This invention relates generally to a beverage dispensing system such as a beer faucet for dispensing draught beer, and, more particularly, to a beverage dispensing system including apparatus configured and operable for automatically reducing the foaming of the beverage as it is dispensed, while allowing a user to control flow rate of the beverage.
Beverage dispensing systems, particularly faucets for the pouring of draught beer or other naturally and/or artificially pressurized beverages, are well known. Typical pressurized beverages such as draught beer, contain a pressurizing medium, which is commonly a gas such as carbon dioxide. This pressurization medium can be naturally occurring, for instance, as a result of a fermentation process, and/or it can be added to the beverage, when made, and/or while in a container or flow line from which it is to be dispensed. Common pressurization levels are between about 10 and about 20 psi.
Typical known faucet constructions comprise a housing or body defining a flow path for the beer or other beverage from a pressurized flow line or container, to a dispensing outlet such as a spout or nozzle. The flow of the beverage is controllable by a hand actuator in connection with a valve assembly, typically having valve barrel or head disposed within the housing along the flow path and including an annular valve surface or gasket, e.g., of a rubbery material, that can be brought to bear against a mating annular valve seat also within the housing and disposed about a portion of the flow path, for creating a sealed condition which will prevent flow of the beverage and maintain the pressurization. In a known construction referred to commonly as an American style faucet, the valve head is disposed in the flow path so as to be at least largely immersed in the beverage in a manner such that the pressurization of the liquid urges the valve head against the valve seat for maintaining the sealed condition, either alone, or in combination with an external force, e.g., exerted by the lever when in its closed position. In this construction, the valve assembly includes a valve stem that extends through a portion of the flow path between the valve seat and a dispensing outlet, to connect the valve head to a lever, handle, or other hand actuator. Most familiar is an upstanding lever disposed above the spout and pivotable relative thereto through a limited range of movement for closing and opening the faucet by moving the valve head via the valve stem, into and out of sealed engagement with the valve seat.
In the known American beer faucet configuration, the faucet housing is oriented about horizontal, with the valve stem also extending horizontally through a portion of the flow path, and the flow path curving down to the spout or nozzle. The valve head will be supported on or comprise one end of the valve stem, which will also be horizontal, and supported for longitudinal horizontal movement along the portion of the flow path within the housing. The lower end of the upstanding lever, handle, etc., will include some kind of connection, such as a ball and socket or fork type pivotal connection, to a second end of the valve stem within the housing, so as to be pivotable for moving the valve stem, and the valve head, longitudinally and horizontally relative to the valve seat.
Essentially, during operation of the known faucets, the actuator, e.g., lever, valve stem, and valve head, are in force transmitting contact, such that forces exerted by the operator through the actuator, e.g., lever, handle, etc., to the valve stem are exerted substantially directly and instantaneously against the valve head, for urging and pushing it in opposition to the pressurization in the beverage line or container, away from the valve seat, at a speed generally governed by the speed of movement of the lever.
Generally, the above described faucet operates well for dispensing carbonated beverages such as beer when used by an experienced operator such as a professional or experienced bartender, but a shortcoming observed to arise, particularly when operated by less experienced persons, is a tendency for the dispensed beer to often contain more than a desired amount of foam. Through observation and investigation, it has been found that one significant source of excessive foaming is opening the faucet too slowly. Apparently, if a faucet is slowly opened, gas, in the form of carbon dioxide naturally occurring in and/or added to beverages such as draught beer, can be released through the valve at a larger than desirable rate, and results in break up of the liquid and excessive foaming condition in the dispensed beverage. This shortcoming can be alleviated in many instances by rapidly manually opening the faucet, but non-professional operators don't typically know this, and, as a result, dispensing is more time consuming, much beer is lost, and customer satisfaction is reduced.
What is sought therefore, is a manner of, and/or apparatus for, dispensing carbonated beverages via a faucet of a dispensing system, particularly, draught beer, and for use by non-professionals, which overcomes the shortcoming set forth above, yet which allows easily controlling flow rate of the dispensed beverage.
What is disclosed is a beverage dispensing system including apparatus for dispensing carbonated beverages, for example, but not limited to, draught beer, via a faucet or other dispenser, which overcomes the shortcomings set forth above, to provide a consistent, rapid initial opening of the faucet or other dispenser, hereinafter sometimes referred to collectively by the term “faucet” alone, resulting in less foam and improved satisfaction, even when operated by inexperienced or inattentive users.
According to a preferred aspect of the invention, the invention resides in configuring a faucet such that the valve assembly will open sufficiently rapidly, irrespective of the speed of manual movement of the actuator, e.g., lever, handle, or the like, so as to suppress escape of the pressurizing medium, e.g., natural and/or added gas such as carbon dioxide, to an extent sufficient to substantially reduce break up and foaming of the dispensed beverage, while still enabling controlling the rate of dispensing the beverage, and the ability to add a desired foam head to the dispensed beverage.
According to another preferred aspect, the invention utilizes a biasing element disposed in connection with the valve assembly and/or lever of a faucet of existing or new design, which biasing element is configured and automatically operable for resiliently absorbing or storing all or a portion of the energy generated by, and the displacement of, an initial or partial displacement or movement of the lever, handle, or other actuator in a direction for opening the valve, such that any forces that are exerted by the initial or partial movement against the valve head will be marginally inadequate to overcome the opposing force exerted by the pressurization of the beverage holding the valve head in the closed position. As a result, there will be no flow of the beverage through the valve during this initial phase.
After the initial phase, a second or rapid open phase will be automatically initiated by occurrence of a predetermined condition or event, which preferably will comprise continued movement of the lever, handle, or other actuator in the direction for opening the valve, in a manner so as to break the seal between the valve head and the valve seat. When the seal is broken, it is believed that the pressurization in the immediate vicinity of the valve head urging it closed is immediately largely or drastically reduced, and/or pressure conditions acting to open the valve head will immediately appear as a result of flow or seepage of the liquid and/or pressurization medium, e.g., carbon dioxide, between the valve head and the valve seat, so as to begin to counteract and even possibly exceed the pressure urging the valve head closed. As a result, application of a small external or additional force against the valve head in a rapid and direct manner, such as is possible through the release of the stored energy of the biasing element, has been found to be adequate to rapidly open the valve head. The condition or event to break the seal and trigger the second phase preferably comprises application of a force against the valve head in the open direction sufficient to open it, that is, sufficient to overcome the force resulting from the liquid pressure urging the valve head in the close direction.
According to another preferred aspect of the invention, the biasing element is configured and disposed to store the energy during the initial phase until the occurrence of the predetermined condition or event, and when the condition or event occurs (reducing net forces acting to close the valve head) to rapidly release the energy as a force directed against the valve head in a manner for rapidly moving or driving it to the fully open or nearly fully open position, independent of the actual speed of movement of the lever or other actuator. It has been found that, as a result of the reduction in, or counterbalancing of, the force of the fluid pressurization acting to close the valve, the movement of the valve head to the fully open or nearly fully open position can be achieved rapidly with application of only a relatively small force against the valve head in the opening direction. This is advantageous, as it also means that the amount of energy required to be stored for generating or adding to the opening force can be relatively small, and can in turn be generated by release of the stored energy. Also, this opening force can be increased or enhanced by further movement of the lever or other actuator in the opening direction. Similarly, the actuator movement for triggering the second or rapid open phase can be relatively easy and small, such that the operation of the invention can be effected with a fast, slow, continuous, interrupted, and/or uneven, actuator movements, with essentially equal superior results, namely, the ability to dispense a beverage with little or no break up and foaming.
According to another preferred aspect of the invention, the biasing element of the invention can comprise one or more mechanical springs, such as a compressions spring, tension spring, leaf spring, clock spring, torsion spring, and a spring bellows, having a capability for storing the required energy, and for rapidly releasing it in the form of a force acting against the valve head. The spring can be of metallic construction, a resilient polymer or polymers, or of a composite material. Alternatively, or additionally, the biasing element can comprise a fluid system, such as, but not limited to, a compressible gas piston system, and/or a system utilizing repelling magnets for generating the opening force. As representative, but non-limiting, values for a biasing element, a spring compressible to store a force of between about 1.5 and 2.0 pounds with 0.15 to 0.20 inches of compressive displacement, can be used to achieve a substantially reduced foaming condition when incorporated into a standard American beer faucet.
According to another preferred aspect of the invention, the biasing element can be incorporated into any of the elements of the valve assembly, including in or about the valve head; the valve stem; and the lever or other actuator.
As another preferred aspect of the invention, the biasing element can be configured and operable such that once open, the faucet is controllable to allow regulating the rate of beverage flow, and for allowing creation of a desired head of foam on the dispensed beverage.
As another feature of the invention, the biasing element or elements can be incorporated into a standard faucet, such as an American beer faucet, without outward changes to the appearance, such that the only noticeable difference between the faucet of the invention and an original faucet is the improved operation, that is, reduced beverage foaming regardless of the operator or manner of operation. The invention can also be incorporated into an existing faucet simply and inexpensively. In summary, using the present invention, experienced and inexperienced users with no instruction or training in operating the faucet can obtain similar, consistent low foaming pours for more productivity, less waste, and better customer satisfaction.
Referring now to the drawings, several embodiments of apparatus for controlling foaming and flow rate in a beverage dispensing system 18, e.g., for dispensing draught beer, are shown, like parts being identified by like numerals.
Referring to
An actuator, which here is a conventional handle or lever 54, has a lower end 38 disposed in an opening of housing 22 and includes a ball 40 which is cooperatively received in a socket 42 in second end 36 of the valve stem 50. Lever 54 is pivotable about ball 40 as illustrated by arrow B for moving valve stem 32 longitudinally within housing 22 as denoted by arrow A, for moving valve head 51 between the open and closed positions, all in the well known manner. Faucet 20 configured as shown suffers from the shortcoming discussed above, namely, dispensing beer containing undesirable levels of foaming, when the faucet is not opened rapidly.
Referring also to
Faucet 20 of
When valve head 51 is in its closed position in sealed relation to seat 53, and lever 54 is in its closed position, a gap G (
Referring also to
As a non-limiting example, for a conventional beverage system, as represented by system 18, containing beer 28 normally pressurized to between about 5 psi and 25 psi, and using a standard American faucet 20, it has been found that a spring 47 configured to be compressible about 0.15 to 0.18 inch by application of a force of between about 1.5 pounds and 2.0 pounds, works well to store sufficient energy during the initial energy storing phase, for exerting the desired force against valve head 51 for rapidly moving it to its fully open position, or nearly the fully open position, during the rapid open phase, yet which will be just marginally insufficient by itself, for unseating valve head 51 from the valve seat.
To facilitate the above operability, namely the compression or loading of spring 47, valve member 48 and valve stem 50 are is configured and cooperable such that the initial gap G will allow about 0.15 to 0.18 inch of relative movement of valve member 48 and stem 50 in direction A, as guided by pin 49, which closes the gap between member 48 and stem 50. In this regard, pin will preferably have a length sufficiently greater than 0.18 inch so as to span this gap without disengaging from either member 48 or stem 50, and so as to be capable of maintaining those members in alignment for proper closing and sealing. As a non-limiting manner of achieving this, pin 49 will be received in holes 60 and 62 in the opposing ends of member 48 and stem 50, which holes will be sufficiently deep to allow the desired about 0.18 inch of compression of spring 47 and the closing of the gap.
As one preferred triggering event, biasing element 44 can be configured and operable such that when spring 47 has been compressed by about the 0.18 inch amount, pin 49 will bottom out in both holes 60 and 62, closing the gap such that further movement of stem 50 in direction A1 can cause no further compression or loading of spring 47 with valve head 51 seated against valve seat 53. Alternatively, the holes can be deeper, and the opposing ends of the valve member 48 and the valve stem 50 brought together in abutment. In either instance, as a result, further movement of stem 50 in direction A1 with sufficient force, which will be assisted by unloading of spring 47, will initially crack open and break the seal between valve head 51 and seat 53, e.g., see
As an alternative trigger event or condition, biasing element 44 can be configured such that spring 47 will store sufficient energy as a result of compression to a similar extent, e.g., about 0.15 to 0.20 inch, to provide adequately stiffness or full compression, such that spring 47 itself and unassisted will move valve member 48 and head 51 sufficiently for breaking the seal with seat 53, with or without bottoming out of pin 49 or abutting contact between valve member 48 and valve stem 50.
When it is desired to close faucet 20, or regulate flow of the beverage, lever 54 is moved in direction B3 (
As another advantage of the invention, when it is desired to add more to an already partially filled beverage using the faucet 20 including a biasing element of the invention, it has been found that the faucet can be operated in the above described manner to add as much beer as desired, without appreciable foaming, if desired, and a head of foam of a desired extent can be added, by throttling back lever 54.
In
As another feature of biasing element 44A, an optional tubular rubber seal 55 of a resilient material, such as a soft natural or synthetic rubber, is shown extending about valve member 48 and stem 50, so as to span gap G between valve member 48 and stem 50, and thereby cover and compress with spring 47, or slide over members 48 and 50.
In
In this version, spring 47, in its free uncompressed or minimally compressed state, spans a gap G between a surface on the lower end of lever 54 and a bearing surface of valve stem 50, gap G having an extent about equal to the desired amount of compressive loading of spring 47, again about 0.15 to about 0.18 inch, again will be effected by movement of lever 54 by about amount B1. This gap can be conveniently created by modifying a standard lever by removing an amount of the end of the ball facing stem 50 equaling gap G. Once compressed to this extent, with further movement of lever 54 (distance B2) spring 47 will be compressed sufficiently and be sufficiently firm so as to exert sufficient force against valve stem 50, and thus valve head 51, to break the seal with seat 53, and such that spring 47 will rapidly unload to rapidly move valve head 51 to the fully open or nearly fully open position. Thereafter, the poured beverage can be filled to a desired extent, and a desired head of foam added in the above described manner, valve stem 50 being movable back to the closed position in the normal manner for this purpose and to close the valve.
Referring also to
In light of all the foregoing, it should thus be apparent to those skilled in the art that there has been shown and described a beverage dispensing system including novel aspects. However, it should also be apparent that, within the principles and scope of the invention, many changes are possible and contemplated, including in the details, materials, and arrangements of parts which have been described and illustrated to explain the nature of the invention. Thus, while the foregoing description and discussion addresses certain preferred embodiments or elements of the invention, it should further be understood that concepts of the invention, as based upon the foregoing description and discussion, may be readily incorporated into or employed in other embodiments and constructions without departing from the scope of the invention. Accordingly, the following claims are intended to protect the invention broadly as well as in the specific form shown, and all changes, modifications, variations, and other uses and applications which do not depart from the spirit and scope of the invention are deemed to be covered by the invention, which is limited only by the claims which follow.
This application is submitted under 35 U.S.C. 371 claiming priority to PCT patent application Serial No. PCT/US2011/041125, filed Jun. 20, 2011, which application claims the benefit of U.S. Provisional Application No. 61/356,412, filed Jun. 18, 2010.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/US2011/041125 | 6/20/2011 | WO | 00 | 2/29/2012 |
Number | Date | Country | |
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61356412 | Jun 2010 | US |