US3827467A - Fluid dispensing apparatus - Google Patents

Fluid dispensing apparatus Download PDF

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US3827467A
US3827467A US00355516A US35551673A US3827467A US 3827467 A US3827467 A US 3827467A US 00355516 A US00355516 A US 00355516A US 35551673 A US35551673 A US 35551673A US 3827467 A US3827467 A US 3827467A
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valve
tubing
card
fluid
operating
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US00355516A
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T Henley
F Henley
D Townsend
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HH AND T IND Inc
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HH AND T IND Inc
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    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06QINFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q20/00Payment architectures, schemes or protocols
    • G06Q20/30Payment architectures, schemes or protocols characterised by the use of specific devices or networks
    • G06Q20/34Payment architectures, schemes or protocols characterised by the use of specific devices or networks using cards, e.g. integrated circuit [IC] cards or magnetic cards
    • G06Q20/342Cards defining paid or billed services or quantities
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B67OPENING, CLOSING OR CLEANING BOTTLES, JARS OR SIMILAR CONTAINERS; LIQUID HANDLING
    • B67DDISPENSING, DELIVERING OR TRANSFERRING LIQUIDS, NOT OTHERWISE PROVIDED FOR
    • B67D3/00Apparatus or devices for controlling flow of liquids under gravity from storage containers for dispensing purposes
    • GPHYSICS
    • G07CHECKING-DEVICES
    • G07FCOIN-FREED OR LIKE APPARATUS
    • G07F13/00Coin-freed apparatus for controlling dispensing or fluids, semiliquids or granular material from reservoirs
    • G07F13/06Coin-freed apparatus for controlling dispensing or fluids, semiliquids or granular material from reservoirs with selective dispensing of different fluids or materials or mixtures thereof
    • GPHYSICS
    • G07CHECKING-DEVICES
    • G07FCOIN-FREED OR LIKE APPARATUS
    • G07F7/00Mechanisms actuated by objects other than coins to free or to actuate vending, hiring, coin or paper currency dispensing or refunding apparatus
    • G07F7/02Mechanisms actuated by objects other than coins to free or to actuate vending, hiring, coin or paper currency dispensing or refunding apparatus by keys or other credit registering devices
    • G07F7/025Mechanisms actuated by objects other than coins to free or to actuate vending, hiring, coin or paper currency dispensing or refunding apparatus by keys or other credit registering devices by means, e.g. cards, providing billing information at the time of purchase, e.g. identification of seller or purchaser, quantity of goods delivered or to be delivered

Definitions

  • FLUID DISPENSING APPARATUS Inventors: Terry L. Henley, Xenia; Frederick A. Henley, Centerville, both of Ohio; Donald 1. Townsend, Midland, Mich.
  • the card has projections or bumps thereon which engage trigger arms as the card is moved at a constant speed through a channel past the trigger arms.
  • the trigger arms control a plurality of valves by unlocking over-center locking arms which release previously pinched-off sections of resilient tubing to release the various fluids controlled thereby.
  • Completed travel of the card causes reset of all the valves and terminates dispensing of the fluids.
  • This invention relates to fluid dispensing apparatus, and more particularly to a device which can accurately, precisely, and simultaneously dispense predetermined quantities of any selected number of a substantial quantity of different liquids.
  • the invention is particularly directed to an apparatus for dispensing mixed beverages, such as alcoholic drinks, although it is equally applicable to other environments, such as paint mixing, where predetermined quantities of different liquids must also be accurately dispensed.
  • the program for dispensing each drink is usually internal to the machine itself.
  • the user simply pushes a button or turns a selector for the desired drink.
  • this places a limit on the number of mixtures (drinks) available from the machine, and makes additions of other combinations very expensive or impractical.
  • the device must be capable of withstanding continuous and heavy usage, such as would be expected in commercial establishments, must provide for inexpensive and rapid service and maintenance, and must be capable of dispensing a theoretically infinite variety of drinks according to the tastes and desires of the individuals (patrons) being served.
  • the present invention provides a fluid dispensing apparatus in which control cards are provided with actuating means such as individual bumps or projections thereon to control simple and inexpensive mechanical trip valves.
  • the valves accurately dispense any of a wide variety of available liquids, in any desired quantity within a practical range.
  • Each card is driven at constant speed through a card guide, and the projections or other actuating means on the card trip small mechanical valves to release the correspondingly selected individual liquids.
  • the actuating means on the cards are located at selectively spaced locations to engage trigger arms which trip over-center locking arms.
  • the over-center locking arms open the valves at predetermined intervals during the travel of the card through the card quide, in accordance with the location of each of the actuating means with respect to the leading and trailing edges of the card.
  • the corresponding actuating means is located near the leading edge of the card to trip the valve early in the course of the card travel (dispensing cycle).
  • the corresponding valve actuating means is near the trailing edge of the card, so that the valve is tripped open only near the end of the cycle.
  • valves are sequentially opened at multiple stages to cause correspondingly different timed dispensing operations.
  • Predetermined quantities of the various different liquids are dispensed substantially simultaneously through all open valves.
  • the leading edge of the card trips means such as a sensitive micro-switch which actuates a solenoid to move a common valve closing bar.
  • the common closing bar simultaneously engages all the overcenter locking arms, for the various open valves, and resets the arm assemblies to close the valves.
  • the dispensed liquids are supplied from a plurality of individual containers, which may be the bottles in which the liquids were originally supplied.
  • the bottles are inverted in a slotted rack, and a special bottle cap, having tubing thereon connected to the corresponding valve in the valve assembly, is attached to each bottle.
  • the tubing includes an air trp so that when a bottle is changed, air introduced into the tube near the cap will be expelled into the bottle, to prevent air from entering the tubes, valves, etc.
  • An air pressure pump supplies air to an air supply manifold to pressurize the contents of each liquid container.
  • Individual air hoses connect from the manifold through the bottle caps to the interiors of each container.
  • An air check valve on the air hose within each container prevents reverse flow of the liquid contents back into the air pressure supply system.
  • a constant bleed valve releases air from the air pressure supply system to maintain a constant air pressure therein.
  • valve assembly itself is inexpensive, uncomplicated, and highly durable. It may incorporate as many individual valves as desired, according to the number of different liquids to be dispensed. in the preferred embodiment illustrated herein, 19 valves are incorporated into a common valve assembly.
  • the valve assembly includes a comb having a vertical hole therethrough receiving each length of resilient elastomeric tubing.
  • a separate pin channel for each piece of tubing is provided in the comb substantially perpendicular to the tubing channel itself.
  • a valve pin is movably received in each pin channel and can be slid against the tubing to pinch the tubing closed against the wall of the tubing channel in the comb. The flow of liquid through the valve is thus controlled by pinching the tubing closed to close the valve, or releasing the pinch to open the valve.
  • Movement of the pin is controlled by an over-center locking arm assembly which, when moved donwardly, locks in a slightly over center position while pressing the pin against the tubing, to close the valve.
  • a trigger arm attached to the over-center locking arm assembly is eng'agable by the valve actuating means on the card to urge the locking arm assembly upwardly over center to unlock the arm assembly.
  • the resiliency of the rubber tubing and the pressure of the liquid within the tubing press the pin away from the tubing, opening the valve and allowing the liquid to flow therethrough.
  • the card trips the resetting micro-switch to reset each valve. This pinches the valve tubing closed again, terminating the dispensing cycle.
  • the dispensed liquids are conducted from the valve tubing to a common dispenser head where each liquid issues separately into a receptacle supported therebeneath.
  • each individual locking arm assembly is wholly contained within its respective thin arm channel in the comb.
  • the thin arm channel permits the vertical movement of the locking arm assembly, for locking and unlocking thereof, and horizontal movement toward and away from the tubing, to enable the pin to be moved into and out of the pinching configuration. Lateral movement of the locking arm assembly is prevented, however, by the narrowness of the arm channels in which the arms are contained.
  • the pivots of the locking arm assembly need not be strengthened against lateral movement. As a result, they may not only be very much thinner, but are also much less expensive to manufacture. Rivoted pivots, for example, would be much more difficult to manufacture, more expensive, and much bulkier.
  • FIG. 1 is a somewhat schematic illustration of the liquid dispensing apparatus of this invention, showing nineteen liquid containers individually supplying liquid, and also showing the front of the dispensing portion of the invention;
  • FIG. 2 is a diagrammatic schematic illustration of the supply and control elements of the invention
  • FIG. 3 is a cross-section of the valve assembly, dispenser controlling card, and card drive means, showing the card being driven downwardly through the card guides, and showing a trip projection thereon engaging and about to trip a valve trigger arm, the view being taken generally on line 3-3 of FIG. 4;
  • FIG. 4- is a cross-sectional view similar to FIG. 3, taken on lines 4-4 of FIGS. 3 and 5;
  • FIG. 5 is a cross-sectional view similar to FIG. 3, taken on line 5-5 of FIG. 4, and showing a valve assembly which has been tripped to the open position;
  • FIG. 6 is a bottom view of the dispenser nozzle showing the hexagonal arrangement which is used to obtain high density packing for the individual liquid outlets in the dispenser nozzle;
  • FIG. 7 is an illustration of a dispenser card programmed for dispensing a martini, showing the card as it commences travel through the card guides;
  • FIG. 8 is a side view similar to FIG. 7 illustrating the dimensional relationships between the dispenser controlling card, card drive motor, valve reset microswitch, and card trip projections, which dimensions assure positive driving of the card during the entire dispensing operation;
  • FIG. 9 illustrates an alternative embodiment in which two valve assemblies are arranged on opposite sides of the card guides, and appropriate valve trip projections are provided on each side of the card for the respective valve assemblies;
  • FIG. I0 illustrates still another embodiment in which two or more valve assemblies are arranged in tandem, and showing a drive belt and pulley arrangement for continuing the positive drive of the card as it moves through such a tandem configuration.
  • FIG. III shows the dual valve assembly of FIG. 9 in an off-set configuration
  • FIG. 12 illustrates somewhat diagrammatically the corresponding card valve trip projection arrangement for FIG. 11.
  • the liquid dispensing apparatus 10 illustrated in FIG. 1 includes a cabinet 12 enclosing a plurality of liquid containers I5.
  • Containers 15 may be any containers appropriate to the type and quantities of liquids being dispensed.
  • the embodiment of the invention illustrated in FIG. 1 is a mixed drink dispenser for dispensing alcoholic beverages, and the containers l5 aretherefore the original bottles in which the alcoholic beverages are commonly distributed.
  • the containers 15 are supported in inverted position in slots in a container rack 18, so that the liquid contents 19 are against corresponding molded bottle caps 20.
  • Each cap 20 has a liquid discharge channel 23 therein connected to a corresponding flexible tube 25 of rubber, vinyl, or other appropriate material.
  • Tubes 25 serve as liquid conducting means which are separately connected to the individual containers to carry the liquids out of cabinet 12 through stainless steel nipples 26 (FIG. 2), from which the liquid is then conveyed to a valve assembly 30 shown as located in a separate housing 32 which may conveniently be mounted on the front or top of cabinet 12.
  • Valve assembly 30 is a complete, unitary subassembly mounted for easy removal in housing 32.
  • the valve assembly includes a comb 33 provided with a plurality of tube supporting bores 34, and a resilient tubing member 35 is received and supported in each of the bores 34.
  • Tubing members 35 are made of resilient material such as silicone, Neoprene, or surgical gum rubber, for reasons which will subsequently be explained.
  • the upper corner portion of comb 33 at its end remote from the tubing member 35 has multiple slots 36 therein defined by partitions 37 and outer walls 38.
  • the comb 33 supports a valve pin 40 for each piece of tubing 35, each valve pin 40 being movable axially in a channel 41 which extends substantially perpendicularly away from its associated tube supporting bore 34.
  • Each valve pin 40 is individually movable toward and away from its corresponding tubing member 35, so that the pin ends 42 which contact the respective tube members 35 are individually able to pinch individual members 35 closed by pinching the tubing against the wall of the corresponding tube supporting bore 34 (FIGS. 3 and 4).
  • each pin 40 has a radius of curvature substantially the same as that of the outer diameter of the tubing 35, when free or at rest, minus two tubing wall thicknesses (see FlG. 4).
  • This pin end curvature pinches the tubing closedby reversing the curvature of. the pressed wall in such a way as to complement the configuration of the portion opposite the pin, to effect a complete closing pinch of the tubing.
  • a pin which is too small in diameter may simply press through the tubing without pinching it closed; a pin with too large a diameter may squash the tubing without pinching it closed; a pin of correct diameter but incorrect end curvature may produce similar results or damage the tubing.
  • the pin diameter and end curvature should therefore be selected as above, to produce a pinch as illustrated in FIG. 4.
  • Each over-center locking arm assembly includes a trigger lever 44 mounted for rocking movement in one of slots 36 on a pivot pin 45 which is in turn mounted in the partitions 37 and outer walls 38 of comb 33.
  • a complementary coupling arm 47 connects each trigger lever 44 with its associated valve pin 40.
  • At one end of each arm 47 is a hinged disk portion 48 received for rocking movement in a socket 50 at the rearward end of the associated valve pin 40.
  • a similar hinge disk portion 51 at the opposite end of each arm 47 is similarly received in a socket portion 52 in the associated trigger lever 44.
  • Each over-center locking assembly has a locked and an unlocked position, as may be seen more particularly with reference to FIGS. 3 and 5.
  • hinge disk 51 In the locked position (FIG. 3), hinge disk 51 is placed slightly below an imaginary line between hinge disk 48 and pivot pin 45. Pressure on the corresponding valve pin 40 tending to release the tubing pinch, and hence to drive the pin toward the locking arm assembly, will simply drive hinge disk 51, and the heel 53 of lever 44, against comb 33, preventing movement of the pin and keeping the valve pinched closed.
  • the tubing is a resilient tubing, a constant pressure is maintained against pin 40, causing heel 53 to be held continuously against comb 33.
  • the over-center locking arm assembly is maintained in a locked position, and the tubing is continuously held in a closed or pinched-off configuration.
  • Movement of the respective valve-opening arm assemblies to their closed and locked position is effected by a reset mechanism comprising a bar carried by a pair of arms 61 pivoted on the pivot pin 45 in straddling relation with comb 33.
  • the reset bar 60 is operated through a link 62 having one end pivoted at 63 to one of arms 62.
  • the other end of link 62 is pivoted at 64 to a rid 65 so connected to the plunger of a solenoid 66 that when the solenoid is energized, rod 65 is moved down and acts through link 62 to draw bar 60 down sufficiently to push any trigger levers 44 which are in unlocked position down to their locked position wherein they effect closing movement of their respective valve pins 40.
  • a spring 67 returns rod 65 and bar 60 to their raised positions ready for a new cycle as soon as solenoid 66 is released.
  • Hinge disks 48 and 51 may be of any appropriate configuration adequate to keep pin 40, arm 47, and lever 44 coupled together. However, in the present embodiment which is directed to dispensing of mixed beverages, compactness of the entire valve assembly 30 is an important feature.
  • the hinge members 48, 50, 51, and 52 should be as inexpensive, yet reliable, as possible. Thus for example, rivets are not used, but instead an even more compact and less expensive hinge is provided.
  • the slots 36 in comb 33 allow vertical movement of the over-center locking arm assemblies but prevent lateral movement thereof. This makes possible the simple disk and socket configurations for coupling arm 47 since the slots 36 are virtually no wider than the thickness of each lever 44 and arm 47, and the hinge discs are therefore unable to come out of their respective sockets.
  • Another advantage of the construction is that, since the partititions and outer walls 37 and 38 provide the necessary lateral support for the valve-operating arm assemblies, the individual parts of these assemblies can be made of relatively thin stock which is simpler and less expensive to fabricate than would be the case if these parts had to be laterally selfsupporting. This in turn contribues to the compactness of the valve assembly, which is also aided by staggering the bores 34, as shown in FIG. 4.
  • the respective valve pins 40 are of the proper lengths, of course, to reach the corresponding tub'ing members 35. The net result is an extremely compact valve assembly package 30.
  • a plastic dispenser controlling card 70 is arranged to operate selected valve pins 40 by tripping selected over-center locking assemblies to open the corresponding valves for predetermined intervals and thereby to release and dispense the desired amounts of the particular liquids controlled thereby.
  • Dispenser controlling card 70 includes leading and trailing edges 71 and 72, and it has a plurality of bumps or valve trip projections 75 thereon.
  • a pair of card guides 77 is mounted in housing 32 in position to define a card chute which guides each card 70 adjacent the ends 55 of trigger levers 44.
  • Guides 77 are formed of a low friction material such as nylon and are supported in housing 32 by upper and lower tie bars 78.
  • a card catcher tray 79 is located below guides 77 at the front of housing 32 to receive each card 70 at the end of the dispensing cycle.
  • a constant speed card drive motor 80 is mounted on the front of housing 32 and drives a shaft 81 on which a rubber sleeve 82 is attached. Sleeve 82 is received in a slot 83 in one of the guides 77 to engage and drive card 70 at a constant speed downwardly through the guides.
  • the movement of the card through the guides causes the valve trip projections 75 to engage and actuate the ends 55 of selected trigger levers 44.
  • the projections 75 trip the appropriate levers 44 independently and selectively, to move the corresponding valve operating assemblies over center from locked to unlocked positions as the respective trigger levers 44 are engaged. The opening of the respective valves is controlled accordingly.
  • valve projection 75 on the card, corresponding to the trigger lever 44 which controls the valve for that liquid.
  • multiple appropriate projections 75 are provided.
  • the quantity of liquid dispensed by each valve is a function of the length of time that the valve is open.
  • the corresponding projection 75 will be located nearer the leading edge 71, of card 70, to engage the respective trigger lever 44 at an earlier time.
  • a lesser quantity is dispensed by locating the corresponding projection 75 at a greater distance from leading edge 71 thus tripping the corresponding valve at a later time.
  • a microswitch 85 senses the advancement of the leading edge 71 of card 70 and activates the reset solenoid 66.
  • the microswitch 85 is located a predetermined distance along the path of card 70 through guides 77 (FIGS. 2 and 8) so that switch 85 is actuated only after card 70 has been driven by constant speed motor 80 for a predetermined elapsed time and movement through guides 77.
  • valve assembly 30, micro-switch 85, card valve trip projections 75, and drive motor 80 are all spaced and located with respect to one another such that first, the rubber drive sleeve 82 firmly engages and drives each card before a projection reaches a trigger lever end 55. Secondly, they are so spaced that the card leading edge 71 reaches the micro-switch while the card is still firmly engaged and driven by sleeve 82 (see FIG. 8). In this manner, the proper opening and closing of the valves is assured, since the controlling card is positively driven at all times when operating these functions.
  • an air pressure source such as an air tank or an air compressor, pressurizes the contents of each of the containers through an air manifold 102 connected thereto.
  • Individual air hoses 103 pass from manifold 102 to each bottle cap 20 and connect therethrough to air check valves such as flapper valves 105 located within each bottle.
  • the air flapper valves are one-way valves which allow air to enter the containers 15 but prevent reverse flow of the liquid contents 19 back into the air supply hoses 103.
  • an adjustable constant bleed valve 106 (FIGS. 1 and 2) is utilized. It bleeds the air being pumped and thus serves as a pressure regulator to maintain the desired air pressure within the system.
  • each tube 25 is provided with an air trap 110 (FIG. 2) which is simply a loop of tubing extending well below the container rack 18.
  • an air trap 110 FIG. 2 which is simply a loop of tubing extending well below the container rack 18.
  • the tubes 25 connect through nipples 26 to the lower ends of the valve tubing members 35 so that the liquid 19 from containers 15 is conducted in an upward direction through the individual valve tubing members 35. In this way, air which may initially be present in the valves is purged from the valves by the upward flow of the liquid therethrough.
  • the upper or outlet ends of the tubing members 35 are connected individually to flexible tubes 112 (FIG. 2) which conduct the dispensed liquid from the individual valves to a common hexagonal dispenser head 115 located at the front of housing 32, the head 115 being enclosed by the same hooded extension 116 on the front of housing 32 which also conceals the motor 80.
  • the ends 117 of tubes 112 in dispenser head 115 are all closely adjacent one another and constitute separate discharge outlets for each liquid 19.
  • the hexagonal configuration of dispenser head 115 provides the densest possible packing configuration for tube ends 117, minimizing the size thereof.
  • a vertically adjustable receptacle support 120 receives a receptacle 121, such as a beverage glass, be-
  • Support 120 locates the receptacle fairly close to the outlets 117 as they discharge the individual liquids into receptacle 121. The liquids thus do not mix with the other liquids being dispensed until the liquids commingle in the glass or receptacle 121. This eliminates the need for the discharge rinse required in devices where the liquids pass through a common discharge spigot.
  • FIG. 9 illustrates a variation of this invention in which two valve assemblies 30 and 30' are operable by a single dispenser controlling card 70.
  • the valve assemblies 30-30 are mounted opposite one another on either side of the card chute defined by card guides 77'.
  • Assembly 30 to the left in FIG. 9 is opened by the valve projections which extend to the left, and assembly 30' on the right is operated by rightward projections.
  • the projections 75 themselves, as well as the corresponding trigger levers 44-44 may be arranged in the same vertical tracks for the two assemblies (that is, if there are nineteen valves in each valve assembly 30-30, there would be nineteen vertical tracks on the card).
  • FIG. 12 illustrates the off-set valve projections 75 for the FIG. 11 configuration, schematically showing the opposing, off-set trigger levers 44-44 being engaged by the pro jections.
  • FIG. shows another arrangement which increases the versatility of the liquid dispensing apparatus by using a plurality of valve assembly modules 30-30.
  • the valve assemblies 30-30 are operated in tandem, rather than opposite one another as in FIG. 9.
  • the constant speed drive motor 80 includes a drive pulley 125 which operates a driven pulley 128 by means of a drive belt l29.
  • Driven pulley 128 rotates a second card drive shaft 131 supported in a bearing 132 and having a rubber card driving sleeve 134 similar to sleeve 82 on motorshaft 81.
  • Sleeves 82 and 134, as well as the two valve assemblies 30-30', are spaced to maintain positive, driven movement of card 70 as it moves continuously from the first valve assembly past the second.
  • FIG. 10 shows the reset micro-switch 85 for the first or upper valve assembly, and a similar micro-switch would be provided for the lower assembly.
  • one reset switch following the lower'assembly could function for both valve assemblies 30-30', with the upper assembly continuing to dispense the selected liquids until both assemblies were reset by the common switch.
  • the valve assemblies for the FIG. 10 tandem arrangement are preferably staggered as shown in FIG. 11, so that individual valve trip projections 75 may be provided on card 70 for each particular trigger arm in each assembly.
  • this invention has numerous advantages. Virtually any liquids may be dispensed by this apparatus with great accuracy, and in virtually any desired quantity.
  • Card 70 and the valve trip projections 75 can be arranged to trip the individual valves selectivey at the appropriate predetermined time intervals to open one valve or as many valves as desired, at any predetermined intervals.
  • Apparatus 10 is thus able to perform different dispensing operations simultaneously at variual quantities of the liquids substantially simultaneously through the valves.
  • the invention has provided a very inexpensive means for measuring liquids with great precision. Since surface tension across the discharge outlets 117 keeps the outlets filled, the apparatus is easily able to dispense as little as one drop, which may be desired, for example, when bitters are called for. Since the time of travel of card through guides 77, the air pressure in manifold 102, and the location on card 70 of the valve trip projections all determine the amount of liquid dispensed, the quantities may be selected and adjusted with ease. The arrangement of the containers 15, rack 18, and trap allows bottles to be changed readily and quickly without having to purge the system of air each time.
  • valve subassembly 30 is readily and easily removable from apparatus 10 for quick service and maintenance. Down time is thus minimized, since a substitute valve assembly 30 may quickly be inserted simply by reattaching the tubing members 35 of the replacement valve assembly 30. Further, startup after replacement of the valve assembly is facilitated by the upward flow of the liquid through the tubing members 35, which purges the air therefrom rapidly and quickly.
  • Tubes 25 and 112 are made of three-eighths inch inert vinyl tubing such as Tygon, since this type of material has no effect on the flavor of the particular beverages being handled, and provides long and reliable service.
  • the tubing members 35 are made of three-sixteenths inch surgical gum rubber, Neoprene, or silicone, since resiliency is important in the valve assembly itself. As may easily be seen, however, members 35 are also very easily replaceable so that if the resiliency of the tubing becomes too low, rejuvenation of the valves may be accomplished at extremely low cost.
  • the low initial cost of fabrication, the high reliability, and the low maintenance and replacement costs, are all superior to solenoid and/or other mechanical valves commonly employed in dispensing devices.
  • the present invention is shown as dispensing nineteen different liquids, with a spare twentieth track shown on the card (FIG. 7).
  • the invention also includes a drink counter to count the number of drinks which have been dispensed. As will be apparent, the number of possible drinks which this invention can dispense is limited only by the number of cards 70 which can be prepared. No internal programming of the apparatus itself is required, reducing costs even further. The cost of adding additional drink combination is minimal, since it is merely necessary to prepare the appropriate additional card or cards. Further, when it is desired to include additional types of liquid, it is within the scope of this invention to provide additional valves in assembly 30 with a wider card 70 having more projections 75 to accommodate the additional valves. It is also within the scope of this invention to provide projections 75 on both surfaces of card 70 (as in FIGS. 9, 11, and 12) to accommodate two or more valve assemblies face to face, to operate valve assemblies in tandem (as in FIG. 10), and so on.
  • This invention provides complete standardization of the beverages or other mixtures being dispensed, by
  • this invention prevents cheating by assuring the customer of the full amount of liquid for which he is paying, and by keeping track of the number of drinks served.
  • tubings 25, 35 and 112 may be varied to bring the dispensing times for the various liquids into a common range.
  • several different pressure heads may be maintained on the respective contents in containers to cause differential dispensing within the same time range.
  • Card 70 may include illustrations and instructions for the particular drink (or other mixture) which is to be dispensed, and may include instructions regarding the ingredients and garnishments to be included, as well as a photograph which shows the glass to be used and how the drink should appear when served (see FIG. 7).
  • Apparatus for dispensing selected mixtures of a plurality of fluids comprising:
  • said operating means each including trigger means responsive to tripping thereof to cause movement of said operating means from said operating position to said release position
  • control card having a leading edge and having actuating means for said selected said trigger means located thereon in predetermined spaced relations with said leading edge
  • drive means for moving said card along said path at a predetermined rate to cause said actuating means thereon to trip predetermined said trigger means sequentially in accordance with said spaced relations of said actuating means with said leading edge of said card and thereby to effect opening of the corresponding said valve means at corresponding predetermined stages of the movement of said card along said path, and
  • h.means responsive to a predetermined extent of movement of said card along said path for restoring all of said operating means to operating position effecting closing of all open said valve means.
  • each of said operating means includes an over-center locking means having a locked and an unlocked position and having a trigger lever extending therefrom adjacent the path of said movement of said card, wherein said actuating means on said card comprise projections for tripping said operating means by engaging selected said trigger levers to move corresponding selected said over-center locking means over center from said locked to said unlocked position, and wherein said resetting means is operative to move said over-center locking means back over center from said unlocked position.
  • said fluid supply means comprises a plurality of fluid containers and fluid conduction means separately conducting the fluid from each said container to a corresponding said dispensing control valve.
  • each said fluid conduction means includes a trap to eliminate air within said means subsequent to connection with a corresponding said container.
  • the apparatus of claim 3 further comprising air pressure supply means for pressurizing the contents of each said container, and an air check valve within each of said containers to prevent back flow of the contents thereof into said air pressure supply system.
  • Apparatus for dispensing selected mixtures of a plurality of fluids comprising:
  • each said valve means including a resilient tubing member
  • each said tubing member including a valve pin having an end movable against the corresponding said supported tubing portion to close said tubing by pinching said tubing against said supporting means,
  • each said valve closing means movable between an operating position wherein said valve pin is moved against said tubing to pinch said tubing against said tubing support and thereby to close the associated said valve means, and a release position releasing said tubing pinch and thereby effecting opening of the associated said valve means
  • said operating means each including trigger means responsive to tripping thereof to cause movement of said operating means from said operating position to said release position
  • valve pin has a radius of curvature on said tubing closing end which is substantially the same as that of the tubing outer wall rest diameter minus approximately two tubing wall thicknesses, to pinch said tubing closed by reversing the pressed portion thereof to complement the configuration of the portion opposite said pin.
  • each of said operating means includes an over-center locking means having a locked and an unlocked position and having a trigger lever extending therefrom for engagement by said card actuating means when brought into said engaging relation therewith, wherein said actuating means on said card comprises projections for tripping said operating means by engaging selected said trigger levers to move corresponding selected said over-center locking means over center from said locked to said unlocked position, and wherein said resetting means is operative to move said over-center locking means back over center from said unlocked position.
  • said fluid supply means comprises a plurality of fluid containers and fluid conduction means separately conducting the fluid from each said container to a corresponding said dispensing control valve.
  • each said fluid conduction means includes a trap to eliminate air within said means subsequent to connection with a corresponding said container.
  • the apparatus of claim 9 further comprising air pressure supply means for pressurizing the contents of each said container, and an air check valve within each of said containers to prevent back flow of the contents thereof into said air pressure supply system.
  • Apparatus for dispensing selected mixtures of a plurality of fluids comprising:
  • each said valve means including a resilient tubing member
  • each said tubing member including a valve pin movable lengthwise against the corresponding said supported tubing portion to close said tubing by pinching said tubing against said supporting means,
  • each said valve closing means movable between an operating position wherein said valve pin is moved against said tubing to pinch said tubing against said tubing support and thereby to close the associated said valve means
  • said operating means each including trigger means responsive to tripping thereof to cause movement of said operating means from said operating position to said release position
  • control card having a leading edge and having actuating means for said selected said trigger means located thereon in predetermined spaced relations with said leading edge
  • each of said operating means includes an over-center locking means having a locked and an unlocked position and having a trigger lever extending therefrom adjacent the path of said movement of said card, wherein said actuating means on said card comprises projections for tripping said operating means by engaging selected said trigger levers to move corresponding selected said over-center locking means over center from said locked to said unlocked position, and wherein said resetting means is operative to move said over-center locking means back over center from said unlocked position.
  • the apparatus of claim 13 further comprising subassembly mounting means mounting at least said tubing support means, pin means, and over-center locking means as an easily removable and replaceable unitary subassembly in said fluid dispensing apparatus.
  • the apparatus of claim 14 further comprising comb means having said tubing support means therein, pin channel means mounting said valve pins for movement therein, and slot means for said over-center locking means movably receiving and supporting said overcenter locking means therein.
  • said fluid supply means includes trap means to eliminate air from the fluid supplied by said fluid means.
  • a common dispenser head for said fluids including means defining a separate discharge outlet for each of said fluids, and
  • each said dispenser head outlet to a respective said valve means for dispensing fluid received therefrom.
  • a fluid dispensing apparatus including a plurality of containers containing various fluids, and means for supporting a receptacle for receiving fluids dispensed from the containers, the combination comprisa plurality of individual flexible valve tubing members,
  • first fluid conducting means sepaately connected between individual containers and corresponding said valve tubing members for conducting the respective fluids'from the containers to the corresponding valve tubing members
  • first guide means in said comb means defining a pin channel opening adjacent and substantially perpendicularly to said supported portion of each of said valve tubing members
  • valve pin means in each said pin channel having an end movable against said valve tubing member to close said tubing by pinching said tubing against said supporting means
  • over-center operating means for each said valve pin including interconnected arms movable generally in one plane over center between locked and unlocked positions, and connected to said valve pin means to move said pins means simultaneously in substantially the same said plane to close said valve means by pinching said tubing against said comb means when said operating means is in said locked position and to open said valve means by releasing said tubing pinch when said operating means is in said unlocked position,
  • second guide means in said comb defining a channel receiving each said operating means in laterally guided relation limiting movement of said operating means to said plane
  • trigger arm means engageable by said card trip means and connected to each operating means to timed relation through said card guides and past said trigger arms to cause each said trip means thereon to trip a corresponding one of said trigger arms at a predetermined stage of the movement of said card through said card guides to open each corresponding selected said valve for a predetermined interval causing a correspondingly timed dispensing operation for each such selected valve
  • a common dispense head for the ends of said fluid discharge means adjacent the receptacle causing each fluid separately issuing into the receptacle to be discharged from a corresponding separate opening in said common dispenser head.
  • At least one of the containers is an inverted bottle, and further comprising bottle cap means having an outlet opening therethrough connecting with said first fluid conducting means to supply the fluid contents from said container to said conducting means for conduction to said valve means, said air check valve being within said bottle, and said bottle cap means also including connection means therethrough connecting said air pressure supply means to said check valve means within said bottle.

Abstract

A fluid dispensing apparatus simultaneously dispenses precise quantities of various fluids according to a predetermined schedule encoded onto a control card. The card has projections or bumps thereon which engage trigger arms as the card is moved at a constant speed through a channel past the trigger arms. The trigger arms control a plurality of valves by unlocking overcenter locking arms which release previously pinched-off sections of resilient tubing to release the various fluids controlled thereby. Completed travel of the card causes reset of all the valves and terminates dispensing of the fluids.

Description

' Unite States atent 1191 Henley et a1.
FLUID DISPENSING APPARATUS Inventors: Terry L. Henley, Xenia; Frederick A. Henley, Centerville, both of Ohio; Donald 1. Townsend, Midland, Mich.
H111 & T Industries, Inc., Xenia, Ohio Filed: Apr. 30, 1973 Appl. No.: 355,516
Assignee:
US. Cl 141/104, 141/250, 222/2 Int. Cl B65b 3/30 Field of Search 141/129, 94, 98, 100-107,
References Cited UNITED STATES PATENTS 6/1966 Scherer 222/2 4/1967 Cooperw. 222/2 10/1967 222/2 Levin 1451 Aug. 6, 1974 3,484,020 12/1969 Houle et a1. 222/2 3,629,858 12/1971 Hayakawa et a1. 222/2 3,750,626 8/1973 Smith 222/2 3,779,357 12/1973 Haller et a1. 222/2 Primary Examiner-Houston S. Bell, Jr. Alwrney, Agent, or FirmBiebel, French & Bugg 57 ABSTRACT A fluid dispensing apparatus simultaneously dispenses precise quantities of various fluids according to a pre determined schedule encoded onto a control card. The card has projections or bumps thereon which engage trigger arms as the card is moved at a constant speed through a channel past the trigger arms. The trigger arms control a plurality of valves by unlocking over-center locking arms which release previously pinched-off sections of resilient tubing to release the various fluids controlled thereby. Completed travel of the card causes reset of all the valves and terminates dispensing of the fluids.
19 Claims, 12 Drawing Figures PMENTED AUG 51974 SHEEI 2 0F 3 FLUID DISPENSING APPARATUS BACKGROUND OF THE INVENTION This invention relates to fluid dispensing apparatus, and more particularly to a device which can accurately, precisely, and simultaneously dispense predetermined quantities of any selected number of a substantial quantity of different liquids. The invention is particularly directed to an apparatus for dispensing mixed beverages, such as alcoholic drinks, although it is equally applicable to other environments, such as paint mixing, where predetermined quantities of different liquids must also be accurately dispensed.
The prior art is full of devices directed to solving the problem of automatically dispensing mixed drinks or other liquid concoctions. The effort to mechanize the bartender in an inexpensive and reliable fashion has engaged inventors for a long time, as may be seen, for example, in such US. Pat. as Nos. 903,203, 1,600,170, 3,067,912, 3,119,485, 3,409,176, and 3,675,820.
Few if any of these devices, however, have met with widespread acceptance. This has been due primarily to questions of cost (one presently available device costing thousands of dollars), versatility (most previous devices having been limited to but a very few drinks) or both.
The high costs encountered by the prior art have been in part a result of the use of complicated and expensive components, deemed necessary to achieve commercial reliability. For example, high quality electromagnetic control valves have often been specified. However, not only has this resulted in high initial costs, but service and maintenance costs have also been high when such maintenance has become necessary.
Further, the program for dispensing each drink is usually internal to the machine itself. The user simply pushes a button or turns a selector for the desired drink. However, this places a limit on the number of mixtures (drinks) available from the machine, and makes additions of other combinations very expensive or impractical.
A need thus remains for an inexpensive yet highly reliable device which can accurately dispense an almost unlimited variety of mixed liquids. The device must be capable of withstanding continuous and heavy usage, such as would be expected in commercial establishments, must provide for inexpensive and rapid service and maintenance, and must be capable of dispensing a theoretically infinite variety of drinks according to the tastes and desires of the individuals (patrons) being served.
SUMMARY OF THE INVENTION Briefly, the present invention provides a fluid dispensing apparatus in which control cards are provided with actuating means such as individual bumps or projections thereon to control simple and inexpensive mechanical trip valves. The valves accurately dispense any of a wide variety of available liquids, in any desired quantity within a practical range.
Each card is driven at constant speed through a card guide, and the projections or other actuating means on the card trip small mechanical valves to release the correspondingly selected individual liquids. The actuating means on the cards are located at selectively spaced locations to engage trigger arms which trip over-center locking arms. The over-center locking arms open the valves at predetermined intervals during the travel of the card through the card quide, in accordance with the location of each of the actuating means with respect to the leading and trailing edges of the card. Thus when a large quantity of a given liquid is to be dispensed, the corresponding actuating means is located near the leading edge of the card to trip the valve early in the course of the card travel (dispensing cycle). Where a small quantity of another liquid is to be included, the corresponding valve actuating means is near the trailing edge of the card, so that the valve is tripped open only near the end of the cycle.
Thus as each card travels through its course in the control mechanism of the liquid dispensing device, the valves are sequentially opened at multiple stages to cause correspondingly different timed dispensing operations. Predetermined quantities of the various different liquids are dispensed substantially simultaneously through all open valves.
At the end of the card travel, and hence at the end of the dispensing interval or cycle, the leading edge of the card trips means such as a sensitive micro-switch which actuates a solenoid to move a common valve closing bar. The common closing bar simultaneously engages all the overcenter locking arms, for the various open valves, and resets the arm assemblies to close the valves.
The dispensed liquids are supplied from a plurality of individual containers, which may be the bottles in which the liquids were originally supplied. The bottles are inverted in a slotted rack, and a special bottle cap, having tubing thereon connected to the corresponding valve in the valve assembly, is attached to each bottle. The tubing includes an air trp so that when a bottle is changed, air introduced into the tube near the cap will be expelled into the bottle, to prevent air from entering the tubes, valves, etc.
An air pressure pump supplies air to an air supply manifold to pressurize the contents of each liquid container. Individual air hoses connect from the manifold through the bottle caps to the interiors of each container. An air check valve on the air hose within each container prevents reverse flow of the liquid contents back into the air pressure supply system. A constant bleed valve releases air from the air pressure supply system to maintain a constant air pressure therein.
The valve assembly itself is inexpensive, uncomplicated, and highly durable. It may incorporate as many individual valves as desired, according to the number of different liquids to be dispensed. in the preferred embodiment illustrated herein, 19 valves are incorporated into a common valve assembly.
The valve assembly includes a comb having a vertical hole therethrough receiving each length of resilient elastomeric tubing. A separate pin channel for each piece of tubing is provided in the comb substantially perpendicular to the tubing channel itself. A valve pin is movably received in each pin channel and can be slid against the tubing to pinch the tubing closed against the wall of the tubing channel in the comb. The flow of liquid through the valve is thus controlled by pinching the tubing closed to close the valve, or releasing the pinch to open the valve.
Movement of the pin is controlled by an over-center locking arm assembly which, when moved donwardly, locks in a slightly over center position while pressing the pin against the tubing, to close the valve. A trigger arm attached to the over-center locking arm assembly is eng'agable by the valve actuating means on the card to urge the locking arm assembly upwardly over center to unlock the arm assembly. When unlocked, the resiliency of the rubber tubing and the pressure of the liquid within the tubing press the pin away from the tubing, opening the valve and allowing the liquid to flow therethrough.
As mentioned, when the dispensing cycle has been completed, the card trips the resetting micro-switch to reset each valve. This pinches the valve tubing closed again, terminating the dispensing cycle. The dispensed liquids are conducted from the valve tubing to a common dispenser head where each liquid issues separately into a receptacle supported therebeneath.
For purposes of economy and compactness, each individual locking arm assembly is wholly contained within its respective thin arm channel in the comb. The thin arm channel permits the vertical movement of the locking arm assembly, for locking and unlocking thereof, and horizontal movement toward and away from the tubing, to enable the pin to be moved into and out of the pinching configuration. Lateral movement of the locking arm assembly is prevented, however, by the narrowness of the arm channels in which the arms are contained. Thus the pivots of the locking arm assembly need not be strengthened against lateral movement. As a result, they may not only be very much thinner, but are also much less expensive to manufacture. Rivoted pivots, for example, would be much more difficult to manufacture, more expensive, and much bulkier.
It is therefore an object of this invention to provide an improved liquid dispensing apparatus which is controlled by valve trip projections incorporated into a dispenser controlling card; which includes an uncomplicated valve having an over-center locking arm assembly to press a pin against a supported length of resilient rubber tubing to pinch the tubing to close the valve and to release the pinch to open the valve; which includes a constant speed drive mechanism and a card guide means to move each card having actuating means thereon past trigger arms to trip the over-center locking arm assemblies to open the valves at predetermined intervals for causing correspondingly different timed dispensing operations at multiple stages to dispense predetermined quantities of various liquids substantially simultaneously; which may dispense any of a wide variety of liquids and combinations thereof, in any desired quantities; which includes a comb supporting the resilient tubing, valve pins, and over-center locking arm assemblies as a unit, for minimizing the size and cost thereof; in which the valve-comb assembly provides for insertion and removal of the valve assembly as a unit in the liquid dispensing apparatus, for ease and efficiency of maintenance and service; in which the liquids may easily be dispensed directly from the containers in which they are sold without introduction of air into the valves and tubing of the liquid dispensing system; and in which each liquid is served directly from its individual tubing so that no rinsing is required between servings.
Other objects and advantages of the invention will be apparent from the following description, the accompanying drawings and the appended claims.
BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a somewhat schematic illustration of the liquid dispensing apparatus of this invention, showing nineteen liquid containers individually supplying liquid, and also showing the front of the dispensing portion of the invention;
FIG. 2 is a diagrammatic schematic illustration of the supply and control elements of the invention;
FIG. 3 is a cross-section of the valve assembly, dispenser controlling card, and card drive means, showing the card being driven downwardly through the card guides, and showing a trip projection thereon engaging and about to trip a valve trigger arm, the view being taken generally on line 3-3 of FIG. 4;
FIG. 4- is a cross-sectional view similar to FIG. 3, taken on lines 4-4 of FIGS. 3 and 5;
FIG. 5 is a cross-sectional view similar to FIG. 3, taken on line 5-5 of FIG. 4, and showing a valve assembly which has been tripped to the open position;
FIG. 6 is a bottom view of the dispenser nozzle showing the hexagonal arrangement which is used to obtain high density packing for the individual liquid outlets in the dispenser nozzle;
FIG. 7 is an illustration of a dispenser card programmed for dispensing a martini, showing the card as it commences travel through the card guides;
FIG. 8 is a side view similar to FIG. 7 illustrating the dimensional relationships between the dispenser controlling card, card drive motor, valve reset microswitch, and card trip projections, which dimensions assure positive driving of the card during the entire dispensing operation;
FIG. 9 illustrates an alternative embodiment in which two valve assemblies are arranged on opposite sides of the card guides, and appropriate valve trip projections are provided on each side of the card for the respective valve assemblies;
FIG. I0 illustrates still another embodiment in which two or more valve assemblies are arranged in tandem, and showing a drive belt and pulley arrangement for continuing the positive drive of the card as it moves through such a tandem configuration.
FIG. III shows the dual valve assembly of FIG. 9 in an off-set configuration; and
FIG. 12 illustrates somewhat diagrammatically the corresponding card valve trip projection arrangement for FIG. 11.
DESCRIPTION OF THE PREFERRED EMBODIMENT The liquid dispensing apparatus 10 illustrated in FIG. 1 includes a cabinet 12 enclosing a plurality of liquid containers I5. Containers 15 may be any containers appropriate to the type and quantities of liquids being dispensed. The embodiment of the invention illustrated in FIG. 1 is a mixed drink dispenser for dispensing alcoholic beverages, and the containers l5 aretherefore the original bottles in which the alcoholic beverages are commonly distributed.
The containers 15 are supported in inverted position in slots in a container rack 18, so that the liquid contents 19 are against corresponding molded bottle caps 20. Each cap 20 has a liquid discharge channel 23 therein connected to a corresponding flexible tube 25 of rubber, vinyl, or other appropriate material. Tubes 25 serve as liquid conducting means which are separately connected to the individual containers to carry the liquids out of cabinet 12 through stainless steel nipples 26 (FIG. 2), from which the liquid is then conveyed to a valve assembly 30 shown as located in a separate housing 32 which may conveniently be mounted on the front or top of cabinet 12.
Valve assembly 30 is a complete, unitary subassembly mounted for easy removal in housing 32. The valve assembly includes a comb 33 provided with a plurality of tube supporting bores 34, and a resilient tubing member 35 is received and supported in each of the bores 34. Tubing members 35 are made of resilient material such as silicone, Neoprene, or surgical gum rubber, for reasons which will subsequently be explained. The upper corner portion of comb 33 at its end remote from the tubing member 35 has multiple slots 36 therein defined by partitions 37 and outer walls 38.
The comb 33 supports a valve pin 40 for each piece of tubing 35, each valve pin 40 being movable axially in a channel 41 which extends substantially perpendicularly away from its associated tube supporting bore 34. Each valve pin 40 is individually movable toward and away from its corresponding tubing member 35, so that the pin ends 42 which contact the respective tube members 35 are individually able to pinch individual members 35 closed by pinching the tubing against the wall of the corresponding tube supporting bore 34 (FIGS. 3 and 4).
The tube-closing end 42 of each pin 40 has a radius of curvature substantially the same as that of the outer diameter of the tubing 35, when free or at rest, minus two tubing wall thicknesses (see FlG. 4). This pin end curvature pinches the tubing closedby reversing the curvature of. the pressed wall in such a way as to complement the configuration of the portion opposite the pin, to effect a complete closing pinch of the tubing. It should be noted in this regard that a pin which is too small in diameter may simply press through the tubing without pinching it closed; a pin with too large a diameter may squash the tubing without pinching it closed; a pin of correct diameter but incorrect end curvature may produce similar results or damage the tubing. The pin diameter and end curvature should therefore be selected as above, to produce a pinch as illustrated in FIG. 4.
Individual movement of the valve pins 40 inwardly and outwardly of the pin channels 41 is controlled by a plurality of over-center locking arm assemblies, one for each pin 40 and corresponding tubing member 35. Each over-center locking arm assembly includes a trigger lever 44 mounted for rocking movement in one of slots 36 on a pivot pin 45 which is in turn mounted in the partitions 37 and outer walls 38 of comb 33. A complementary coupling arm 47 connects each trigger lever 44 with its associated valve pin 40. At one end of each arm 47 is a hinged disk portion 48 received for rocking movement in a socket 50 at the rearward end of the associated valve pin 40. A similar hinge disk portion 51 at the opposite end of each arm 47 is similarly received in a socket portion 52 in the associated trigger lever 44.
Each over-center locking assembly has a locked and an unlocked position, as may be seen more particularly with reference to FIGS. 3 and 5. In the locked position (FIG. 3), hinge disk 51 is placed slightly below an imaginary line between hinge disk 48 and pivot pin 45. Pressure on the corresponding valve pin 40 tending to release the tubing pinch, and hence to drive the pin toward the locking arm assembly, will simply drive hinge disk 51, and the heel 53 of lever 44, against comb 33, preventing movement of the pin and keeping the valve pinched closed. Since the tubing is a resilient tubing, a constant pressure is maintained against pin 40, causing heel 53 to be held continuously against comb 33. As a result, the over-center locking arm assembly is maintained in a locked position, and the tubing is continuously held in a closed or pinched-off configuration.
To release the pinch, and hence to open the tubing, it is necessary to apply only a very slight pressure to the outer end 55 of trigger lever 44, in the same direction that heel 53 bears against comb 33. Due to the considerable mechanical advantage provided by this configuration, slight pressure applied to end 55 will readily overcome the pressure on pin 40, and trigger lever 44 will pivot about pivot pin 45, lifting hinge disk 51 away from comb 33 and across the imaginary line between hinge disk 48 and pivot pin 45. The over-center locking arm assembly will then be unlocked and will quickly move to the position shown in FIG. 5, as a result of the pressure of the resilient tubing 35 on pin 40. The slight movement of trigger lever 44 therefore trips the overcenter locking arm assembly to release the tubing pinch, opening the tubing member 35. The over-center locking arm assembly, valve pin 40, tubing member 35, and comb 33 thus form valve means having a closed, locked position and an open, unlocked position.
Movement of the respective valve-opening arm assemblies to their closed and locked position is effected by a reset mechanism comprising a bar carried by a pair of arms 61 pivoted on the pivot pin 45 in straddling relation with comb 33. The reset bar 60 is operated through a link 62 having one end pivoted at 63 to one of arms 62. The other end of link 62 is pivoted at 64 to a rid 65 so connected to the plunger of a solenoid 66 that when the solenoid is energized, rod 65 is moved down and acts through link 62 to draw bar 60 down sufficiently to push any trigger levers 44 which are in unlocked position down to their locked position wherein they effect closing movement of their respective valve pins 40. A spring 67 returns rod 65 and bar 60 to their raised positions ready for a new cycle as soon as solenoid 66 is released.
Hinge disks 48 and 51 may be of any appropriate configuration adequate to keep pin 40, arm 47, and lever 44 coupled together. However, in the present embodiment which is directed to dispensing of mixed beverages, compactness of the entire valve assembly 30 is an important feature. In addition, the hinge members 48, 50, 51, and 52 should be as inexpensive, yet reliable, as possible. Thus for example, rivets are not used, but instead an even more compact and less expensive hinge is provided.
As shown, the slots 36 in comb 33 allow vertical movement of the over-center locking arm assemblies but prevent lateral movement thereof. This makes possible the simple disk and socket configurations for coupling arm 47 since the slots 36 are virtually no wider than the thickness of each lever 44 and arm 47, and the hinge discs are therefore unable to come out of their respective sockets.
Another advantage of the construction is that, since the partititions and outer walls 37 and 38 provide the necessary lateral support for the valve-operating arm assemblies, the individual parts of these assemblies can be made of relatively thin stock which is simpler and less expensive to fabricate than would be the case if these parts had to be laterally selfsupporting. This in turn contribues to the compactness of the valve assembly, which is also aided by staggering the bores 34, as shown in FIG. 4. The respective valve pins 40 are of the proper lengths, of course, to reach the corresponding tub'ing members 35. The net result is an extremely compact valve assembly package 30.
A plastic dispenser controlling card 70, approximately 0.060 inch thick, is arranged to operate selected valve pins 40 by tripping selected over-center locking assemblies to open the corresponding valves for predetermined intervals and thereby to release and dispense the desired amounts of the particular liquids controlled thereby. Dispenser controlling card 70 includes leading and trailing edges 71 and 72, and it has a plurality of bumps or valve trip projections 75 thereon. A pair of card guides 77 is mounted in housing 32 in position to define a card chute which guides each card 70 adjacent the ends 55 of trigger levers 44. Guides 77 are formed of a low friction material such as nylon and are supported in housing 32 by upper and lower tie bars 78. A card catcher tray 79 is located below guides 77 at the front of housing 32 to receive each card 70 at the end of the dispensing cycle.
A constant speed card drive motor 80 is mounted on the front of housing 32 and drives a shaft 81 on which a rubber sleeve 82 is attached. Sleeve 82 is received in a slot 83 in one of the guides 77 to engage and drive card 70 at a constant speed downwardly through the guides. The movement of the card through the guides causes the valve trip projections 75 to engage and actuate the ends 55 of selected trigger levers 44. The projections 75 trip the appropriate levers 44 independently and selectively, to move the corresponding valve operating assemblies over center from locked to unlocked positions as the respective trigger levers 44 are engaged. The opening of the respective valves is controlled accordingly.
Thus when it is desired to dispense only one particular liquid, there will be provided but one valve projection 75 on the card, corresponding to the trigger lever 44 which controls the valve for that liquid. Where a plurality of liquids are to be dispensed, multiple appropriate projections 75 are provided.
Further, the quantity of liquid dispensed by each valve is a function of the length of time that the valve is open. Thus when a greater quantity of liquid is desired, the corresponding projection 75 will be located nearer the leading edge 71, of card 70, to engage the respective trigger lever 44 at an earlier time. A lesser quantity is dispensed by locating the corresponding projection 75 at a greater distance from leading edge 71 thus tripping the corresponding valve at a later time.
In order to terminate the dispensing cycle, a microswitch 85 senses the advancement of the leading edge 71 of card 70 and activates the reset solenoid 66. The microswitch 85 is located a predetermined distance along the path of card 70 through guides 77 (FIGS. 2 and 8) so that switch 85 is actuated only after card 70 has been driven by constant speed motor 80 for a predetermined elapsed time and movement through guides 77.
To ensure positive opening of the desired valves as well as affirmative termination of the dispensing cycle, the valve assembly 30, micro-switch 85, card valve trip projections 75, and drive motor 80 are all spaced and located with respect to one another such that first, the rubber drive sleeve 82 firmly engages and drives each card before a projection reaches a trigger lever end 55. Secondly, they are so spaced that the card leading edge 71 reaches the micro-switch while the card is still firmly engaged and driven by sleeve 82 (see FIG. 8). In this manner, the proper opening and closing of the valves is assured, since the controlling card is positively driven at all times when operating these functions.
In order to assure that an adequate quantity of liquid will be supplied in a reasonably short time, an air pressure source (FIG. 2), such as an air tank or an air compressor, pressurizes the contents of each of the containers through an air manifold 102 connected thereto. Individual air hoses 103 pass from manifold 102 to each bottle cap 20 and connect therethrough to air check valves such as flapper valves 105 located within each bottle. The air flapper valves are one-way valves which allow air to enter the containers 15 but prevent reverse flow of the liquid contents 19 back into the air supply hoses 103. Where an air compressor pump is used, an adjustable constant bleed valve 106 (FIGS. 1 and 2) is utilized. It bleeds the air being pumped and thus serves as a pressure regulator to maintain the desired air pressure within the system.
In order to facilitate changing of the bottles without introduction of air into the flexible tubes 25, each tube 25 is provided with an air trap 110 (FIG. 2) which is simply a loop of tubing extending well below the container rack 18. Thus when a particular container 15 is lifted out of rack 18 and cap 20 is removed therefrom, a column of liquid always remains within trap 110. When cap 20 is then attached to the replacement container and the replacement container is inverted and placed in rack 18, the air which has entered tube 25 and channel 23 simple rises into the new container, and the tube 25 is once again full of liquid. Trap 110 thus prevents entry of air into the tubing and valve system, and assures proper travel of the liquids being dispensed.
The tubes 25 connect through nipples 26 to the lower ends of the valve tubing members 35 so that the liquid 19 from containers 15 is conducted in an upward direction through the individual valve tubing members 35. In this way, air which may initially be present in the valves is purged from the valves by the upward flow of the liquid therethrough.
The upper or outlet ends of the tubing members 35 are connected individually to flexible tubes 112 (FIG. 2) which conduct the dispensed liquid from the individual valves to a common hexagonal dispenser head 115 located at the front of housing 32, the head 115 being enclosed by the same hooded extension 116 on the front of housing 32 which also conceals the motor 80. The ends 117 of tubes 112 in dispenser head 115 are all closely adjacent one another and constitute separate discharge outlets for each liquid 19. The hexagonal configuration of dispenser head 115 provides the densest possible packing configuration for tube ends 117, minimizing the size thereof.
A vertically adjustable receptacle support 120 receives a receptacle 121, such as a beverage glass, be-
neath the dispenser head 115 and hood 116. Support 120 locates the receptacle fairly close to the outlets 117 as they discharge the individual liquids into receptacle 121. The liquids thus do not mix with the other liquids being dispensed until the liquids commingle in the glass or receptacle 121. This eliminates the need for the discharge rinse required in devices where the liquids pass through a common discharge spigot.
FIG. 9 illustrates a variation of this invention in which two valve assemblies 30 and 30' are operable by a single dispenser controlling card 70. In this case, the valve assemblies 30-30 are mounted opposite one another on either side of the card chute defined by card guides 77'. Assembly 30 to the left in FIG. 9 is opened by the valve projections which extend to the left, and assembly 30' on the right is operated by rightward projections. The projections 75 themselves, as well as the corresponding trigger levers 44-44 may be arranged in the same vertical tracks for the two assemblies (that is, if there are nineteen valves in each valve assembly 30-30, there would be nineteen vertical tracks on the card).
Alternatively, twice as many vertical tracks may be used on the card, and the valve assemblies 30-30 may be off-set as in FIG. 11, providing individual vertical tracks on the card for each individual valve. FIG. 12 illustrates the off-set valve projections 75 for the FIG. 11 configuration, schematically showing the opposing, off-set trigger levers 44-44 being engaged by the pro jections.
FIG. shows another arrangement which increases the versatility of the liquid dispensing apparatus by using a plurality of valve assembly modules 30-30. Here, the valve assemblies 30-30 are operated in tandem, rather than opposite one another as in FIG. 9. In the FIG. 10 configuration, the constant speed drive motor 80 includes a drive pulley 125 which operates a driven pulley 128 by means of a drive belt l29. Driven pulley 128 rotates a second card drive shaft 131 supported in a bearing 132 and having a rubber card driving sleeve 134 similar to sleeve 82 on motorshaft 81. Sleeves 82 and 134, as well as the two valve assemblies 30-30', are spaced to maintain positive, driven movement of card 70 as it moves continuously from the first valve assembly past the second.
FIG. 10 shows the reset micro-switch 85 for the first or upper valve assembly, and a similar micro-switch would be provided for the lower assembly. Alternatively, one reset switch following the lower'assembly could function for both valve assemblies 30-30', with the upper assembly continuing to dispense the selected liquids until both assemblies were reset by the common switch. The valve assemblies for the FIG. 10 tandem arrangement are preferably staggered as shown in FIG. 11, so that individual valve trip projections 75 may be provided on card 70 for each particular trigger arm in each assembly.
As may be seen, therefore, this invention has numerous advantages. Virtually any liquids may be dispensed by this apparatus with great accuracy, and in virtually any desired quantity.
Card 70 and the valve trip projections 75 can be arranged to trip the individual valves selectivey at the appropriate predetermined time intervals to open one valve or as many valves as desired, at any predetermined intervals. Apparatus 10 is thus able to perform different dispensing operations simultaneously at variual quantities of the liquids substantially simultaneously through the valves.
In the illustrated preferred embodiment used for dispensing mixed alcoholic beverages, the invention has provided a very inexpensive means for measuring liquids with great precision. Since surface tension across the discharge outlets 117 keeps the outlets filled, the apparatus is easily able to dispense as little as one drop, which may be desired, for example, when bitters are called for. Since the time of travel of card through guides 77, the air pressure in manifold 102, and the location on card 70 of the valve trip projections all determine the amount of liquid dispensed, the quantities may be selected and adjusted with ease. The arrangement of the containers 15, rack 18, and trap allows bottles to be changed readily and quickly without having to purge the system of air each time.
The valve subassembly 30 is readily and easily removable from apparatus 10 for quick service and maintenance. Down time is thus minimized, since a substitute valve assembly 30 may quickly be inserted simply by reattaching the tubing members 35 of the replacement valve assembly 30. Further, startup after replacement of the valve assembly is facilitated by the upward flow of the liquid through the tubing members 35, which purges the air therefrom rapidly and quickly.
Further, the number of moving parts and the complexity has been absolutely minimized. Tubes 25 and 112 are made of three-eighths inch inert vinyl tubing such as Tygon, since this type of material has no effect on the flavor of the particular beverages being handled, and provides long and reliable service. The tubing members 35 are made of three-sixteenths inch surgical gum rubber, Neoprene, or silicone, since resiliency is important in the valve assembly itself. As may easily be seen, however, members 35 are also very easily replaceable so that if the resiliency of the tubing becomes too low, rejuvenation of the valves may be accomplished at extremely low cost. The low initial cost of fabrication, the high reliability, and the low maintenance and replacement costs, are all superior to solenoid and/or other mechanical valves commonly employed in dispensing devices.
The present invention is shown as dispensing nineteen different liquids, with a spare twentieth track shown on the card (FIG. 7). The invention also includes a drink counter to count the number of drinks which have been dispensed. As will be apparent, the number of possible drinks which this invention can dispense is limited only by the number of cards 70 which can be prepared. No internal programming of the apparatus itself is required, reducing costs even further. The cost of adding additional drink combination is minimal, since it is merely necessary to prepare the appropriate additional card or cards. Further, when it is desired to include additional types of liquid, it is within the scope of this invention to provide additional valves in assembly 30 with a wider card 70 having more projections 75 to accommodate the additional valves. It is also within the scope of this invention to provide projections 75 on both surfaces of card 70 (as in FIGS. 9, 11, and 12) to accommodate two or more valve assemblies face to face, to operate valve assemblies in tandem (as in FIG. 10), and so on.
This invention provides complete standardization of the beverages or other mixtures being dispensed, by
giving precisely metered amounts. It is therefore also valuable in such applications as paint mixing, chemical analysis, and even in preparation of medical liquids such asradio-active cocktails, etc. In commercial establishments, this invention prevents cheating by assuring the customer of the full amount of liquid for which he is paying, and by keeping track of the number of drinks served.
Due to the long residence time of the various liquids within theapparatus 10, it is not recommended that decomposable liquids, such as orange juice and tomato juice, be dispensed. In the mixing of alcoholic beverages, this isof no moment since the customer is paying primarily for the alcohol, not the mixer. In fact, since the apparatus measures the beverage very precisely, it is actually preferable to devote the capacity of the invention exclusively to the alcoholic portions of the beverages, reserving the mixers for manual addition.
Where extremely wide variations in quantity and viscosity are encountered, the diameters of tubings 25, 35 and 112 may be varied to bring the dispensing times for the various liquids into a common range. Alternatively, several different pressure heads may be maintained on the respective contents in containers to cause differential dispensing within the same time range. Again, the invention is thus readily adaptable to virtually any environment where accurate and inexpensive dispensing of a variety of liquid combinations is desired.
Other variations will occur to those skilled in the art upon reading the present disclosure. For example, fluids such as gases may also be controllably dispensed by the present invention. Card 70 may include illustrations and instructions for the particular drink (or other mixture) which is to be dispensed, and may include instructions regarding the ingredients and garnishments to be included, as well as a photograph which shows the glass to be used and how the drink should appear when served (see FIG. 7).
While the fonns of apparatus herein described constitute preferred embodiments of this invention, it is to be understood that the invention is not limited to these precise forms of apparatus, and that changes may be made therein without departing from the scope of the invention.
What is claimed is:
1. Apparatus for dispensing selected mixtures of a plurality of fluids, comprising:
a. a plurality of means for supplying a corresponding plurality of fluids,
b. separate valve means for controlling the flow of fluid from each of said supply means,
c. separate operating means for each of said valve means movable between an operating position wherein the associated said valve means are closed and a release position effecting opening of said valve means,
. said operating means each including trigger means responsive to tripping thereof to cause movement of said operating means from said operating position to said release position,
e. a control card having a leading edge and having actuating means for said selected said trigger means located thereon in predetermined spaced relations with said leading edge,
f. means defining a path for movement for said card in actuating relation with said trigger means,
g. drive means for moving said card along said path at a predetermined rate to cause said actuating means thereon to trip predetermined said trigger means sequentially in accordance with said spaced relations of said actuating means with said leading edge of said card and thereby to effect opening of the corresponding said valve means at corresponding predetermined stages of the movement of said card along said path, and
h.means responsive to a predetermined extent of movement of said card along said path for restoring all of said operating means to operating position effecting closing of all open said valve means.
2. The apparatus of claiml wherein each of said operating means includes an over-center locking means having a locked and an unlocked position and having a trigger lever extending therefrom adjacent the path of said movement of said card, wherein said actuating means on said card comprise projections for tripping said operating means by engaging selected said trigger levers to move corresponding selected said over-center locking means over center from said locked to said unlocked position, and wherein said resetting means is operative to move said over-center locking means back over center from said unlocked position.
3. The apparatus of claim 1 wherein said fluid supply means comprises a plurality of fluid containers and fluid conduction means separately conducting the fluid from each said container to a corresponding said dispensing control valve.
4. The apparatus of claim 3 wherein each said fluid conduction means includes a trap to eliminate air within said means subsequent to connection with a corresponding said container.
5. The apparatus of claim 3 further comprising air pressure supply means for pressurizing the contents of each said container, and an air check valve within each of said containers to prevent back flow of the contents thereof into said air pressure supply system.
6. Apparatus for dispensing selected mixtures of a plurality of fluids, comprising:
a. a plurality of means for supply a corresponding plurality of fluids,
b. separate valve means for controlling the flow of fluid from each of said fluid supply means,
0. each said valve means including a resilient tubing member,
. means supporting at least a portion of each of said tubing members in said apparatus,
e. -separate closing means for each said tubing member including a valve pin having an end movable against the corresponding said supported tubing portion to close said tubing by pinching said tubing against said supporting means,
f. separate operating means for each said valve closing means movable between an operating position wherein said valve pin is moved against said tubing to pinch said tubing against said tubing support and thereby to close the associated said valve means, and a release position releasing said tubing pinch and thereby effecting opening of the associated said valve means,
g. said operating means each including trigger means responsive to tripping thereof to cause movement of said operating means from said operating position to said release position,
h. a control card having trigger actuating means thereon,
i. means for moving said card along a path causing said trigger actuating means thereon to trip predetermined said trigger means in predetermined sequence and thereby to effect opening of the corresponding said valve means for dispensing predetermined quantities of fluid through said valve means, and
j. means for restoring all of said operating means to operating position effecting closing of all open said valve means following dispensing of predetermined quantities of said fluids.
7. The apparatus of claim 6 wherein said valve pin has a radius of curvature on said tubing closing end which is substantially the same as that of the tubing outer wall rest diameter minus approximately two tubing wall thicknesses, to pinch said tubing closed by reversing the pressed portion thereof to complement the configuration of the portion opposite said pin.
8. The apparatus of claim 6 wherein each of said operating means includes an over-center locking means having a locked and an unlocked position and having a trigger lever extending therefrom for engagement by said card actuating means when brought into said engaging relation therewith, wherein said actuating means on said card comprises projections for tripping said operating means by engaging selected said trigger levers to move corresponding selected said over-center locking means over center from said locked to said unlocked position, and wherein said resetting means is operative to move said over-center locking means back over center from said unlocked position.
9. The apparatus of claim 6 wherein said fluid supply means comprises a plurality of fluid containers and fluid conduction means separately conducting the fluid from each said container to a corresponding said dispensing control valve.
10. The apparatus of claim 9 wherein each said fluid conduction means includes a trap to eliminate air within said means subsequent to connection with a corresponding said container.
ll. The apparatus of claim 9 further comprising air pressure supply means for pressurizing the contents of each said container, and an air check valve within each of said containers to prevent back flow of the contents thereof into said air pressure supply system.
12. Apparatus for dispensing selected mixtures of a plurality of fluids, comprising:
a, a plurality of means for supplying a corresponding plurality of fluids,
b. separate valve means for controlling the flow of fluid from each of said fluid supply means,
c. each said valve means including a resilient tubing member,
(1. means supporting at least a portion of each of said tubing members in said apparatus,
e. separate closing means for each said tubing member including a valve pin movable lengthwise against the corresponding said supported tubing portion to close said tubing by pinching said tubing against said supporting means,
f. separate operating means for each said valve closing means movable between an operating position wherein said valve pin is moved against said tubing to pinch said tubing against said tubing support and thereby to close the associated said valve means,
and a release position releasing said tubing pinch and thereby effecting opening of the associated said valve means,
g. said operating means each including trigger means responsive to tripping thereof to cause movement of said operating means from said operating position to said release position,
h. a control card having a leading edge and having actuating means for said selected said trigger means located thereon in predetermined spaced relations with said leading edge,
i. means defining a path for movement for said card in actuating relation with said trigger means,
j. means for moving said card along said path at a predetermined rate to cause said actuating means thereon to trip predetermined said trigger means sequentially in accordance with said spaced relations of said actuating means with said leading edge of said card and thereby to effect opening of the corresponding said valve means at corresponding predetermined stages of the movement of said card along said path, and
k. means responsive to a predetermined extent of movement of said card along said path for restoring all of said operating means to operating position effecting closing of all open said valve means.
13. The apparatus of claim 12 wherein each of said operating means includes an over-center locking means having a locked and an unlocked position and having a trigger lever extending therefrom adjacent the path of said movement of said card, wherein said actuating means on said card comprises projections for tripping said operating means by engaging selected said trigger levers to move corresponding selected said over-center locking means over center from said locked to said unlocked position, and wherein said resetting means is operative to move said over-center locking means back over center from said unlocked position.
14. The apparatus of claim 13 further comprising subassembly mounting means mounting at least said tubing support means, pin means, and over-center locking means as an easily removable and replaceable unitary subassembly in said fluid dispensing apparatus.
15. The apparatus of claim 14 further comprising comb means having said tubing support means therein, pin channel means mounting said valve pins for movement therein, and slot means for said over-center locking means movably receiving and supporting said overcenter locking means therein.
16. The apparatus of claim 12 wherein said fluid supply means includes trap means to eliminate air from the fluid supplied by said fluid means.
17. The apparatus of claim 12 further comprising:
a. a common dispenser head for said fluids including means defining a separate discharge outlet for each of said fluids, and
b. means connecting each said dispenser head outlet to a respective said valve means for dispensing fluid received therefrom.
18. In a fluid dispensing apparatus including a plurality of containers containing various fluids, and means for supporting a receptacle for receiving fluids dispensed from the containers, the combination comprisa plurality of individual flexible valve tubing members,
b. first fluid conducting means sepaately connected between individual containers and corresponding said valve tubing members for conducting the respective fluids'from the containers to the corresponding valve tubing members,
c. trap means on each of said first fluid conducting means to eliminate air within said first fluid conducting means subsequent to connection thereof with a corresponding container.
d. comb means,
e. means supporting at least a portion of each of said valve tubing members in said comb means,
f. first guide means in said comb means defining a pin channel opening adjacent and substantially perpendicularly to said supported portion of each of said valve tubing members,
g. valve pin means in each said pin channel having an end movable against said valve tubing member to close said tubing by pinching said tubing against said supporting means,
h. over-center operating means for each said valve pin including interconnected arms movable generally in one plane over center between locked and unlocked positions, and connected to said valve pin means to move said pins means simultaneously in substantially the same said plane to close said valve means by pinching said tubing against said comb means when said operating means is in said locked position and to open said valve means by releasing said tubing pinch when said operating means is in said unlocked position,
. second guide means in said comb defining a channel receiving each said operating means in laterally guided relation limiting movement of said operating means to said plane,
. a dispenser controlling card,
. valve trip means on said card,
. trigger arm means engageable by said card trip means and connected to each operating means to timed relation through said card guides and past said trigger arms to cause each said trip means thereon to trip a corresponding one of said trigger arms at a predetermined stage of the movement of said card through said card guides to open each corresponding selected said valve for a predetermined interval causing a correspondingly timed dispensing operation for each such selected valve,
0. reset means for said valves mounted adjacent said operating means to engage and move unlocked said operating means back over center to said locked positions, closing the previously opened valves,
p. means responsive to predetermined elapsed time and movement of said card past said trigger arms -for actuating said reset means,
g. substantially constant pressure air supply means,
r. an air pressure supply manifold connected to the output of said air supply means,
s. means connecting the contents of each of the fluid containers to said air pressure manifold to pressurize the container contents,
t. check valve means on each said air pressure connecting means to prevent reverse flow of the fluid contents of the respective containers back into said air pressure supply means,
u. separate fluid discharge means connected to each of said valve means to conduct the fluid released thereby to a receptacle on the receptacle supporting means, and
v. a common dispense head for the ends of said fluid discharge means adjacent the receptacle causing each fluid separately issuing into the receptacle to be discharged from a corresponding separate opening in said common dispenser head.
19. The apparatus of claim 18 wherein at least one of the containers is an inverted bottle, and further comprising bottle cap means having an outlet opening therethrough connecting with said first fluid conducting means to supply the fluid contents from said container to said conducting means for conduction to said valve means, said air check valve being within said bottle, and said bottle cap means also including connection means therethrough connecting said air pressure supply means to said check valve means within said bottle.

Claims (19)

1. Apparatus for dispensing selected mixtures of a plurality of fluids, comprising: a. a plurality of means for supplying a corresponding plurality of fluids, b. separate valve means for controlling the flow of fluid from each of said supply means, c. separate operating means for each of said valve means movable between an operating position wherein the associated said valve means are closed and a release position effecting opening of said valve means, d. said operating means each including trigger means responsive to tripping thereof to cause movement of said operating means from said operating position to said release position, e. a control card having a leading edge and having actuating means for said selected said trigger means located thereon in predetermined spaced relations with said leading edge, f. means defining a path for movement for said card in actuating relation with said trigger means, g. drive means for moving said card along said path at a predetermined rate to cause said actuating means thereon to trip predetermined said trigger means sequentially in accordance with said spaced relations of said actuating means with said leading edge of said card and thereby to effect opening of the corresponding said valve means at corresponding predetermined stages of the movement of said card along said path, and h.means responsive to a predetermined extent of movement of said card along said path for restoring all of said operating means to operating position effecting closing of all open said valve means.
2. The apparatus of claim 1 wherein each of said operating means includes an over-center locking means having a locked and an unlocked position and having a trigger lever extending therefrom adjacent the path of said movement of said card, wherein said actuating means on said card comprise projections for tripping said operating means by engaging selected said trigger levers to move corresponding selected said over-center locking means over center from said locked to said unlocked position, and wherein said resetting means is operative to move said over-center locking means back over center from said unlocked position.
3. The apparatUs of claim 1 wherein said fluid supply means comprises a plurality of fluid containers and fluid conduction means separately conducting the fluid from each said container to a corresponding said dispensing control valve.
4. The apparatus of claim 3 wherein each said fluid conduction means includes a trap to eliminate air within said means subsequent to connection with a corresponding said container.
5. The apparatus of claim 3 further comprising air pressure supply means for pressurizing the contents of each said container, and an air check valve within each of said containers to prevent back flow of the contents thereof into said air pressure supply system.
6. Apparatus for dispensing selected mixtures of a plurality of fluids, comprising: a. a plurality of means for supply a corresponding plurality of fluids, b. separate valve means for controlling the flow of fluid from each of said fluid supply means, c. each said valve means including a resilient tubing member, d. means supporting at least a portion of each of said tubing members in said apparatus, e. separate closing means for each said tubing member including a valve pin having an end movable against the corresponding said supported tubing portion to close said tubing by pinching said tubing against said supporting means, f. separate operating means for each said valve closing means movable between an operating position wherein said valve pin is moved against said tubing to pinch said tubing against said tubing support and thereby to close the associated said valve means, and a release position releasing said tubing pinch and thereby effecting opening of the associated said valve means, g. said operating means each including trigger means responsive to tripping thereof to cause movement of said operating means from said operating position to said release position, h. a control card having trigger actuating means thereon, i. means for moving said card along a path causing said trigger actuating means thereon to trip predetermined said trigger means in predetermined sequence and thereby to effect opening of the corresponding said valve means for dispensing predetermined quantities of fluid through said valve means, and j. means for restoring all of said operating means to operating position effecting closing of all open said valve means following dispensing of predetermined quantities of said fluids.
7. The apparatus of claim 6 wherein said valve pin has a radius of curvature on said tubing closing end which is substantially the same as that of the tubing outer wall rest diameter minus approximately two tubing wall thicknesses, to pinch said tubing closed by reversing the pressed portion thereof to complement the configuration of the portion opposite said pin.
8. The apparatus of claim 6 wherein each of said operating means includes an over-center locking means having a locked and an unlocked position and having a trigger lever extending therefrom for engagement by said card actuating means when brought into said engaging relation therewith, wherein said actuating means on said card comprises projections for tripping said operating means by engaging selected said trigger levers to move corresponding selected said over-center locking means over center from said locked to said unlocked position, and wherein said resetting means is operative to move said over-center locking means back over center from said unlocked position.
9. The apparatus of claim 6 wherein said fluid supply means comprises a plurality of fluid containers and fluid conduction means separately conducting the fluid from each said container to a corresponding said dispensing control valve.
10. The apparatus of claim 9 wherein each said fluid conduction means includes a trap to eliminate air within said means subsequent to connection with a corresponding said container.
11. The apparatus of claim 9 further comprising air pressure supply means for pressurizing the contenTs of each said container, and an air check valve within each of said containers to prevent back flow of the contents thereof into said air pressure supply system.
12. Apparatus for dispensing selected mixtures of a plurality of fluids, comprising: a. a plurality of means for supplying a corresponding plurality of fluids, b. separate valve means for controlling the flow of fluid from each of said fluid supply means, c. each said valve means including a resilient tubing member, d. means supporting at least a portion of each of said tubing members in said apparatus, e. separate closing means for each said tubing member including a valve pin movable lengthwise against the corresponding said supported tubing portion to close said tubing by pinching said tubing against said supporting means, f. separate operating means for each said valve closing means movable between an operating position wherein said valve pin is moved against said tubing to pinch said tubing against said tubing support and thereby to close the associated said valve means, and a release position releasing said tubing pinch and thereby effecting opening of the associated said valve means, g. said operating means each including trigger means responsive to tripping thereof to cause movement of said operating means from said operating position to said release position, h. a control card having a leading edge and having actuating means for said selected said trigger means located thereon in predetermined spaced relations with said leading edge, i. means defining a path for movement for said card in actuating relation with said trigger means, j. means for moving said card along said path at a predetermined rate to cause said actuating means thereon to trip predetermined said trigger means sequentially in accordance with said spaced relations of said actuating means with said leading edge of said card and thereby to effect opening of the corresponding said valve means at corresponding predetermined stages of the movement of said card along said path, and k. means responsive to a predetermined extent of movement of said card along said path for restoring all of said operating means to operating position effecting closing of all open said valve means.
13. The apparatus of claim 12 wherein each of said operating means includes an over-center locking means having a locked and an unlocked position and having a trigger lever extending therefrom adjacent the path of said movement of said card, wherein said actuating means on said card comprises projections for tripping said operating means by engaging selected said trigger levers to move corresponding selected said over-center locking means over center from said locked to said unlocked position, and wherein said resetting means is operative to move said over-center locking means back over center from said unlocked position.
14. The apparatus of claim 13 further comprising subassembly mounting means mounting at least said tubing support means, pin means, and over-center locking means as an easily removable and replaceable unitary subassembly in said fluid dispensing apparatus.
15. The apparatus of claim 14 further comprising comb means having said tubing support means therein, pin channel means mounting said valve pins for movement therein, and slot means for said over-center locking means movably receiving and supporting said over-center locking means therein.
16. The apparatus of claim 12 wherein said fluid supply means includes trap means to eliminate air from the fluid supplied by said fluid means.
17. The apparatus of claim 12 further comprising: a. a common dispenser head for said fluids including means defining a separate discharge outlet for each of said fluids, and b. means connecting each said dispenser head outlet to a respective said valve means for dispensing fluid received therefrom.
18. In a fluid dispensing apparatus including a plurality of containers containinG various fluids, and means for supporting a receptacle for receiving fluids dispensed from the containers, the combination comprising: a plurality of individual flexible valve tubing members, b. first fluid conducting means sepaately connected between individual containers and corresponding said valve tubing members for conducting the respective fluids from the containers to the corresponding valve tubing members, c. trap means on each of said first fluid conducting means to eliminate air within said first fluid conducting means subsequent to connection thereof with a corresponding container. d. comb means, e. means supporting at least a portion of each of said valve tubing members in said comb means, f. first guide means in said comb means defining a pin channel opening adjacent and substantially perpendicularly to said supported portion of each of said valve tubing members, g. valve pin means in each said pin channel having an end movable against said valve tubing member to close said tubing by pinching said tubing against said supporting means, h. over-center operating means for each said valve pin including interconnected arms movable generally in one plane over center between locked and unlocked positions, and connected to said valve pin means to move said pins means simultaneously in substantially the same said plane to close said valve means by pinching said tubing against said comb means when said operating means is in said locked position and to open said valve means by releasing said tubing pinch when said operating means is in said unlocked position, i. second guide means in said comb defining a channel receiving each said operating means in laterally guided relation limiting movement of said operating means to said plane, j. a dispenser controlling card, k. valve trip means on said card, l. trigger arm means engageable by said card trip means and connected to each operating means to move each said operating means independently over center from said locked position to said unlocked position upon engagement and movement of the respective said trigger arm by a corresponding said trip means on said card, m. card guide means mounted adjacent said comb for guiding said card past said trigger arms to bring said trip means into engagement therewith, n. constant speed drive means for driving said card in timed relation through said card guides and past said trigger arms to cause each said trip means thereon to trip a corresponding one of said trigger arms at a predetermined stage of the movement of said card through said card guides to open each corresponding selected said valve for a predetermined interval causing a correspondingly timed dispensing operation for each such selected valve, o. reset means for said valves mounted adjacent said operating means to engage and move unlocked said operating means back over center to said locked positions, closing the previously opened valves, p. means responsive to predetermined elapsed time and movement of said card past said trigger arms for actuating said reset means, g. substantially constant pressure air supply means, r. an air pressure supply manifold connected to the output of said air supply means, s. means connecting the contents of each of the fluid containers to said air pressure manifold to pressurize the container contents, t. check valve means on each said air pressure connecting means to prevent reverse flow of the fluid contents of the respective containers back into said air pressure supply means, u. separate fluid discharge means connected to each of said valve means to conduct the fluid released thereby to a receptacle on the receptacle supporting means, and v. a common dispense head for the ends of said fluid discharge means adjacent the receptacle causing each fluid separately issuing into the receptacle to be discharged from a corresponding separate opening in said common dispenser head.
19. The aPparatus of claim 18 wherein at least one of the containers is an inverted bottle, and further comprising bottle cap means having an outlet opening therethrough connecting with said first fluid conducting means to supply the fluid contents from said container to said conducting means for conduction to said valve means, said air check valve being within said bottle, and said bottle cap means also including connection means therethrough connecting said air pressure supply means to said check valve means within said bottle.
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