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Publication numberUS1126662 A
Publication typeGrant
Publication dateJan 26, 1915
Filing dateJul 9, 1913
Priority dateJul 9, 1913
Publication numberUS 1126662 A, US 1126662A, US-A-1126662, US1126662 A, US1126662A
InventorsMartin Stuehler
Original AssigneeMartin Stuehler
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Apparatus for carbonating liquids.
US 1126662 A
Abstract  available in
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Claims  available in
Description  (OCR text may contain errors)

M. sT'tiHLBR. APPARATUS FOR'GARBONATI NG LIQUIDS. APPLIOATION FILED JULY 9. 1913.

1,126,662. Patented Jan 26, 1915.

THE NORRIS PETERS CO, PHOTG-LITHQ' WASHINGTON; D. C.

MARTIN srt'rrrnna, or COLOGNE, GERMANY.

APPARATUS FOR CARBONATING LIQUIDS.

Specification of Letters Patent.

Patented Jan. 26, 1915.

Application filed July 9, 1913. Serial No. 778,048.

To all whom it may concern.-

Be it known that I, MARTIN S'rt'IHLER, a citizen of the German Empire, and residing at Cologne-on-the-Rhine, Germany, have invented. certain new and useful Improvements in Apparatus for Carbonating Liquids, of which the following is a specification.

My invention relates to a device for automatically producing, and for directly discharging for retail purposes, liquids containing carbonic acid, 2'. e. carbonated, or the so-called aerated, liquids, the unabsorbed gases being utilized as the actuating medium.

A primary object of my invention is to provide a device, which, in so far as it is provided with the necessary uncarbonated water, automatically produces aerated drinks quite independently of the pressure of a water-supply, and delivers these drinks directly to the glass or vessel of the person desirous of partaking of them. The said device comprises a piston-member whose stroke in one direction is brought about by the full pressure of the gases, and in the reverse direction by the expansion pressure of them. a

To this and other ends, my invention consists in the construction, arrangement and combination of parts described hereinafter and pointed out in the claim.

One embodiment of my invention is illustrated by way of example in the accompanying drawing, wherein-- Figures 1 to 4: are diagrammatic vertical sections of the device, and for the sake of clearness, the valves of the device are shown as spigot-cocks and all the connecting ducts are shown in one plane.

In this drawing: Fig. 1 shows the beginning and Fig. 2 the continuation of the downward, full-pressure stroke; Fig. 3 shows the position of the parts for allowing the gas above the piston to expand and act on the supply of liquid to be carbonated, and Fig. 4: shows the piston-member on its upward stroke.

Referring to the drawing, the uncarbonated water cylinder 8 is connected to the larger, aerated-water cylinder 20 by means of an annular intermediate wall 6, the whole thus constituting a difierential cylinder system; the uncarbonated water piston 9 is connected to the larger, aerated-water piston 21 by means of a common piston rod 7 this Whole thus constituting a differential piston system. From the uncarbonated water cylinder the duct 1 1 runs downwardly to the mixing vessel 16 which is provided at its upper end with a nozzle 40 and in 'its cylindrical portion with an inside vessel 41, the latter having two opposite apertures 42. At the upper portion of the mixing vessel is also arranged a supply pipe 15 for the carbonic acid gas and, at the lower portion of this vessel, a pipe 17 is connected which runs to the aerated-water cylinder, and which is employed partly for the prepared aerated Water and partly for carbonic acid gas. Moreover, a closed reservoir 46, which receives the uncarbonated water, is fitted below with a pipe 11 running to the uncarbonated water cylinder, and above not only with a pipe 44:, which, coming from the aerated-water cylinder is fitted with a nonreturn valve 15 but also with an inlet 17 for filling purposes which is securely closed. All the ducts and pipes except the inlet duct 15 for the carbonic acid gas can be alternately opened and closed by means of two multiple-Way cocks 2, 18, which control the differential piston system. These two cocks are operatively coupled by means of parallel cranks 2'7 and a bar,28, and can therefore be simultaneously actuated by a handle 29. The three-way cock 2 connects the uncarbonated water cylinder 8 alternately with the mixing vessel 16 or with the reservoir 4:6. The four-way cook 18 connects the aerated-water cylinder 20 alternately either with the mixing vessel 16, or with the reservoir 16, or with the discharge duct 19. In the lowest and front portion of the aeratedwater cylinder, a circular aperture 39 is arranged in order, firstly, that air can be admitted or expelled when the volume of the chamber between the pistons changes owing to movements of the latter, secondly, that liquid can escape which possibly leaks past the pistons, and thirdly, that the piston may be seen from outside when it reaches its lowest position.

The mode of operation of the device is as follows: When the handle is placed in its depressed position, as seen in Fig. 1, the

downward, full-pressure stroke of the pistons begins. The three-way cock 2 has closed the reservoir water-pipe l1 and connected the uncarbonated water cylinder 8 with the,

mixing vessel 16. The four-way cook 18 has closed both the discharge duct 19 and the reservoir gas-pipe 4A, and has connected the mixing vessel 16 with the aerated-water cylinder 20. Both the mixing vessel and the aerated-water cylinder have the full pressure of the carbonic acid gas, and this pressure also prevails in the uncarbonatedwater cylinder. Since however the area ofthe upper piston is greater than that of the lower one, the piston-member will move, and, owing to the resistance of the nozzle 40,,will produce in, the uncarbonated water cylinder a pressure which is higher than the full pressure of the carbonic acid gas, the value of this higher pressure being determinable from the ratio ofthe areas of the pistons after due deduction is made-for friction. The uncarbonated water therefore enters the mixing vessel, issues from the nozzle 40 in the form of a jet, whereby this water becomes saturated in the inside vessel l1. On the handle being first moved intothe said position any solid aerated water at the bottom of the mixing vessel, 2'. e. the remainder of that water which was completely saturated when the previous injection in the mixing vessel occurred, is lifted in the pipe 17 in a solid stream by the gas pressure admitted through the pipe 15 and is supplied to the aerated water cylinder 20; this aerated water is followed by both liquid and unabsorbed gas which flow up the pipe 17 until the piston descends and the pressure above the liquid in the cylinder 20 equals the pressure in the vessel 16. Since the same effects occur each time the pistonsdescend, there is always the same quantity of prepared aerated water in the aeratedwa-ter cylinder 20 when the full-pressure stroke of these pistons is completed, and, above this water, there is always the same amount of carbonic acid gas. As soon as the piston-member has closed the inspectionaperture 39 and so ended its downward stroke, the handle 29 is brought to the horizontal position, as shown in Fig. 3. The duct 14 to the mixing chamber, and the pipe 17 from the latter are now closed, and the passage 4-3 of the four-way cock 18 is now connected to the piped lleading to the reservoir. The full-pressure carbonic acid gas in the aerated-water cylinder therefore expands and gas passes into the reservoir 46 until the pressures are equalized. When the handle 29 is thereupon raised to the position shown in Fig. 4-, the upward movement of the pistons begins. The four-way cock 18 has closed both the pipe 17 coming from the mixing vessel and the pipe-L lleading to the reservoir, and has opened the discharge duct 19. The three-way cock 2 has closed the duct 14 to the mixing-vessel, and opened thepipe ll from the reservoir. The uncarbonated water flows fromv the. reservoir 46 owing to the pressure of the expanded gas above-it and passes through the pipe 11 into the uncarbonated water cylinder 8-. The pistonrmember therefore rises. The prepared aerated water in the upper cylinder 20- which, after the last movement of the four-way cock, has been wholly relieved of pressure, will now ascend and be slowly discharged through the duct 19; 7

Since the rigidly connected pistons 21 and bonated water cylinder), the generally up plicable theoretical relations between the volumes, pressures and piston-areas may be thus expressed :Volumes and difference of volume, pressures and difference of pressure are proportional topiston-areas and'differences of piston-area, due regard being paid to the inversionin the case of the pressures. It-is thus possible to so calculatethe areas 'of the pistons that allconditions relating to volume and pressure are taken into account. Other conditions being the same, the speed at which the piston-member descends depends on the cross-section of the nozzle 10, and the speed at which it rises on the cross-section of the pipe 11, which for this reason can beprovided' with an adjustable throttle Valve. The reservoir 46 is filled to the height of the filling inlet 47 be fore the device is started and, if there are leakages of gas existing or possible, every morning afterward. If it is desired to reduce the stroke of the piston-member and consequently the quantity of uncarbonated Water entering the mixing chamber, the upper piston 21 is fitted with a; supplementary ring which is fastened below it, andif it is also desired that the piston in the uncarbonated water cylinder shall still fit the lower end'of this cylinder closely, the piston rod 7' can be correspondingly lengthened.

I claim q In apparatus for carbonating liquid, a casing comprising a larger and a smaller cylinder, the larger cylinder having a discharge duet, a differential piston movable in the cylinders, a mixing chamber having an inlet for carbonic acid gas, a closed reservoir for uncarbonated liquid, and means, in reservoir and the upper end of the larger 10 the first place, for connecting the lower end cylinder to the discharge duct.

of the smaller cylinder and the upper end In testimony whereof, I aflix my signature of the larger cylinder to the mixing chamin the presence of tWo Witnesses.

' ber; secondly, closing the smaller cylinder M ARTIN STUHLER.

and connecting the upper end of the larger cylinder to the upper end of the reservoir; Witnesses:

and, thirdly, connecting the lower end of LoUIs VANDORY, the smaller cylinder to the lower end of the BESSIE F. DUNLAI.

Copies of this patent may be obtained for fivev cents each, by addressing the Commissioner of Patents Washington, .D. O.

Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US2604310 *Mar 23, 1949Jul 22, 1952Gen Bronze CorpCarbonator
US2809597 *Feb 23, 1951Oct 15, 1957Fowler Frank EdwardMotorless carbonator
US4850269 *Jun 26, 1987Jul 25, 1989Aquatec, Inc.Low pressure, high efficiency carbonator and method
US4859376 *Jun 26, 1987Aug 22, 1989AquatecGas-driven carbonator and method
US4927567 *Jun 23, 1989May 22, 1990The Coca-Cola CompanyMotorless continuous carbonator
US4940164 *Jun 26, 1987Jul 10, 1990AquatecDrink dispenser and method of preparation
US5002201 *Sep 14, 1988Mar 26, 1991Aquatec Inc.Bottled water cooler apparatus and method
WO1991000136A1 *May 14, 1990Dec 24, 1990Coca Cola CoMotorless continuous carbonator
Classifications
U.S. Classification261/35, 261/DIG.700
Cooperative ClassificationF02M17/04, Y10S261/07