|Publication number||US671176 A|
|Publication date||Apr 2, 1901|
|Filing date||Aug 24, 1900|
|Priority date||Aug 24, 1900|
|Publication number||US 671176 A, US 671176A, US-A-671176, US671176 A, US671176A|
|Inventors||Charles H Bangs|
|Original Assignee||Charles H Bangs|
|Export Citation||BiBTeX, EndNote, RefMan|
|Referenced by (8), Classifications (3)|
|External Links: USPTO, USPTO Assignment, Espacenet|
CARBUNATING DEVICE. (Application Bled Aug. 24, 1900.)
1H: oms mans co.. movnumo.. WASHINGTON, n a
'Unirse STATES Arnim @unica CHARL 1S l-l. BANGS, OF EVERETT, MASSACHUSETTS.
SPEClFlCATON forming' part of Letters Patent No. 671,176, dated April 2, 1901.
Application filed August 24, 1900. -Seral1ilo. 27.884. $10 mOCli-J To o/ZZ whom it may concern: f
Be it known that l, CHARLES H. BANGS, a citizen of the United States, residing at Everett, in the county of Middlesex and Stateof Massachusetts, have invented a new and useful Carbonating Device, of which the following is a specification.
My invention relates to a carbonating device or apparatus for combining or impregnating water with carbonio-acid gas, and has for its object the production of an apparatus which will more expeditiously, effectively, and economically carbonate the Water; and I attain said object by means of the apparatus herei nafter fully described, and illustrated in the accompanying drawings, in which- Figure l is a side elevation of a carbonator embodying my invention and showing the top portion ot' the tank insection to disclose the interior pipe and its attachments; and Fig. 2 is a similar view in sectional elevation, both views illustrating the method of admitting the water and gas into the tank.
Referring to the drawings, the principal parts of the carbonator are indicated by reference-letters as follows:
A represents the air-tight tank of the carbonator; B, the inlet or water pipe for feeding water under pressure to the tank; C, the check-valve in the water-pipe, through which the water is forced; D, the adjustable Water spreader or detlector; E, the lever for turning and adjusting the deflector; F, the gasinlet, through which carbonicacid gas is forced under pressure, and G the check-valve in the gas-pipe.
The tank has an outlet or draft pipe H near its bottom (shown as broken off in Fig. l) and a cap I of unequal thickness bolted to a flange J around the top thereof. The detleetor D has a stem Dl, which passes upward through cap I, and upon the top of which is attached lever E, secured by a set-screw E', and into the top of the stem is threaded a capscrew K, which turns against a washer K. An interior air-passage L, closed at its top by the vent-cap K, runs through stem Dl and com municates with a series of radial passages Ll, which open into a space around dee'ctor D and through narrow openings M M into the tank A. Upon the upper part of stem D' is secured a stuffing-box N. Upon the under side of deflector D, opposite stem D', is a hollow extension P, which is threaded into the upper part of the valve-body C. The meeting faces of the valve-body C and detlector D are concaved, so that a chamber R is formed between them. Into this chamber radial outlets S open, which communicate with the water-pipe, and thence the water spreads into the tank through the adjustable spacebetween the meeting edges of the deflector D and the valve-body C/ in the form of a thin circular sheet, as illustrated atW in the drawings, and breaks into spray against the wall of the tank. Thus the water is introduced under pressure into the tank in the most snitable form and condition to be readily and thoroughly mingled wit-h and impregnated by the carbonio-acid gas which it encounters therein. This gas is introduced into the tank under suitable pressure through the pipe F and valve G and a smaller passage F, counecting with inlet-passages F2, opening into the tank.
The practical operation of the device is as follows: Vent-cap K being first loosened to allow the air to escape from the tank as it is tilled the water-pipe B is opened to allow the water to flow in under proper pressure, say about one hundred and seventy-tive pounds, and when the tank is full the water is shut off and the cap K is closed down tight. Then the gas is turned in through pipe F under a pressure of about one hundred and fifty pounds, and the draft-pipe H is opened to allow the water to escape and is allowed to remain open until gas only escapes. NoT the air having been expelled from the tank by filling it, as described, with the water, and the Water having been drawn off While the gas pressed in, the tank is full ot' gas. Next the draft-pipe is closed and theinlet-pipe opened again, allowing the water to be forced in, when it passes up through pipe B, forces open the spring-valve C, passes through the chamber thereof into the passage -in extension P, and thence through the outlets therefrom into the chamber R, from which it escapes into the tank through the adjustable circular space between the edges of the deiiector D and valve-body C', by which it is spread into an attenuated sheet, as before stated, which is a most suitable form and IOO condition to be expeditiously and effectively carbonated by being commingled With the gas, and this method of spreading the Water is capable of extremely fine adjustment, and in case of any Obstructive accumulations produced in the device between the edges of parts D and C' by the gas those parts can be pressed together tightly by means of the connecting-screw P, turned by the lever E, and thus such particles Will be crushed and the edges cleared when again separated by the action of the Huid. The tank being thus filled With the carbonated water or soda may be drawn from, and the supply Will be au'tomatically kept good by the pressures 0f gas and Water acting through the check-valves and other devices in the manner specified and com mingled under the counteracting forces of the two supplies in the manner and with the results stated.
This method of carbonating the Water continuously and automatically as it is required to ne drawn to serve customers obviates the necessity of keeping a large quantity of the soda-Water on hand in the metallic vessel, in which it is liable to become injuriously at'-L fected by the chemical action on the metal a condition most favorable to its ready and complete commingling with and impregnation by the carbonio-acid gas.
I claim- A carbonator embodying the combination of a tank A; a valve-pipe B for feeding Water to the tank; a valve-pipe F, for feeding gas to the tank; a derlector comprising a body D, a stem D having an air-passage L, a closing vent-cap K, a hollow extension P, threaded into a'valve-body C and having radial outlets S, opening into achamber R, formed by the meeting concaved faces of bodies D and 0'; and means, as lever E, for moving and adjusting deiiector D, relative tobody C', to spread the Water discharged from chamber R into the tank; all substantially as and for purposes specified.
CHARLES H. BANGS.
EUGENE HUMPHREY, L. M. MoULToN.
|Citing Patent||Filing date||Publication date||Applicant||Title|
|US3052377 *||May 12, 1959||Sep 4, 1962||Bill Hugo||Apparatus for delivering a liquid in rations of any amount under action of a compressed gas|
|US3151064 *||May 8, 1961||Sep 29, 1964||Lathrop Ethan A||Water conditioning method and apparatus|
|US3386712 *||Apr 26, 1966||Jun 4, 1968||Waagner Biro Ag||Process for intimately contacting two fluids|
|US5681507 *||May 29, 1996||Oct 28, 1997||Sanyo Electric Co., Ltd.||Apparatus for manufacturing carbonated water|
|US5851445 *||Jul 28, 1997||Dec 22, 1998||Sanyo Electric Co., Ltd.||Apparatus for manufacturing carbonated water|
|US5955009 *||Mar 26, 1998||Sep 21, 1999||Sanyo Electric Co., Ltd.||Apparatus for manufacturing carbonated water|
|US5958307 *||Mar 26, 1998||Sep 28, 1999||Sanyo Electric Co., Ltd.||Apparatus for manufacturing carbonated water|
|US6113080 *||Mar 26, 1998||Sep 5, 2000||Sanyo Electric Co., Ltd.||Apparatus and method for manufacturing carbonated water|