg having a Sankey-D valve is partially filled with a non-alcoholic, liquid cocktail mix. The keg may be of any type, such as a rubber barrel, beveled barrel, half barrel, slim quarter, quarter barrel, Cornelius keg, and sixth barrel. It should be appreciated that the amount of liquid (e.g., mix and alcohol) will be adjusted based on the keg size. Since the mix is non-alcoholic, there is no prohibition on the use of a keg, such as a standard, 30-liter Sankey-D type keg. In one particular embodiment, a 30-liter keg is partially filled with 21 liters of liquid cocktail mix (e.g., margarita mix). The keg is then shipped to a bar, restaurant or other establishment that serves alcoholic drinks. A keg filling apparatus and a mixing apparatus, according to exemplary embodiments described herein, are provided to the bar, restaurant or other establishment. First, the bartender installs the keg-filling apparatus on the keg valve, degasses the keg, and pours alcohol into the keg via the keg-filling apparatus. The keg-filling apparatus allows the keg to be filled with the alcohol using only gravity, rather than a large, pressurized industrial filling system. Next, once the specified amounts and types of alcohol (e.g., 9 liters total of one or more spirits) have been poured into the keg and mixed with the cocktail mix, the keg filling apparatus is removed, the mixing apparatus is attached to the keg valve, and the contents in the keg are mixed as described herein. Once the mixing apparatus is removed, the keg is ready to be installed in the Sankey-D tap system, just like a beer keg. 
     According to another embodiment, the invention relates to a method for preparing mixed drinks. The method may comprise receiving a keg containing a non-alcoholic mix of liquids, wherein (a) the mix is designed to be converted to a mixed drink by addition of alcohol; (b) the quantity of the mix in the keg is predetermined to allow for the addition of a predetermined quantity of the alcohol into the keg to complete the mixed drink; and (c) the keg comprises a valve, e.g., a Sankey-D valve, designed to be connected to a coupler through which the mixed drink is dispensed. The method may also comprise using an apparatus to pour the alcohol into the keg. Lastly, the method may comprise mixing the mix with the alcohol (i.e., the keg contents) using the mixing apparatus of exemplary embodiments to complete the mixed drink in the keg; connecting the keg to a coupler; and dispensing the mixed drink through a tap connected to the coupler. 
     Exemplary embodiments of the invention can provide a solution that significantly reduces the time needed to make the most popular craft cocktails and mixed drinks, which, in turn, increases the number of craft cocktails and mixed drinks sold by the bar, restaurant, or other establishment. For alcoholic beverage distributors, increased throughput at bars, restaurants and other establishments results in an increase in the quantity of spirits sold. Furthermore, embodiments of the invention allow bars and restaurants that own standardized beer keg systems, such as the widely-used Sankey-D keg system, to use their existing equipment to serve craft cocktails and mixed-drinks on draft. These and other advantages will be described further in the detailed description below. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
       In order to facilitate a fuller understanding of the present invention, reference is now made to the attached drawings. The drawings should not be construed as limiting the present invention, but are intended only to illustrate different aspects and embodiments of the invention. 
         FIG.  1    illustrates a top view of a keg according to an exemplary embodiment. 
         FIG.  2    is a flow chart for an example process of providing a keg partially filled with a non-alcoholic, liquid premix, according to an embodiment. 
         FIG.  3    is a flow chart for an example process of using an apparatus for mixing the contents of a keg containing a liquid drink mix, according to exemplary embodiments. 
         FIG.  4 A  illustrates a top perspective view of a mixing apparatus, according to an exemplary embodiment. 
         FIG.  4 B  illustrates a top view of the mixing apparatus, according to an exemplary embodiment. 
         FIG.  4 C  illustrates a bottom view of the mixing apparatus, according to an exemplary embodiment. 
         FIG.  4 D  illustrates a bottom perspective view of the mixing apparatus, according to an exemplary embodiment. 
         FIG.  4 E  depicts a side view of the mixing apparatus, according to an exemplary embodiment. 
         FIG.  4 F  depicts a cross-section view of the mixing apparatus along the line A-A of  FIG.  4 E , according to an exemplary embodiment. 
     
    
    
     DETAILED DESCRIPTION 
     Exemplary embodiments of the invention will now be described in order to illustrate various features of the invention. The embodiments described herein are not intended to be limiting as to the scope of the invention, but rather are intended to provide examples of the components, use, and operation of the invention. 
     Various embodiments of the invention relate to an apparatus for a container, such as a keg, for mixing liquid contained in the keg. The apparatus may be configured to be a hand-held device designed to apply gas pressure into the keg to mix the contents of the keg. According to exemplary embodiments, the contents of the keg may be a liquid mix of alcohol and non-alcoholic pre-mix. Various embodiments of the invention can overcome the disadvantages described above. 
     The keg may be designed to have a keg bung in which a valve (e.g., a valve having a ball valve (sometimes referred to as a beer valve) and a ring valve (sometimes referred to as a venting or CO2 valve)) is received. The keg bung may be externally threaded around its exterior circumference. The keg bung may located at the center portion on the upper surface of the keg. This valve may be referred to a Sankey-D valve. The valve may be secured to the keg by the threads surrounding the keg bung to allow for removal. The valve may include a tube that is integrally attached thereto. The tube may be referred to as a spear. The valve and spear may be removable as single piece on metal kegs. In some embodiments, the valve may be manufactured with the keg and be integral to the keg. For example, the valve (and spear) may be integral to PET kegs in a conventional arrangement. 
     The spear is designed to extend into the keg to allow for liquid flow in or out of the keg. For example, when liquid is added to the keg through the ball valve (e.g., beer valve), the liquid is directed downward through this tube and flows into the keg at the lower portion into the liquid volume in the keg, causing the liquid level in the keg to rise, which in turn displaces gas located above the liquid level. This gas may then exhaust through the venting valve (when it is open) and be directed out to the atmosphere outside of the keg volume. In a typical use of a keg, when liquid is being dispensed from the keg, the venting valve (e.g., CO2 valve) is opened to add pressure to the top of the liquid in the keg, so when the tap is opened at the bar, liquid can flow through the ball valve (also known as a beer valve) out of the keg. 
       FIG.  1    illustrates a top view of an example keg  101 , according to an embodiment of the invention. The keg  101  shown in  FIG.  1    may be a conventional steel keg or a one-time use plastic keg. In various embodiments, the key may be of any type and may be made of any material, such as a recyclable material, plastic, metal. The keg may be clear or opaque. As shown in  FIG.  1   , a keg bung assembly  102  is coupled to the top of the keg  101 . The keg bung assembly  102  may be removably coupled to the keg  101  or may be integrated to the keg  101  (e.g., by molding, melding, or soldering). The keg bung assembly  102  may comprise a keg valve  103  (e.g., internally, the keg valve may have a ball valve and venting valve with a tube attached, i.e., a keg spear). In some embodiments, a tube may not be attached. When the apparatus disclosed herein is coupled to the keg  101  via the bung assembly  102 , the keg valve  103  (ball or beer valve and ring or venting valve) can be pressed open (i.e., actuated) to allow for adding gas into the keg  101  through the ball valve to mix the contents of the keg while venting gas out of the keg  101  through the ring valve, as described herein. 
     The apparatus according to exemplary embodiments disclosed herein can be used to mix the contents of a keg using gas. The gas may be carbon dioxide, nitrogen, or other gas. The same gas used to pressurize a tap line system may be used. 
     According to exemplary embodiments, the keg may be initially be filled with a liquid pre-mix. In exemplary embodiments, the liquid pre-mix may be non-alcoholic. Liquid (e.g., alcoholic spirits) may be added to the keg using a filling device, which may be referred to as a keg spiker; by way of non-limiting example, the filing device may be one of the embodiments described in U.S. application Ser. No. 17/459,734, although other embodiments of filling devices may be used. The result liquid mix in the keg may be a cocktail or mixed drink. In order to ensure uniformity and consistency of the resulting liquid mix, prior to dispensing the keg contents to customers, the apparatus may be used to mix the liquid mix in the keg through adding gas, under pressure, through the ball valve of the keg. Excess gas may be vented through the ring valve of the keg. By adding the gas through the ball valve, the gas is directed downward through the keg spear and into the lower liquid volume of the keg. This causes turbulence in the liquid as the gas exits the spear and rises up through the liquid volume of the keg going from the bottom volume to the upper volume. 
       FIG.  2    illustrates a flow chart for an example process  200  for providing a keg partially filled with a non-alcoholic, liquid premix, according to one embodiment of the invention. The process  200  may be performed, for example, by a user such as a provider or manufacturer of non-alcoholic, liquid pre-mixes for making mixed drinks. The process  200  may include the following steps. 
     In step  202 , a keg is provided. The keg may be any suitable keg, such as a keg with a standard valve that connects to a standard coupler, such as the Sankey A, D, G, M, S, or U type systems. The keg may be a one-time use keg. In an exemplary embodiment, the keg includes a Sankey-D valve which is compatible with the Sankey-D coupler that is widely used in bars, restaurants, and other establishment and venues for serving beer on draft. The keg may include a keg bung in a top portion of the keg. The keg bung may be provided with a valve located therein. The valve may have multiple parts including a ball-valve, for example, for allowing liquid to flow out of the keg but not into the keg and a venting valve (e.g., gas or CO2 valve) that allows flowing gas into to the keg to pressurize liquid out of the keg when the keg is in regular use. The venting valve may be a ring valve that surrounds the ball valve structure. For example, in normal use of the keg, when being dispensed, the venting valve (e.g., CO2 valve) is opened to add pressure to the top of the liquid in the keg, so when the tap is opened at the bar, liquid can flow through the ball valve (also known as a beer valve) out of the keg. The venting valve can also be used to release gas from the keg when adding liquid to the keg, such as, for example, in exemplary embodiments. The Sankey-D coupler, once attached to the keg, can serve two functions: 1) it opens both the venting valve and the ball or beer valve simultaneously so that pressure can be added to the top of inside of the keg, and 2) the liquid can be released from the keg through the ball valve once the tap is opened on the bar, in a restaurant, and/or at other event venues. 
     In step  204 , a liquid pre-mix is provided. The liquid pre-mix may be any desired non-alcoholic pre-mix, including but not limited to, a liquid premix for margaritas, mojitos, mules, Paloma, Tonic, Lemonade, Cola, Seltzer, and/or Sodas. The liquid pre-mix may also comprise a single product such as Coca Cola for a rum and Coke mixed drink, or tonic water for a gin and tonic drink. 
     In step  206 , the liquid pre-mix is filled into the keg to a first desired portion of a capacity of the keg. The liquid pre-mix may be filled into the keg in any manner using any suitable devices or systems as known in the art. The first desired portion of the capacity may be about two thirds of the capacity of the keg according to one embodiment. For example, if the capacity of the keg is about 30 liters, the first desired portion of the capacity may be about 21 liters. Other mix ratios are possible. For example, there are 12.5 liter, 19 liter, and 10 liter kegs. The mix ratio would change therefore based on the keg capacity. 
     In step  208 , a filling apparatus and a mixing apparatus, according to exemplary embodiments described herein, are provided with the keg to engage the keg. In various embodiments, the filling apparatus and mixing apparatus described herein may be provided to an end user with the keg. The filling apparatus may be referred to as a keg spiker. The filling apparatus may be an embodiment described in U.S. application Ser. No. 17/459,734, for example. The filling apparatus may be engaged with the keg to add spirits to the keg at a location of an end user, when the user is ready. The mixing apparatus according to exemplary embodiments may be used following the filling of the keg with spirits, also at the location of the end user. 
     In step  210 , instructions for using the filling apparatus for dispensing the liquid (e.g., alcohol) into the keg and using the mixing apparatus described herein are provided to an end user. The instructions may describe how the alcoholic liquid is mixed with the non-alcoholic pre-mix inside the keg to form a mixed drink of choice. This step may be optional. 
       FIG.  3    illustrates an example of a method of using the apparatus to mix the liquid in a keg. The method  300  may include the following steps. 
     In step  302 , the mixing apparatus is aligned with the keg bung disposed in the top portion of the keg. For example, by grasping and manipulating the mixing apparatus, the bottom terminal of the mixing apparatus is in a position ready for fitting into the keg bung to engage the keg valve. 
     In step  304 , the mixing apparatus is engaged with the keg bung by twisting the mixing apparatus clockwise, according to one embodiment, so as to be able to simultaneously depress and open at least a portion of the keg bung valve (e.g., the ball valve and/or the ring valve) received in the keg bung and lock the mixing apparatus into place to the keg bung. Securing the mixing apparatus onto the keg bung can be achieved with the locking ring or coupling ring and the keg locking slots or teeth that engage with the ring on the device. Locking securely is required to create a tight non-leaking seal to the keg. According to exemplary embodiments, a deflector on the mixing apparatus may prevent liquid from escaping the device and impacting a user. This may allow for degassing of the keg to relieve pressure on the liquid in the keg and prevent the liquid from exiting out of the keg and through the apparatus. The deflector may direct the escaping gas and/or liquid downward, away from the user, onto the top of the keg. The gas vented may be a nitrogen gas, a carbon dioxide gas, an air gas, or combinations thereof. Further, any liquid venting up through the ball valve portion into the mixing apparatus will rise through the internal portion of the mixing apparatus and into the fitting and/or tubing. In other words, there is no external path for the liquid to impact the user (provided, the mixing apparatus is coupled to tubing prior to engagement with the keg valve; the tubing may be coupled to a gas source or may be merely coupled to the mixing apparatus fitting). 
     In step  306 , the mixing apparatus is attached to a gas source. With the mixing apparatus engaged, a gas source may be connected. A tube or pipe may be used to couple the apparatus to a gas source. The gas source may be carbon dioxide gas, nitrogen gas, an air gas, or combination thereof. The gas source may be that used for pressurization of a tap system. Once connected to the gas source, the gas at the source may be actuated or turned on to allow for gas flow from the source to the mixing apparatus. 
     In step  308 , the gas enters the keg through the mixing apparatus. The gas is directed through the mixing apparatus into the keg bung valve, specifically the ball valve. The gas is directed then downward though the keg spear (if present) and exits the spear into the liquid volume of the keg. The gas may then rise through the liquid volume to the surface of the liquid. The gas may exit the liquid surface and enter a volume above the liquid surface in the keg. Excess pressure caused by the gas addition may be relieve through the ring valve and exit the mixing apparatus through the venting portion. A certain volume of gas may remain in the liquid. 
     If no spear is present, the gas will enter the liquid directly at an upper volume of the keg. 
     The gas, which is under pressure, may cause turbulence in the liquid volume creating a mixing effect. The gas may be applied for 5-6 seconds according to exemplary embodiments. In some embodiments, a longer or shorter period of time may be used. A consideration in applying the gas is the amount of gas that may remain in the liquid, causing a carbonation effect. This may be desired in some drink mixes and not desired in others. 
     In step  310 , the gas flow is turned off or secured and the mixing apparatus is disengaged from the keg. The mixing apparatus may be removed by rotating it in a counter-clockwise direction to disengage it from the locking threads of the keg bung, according to an exemplary embodiment. That is, the reverse operation of step  304  may be performed. 
     In some embodiments, the method  300  may include engaging the keg spear or valve assembly with a standard dispensing apparatus to dispense the drink from the keg. For example, in a bar, the keg may be set up with a standard Sankey coupler to dispense the mixed drink to customers, that is, to provide a mixed drink on draft through a standard Sankey coupler and tap, which are widely used for serving beer in bars, restaurants and other establishments. 
       FIGS.  4 A,  4 B,  4 C,  4 D,  4 E, and  4 F  (collectively referred to as  FIG.  4   ) show a device  400  according to exemplary embodiments. The device may be used to mix the contents of a keg using gas. The device may be the mixing apparatus described in the methods of  FIGS.  2  and  3   , above. 
     The device  400  may have an upper portion  402  and a lower portion  404 . The upper portion  402  may have wall portion or cover  403  having an opening  406 . Located at a lower portion of the upper portion  402  within the opening  406  may be a fitting or nipple  408 . The fitting  408  may be configured to allow for tubing or piping to fit over it, creating a gas tight seal. In some embodiments, the exterior of the upper portion may be constructed differently and may lack the cylindrical wall portion or cover  403 . That is, the fitting  408  may be exposed. The lower portion  406  may have a coupling ring  410 , a probe assembly  412 , and a flange  414 . 
     The device  400  may be made of metal, plastic, polymer, wood or any other semi-rigid or rigid material which is machinable, moldable, castable or formable with physical properties such that it is rigid and able to maintain its shape and be of sufficient strength and stiffness so as to allow it to functionally perform in the manner described herein. The device  400  may be made of a combination of different materials. For example, the fitting  408  may be metal and the remainder of the device  400  may be plastic or polymer. 
     The coupling ring  410  may be configured to engage with the keg valve structure. The coupling ring  410  may be engaged by positioning it onto the keg, pushed down, and twisting until the coupling ring  410  fully engaged in order to lock the device  400  in place and create a seal with the keg valve. The flange  414  may provide a cover for the engagement portion with the keg valve. The coupling ring  410  may have two cut-outs  422  that are configured to engage with two teeth located on the valve structure of the keg. This locks the device  400  into place. After the teeth are positioned into each cut-out  422 , a ramped portion may allow for locking engagement of the coupling ring  410  with the keg valve structure when twisted or turned into place. 
     The probe assembly or probe  412  may include a portion  416  to engage with and depress the ball valve on the keg. The portion  416  may consist of two hemispherical structures as shown that surround outlet  420 . The outlet  420  may by the terminus of a pathway that extends upward from to the lower extremity the device to the top of the fitting  408 , creating a flow path from fitting  408  to the bottom of the device  400 . Ridged portion  418  may engage with and depress the ring valve on the keg. Passageways or cut-outs  424  may provide a pathway for gas venting from the keg during use of the device  400 . As can be seen, there may be multiple pathways  424 , allowing for multiple gas venting pathways, to increase venting from the keg. The flange portion  414  may direct any gas venting downward onto the upper surface of the keg, away from any user of the device. Further, as the device is engaged onto the keg valve, the ball valve may be engaged first (i.e., prior to the engagement of the ring valve). In doing so, liquid may exit the keg valve as it is opened (since the liquid in the keg may be under pressure). This liquid may spray or stream out at the keg valve area around the probe  412  prior to the device being fully engaged with the keg valve such that the ball valve is fully open. The flange portion  414  may prevent this liquid from spraying upward and/or outward and impacting a user of the device. Instead, any liquid spray may be directed downward by the flange onto the keg upper surface, from which it may run-off or be soaked up by an appropriate absorbent material by a user. In addition, there may be liquid mixed with the gas in the gas venting pathways and this flange may perform the same function in directing such liquid downward onto the keg. Some embodiments may lack the flange portion  414 . 
       FIG.  4 F  depicts the internal structure of the device  400 . As can be seen, the pathway extends from  420  through the upper portion of fitting  408 . The fitting  408  may be screwed into or otherwise secured and mated with the lower portion  404  at  426 . The fitting  408  may have ridges, raised edges, or barbs to promote a secure seal with tubing or piping placed onto the fitting  408 . 
     When the device  400  is engaged with the keg, according to exemplary embodiments, the probe assembly  412  may engage with the keg valve structure, as described herein. The probe assembly may depress the ball valve and the ring valve of the keg valve, creating pathways for gas into and out of the keg. According to exemplary embodiments, a gas pathway into the keg is through the ball valve and a gas pathway out of the keg is through the ring valve. Because the keg contents are liquid and may be under pressure, the liquid may vent through the ball valve portion and up into the device  400  when the device is engaged initially; the flange  414  may deflect this spray. Simultaneously to any liquid venting, gas in the keg may vent through the keg ring valve and through the probe assembly  412  structure (i.e., pathways  424 ), lowering the pressure in the keg. Once the device  400  is engaged and initial pressure is relieve, gas may be admitted to the keg through coupling a tube or piping to the fitting  408  and actuating gas flow. The gas may flow through the fitting  408  and exit the device  400  at opening  420  into the keg. Excess gas pressure in the keg may be relieved through the ring valve and the probe assembly structure (i.e., pathways  424 ). Once the gas has been admitted to the keg in the desired amount or for the desired amount of time to promote mixing of the keg contents, gas flow may be shut off, and the device  400  removed from the keg. 
     Various embodiments of the invention provide a number of advantages. For example, the apparatus is easy to use, requiring little training and no other equipment or device. One person is able to use the apparatus effectively and easily, e.g., attach it to a keg and apply gas into the keg to mix the contents. It is small enough to be transported easily and stored in a small space. It requires very little expertise to use effectively. For example, the apparatus can be easily used by a bartender or restaurant worker to mix the contents of a keg after adding alcohol to the keg (which contained a non-alcoholic pre-mix) to create the desired cocktail or mixed drink enabling a bar or restaurant to efficiently make and serve mixed drinks of consistently high quality on draft using standard, widely deployed coupling and serving equipment, such as the Sankey-D coupler and taps. 
     Although embodiments of the present invention have been described herein in the context of a particular implementation in a particular environment for a particular purpose, those skilled in the art will recognize that its usefulness is not limited thereto and that the embodiments of the present invention can be beneficially implemented in other related environments for similar purposes. The invention should therefore not be limited by the above described embodiments, method, and examples, but by all embodiments within the scope and spirit of the invention as claimed. 
     Although some embodiments of the invention are illustrated and described herein as embodied in a hand-held pressure release and gas directing apparatus, it is not intended to be limited to the details shown because various modifications and structural changes may be made therein without departing from the spirit of the invention and within the scope and range of equivalents of the attributes described. Additionally, well-known elements of exemplary embodiments of the invention are not described in detail or omitted so as not to obscure the relevant details of the invention. 
     Further, it is to be understood that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting. The terms “a” or “an” as used herein, are defined as one or more than one. The term “plurality” as used herein, is defined as two or more than two. The term “another” as used herein, is defined as at least a second or more. The terms “including” and/or “having,” as used herein, are defined as comprising (i.e., open language). The term “coupled,” as used herein, is defined as connected, although not necessarily directly, and not necessarily mechanically. The term “providing” is defined herein in its broadest sense, e.g., bringing/coming into physical existence, making available, and/or supplying to someone or something, in whole or in multiple parts at once or over a period of time. Also, for purposes of description herein, the terms “upper,” “lower,” “left,” “rear,” “right,” “front,” “vertical,” “horizontal,” and derivatives thereof relate to the invention as oriented in the figures and is not to be construed as limiting any feature to be a particular orientation, as said orientation may be changed based on the user&#39;s perspective of the device. The term “funnel axis” should be understood to mean in a direction corresponding to the funnel channel. 
     In the invention, various embodiments have been described with references to the accompanying drawings. It may, however, be evident that various modifications and changes may be made thereto, and additional embodiments may be implemented, without departing from the broader scope of the invention as set forth in the claims that follow. The invention and drawings are accordingly to be regarded in an illustrative rather than restrictive sense. 
     The invention is not to be limited in terms of the particular embodiments described herein, which are intended as illustrations of various aspects. Many modifications and variations can be made without departing from its spirit and scope. Functionally equivalent systems, processes and apparatuses within the scope of the invention, in addition to those enumerated herein, may be apparent from the representative descriptions herein. Such modifications and variations are intended to fall within the scope of the appended claims. The invention is to be limited only by the terms of the appended claims, along with the full scope of equivalents to which such representative claims are entitled.