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Publication numberUS2573888 A
Publication typeGrant
Publication dateNov 6, 1951
Filing dateJul 29, 1947
Priority dateJul 29, 1947
Publication numberUS 2573888 A, US 2573888A, US-A-2573888, US2573888 A, US2573888A
InventorsBenjamin Samuel C, Joseph Benjamin
Original AssigneeBenjamin Samuel C, Joseph Benjamin
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Beverage dispensing apparatus
US 2573888 A
Abstract  available in
Previous page
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Claims  available in
Description  (OCR text may contain errors)

Nov. 6, 1951 Filed July 29, 194'? S. C. BENJAMIN ETAL BEVERAGE DISPENSING APPARATUS 2 SHEETS--Sl-IEET l NOV- 5, 1951 s. c. BENJAMIN ErAL 2,573,888

BEVERAGE DISPENSING APPARATUS Filed July 29, 1947 2 SHEETS-SHEET 2 Patented Nov. 6, 1951 UNITED :Samuela Benjamin and Iiselh Benjamin,

This invention relates to la beverage dispense me apparatus and 't an improved faucet tile# fore. One of the objects of thisinvention is' vide ali-improved .mechanism fr amati' "i Valves.

Another Vf )bject Vis to provide an o improved faucet to be selectively operated to discharge a single liquid such as charged water, or to mix and dispense a plurality of`lic1'u'd ingredients'simul-temeva?! ,Such as a Syrup 'and char' w" 119thldffwnrpm''inepndht Supply s0 .AlO-thcr object is vto provide .an improved pensipgappar tushavirig alfauce't wh, letti1/1y lrated to dispense a ligt! d 'S11 h @named water alone or ,in .combinata wir one 4'of rtwo `other .liqids siic'h as Syrups.

Another Aobject to '.pr'ovfde an improved fancetl'havng a nozzle whichwill out o i the '116W of .the liquid, -such as syrup, immediately upon release 2of ithe .actuating member, 'and elimn" 'e dripping @if 'the liquid "from the nozzle, and ijus'table means ito varythe flow of 'tliefligurd said nozzle.

Anotherobject istoprcvide anlimprovedno 'ale for dispensing charged wateryfor varying the now .of 'the liquid, lfor lreducing 'the jglojbl'lfle'sV O f the .Chai-gadgets so-thai when 'me 'charged and syrup are mixed they Wll 'be `c'liirned thoroughly interIrXed.

Another .object -is to provide 'a 'faucet mltaleolls'lyspens'lg Gha'ged Waite? syrup, withthedharge'd W'a't'e'r continu n'gto OW slightly longer "thaithe syrup.

Another object is to .provide 'a A faucet 'wherein correct vpro''pornorial amounts 'or .'syrup and charged water areiinterm-ixed 1in each pera on WhChiS adjustable sQ'thatth/ef la f portions can `b`e varied desired.

Another object Vis to 'provide fa jsyriip I which Yeliriiinates "the dripping ofithejsfyrupthe fau'cet has 'been closed, and enables` r charged water Lto be Vv,nimiediately 'dispensed from the [charged Vwater faucet into ja" Aking tumbler, without anyofthe s yriip 'drzppn'glh--fre in anduiscioringihecharged v vatei. yIn the drawings: Fg- 151s a Sideflevational view Qf .thelisnenseri Fig. 2 'is Va front elevational lvie-w o'f s'afmc` AFig.'3 is a cross sectional view of the handle adlvalv mehanismztaken 011 'lille` and showing the .syrupfcontrl mechan fFfig. f1 'is fa-prossseet@ i 4 .4 -9f it, shewmg the water mtr @faire 7643496 @maining receptacles ,is and z 0, and each has a tnr ded ,tube 'portion 21 iwhi'ch'is connected by p injgimember 2 2 "to 'the tubular conduit 2 3, in turn lthreadedly 'secured 'to the dispensing faucet, generally indicated at 1214; and 'forming a passageway "for the syrup fromthe receptacles 'to tneiaucetp Both receptacles are similarly'connehcted on the opposite .sidesof the -faucet and by gravity 'feed 1th,@ syrup to said faucet. The top `lf2 has a pair of openings H, one over each of the receptacles through which the .syrup *is ponred. Removable covers I3 cover the openings. The dispensing faucet '24 is 'anchored 'by bolts and `n`111`ts`25`t0 .the `front wall I4.' The disp :nsin'g faucet `comprises-a m'ain body portion 2 6, formed preferably of a single or solid piece of metal, hav'- ing'apair 'of sides`21 extendingupwardly beyond "the top 'of )the body portion and between'which are rockably mounted on a pin 28 'the three actu'ating 'members 2-9, '30 and .31, best shown in Fig. 5; VThe center member 30 has opDQsitely i extending :lips 32 which form aninvertedT shape ameter than the bore 31o to provide spaceor passageway 48 therebetween for passage of the syrup, to be described. The valve 46 has a slotv I1 against which the washer 41 seats to provide a seal tight` fit for the valve 46. The valve has -a smaller divv is constricted and supports a ring 19, having a plurality of inwardly directed projections or teeth 80 which direct the stream in a straight line.

The operation of this construction will now be described. A

When the center handle 35 is moved forwardly,

the actuating member 30 will pivot forwardly on the pin 28 engaging the head 56 and depressing the valve stem 55. The two actuating members p29 and 3I will not be effected but will remain in theirl normal elevated position. When the valve stem 55is'depressed, the valve 58 is moved down- 49 for engagement by a screwdriver 'for -adjusting the valve and stem.

The lower portion of the bore 31b is to receive a tubular non-drip nozzle 50, having a bore 5| and an enlarged lower bore 52'. An adjustable needle valve 53 is transversely positioned with respect to the boreand'is spaced fromthe bottom of the nozzle to permit the proper flow of syrup. The two syrup control mechanisms positioned 'on the opposite sides are identical in construction and operation.

The valve mechanism for controlling thedispensing of the charged water is shown in Fig. 4 and is substantially similar to the syrup faucet valve mechanism 4I. The bore 38 communicates with a reduced bore 38a and an enlarged bore 38h. The valve operating mechanism, generally indicated at 54, includes a valve stem 55 having a head 56 which slides in the bore 38 and is held in its raised position'by a coil spring 51 which rests on washers I5, greater in number than the washers 45, to provide more tension for the spring and provide a slightly delayed closing action for the valve 58 with respect to the valve 46. The stem supports a valve 58 which is adjustable and a washer 59 which seats against the raised surface I9 to provide a sealV tight i'lt, similar to the syrup control valve.

Communicating with the bore 38b is a transverse opening 60 internally threaded to receive a threaded pipe 6| which is connected by acoupling member 62 to a conduit 63, in turn 'cone nected to a reduction valve 64. Connected to the other end of the reduction valve is a conduit 65 leading from a tank of charged water or other water (not shown). A threaded plug 66 closes the bottom of the bore 38o. The reduction valve acts to reduce the pressure from between 180 and 120 lbs. to 90 lbs. Communicating with the vertical bore 38a is a horizontal bore or passageway 61 which communicates with a vertical passageway 68 having an enlarged internally threaded portion 69, to which is threaded a valve body 10 having an externally threaded portion 1I and an internal bore 12. Threadedly secured to said valve body is a hollow cap 13. Fitting within the bore 12 is the stem portion 14 of the valve 15.'` A spring 16 is interposed between the valve head and the bottom of the cap to seat the valve head and urge it against the valve body 13, to close the bore 12. The cap 13 has a plurality of small apertures 11 spaced around the cap through which the charged water is dispensed. As will be clearly seen in Fig. 2, the water discharge member is positioned between the two syrup outlets. A nozzle 18 is threadedly secured to the base of the main body 26 and serves as a mixing wardly, opening the entrance to the bore 38a and allowing the charged water to pass under pressure from the opening 68 into the bore 38h, through the vertical bore 38a, the horizontal bore 61, and down the vertical bore 68. The pressure threaded willV cause the stem 14 to move downwardly unseating thevalve 15 and opening the entrance into-bore 12,l and the water will pass around the stem 14, around the valve head 15 and into the hollow cap 13 and through the port openings 11A into the mixing chamber 18 and through the nozzle 80. When the hand is removed'from the handle 35, the spring 51 will move the valve stem 55 back to its original position, and the actuating member 38 will likewise be pivoted back to its original position.

Adjustment of the ,cap V13 Vwith respect to the valve body 10 will determine the rate of flow as Well as the size of spray of the chargedwater. With the cap screwed in to its limit, as shown in Fig. 4, the spring 16 holdsthe valve head 15 tightly under vpressure against the underside of the valve body 10. As the charged water moves to unseat the valve head 15, a homogenizing action takes place as the water passes from between the bottom of the Valve body Vand the valve head, reducing the size of the globules of the CO2 gas to smaller dimensions, as well as restricting or retarding,Y the rate of ow of the water. The charged water passing through the ports 11 in the form of Va ne sprayY or stream which mixes with the syrup from the nozzle 58 in the mixing chamber 18, churns it up to get an even flavor throughoutv as it leaves the nozzle 88. By unscrewing the cap somewhat from that shown in chamber when syrup and water are simultaneously discharged; The lower end of the-nozzle Fig. 4 and reducing the pressure on the valve 15, the rate of iiow of the charged water is increased as is also the size of the globules of the CO2 gas. This cap can` be adjusted with respect to the valve head 48, to vdetermine the proper quantity of syrup with respect to charged water.

If it is desired to dispense one of the Syrups simultaneously with the charged water, then either one of thejhandles 34 or 36 (dependent on the Vsyrup desired) is movedforwardly. Assuming the handle 34 is moved, the actuating member 29 is pivoted forwardly,'and being in engagement with the lip 32 of themember 30, will simultaneously pivot the center actuating member 30 downwardly, causing both valve stems 43 and 55 to be simultaneously depressed. With a depression of the valve stem 55, the action previously described takes place. As the valve stem 43 vis depressed, moving the valve 46 away from the top of the bore k311), the Vsyrup in the container I8 (or 20) will flow by gravity from the syrup container through the conduit 23 into the bore 31a, andY through thespace 48 around the valve 46 and down past the needle valve 53 and through the non-,drip nozzle 5I)k into the mixing chamber 18,-where it is Ymixed with the charged water simultaneously coming from the apertures 11 rand asians the closingof the valve '58, thus closing the flow of Vsyrup prior'to the closing o`f 'the-charged water and permitting the charged water to flow Slightly longer than the syrup, cleaning `out any syrup that might be in the mixing chamber.

The needle valve 53 is adjustable to lregulate the flow of the syrup and is adjustable with respect to the valve l to determine the amount and quantity of syrup with respect to chargedk water to be dispensed. The needle valve 53 is spaced from the bottom of the bore 5|' so that as the flow of the syrup is interrupted by the needle valve, the ow will right itself before it leaves the bore 5|. The end of the nozzle represented by the bore section 52 acts as a shield for the flow of the syrup coming from the nozzle and serves to maintain the vacuum in the syrup nozzle. The action is as follows: When the valve head 42 moves upwardly after the handle has been released, pulling up the valve 46, it causes a suction in the bore 31h and creates a vacuum therein, and any syrup in the bore 5l will be trapped and held as a mass in bore 5I by this vacuum, thereby eliminating any dripping of the syrup when the handle is operated to cut the flow of syrup. When the handle is again operated and the valve 46 is unseated, the vacuum is broken and the syrup trapped in the bore will discharge into the mixing chamber and the flow will continue from the syrup receptacle by gravity.

In Figs. 6 and 7 are shown modications of a handle operating mechanism which is constructed to control the flow of one syrup in combination with charged water or charged water alone. The valve operating mechanism and other parts are identical in construction and operation to that described in connection with the syrup and charged water control members. In this modied construction however, there would be only one valve mechanism like that designated generally by the numeral 4| for controlling the syrup and one for controlling the discharge of water, like that designated generally by the numeral 54, hence only the construction of the actuating members will be described,

The actuating member 85 is shaped to provide cammed or 01T center surfaces 81 and 88 on both sides of the center 86, so that the valve operating member 89, which controls the flow of charged water, is depressed when the actuating member is rocked either forwardly or rearwardly. A cutout 90 is provided so that the syrup control member 9| is not engaged or actuated when the actuating member is moved forwardly, but will be engaged and depressed when the actuating member is rocked rearwardly. Thus the following action ensues. When the handle is moved forwardly, charged water is dispensed, when moved rearwardly charged water and syrup is dispensed. Y

We claim:

1. A beverage dispensing faucet comprising a pair of syrup control valves and a charged water control valve, an, actuating member for each of `said valves the outside',actuating members each operating a, syrup control valve, the center actuating member operating said water control, valve and having apair of lips, the Voutside actuating members' having recesses lfor saidk lips soy that when the center actuating member is operated it lwill,` only operate the water control valve, and whenbeither one of said outside actuating members are operated they will simultaneously operatethecenter actuating member. y

2. A dispensing device comprising aA plurality of actuating members, one. operating a4 charged Water control mechanism, the other a syrupcontrol-mechanism simultaneously with said charged Water control mechanism, a `syrup dispensing noz- .and suspending or trapping thesyrup in said nozzle.

3.A dispensing device comprising a 'syrupcontrol'va'lve, an Yactuating memberfor operating said syrupcontrol valve to control the 'ow of the syrup, a nozzle below said valve and adapted when, said valve is closed to contain a vacuum therein to suspend in mass the liquid between the end of the nozzle and the valve.

4. A dispensing device comprising a plurality of actuating members, a charged water control valve and a syrup control valve operated by said members, a non-drip nozzle on the end of said syrup control valve and adapted to prevent the dripping of the liquid after the valve is closed, a dispensing outlet for said charged water control valve, said outlet including an adjustable cap with a plurality of apertures, a valve operable in said cap and adapted to control the flow of the fluid into said cap, and a mixng chamber for receiving the fluids from each of said valves.

5. In a dispensing device comprising an actuating member, a syrup discharge control valve and ya water discharge control valve, said actuating member when moved in one direction operating said water discharge control valve and when moved in the opposite direction operating said syrup and water discharge control valves simultaneously, a syrup dispensing nozzle, means for creating a vacuum in said nozzle and suspending the syrup in said nozzle.

6. A beverage dispensing faucet comprising a syrup control valve and a charged water control valve, means for actuating said charged water control valve individually and :for actuating said valve simultaneously with said syrup control valve, a syrup dispensing nozzle, means for creating a vacuum in said nozzle and suspending the syrup in said nozzle.

7. A dispensing faucet for charged water comprising a valve, means for actuating said valve, another valve unit comprising a valve body, a valve head, an adjustable cap, and a spring interposed between the valve head and cap to maintain the valve head under pressure against the valve body, the charged water passing through said first mentioned valve causing the said valve head to move away from said valve body, said Water being homogenized as it passes between the valve body and valve head, said homogenized water passing through openings in said cap.

8. A dispensing unit for dispensing syrup and charged water comprising an actuating member for simultaneously operating syrup and charged water control mechanism, said syrup control mechanism including a valve member, a nozzle extending downwardly therefrom and communisaid valve is closed to trap the syrup in eating with a mixing chamber, said charged Water control mechanism also dispensing charged water into said mixing chamber to be mixed with said syrup, said actuating member when operated to closing position, rst closing the syrup control valve and producing a vacuum in said nozzle to trap the syrup therein and stop the flow thereof, the charged Water control valve closing subsequently and permitting the charged water to continue to ow slightly longer than the flow of the syrup and cleaning out any syrup in the mixing chamber.

9. `Asyrup dispensing faucet including abore, a valve stem having a head slideable-insaid bore, means .for actuating said valve stem, avalve on the opposite end 'of said stem, anozzle'for the passage of the syrup, an adjustable needle valve spaced from the bottom off said nozzle to regulate and to right the now of the syrup, said nozzle having a vacuum created therein when said nozzle.


'REFERENCES CITED 4The following references are of lrecordY in the le of this patent: UNITED. STATES PAIEI'S:

NumberV Name Date 1,196,520`Y Chadwick Aug. 29, 1916 1,225,650" s Koenig Feb. 10, 1925 1,592,744 Popendry July 13, 1926 1,603,082 JacobsV Oct. 12, 1926 2,160,983 Painter June 6, 1939 2,371,432 De Pietro Mar. 13, 1945 2,415,571 Yuza Feb. 11, 1947 FOREIGN PATENTS Number Y l Country Date 197,136 Great Britain May 10, 1923

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Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US2692616 *Nov 26, 1951Oct 26, 1954Carl GlassenhartBeverage dispensing valve
US2855958 *Sep 30, 1953Oct 14, 1958Carbonic Dispenser IncValve for dispensing carbonated and non-carbonated beverages
US2934243 *May 7, 1958Apr 26, 1960Stanley Knight CorpDispensing apparatus
US2980140 *May 6, 1958Apr 18, 1961Mcmillan Charles DLiquid mixing valve structure
US3048195 *Jul 7, 1959Aug 7, 1962Louis GottliebCarbonated beverage dispensing apparatus
US3088490 *Apr 23, 1959May 7, 1963Tea Council Of The United StatValve assembly including actuating mechanism therefor
US3168914 *May 18, 1962Feb 9, 1965Brown James RApparatus for providing hot and cold beverages and for selectively dispensing same in motor vehicles
US4711374 *Sep 16, 1986Dec 8, 1987The Coca-Cola CompanyLow-cost post-mix beverage dispenser and syrup supply system therefor
US4741355 *Dec 9, 1985May 3, 1988The Coca-Cola CompanyLow cost beverage dispenser valve assembly
US5058768 *Nov 13, 1990Oct 22, 1991Fountain Technologies, Inc.Methods and apparatus for dispensing plural fluids in a precise proportion
US5388725 *Nov 24, 1993Feb 14, 1995Fountain Fresh InternationalFluid-driven apparatus for dispensing plural fluids in a precise proportion
U.S. Classification222/145.5, 137/625, 137/637, 222/129, 251/263, 137/607, 251/155
International ClassificationB67D1/00
Cooperative ClassificationB67D1/0083
European ClassificationB67D1/00H8B2