US970927A - Beer-dispensing apparatus. - Google Patents

Description

I A. D. JONES. BEER DISPENSING APPARATUS. v APPLICATION FILED JUNE 19, 1909. RENEWED JUNE I 1910.

970,927. Patented Sept. 20, 1910.

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A'. D. JONES.

BEER DISPENSING APPARATUS. APPLICATION FILED JUNE 19, 190 9. RENEWED JUNE 1, 1910. 970,927, Patented Sept. 20, 1910.

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A. 1); JONES. BEER DISPENSING APPARATUS, APPLIOATION FILED JUNE 19, 1909. RENEWED mm: 1, 1910. 97092'1 Patented Sept. 20,1910.

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970,927. Patented Sept. 20, 1910.

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BEER DISPENSING APPARATUS. APPLICATION FILED mm: 19,1909. mmwsn 1mm 1, 19m.

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ALVA D. JONES, OF LOUISVILLE, KENTUCKY, ASSIGNOR TO NATIONAL I-IYGENIC SERVICE COMPANY, OF LOUISVILLE, KENTUCKY, A CORPORATION OF KENTUCKY.

BEERJJISPENSING APPARATUS.

Patented Sept. 20, 1910.

Application filed June 19, 1909, Serial No. 503,240. Renewed June 1, 1910. Serial No. 564,457.

To all whom it may concern:

Be it known that I, ALVA D. Jones, a citizen of the United States,,residing at Louis ville, in the county of Jefferson and State of Kentucky, have invented certain new and useful Improvements in Beer Dispensing Apparatus; and I do hereby declare the following to be a full, clear, and exact description of the invention, such as will enable others skilled in the art to which it appertains to make and use the same.

This invention relates to a device for returning beer back into the kegs from the cooling coils employed in connection with dispensing apparatus, and has for its object the production of a machine that will not only save the beer that would otherwise be left in the coils over night, but at the same time to produce a machine that will not destroy the taste of the beer and one that will maintain the proper pressure on the beer although the original pressure may be decreased.

lVith these and other objects in view the invention consists in the novel details of construction and combinations of parts more fully hereinafter described and particularly pointed out in' the claims.

Referring to the accompanying drawings forming a part of this specification in which like numerals refer to like parts in all the views: Figure l is a diagrammatic elevational view of a beer dispensing apparatus made in accordance with the invention; Fig. 2 is a plan view of the multi-way valve and its connections; Fig. 3, is an elevational view partly in section of a water motor for operating the pump; Fig. fl: is a longitudinal sectional view of the multi-way valve showing the pump; Fig. 5 is a sectional view taken on the line 5-5 of Fig. 4; Fig. 6 is a like view taken on the line 66, Fig. l, with the valve in another position; Fig. 7 shows the valve plug opened out and the relative arrangement of the ports therethrough; Fig. 8 is a front elevational view partly in section, of the indicator; Fig. 9 a side elevational view of the parts shown in Fig. 8; Fig. 10 a front elevational view, partly broken away, of an automatic contact device; Fig. 11 a side elevational view, partly in section, of an electro-magnetic water cut off; Fig. 12 an end elevational view of certain parts of said out off, taken on the line 12l2 of Fig. 11; and,

Fig. 13 is a diagram of the circuits employed in said out off.

1 represents the beer supply, 2 the service pipes leading therefrom, 3 the dispensing faucets and a the cooling coils through which the beer passes before reaching said faucets.

5 represents an air or carbonic acid gas reservoir 6 a pressure gage, 7 a pipe connecting said reservoir with the manifold 8, and 9 the usual connections from the pressure supply to the surface of the beer.

As is well known at present it is customary to leave the cooling coils t full of beer over night, and it is equally well known that such beer is flat or has so lost its flavor next morning that it is generally thrown away, thus entailing a considerable loss of beer every twenty-four hours. In order to save this loss of beer there is interposed in the service pipes a multi-way alve 10, provided with an outer casing 11 having the ports 12 into which the pipes 2 are screwed, and having the ports 13 by which they leave said casing. Fitting the casing 11 is a tapered plug 11, having the ports 15 adapted to register in certain positions of said plug with the ports 12 and 13. This tapered plug 14 is provided with an extension 16, on which is secured the curved rack 17 as by the collar 18, and this rack is adapted to be turned by the worm 19 as will more fully appear below. The plug 14 is provided with a cavity 20, into which is screwed the open ended cylinder 21, provided with the piston 22 and piston rod 23, as shown.

21 is a suitable stuffing box through which the piston rod passes.

Each of the service pipes 2 is provided with a connection 25 which is joined to the ports 26 in the casing 11, and said pipes 2 are also each provided with connections 27 which are connected with the ports 28 in the casing 11, as illustrated. The plug 11 is provided with ports 29 adapted to register with the ports 26, and is also provided with ports 30 adapted to register with the ports 28 when the plug is in a certain position. The ports 29 and 30 open into the cavity 20 and therefore connect with the open end of the cylinder 21. When the plug is in the .position shown in Fig. 5, it is evident that beer can flow from the upper sections of the pipes 2 through the connections 25, through ports 26 and 29 into the cavity 20, out of the ports 30 and 28 through the connections 27 and back into the lower sections of the pipes 2. It is also evident that if the piston 22 is reciprocated and there is beer in the coils 4 while the faucets 3 are open that the said beer will be sucked into the cylinder 21 through said connections 25 and forced out of said cylinder through said connections 27 and pipes 2 back into the kegs. The cas ing 11 is further provided with a port 32 into which screws the pipe 33 connected to the tee 34 provided with the check valves 36 and 37. The check valve 36 communicates with the atmosphere through the connection 38, and the check valve 37 connects with the reservoir 5 through the pipe 39. It is evident that when the pump is operated air will be sucked into the cylinder 21 through the connection 38, and ports 32 and 32' and forced under pressure into the reservoir 5 through the pipe 39.

40 represents a water supply connected with the port 41, in the casing 11, and 42 represents a tee connecting with the port 43 in said casing. The tee 42 is provided with branches 44 connecting with the service pipes 2, as shown. The plug 14 is provided. with a port 45 adapted to register with the port 41, and also with the port 46 adapted to register with the port 43, when the plug is turned as indicated by the arrow in Fig. 5. \Vhen the said ports 41 and 45 and 43 and 46 do register, water will enter the cylinder 21 and be forced by the piston 22 through the connections 44 to and through the pipes 2 and faucets 3, as will be readily understood. The said water supply 40 is also connected with a supply 50 of cleansing medium and is also provided with a check valve 51. Therefore, when the pump is operated water and cleansing medium may be sucked into said pump and forced out through the service pipes, coils, and faucets.

represents connections between the service pipes 2 and the tee 57, entering the port 56 of the casing 11; and 58 represents a drain pipe entering the port 59 of the casing 11. As the pump reciprocates the water that is forced upwardly through the connections 44 and pipes 2, may be sucked back through the connections 55 and forced out of the drain 58, provided the plug 14 is turned to bring the proper ports into register. The connections 44 are provided with suitable check valves 60 and the connections 55 are also provided with like but oppositely set valves 61, and the drain 58 is provided with a suitable check valve 62 to insure the proper operation of the parts.

The various operations above described briefly will take place only when the proper ports are brought into register. In order to accomplish this, the worm 19 is provided with a rod provided with a hand wheel 71, keyed at 72 to said rod. Said rod rceives in a screw threaded socket 7 3, a screw threaded stem 74 provided on its upper end with an oif set rack 74, engaging the pinion 7 5, carrying the pointer 76, playing over the dial 77, provided with the divisions 78 one for each position of the plug 14. The hand wheel 71 rests upon the stationary support 79 for the dial 77, and therefore when said wheel is turned the rod 70 will be turned, and the stem 74 forced up or down, thereby compelling the pointer 76 to assume a corresponding position on the dial 77. The gears 17, 19, are so proportioned that when the pointer 76 indicates a certain division 78 of the dial, the service pipes 2, 2, will be in communication with the bar as indicated in Fig. 4, and when the hand wheel is so turned that another division is indicated, another set of ports, say 26 and 29, 28 and 30, will be brought into register. Each division 78 is appropriately lettered to indicate the particular set of ports that are in register when the pointer 76 indicates the division in question.

As above stated when the ports 32 and 32 (Figs. 4 and 7) are in register and the pump is operated air will be forced into the reservoir 5. But it is desirable to provide an automatic cut off for the pump, which will not only stop the operation thereof when the pressure gets too high, but will also start its operation when the pressure in the reservoir falls below a predetermined point. To these ends there is attached to the pipe 39 a connection 80 joined to a well known type of Bourdon pressure indicating device 81, but having the cross bar82 provided with the contacts 83 and 84, all as will be readily understood from Figs. 1, 10, and 13.

100 represents any suitable source of current, 86 and 87, suitable electromagnets, 88 and 89, armatures for the same, and 90 a water supply for the motor controlled by said armatures, as will be presently explained.

91 represents a rod connecting the armature 88 with the lever 92, making contact at 93, and 94 represents a connection between the armature 89 and the lever 95 making contact at 96. The armature 89 also controls the water supply 90 through the connection 97 with the valve 98, and therefore controls the starting and stopping of the motor, as will now appear.

hen the pressure in the reservoir gets too high the air will enter the Bourdon tube 81 through the connection 80 and tend to straighten out said tube. This will cause the circuit to be made at 84, and current will flow from the source 100 through the wire 101, contact 84, wires 102, 103, contacts 93 and 92, wire 104, magnet 87, and wire 105 back to the source 100. This will cause the armature 89 to be attracted, the valve 98 to be seated, and the contacts 95, 96 to be closed. The closing of this valve will also permit the armature 88 to fall down behind the lug 106 carried by the rod 97 and to lock said valve closed against the pressure of the water in the pipe 90, see Fig. 11. The springs 107, surrounding the pins 108 carried by the armature 88 assist in this locking movement, while the connection 91 forces open the contacts 92 and 93. The water will now remain cut off and the pump stopped until the reduction of pressure in the reservoir 5, permits the contact 83 to close its circuit, when current will flow from the source 100 through the wire 101, contact 83, wire 110, contacts 95, 96, now closed, magnet 86, wire 111, and back to source 100 over wire 105. The passage of a current through the magnet 87 over the circuit first described, will cause the armature 88 to be retracted into the position shown in Fig. 13 and the valve 98 to be unlocked, whereupon the pressure of water in the pipe 90 will force said valve open, carrying the armature 89 with it and therefore, open the contacts 95 and 96. In the meantime the contacts 92, 93 are remade, and the parts are again in the position shown in Fig. 13, ready to have the cycle of operations repeated. It will be observed that no matter which position the parts may be in, that as soon as the water has been turned on, or turned off, the current is also automatically cut off, so that no waste occurs. hen the water passes the valve 98 it enters the pipe 115 and passes into the valve chamber 116 of the pump, from which it flows past the valve 117 into the channel 118 and into the pump cylinder 119, where it forces the piston 120 in the direction of the arrow, Fig. 3. The piston rod 23 carries a lug 122, adapted as it reciprocates to strike the tappets 123 and 124 on the pivoted lever 125, provided with the pointed projection 126, taking against the spring pressed latch 127. IVhen the water has forced the piston and lug 122 to their extreme position in the direction shown, the tappet 123 will be struck, the lever 125 turned, the point 130 of the projection 126 brought slightly beyond the point 131 of the latch 127, whereupon the spring 132 will force the latch upwardly and force the lever 125 over into the dotted line position. The projection 126 is connected through the rod 135 with the valves 117 and 136 and therefore when the lever assumes its dotted line position the valve 117 will be closed and the valve 136 opened. This will permit the water to flow through the channel 137 to the other side of the piston 120 and the same will move in a direction opposite to that of the arrow until the tappet 124 is struck by the lug 122 when the reverse oper ation takes place. In other words the piston rod 23 will continue to reciprocate as long as water under pressure is admitted to the valve chamber 116. In practice it is found desirable to employ a duplicate valved chamber, not shown, and to permit the water from the cylinder 119 to flow out of the several chambers into a waste pipe such as 121, all as is well known to those conversant with water motors. The piston rod 23 will in turn, of course, reciprocate the piston 22 of the beer pump so long as the air pressure in the reservoir 5 is suflicientl low to close the contact 83, provided the circuit is closed at the switch 140.

The operation of this invention will be clear from the foregoing but may be briefly summarized as follows: Of course as many kegs 1 and as many kinds of beverages may be employed as desired, two being illus* trated by way of example only, and when it is desired to serve such beverages the hand wheel 71 is turned until the pointer 76 designates the division 78 marked Service daily, when a port 15 for each kind of bev erage served will be brought into communi cation with its corresponding service pipe 2, and as many faucets 3 as there are service pipes will be supplied, each with their ap* propriate beverage, all as is well known. hen the bar is to be closed, however, and it is desired to save the respective beverages with which the various cooling coils 4: are filled, the hand wheel is turned until the pointer designates the division 78 marked say Return light beer, which will bring the ports 26, 29, and 30, 28, into line when the current switch 110 being normally closed and the pressure in the reservoir 5 being at about the normal the motor will start which in turn will force the beer pump into action. The latter will thereupon suck such beer through the appropriate pipe 2, and branch connections 25, into the cylinder 21, and the piston 22 will force the same out through the connections 27, and lower pipe 2, to the proper keg. In the same way by turning the hand wheel to the next position in which the pointer will be brought to thedivision marked Return dark beer, the same will be returned through its appropriate connections 25, 27 to'its proper keg. It will be observed that the ports 29 are angularly offset in Figs. 5 and 7, to permit these separate operations; and as the connections are entirely separate there is no mixing of the beverages in the pipes themselves during the said operations. A further turning of the hand wheel cuts off all connections with the beer supplies and brings the drain coils into connection which permits the beer in the cooling coils to be drained out through the pipe 58 into a sewer if desired, or if water or cleansing fluid is in said coils the same will be likewise led to the sewer. A further turning of the hand wheel will bring the cleaning ports into communication and cleaning fluid will pass through the pipes and coils, and out of the faucets or it may be passed from said coils into the sewer, as above described. Lastly, if the hand wheel is turned still further the ports 32 and 32 will be brought into register and the beer pump will force air into the reservoir until the pressure gets above a predetermined point, when the electric cut off described above will automatically stop the said pump. At any time should the gas pressure in the kegs fall below that which is necessary to force all the beer to the bar, the air pressure in the reservoir 5 will exert its influence and therefore, cause the last portions of beer to be discharged. A reducing valve 150 controls the pressure actually delivered to the kegs.

In the operations above described it was supposed that the pressure in the tank 5 was sufliciently low to cause the water motor to run. If such pressure is too high for this purpose, which will be indicated on the gage 6, said pressure may be readily reduced to the required point by simply turning any suitable cock as 151 and permitting some of the air to escape.

It is obvious that changes in the details of construction and arrangement of parts may be made by those skilled in the art without departing from the spirit of this invention and, therefore, I do not wish to be limited to such features except as may be required by the claims.

That I claim as my invention is:

1. In a beverage dispensing apparatus the combination of a suitable supply; a service pipe and cooling coil connected therewith; a multiway valve and a pump connected with said cooling coil and adapted to suck beer out of said coil and force the same into said supply; and automatic means for controlling said pump, substantially as described.

2. In a beverage dispensing apparatus the combination of a suitable supply; a service pipe and cooling coil connected therewith; a multiway valve and a pump in said valve connected with said cooling coil and adapted to suck beer out of said coil and force the same into said supply; a motor for said pump; and an automatic means for con trolling said pump and motor; substantially as described.

8., In a beverage dispensing apparatus the combination of a multiway valve; a pump in said valve; a hand wheel; gear connections between said hand wheel and valve; and connections leading from said valve to a source of supply, substantially as described.

4. In a beverage dispensing apparatus the combination of a multiway valve; a pump in said valve; a hand wheel; an indicator operated by said wheel; gear connections between said wheel and valve; a motor for operating said pump; means for automatically controlling said motor; and connections leading from said valve to a source of supply, substantially as described.

5. In a beer dispensing apparatus the combination of a source of supply; a bar;

. as described.

6. In a beer dispensing apparatus the combination of a source of supply; a bar; connections between said source of supply and bar; a multiway valve in said connections; a pump in said multiway valve; a hand wheel connected with said valve; an indicator operated by said wheel; a motor for said pump; an electromagnetic controller for said motor; an air reservoir connected to said pump and Valve and connected to said controller; and a source of cleansing fluid connected to said valve and pump; substantially as described.

7. In a beer dispensing apparatus the combination of a multiway valve; a service pipe connected therewith; a pump in said valve; and branch connections between said pipe and said valve and communicating with said pump, substantially as described.

8. In a beer dispensing apparatus the combination of a multiway valve; a service pipe connected therewith; a pump in said valve; branch connections between said pipe and said valve and communicating with said pump; a motor for said pump; and automatic means for controlling said motor; substantially as described.

9. In a beer dispensing apparatus the combination of a multiway valve provided.

vwith a solid portion and a hollow portion;

a service pipe connected through said solid portion; a pump located in said hollow portion; means to rotate said valve; an inclicator operated by said means; and connections between said pipe and said hollow portion and pump; substantially as described.

10. In a beer dispensing apparatus the combination of a multiway valve; a pump in said valve; a gear connection for rotating said valve; and automatic means for controlling said pump; substantially as described.

11. In a beer dispensing apparatus the combination of a multiway valve; a pump in said valve; an air reservoir; connections between said pump and reservoir; gear connections for rotating said valve; and automatic means for controlling said pump; substantially as described.

arose? a 12 In a beer dispensing apparatus the combination of a multiway valve; a pump in said valve; an air reservoir; connections between said pump and reservoir; gear connections for rotating said valve; a motor for said pump; a water supply for said motor; and automatic means connected to said reservoir for controlling said motor and pump substantially as described.

18. In a beer dispensing apparatus the combination of a multiway valve; a pump in said valve; service pipes connected to said valve; branch connections between said pipes and said pump; gear connections for operating said valve; a source of beer supply; an air reservoir; connections between said pump and said air reservoir; connections between said beer supply and said reservoir; and an automatic controller for said pump connected to said reservoir; substantially as described.

14. In a beer dispensing apparatus, the combination of a valve; gear connections comprising a hand wheel for operating said valve; and an indicator operated by said wheel comprising a reciprocating rack; a pinion geared therewith; and a pointer connected with said pinion; substantially as described.

In testimony whereof, I afiix my signature, in presence of two witnesses.

ALVA D. JONES.

Witnesses:

C. O. Tron SALLIE BROWN.

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