CA2247088A1 - Process and device for the continuous production of soda water or the like and mixing vessel used therein - Google Patents
Process and device for the continuous production of soda water or the like and mixing vessel used therein Download PDFInfo
- Publication number
- CA2247088A1 CA2247088A1 CA002247088A CA2247088A CA2247088A1 CA 2247088 A1 CA2247088 A1 CA 2247088A1 CA 002247088 A CA002247088 A CA 002247088A CA 2247088 A CA2247088 A CA 2247088A CA 2247088 A1 CA2247088 A1 CA 2247088A1
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- CA
- Canada
- Prior art keywords
- water
- tank
- soda
- mixing
- tap
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B67—OPENING, CLOSING OR CLEANING BOTTLES, JARS OR SIMILAR CONTAINERS; LIQUID HANDLING
- B67D—DISPENSING, DELIVERING OR TRANSFERRING LIQUIDS, NOT OTHERWISE PROVIDED FOR
- B67D1/00—Apparatus or devices for dispensing beverages on draught
- B67D1/0042—Details of specific parts of the dispensers
- B67D1/0057—Carbonators
- B67D1/0058—In-line carbonators
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01F—MIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
- B01F23/00—Mixing according to the phases to be mixed, e.g. dispersing or emulsifying
- B01F23/20—Mixing gases with liquids
- B01F23/23—Mixing gases with liquids by introducing gases into liquid media, e.g. for producing aerated liquids
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01F—MIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
- B01F23/00—Mixing according to the phases to be mixed, e.g. dispersing or emulsifying
- B01F23/20—Mixing gases with liquids
- B01F23/23—Mixing gases with liquids by introducing gases into liquid media, e.g. for producing aerated liquids
- B01F23/237—Mixing gases with liquids by introducing gases into liquid media, e.g. for producing aerated liquids characterised by the physical or chemical properties of gases or vapours introduced in the liquid media
- B01F23/2376—Mixing gases with liquids by introducing gases into liquid media, e.g. for producing aerated liquids characterised by the physical or chemical properties of gases or vapours introduced in the liquid media characterised by the gas being introduced
- B01F23/23762—Carbon dioxide
- B01F23/237621—Carbon dioxide in beverages
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B67—OPENING, CLOSING OR CLEANING BOTTLES, JARS OR SIMILAR CONTAINERS; LIQUID HANDLING
- B67D—DISPENSING, DELIVERING OR TRANSFERRING LIQUIDS, NOT OTHERWISE PROVIDED FOR
- B67D1/00—Apparatus or devices for dispensing beverages on draught
- B67D1/0042—Details of specific parts of the dispensers
- B67D1/0057—Carbonators
- B67D1/0058—In-line carbonators
- B67D1/0059—In-line carbonators in combination with a mixer tap
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- Chemical & Material Sciences (AREA)
- Chemical Kinetics & Catalysis (AREA)
- Devices For Dispensing Beverages (AREA)
- Non-Alcoholic Beverages (AREA)
Abstract
The invention relates first to a process and a device for the continuous production of soda water or the like by catering firms, canteen and/or the end user. In the process, water is taken from the drinkig water supply to a mixing vessel where CO2 is added to it and the soda water thus produced is extracted downstream of the mixing vessel by opening a water or dispensing tap. The device comprises a mixing vessel, of which the intake is in fluid communication with the drinking water supply and the outlet is connected to a water or dispensing tap and which is connected via a further union to a pressure vessel containing gaseous CO2. Finally the invention concerns a mixing vessel for a device of the invention having a water inlet and outlet and a nozzle for introducing CO2.
Description
PROCESS AND DEVICE FOR THE CONTINUOUS PRODUCTION OF SODA
WATER OR THE LIKE AND MIXING VESSEL USED
DeK r~ption l'he invention is a met~d a~d a device for thc co. .~ ~lu~ .. of soda w~tes or sada-lllce water by gastrono~i~
b~c;~ c.cr c, cc.. :c~. ;f s andJor e~d ~ a- ~ g-tankwhich i5u5ed in the fo.~ , ~ de~
Ma~y people prefer be~dg~s C~ inin~
10 COz bcA~usc of the~r s~ . L l; ~ effect If you buy bottled soft drir~, mine~ water or beer, th~y have already ba~n f..~ I.c.d with c&~l,o~c aad by the b~sL~ g co..l~a..y. ~or the saie in ~L.ol-o~ b~ r-s soft rinks are usually available in barrelIike beverage ~..1..;... ~ which have t~;vo cn~--cvl~on~ at the~r top~ When in.~ll~
~n~ a r,~ ;"~i~p~ e~ ~ g~nnmi~l ~Isin~sses one conn~io" is coupled to a 20 C02-source, usual~y a CO2-gasboetle, its iS s~ nt to dissol~e the prickling CO2 ir~ the soft drink and also provides s~ci--nt ~ ure to press the soft drink treated as ... -;nnP~ above through a 2~ col---r~ ~g tube inct~ J L~ ,n a eap and the second co~ , of thc bc.~ag~
c~ . When ~ d, the CO, e",i~L~d sof't drink i9 taken f~om the cv~ by operling the ~ap. Ihis me~hod is used for al~
ru~..L~ ~ P.n~ beverages. a~so for beer (where the CO~-prcssure is needed only to transport the beer ~-o~gh the piping).
Oehe~ beverages such as fiuit Juices or w~es are not sold ~n those 3~ con~inf~ whic~ means ~lwds cs-.~l~.. ~, carbonic acid must be added to produce S~)~Lt~5 or f~it 3uice mi~ces. ~or t~-s purpose mineral-w~ters rnust bc purchase d bec~LIse pure soda-water is for reasons of 40 taste not a~,ailable or cannot be pro~duced by ~ o--omical b~ s~--at the s~Q~nrnt ~neral-waters are bottled or~y from C~2isl mineral spr~gs w~ch lea~s ~o decrcasing availabil~ty And ~;.cascd costs.
45 An ~dA;ti.~n~l cost ~or is oftenthe long transport from mine~al spnngs to consurners The G~r~in~ll rninerals on the PROCESS AND DEVICE FOR THE CONTINUOUS PRODUCTION OF SODA
WATER OR TEIE LIKE AND MIXING V13SSEL USED LH~
., other t.~_d are not le~ L in any way if min~al water is mixed wil:h wine or JuiCes, ,. Gfo..; it is no~ possible to acbieYe a better tashng product aside fr~m the 5p:~rklin~ eff~
The ~~e~allCy ofthe e~nomic~l value of a mineral-water used to produce w~ne or ~it-Ju~ee muccd-be~rerages and its inf~ Pncc on the taste of that drink is ~he reaSOn for the demand of ga .L..~ t b~ i and/or CQr~ Jm~rs to develop a method to produce d~ . hl~
CO2-~nn~hed ~fater for use w~th juicc--and/or ~nne-mixes that i~ d this mven~ion Closely related to this problem is to obtain a device that allows the procedure of the P~{ mcthod, as well ~s the com,~o..ents specific for this patent, required for such a device.
To pr~ducc soda water this invention pians to take water ~om the water supply, fee~l it mto ~ rnixing-~ank where it is ~;chcd with COl and then Lli~ sed fi-om a tap do~n Q~rrent The onl~r raw ~ . used in this method are tap water asld CO,-gas. Since tap water is ~ ." the costs for soda water in mi~c-bevesagc s with the method ;fL~ c1 in thi~s inven~on are L~ ~1i .he produced soda ~rater can also be served as is bc~ ,.,c it is from pure tap water and therEfore without harmfill s~lbst~n~.~.c The cost fi~or compared to store-bought mineral-watess is e~.ren g~ater.
An ~itionlo ~is ~ncthod would ~e to filter the tap water before the e~richment w~th CO2 to f iimin~f~ any odors or c,olors.
Tap water is in any ca~se frce of to~Qc subct~nc.es. however it could contain sccrc~ions from the pl..~ that may ~e noticed by people with ~ taste buds Withthefilterin~nlr~ allsuspended p~ticlesareret~nedsothatthe consistencyisvery pure It is ~ c~ d that thetapwater is coo1ed dov~n to a temperaturc of 2--lO
de~rees Celsius (35 6--50 de~
Fshrenheit~, ~referab~y 4--6 d~s Celsius (39 2--42.8 de rees 1~ ~ ~l,eit).
At this t~ LLure C0,~ has ~ts highest absol~Lion in water and that leads to a ver~
pnc~ efEect. ~so the soda water has an ideal ser~n~ t .~ Lure. .
Ihe p:ltf~rlt~3 method allows a ~rariation of the c~nG ~ ion of C0~ in the~ater by vaI~ati~g the ~ u~, ofthe C0~ a~conl.~lg to the Law of ~eD~y, w~ich rules tha~ the solubilit~ of gas at a co.~ al~lre l~i is propor~onal to ~e par~Ial y~ e of the gas above the solvent. With the pr~ ssure valve on the ~s bottle the ~c and also its a~sorption is controDablc Another possibilit~ to infl~ he C~2 ~0 ~ dLion is to add pure tap water to the produced soda water.
The de~nce dcs~ il,~ d above, t}~ aUows the continm~e production of soda water or soda- like water ~y gastrono~t~
2~5 b tcinr!55~, cnmmi.ee~r~es, or cn~mf~rS
c~ns~sts of a ~r~xin~-~ank, that ~as an inlet tube .,o....~ ~3 w~t}~ the water supply and a drain cnnn~.tion that is col~1p~ ith a tap.
FurtheImore the sn~xing tank lus an di~on~l conncctior~ to ~ E~ tar~
CO~ g C02. Because of ~his the rni~g tank alway~
receives a s1~ffi~ nt supply i~fC02 and tap water so ~here is always cnough soda water 35 in the tank for pour~ng and sale 1~1 a very s~ort time the CO2 gas spreads out through the rnixing tanlc and therefore the t~p can be lef~ open for longer periods of ~ne.
To avoid the sea~ing CO2 throug~ the 40 m~x~ng-tar~c into the water supply the inventors placed a one-way valvcbetween the mix~ng tank and rhe ~v~ter supply. By usin~ a g~s~pht valve C02-gas ma~l not exit and pressure ~5 not lost.
45 ~ even more advantageous: ~,E,L.~ent is to use a cooling apparatus ahead ofithe mi7ung tank before the tap water is fed into th~nk This means the warer is cooled to an ideal temperature to absorb the COz and also h~ an idea~ selving t~elaL~ even before it reaches the mix~ ta~
The most ~vu~ble ~ n~ d~s a filter sihl~tes~ eit~her ~efore the m~nng-~ni~, the one-way valve or the cooling a~ s This filter L~WV~_'S v~ioUs hs-~nfil1 ~uh~ s ~c well dS a~y ~.v u. . and odors and if np~.~ss~ly any su ~~,eL~dcd par~cles which leads to a hi~h degree of punty. Por ~his pulpose it is inf~ A to use a filter that allows minerals and calc to pass through it l:lecause such 5~1.5~ c~c ~nl~..CG
the taste. Other s~-hct~nr~s such as chlorine or pathoge~c agents are hdd back It is f~ol r~ nrl~l to use a filtcr w~th an absorption chamber where ac~vats~d charcoal ennched with silver is used. Such filters rnay be eq~ pe~- with dev~ces to shut offthe water flow, when ~hc filter capacity is e~ stef-, th~t the b:~rlc-f~epf~ knows wllen it is time to change the filter. To L~,e a quick reFl -f~f-Tnf?-1t of the filter, valves are placed before and bfehind the fi3ter to stop water flovr, durulg the f~.hangTnfJ o~the filter.
The mixing-tank is the crucial part of this soda-water producing de~nce. It has a water connection.. ~hermore, the t~nk has a nozzle tO feed COl ~nto the tanlc that is connected to z tube. To avoid CO2 getting into the water inlet tube or w~ter into the ,gas bottle one-way valves are inSt~Ue~ The m~ba~g-tanlc m ~st be built so that there is al~vays sTTffif-if~nt ~ , to push the CO2 G~ ichcd water to the tap.
However the nozle to feed the CO2 into the tank should be so constructed as to avoid a CO, bubble b~lding in the conta~ner The fIter respectively the coolirlg apparatus are ~sually belo~ the tap that it is log~cal that the water inlet nIbe - should be located at the bottom ofthe rr~xin~ conta~ner. For the same rcasons the CA 02247088 l998-08-l9 O S
water drain c~ r~ should be placed at the top.
The rr~xing-tank itself should be made of ~ol~u5~0nand ~c~u~ S;~ L m~tPri~l 5 e.g. ru~-fi~e ~;n1~c~ ~e~.
This leads to a high durability of the mixing-~ ,~ AI detsils and adv~nt~ges ofthis invention are ou~l;ned in the follow~g dcs~ ;0~) of rn~ Le~0 designs as ~rell as the desc~p~on of the vings The se ~l~ nw ~;5 show in fig 1. a design for larE~e gc~ l bl~cinPssl~c, fig 2 same r7i~ l.s with a slightly 1~; d~L design f~om figure I
fig 3 a design f~r srnall ~,~""""~... ;Pe and f~g 4. a desigll for Col-S~
F~3 1 cont~in~ the tubing of a tap fol~nt~in 20 dispenser (~) of a ~3astronomical business, ~rhere a vane~y of beve~ages are offered These the b~rkf~per can take from the vanous taps(2-6) held from the fountain dis~ r {7~ at the b2r cou~L~. (8) To 25 keep available this large a number of sof't drink or beer c.o..~ f - :, (9-lZ) a shaft (17) Is built bet~,veen the floor ~13~ s~fthe main room (14) a~d the ceiIing (15) ofthe b~ (16) into the ar~a of the bar ~\ colmter (~3). Through this shaft (17} thc taps (Z-53 are ~ e~ to beverage co~ rs (9-lZ) ~a tu~es (18). To ~u~tee an ~deal temperatllre of those beverages a cooling ap~dl v.Lus ~19) is 3~i located between the taps ~ I 8) and the c~..lA;.~ 9-12) T}~s appa~atus should have m~lt;r-l~ cham~s with ;nlet tubes (20-24) and drains (25-29) so that the corresponding beverages are cooled to a t~"l~e~ of 4--6 degrees Celsius (39 2 --42.8 degr~s Fai,. ~ ;L) To transport the beverages fi~m their cont~in~rs ~9-I2) located in the b~ l (16) to the taps (2-S) on the fount~in ~ ~er ~?~ each 4~; cont3iner ~9-12) has not only a dra~n conne -Lion ~30-33) but also an additlonal inle~ e (3~3?) ~ese inlet tubes(34-37) are c~nn~r,ted v~a tubing ~38) to a C02-gas bottlc ~39). A plcssu~ re~ e.n~ valve C40) is set to control the Co2-~reia~ ins de the beverage collLa~L~ (9-12). Thi~ pf esa~ ~
tl~layO~I~ the beverages ~l~uu~ the drain (30-33) into the cooling plant (19) and filrther forward to the 1 e~ taps (2-5).
Beverages low on CO2 like soda pop aIe at the sa ne time ~ chcd with CO2.
A ~ul~L~ (1) ofthis s~ze provides the oppolLu~y ta instal~ the dev~ce ~ nbed in this patent in the folIowing way: in the baseme~t (16) a filter (42~, with absorption c~ c. and silver es~iched a~ted charcoaI, is ~".~ e~ to the waTer supply to fitt.o-r out flavours, odors, l~mfi~ ~bsl t,.r~ and suspended particles. The ac~vated charcoul is cons~me~ o~er a period of time, and the f~lter must be r~l~ce-1 To keep this repl~r:rm~nt as easy as possible valves (45, 46) are plsc~d at the water in~et tube (43) and at thc water drsin convection ~44).
The second valve (46) is ~o.~ cd to the is~let hlbe (20) ofthe cooling plant (19) Conn~rteA at the ex~t conn~ion (25) ~s a plasticmbecornP~t~i to thetubing(l8) th~t run together with the othe~s through the shaft (17) ~to the ~ttom ofthe dispenser (8). At this point 47 the cover around the tubing (18) is removed and the ~OT.~ nnpd tu~e does not n~n directly to taps 2-5 but is directed to a one-way ~alve (48).
'rhis val~e (48) is conn~ete-l to thc water inlet nlbe (4~ and to the m~xing tank ~50).
In this tank (50) now is filrered tap water chilled to ~ Ll~re of about 4 de~rees Celsius (39.2 degrees Fahrenheit), and is ideal for the eTNichment wlth C~2- To achieve this, the m~x~ng tank ~50) is connectecl via a flexible tube ~1) to a srnal~
C02-gas bottle (52) loca.ted under the fountain c~isp~n~ (8). Via a pressure gove~n~ng va~ve (53) the a~no~nt of CC)2 fed into the mix~ng tank can casily be r~ tcrl Thed~n connP~o~(54)of ~ ~ng tank (50~ is via a tubc connPc~l to tap 6.
~ fo- e C02 Pn~l~.hP~I soda~ er ~nside the tanlc ~503 chilted to a tf~ of ap~ 5 degrees t~elsius ~41 degrees Fahu ~-L~L)canPasllybe ~4~ed by ope~g tap (6~ n~e o~t~Le one-wa~
valve (483 the CO2 caDnot dii~se into the wa~er tubings (1 X, 19, 41) 10 The C02-~o~e (563 in~ide~ m~ng t~nk (50) has a very small o~ , so that even when the ~02-bottle is ~ o;~Lu _,~ can not escape This ~s ~
s af ~ty l L L~ ~ 3 S ~ I y .
A slightly di~L~L des~gn is sho~m in figure 2. The already known palts of the founta~n ~i:iy~ser 1 are cr ~'c~ '.y ;A~nti~ to figure2. ~denticalparts the.t;r~.~ have ~e id~ ti~l nu .1.- :, as in figure l.
Also l-n~ to figure 1 is the m~g tank (50~ as well as ns tubing u~ regard to the water inle~ tube (49) and the drain conrlection ~54) The only di~.cc to 2~ figure 1 is that the COl-~;as fed into the nozzle (56) v~a tube 51 ~s not ta3~ from an i~ion~l CO2-bottle but ~om the one (39'~ located ~n the bE~sement (16?. Recy(~lc~
,_~ of that, the blbe 51 is longer ~n m figure _.) I and suns to~e~h~r with the o~r 18 tubing throu~h the shaf's 17 into the b~ n~ 16 a~d to a second y~ul~:
~YelifLIlg valve 57 located at the gas bottle 39' This has the a~lVdll'L~,~ that ~he 3S pressure of the CO2 used to emich the tap water in the mix~ng tanlc 50 is i...l~ ~,. n~f.nt f~om the pressure of the CO2 in the pressure tubes 3~' and can ~e independen~ly re~ll~t~l To pr~s ~he ~0 bev~rages from the~r co~ta~ners ~I2 up to the taps 2-~ ususally a pressure cf 4 ~ l Os Pa is used, because of the pre~c;
gove~n~ valve 57 a higher p~ssure of up to 7 * 10~ Pa may be use~ to release CO
45 into the rn~x~ng t.~nk 50.
In figure 3 another setup is shown which is intended for ~nmmiss~r~es beG~se of the smaller fo~a~ ensc. 61. T~e bar counter 62 has a sink 63 to wash glasses or other dishes. As inlet tube to t~e sink a tap (64) is used that is in turn co~ .-.r~l~ d to the water supply 65.
To comlect the de~rice to pro~ce soda water the water tube 6~i of the tap 64 is fiKed with a Te~ fit~ng 67. The j~nc~son 68 can be closed by a s.hut-o~valve 69 is tlle feed 70 of a filter 71 This ~lter should as ea~lier described, be e~ ~d with silver ~ns~t~.h~ci activa~ed ch~oal or a s~nilar typ~ eh~d the filte~ is ano~L~ shut-off valve 72, to al.'ow easy f~lter ~ ment by clos~g the shut-off valves 69 and 72 The filtrated water nOws into a coo~ng apparatus 73 where it is cooled to a temperature of 2-10 degrees CeIsnus ~35.6-50 degrees Fa}~ e;L~ The cooled water then flows through a one-way valve 74 ~nd into a ~g t~ 75 which may be i i~nts-~l to the tanlc 50 firom the fountaisl ..- 1. The filtered and cooled wa~er in the mixing tank 75 is than e~riched w~th CO2. A CO2-bottle 76 with a pressure valve 77 ;s c~....~ v~a a ~exible tube 78 to nozzle 79 in the t~nk 75.
By go~rern~ng (77) the press~re in thc tube (~8) the amount of'CCi2 in the tank (75) Gan be r~ te~
From the ~ratOE drain connp~;~l~ (80) of the taIlk (7~3 a nlbe (81) leads to a tap (82) w~ich is ~n~t~ d above the counter ~61).
~Jhen a guest orders a rn~x-drink such as a spri~zer orfuic~m~, the barkeeper ~rst pu~s the wLne or juice ir~to the glass and then adds cooled soda-water fi~m the tap 82 The resu~ting Tnix-drink has no ~liffereIIce ~n taste col.",~ed to rn~x-drirlks rnade ~c~ cornmercial mineral walcrs.
In fi~ure 4 is yet another f~l ~mple ofthis inven~ion shown this t~rne interKied for private home usage. It is conne~.te~ to the water supply 97 uuder a sir~ 92 Near the sinlc 93 ls a fia~.lcet 94 with temperature ccr (95) for cold and hot ~ter. T~is O 9 "
fi~ucet (95~ is c~ -A î~xl to <96) to the hot water supply of the b~ ng and also to the cold water supply (97).
addition to the faucet (94~ for cold and ~; hot water ano~ faucet (9~,) is placed near the sink ~9:~ from which soda-water can be taken. Ihe water supply (973 is connecter~
via a tube (100) and a sh~lt-offvalve (101~
to a filter (102). This filter shollld be of the 10 earlier mf~nti-~n~l type w~th silver ~-nnrh activated eI~o~l. r)ownline fiom the filtcr (102~ is another shut-off-ralve 103 which "_~ can be close~i together ~th the shut-off valve ( 101) for filte~ rt~pl~r,em~n~(lQ2). A
15 Tee fitting (104) is inserted at the drain of the shut-offv~lve ~03). A drain cu~ ;on at this crossing leads to the m~xing tank ~109) and to the soda-water tap (98), so that the opPning of an armature (106) from the mixing tank ~109) leads to filtere~ water flo~om the faucet (98~
This ~ltered v~ater is especia~y suitable for the elderly and also for infants A~other tube at the Tee fitting (104) is Z~ c~;~cd v~a a one-way ~alve (107) to the mlet tube <108) of a~x~ng-tank (109~.
Ihis tank (109) cas~ be iAPnti~ to ~he tanks 50 and 75 A no?7le (110) inside the tank (109) is conn~ec~ via a ~ able tube (111) to a CO~-bottle ~112) w~th a pressure gove~ng vaIve ( ~1~) With this valve (I I3) the CO2-pressure can be re~ red at the time of the inet~ tion of the C02-bottle (112) and needs not to be ch~n~
35 The d~ ~o~ n ~114) ofthe ~r~ang tank (109) is via another tube (1 15~
connP~x~ to the faucet (105) so that by opening an a~na~ure (116) at the tap (98) (~02-enr~ched water Mows from th3t tap 4;~ The arrnatures 106,1 16 re~ulatc thc soda water and the filtered water arnount so that eaGh farr~ly member can mix a water drink to personal preference A coolin~ appAratus ~; not planned a~;cording to figure 4 however one c;ould be placed ~ the shut-offvalve (I03) and the Tee fitting (104)
WATER OR THE LIKE AND MIXING VESSEL USED
DeK r~ption l'he invention is a met~d a~d a device for thc co. .~ ~lu~ .. of soda w~tes or sada-lllce water by gastrono~i~
b~c;~ c.cr c, cc.. :c~. ;f s andJor e~d ~ a- ~ g-tankwhich i5u5ed in the fo.~ , ~ de~
Ma~y people prefer be~dg~s C~ inin~
10 COz bcA~usc of the~r s~ . L l; ~ effect If you buy bottled soft drir~, mine~ water or beer, th~y have already ba~n f..~ I.c.d with c&~l,o~c aad by the b~sL~ g co..l~a..y. ~or the saie in ~L.ol-o~ b~ r-s soft rinks are usually available in barrelIike beverage ~..1..;... ~ which have t~;vo cn~--cvl~on~ at the~r top~ When in.~ll~
~n~ a r,~ ;"~i~p~ e~ ~ g~nnmi~l ~Isin~sses one conn~io" is coupled to a 20 C02-source, usual~y a CO2-gasboetle, its iS s~ nt to dissol~e the prickling CO2 ir~ the soft drink and also provides s~ci--nt ~ ure to press the soft drink treated as ... -;nnP~ above through a 2~ col---r~ ~g tube inct~ J L~ ,n a eap and the second co~ , of thc bc.~ag~
c~ . When ~ d, the CO, e",i~L~d sof't drink i9 taken f~om the cv~ by operling the ~ap. Ihis me~hod is used for al~
ru~..L~ ~ P.n~ beverages. a~so for beer (where the CO~-prcssure is needed only to transport the beer ~-o~gh the piping).
Oehe~ beverages such as fiuit Juices or w~es are not sold ~n those 3~ con~inf~ whic~ means ~lwds cs-.~l~.. ~, carbonic acid must be added to produce S~)~Lt~5 or f~it 3uice mi~ces. ~or t~-s purpose mineral-w~ters rnust bc purchase d bec~LIse pure soda-water is for reasons of 40 taste not a~,ailable or cannot be pro~duced by ~ o--omical b~ s~--at the s~Q~nrnt ~neral-waters are bottled or~y from C~2isl mineral spr~gs w~ch lea~s ~o decrcasing availabil~ty And ~;.cascd costs.
45 An ~dA;ti.~n~l cost ~or is oftenthe long transport from mine~al spnngs to consurners The G~r~in~ll rninerals on the PROCESS AND DEVICE FOR THE CONTINUOUS PRODUCTION OF SODA
WATER OR TEIE LIKE AND MIXING V13SSEL USED LH~
., other t.~_d are not le~ L in any way if min~al water is mixed wil:h wine or JuiCes, ,. Gfo..; it is no~ possible to acbieYe a better tashng product aside fr~m the 5p:~rklin~ eff~
The ~~e~allCy ofthe e~nomic~l value of a mineral-water used to produce w~ne or ~it-Ju~ee muccd-be~rerages and its inf~ Pncc on the taste of that drink is ~he reaSOn for the demand of ga .L..~ t b~ i and/or CQr~ Jm~rs to develop a method to produce d~ . hl~
CO2-~nn~hed ~fater for use w~th juicc--and/or ~nne-mixes that i~ d this mven~ion Closely related to this problem is to obtain a device that allows the procedure of the P~{ mcthod, as well ~s the com,~o..ents specific for this patent, required for such a device.
To pr~ducc soda water this invention pians to take water ~om the water supply, fee~l it mto ~ rnixing-~ank where it is ~;chcd with COl and then Lli~ sed fi-om a tap do~n Q~rrent The onl~r raw ~ . used in this method are tap water asld CO,-gas. Since tap water is ~ ." the costs for soda water in mi~c-bevesagc s with the method ;fL~ c1 in thi~s inven~on are L~ ~1i .he produced soda ~rater can also be served as is bc~ ,.,c it is from pure tap water and therEfore without harmfill s~lbst~n~.~.c The cost fi~or compared to store-bought mineral-watess is e~.ren g~ater.
An ~itionlo ~is ~ncthod would ~e to filter the tap water before the e~richment w~th CO2 to f iimin~f~ any odors or c,olors.
Tap water is in any ca~se frce of to~Qc subct~nc.es. however it could contain sccrc~ions from the pl..~ that may ~e noticed by people with ~ taste buds Withthefilterin~nlr~ allsuspended p~ticlesareret~nedsothatthe consistencyisvery pure It is ~ c~ d that thetapwater is coo1ed dov~n to a temperaturc of 2--lO
de~rees Celsius (35 6--50 de~
Fshrenheit~, ~referab~y 4--6 d~s Celsius (39 2--42.8 de rees 1~ ~ ~l,eit).
At this t~ LLure C0,~ has ~ts highest absol~Lion in water and that leads to a ver~
pnc~ efEect. ~so the soda water has an ideal ser~n~ t .~ Lure. .
Ihe p:ltf~rlt~3 method allows a ~rariation of the c~nG ~ ion of C0~ in the~ater by vaI~ati~g the ~ u~, ofthe C0~ a~conl.~lg to the Law of ~eD~y, w~ich rules tha~ the solubilit~ of gas at a co.~ al~lre l~i is propor~onal to ~e par~Ial y~ e of the gas above the solvent. With the pr~ ssure valve on the ~s bottle the ~c and also its a~sorption is controDablc Another possibilit~ to infl~ he C~2 ~0 ~ dLion is to add pure tap water to the produced soda water.
The de~nce dcs~ il,~ d above, t}~ aUows the continm~e production of soda water or soda- like water ~y gastrono~t~
2~5 b tcinr!55~, cnmmi.ee~r~es, or cn~mf~rS
c~ns~sts of a ~r~xin~-~ank, that ~as an inlet tube .,o....~ ~3 w~t}~ the water supply and a drain cnnn~.tion that is col~1p~ ith a tap.
FurtheImore the sn~xing tank lus an di~on~l conncctior~ to ~ E~ tar~
CO~ g C02. Because of ~his the rni~g tank alway~
receives a s1~ffi~ nt supply i~fC02 and tap water so ~here is always cnough soda water 35 in the tank for pour~ng and sale 1~1 a very s~ort time the CO2 gas spreads out through the rnixing tanlc and therefore the t~p can be lef~ open for longer periods of ~ne.
To avoid the sea~ing CO2 throug~ the 40 m~x~ng-tar~c into the water supply the inventors placed a one-way valvcbetween the mix~ng tank and rhe ~v~ter supply. By usin~ a g~s~pht valve C02-gas ma~l not exit and pressure ~5 not lost.
45 ~ even more advantageous: ~,E,L.~ent is to use a cooling apparatus ahead ofithe mi7ung tank before the tap water is fed into th~nk This means the warer is cooled to an ideal temperature to absorb the COz and also h~ an idea~ selving t~elaL~ even before it reaches the mix~ ta~
The most ~vu~ble ~ n~ d~s a filter sihl~tes~ eit~her ~efore the m~nng-~ni~, the one-way valve or the cooling a~ s This filter L~WV~_'S v~ioUs hs-~nfil1 ~uh~ s ~c well dS a~y ~.v u. . and odors and if np~.~ss~ly any su ~~,eL~dcd par~cles which leads to a hi~h degree of punty. Por ~his pulpose it is inf~ A to use a filter that allows minerals and calc to pass through it l:lecause such 5~1.5~ c~c ~nl~..CG
the taste. Other s~-hct~nr~s such as chlorine or pathoge~c agents are hdd back It is f~ol r~ nrl~l to use a filtcr w~th an absorption chamber where ac~vats~d charcoal ennched with silver is used. Such filters rnay be eq~ pe~- with dev~ces to shut offthe water flow, when ~hc filter capacity is e~ stef-, th~t the b:~rlc-f~epf~ knows wllen it is time to change the filter. To L~,e a quick reFl -f~f-Tnf?-1t of the filter, valves are placed before and bfehind the fi3ter to stop water flovr, durulg the f~.hangTnfJ o~the filter.
The mixing-tank is the crucial part of this soda-water producing de~nce. It has a water connection.. ~hermore, the t~nk has a nozzle tO feed COl ~nto the tanlc that is connected to z tube. To avoid CO2 getting into the water inlet tube or w~ter into the ,gas bottle one-way valves are inSt~Ue~ The m~ba~g-tanlc m ~st be built so that there is al~vays sTTffif-if~nt ~ , to push the CO2 G~ ichcd water to the tap.
However the nozle to feed the CO2 into the tank should be so constructed as to avoid a CO, bubble b~lding in the conta~ner The fIter respectively the coolirlg apparatus are ~sually belo~ the tap that it is log~cal that the water inlet nIbe - should be located at the bottom ofthe rr~xin~ conta~ner. For the same rcasons the CA 02247088 l998-08-l9 O S
water drain c~ r~ should be placed at the top.
The rr~xing-tank itself should be made of ~ol~u5~0nand ~c~u~ S;~ L m~tPri~l 5 e.g. ru~-fi~e ~;n1~c~ ~e~.
This leads to a high durability of the mixing-~ ,~ AI detsils and adv~nt~ges ofthis invention are ou~l;ned in the follow~g dcs~ ;0~) of rn~ Le~0 designs as ~rell as the desc~p~on of the vings The se ~l~ nw ~;5 show in fig 1. a design for larE~e gc~ l bl~cinPssl~c, fig 2 same r7i~ l.s with a slightly 1~; d~L design f~om figure I
fig 3 a design f~r srnall ~,~""""~... ;Pe and f~g 4. a desigll for Col-S~
F~3 1 cont~in~ the tubing of a tap fol~nt~in 20 dispenser (~) of a ~3astronomical business, ~rhere a vane~y of beve~ages are offered These the b~rkf~per can take from the vanous taps(2-6) held from the fountain dis~ r {7~ at the b2r cou~L~. (8) To 25 keep available this large a number of sof't drink or beer c.o..~ f - :, (9-lZ) a shaft (17) Is built bet~,veen the floor ~13~ s~fthe main room (14) a~d the ceiIing (15) ofthe b~ (16) into the ar~a of the bar ~\ colmter (~3). Through this shaft (17} thc taps (Z-53 are ~ e~ to beverage co~ rs (9-lZ) ~a tu~es (18). To ~u~tee an ~deal temperatllre of those beverages a cooling ap~dl v.Lus ~19) is 3~i located between the taps ~ I 8) and the c~..lA;.~ 9-12) T}~s appa~atus should have m~lt;r-l~ cham~s with ;nlet tubes (20-24) and drains (25-29) so that the corresponding beverages are cooled to a t~"l~e~ of 4--6 degrees Celsius (39 2 --42.8 degr~s Fai,. ~ ;L) To transport the beverages fi~m their cont~in~rs ~9-I2) located in the b~ l (16) to the taps (2-S) on the fount~in ~ ~er ~?~ each 4~; cont3iner ~9-12) has not only a dra~n conne -Lion ~30-33) but also an additlonal inle~ e (3~3?) ~ese inlet tubes(34-37) are c~nn~r,ted v~a tubing ~38) to a C02-gas bottlc ~39). A plcssu~ re~ e.n~ valve C40) is set to control the Co2-~reia~ ins de the beverage collLa~L~ (9-12). Thi~ pf esa~ ~
tl~layO~I~ the beverages ~l~uu~ the drain (30-33) into the cooling plant (19) and filrther forward to the 1 e~ taps (2-5).
Beverages low on CO2 like soda pop aIe at the sa ne time ~ chcd with CO2.
A ~ul~L~ (1) ofthis s~ze provides the oppolLu~y ta instal~ the dev~ce ~ nbed in this patent in the folIowing way: in the baseme~t (16) a filter (42~, with absorption c~ c. and silver es~iched a~ted charcoaI, is ~".~ e~ to the waTer supply to fitt.o-r out flavours, odors, l~mfi~ ~bsl t,.r~ and suspended particles. The ac~vated charcoul is cons~me~ o~er a period of time, and the f~lter must be r~l~ce-1 To keep this repl~r:rm~nt as easy as possible valves (45, 46) are plsc~d at the water in~et tube (43) and at thc water drsin convection ~44).
The second valve (46) is ~o.~ cd to the is~let hlbe (20) ofthe cooling plant (19) Conn~rteA at the ex~t conn~ion (25) ~s a plasticmbecornP~t~i to thetubing(l8) th~t run together with the othe~s through the shaft (17) ~to the ~ttom ofthe dispenser (8). At this point 47 the cover around the tubing (18) is removed and the ~OT.~ nnpd tu~e does not n~n directly to taps 2-5 but is directed to a one-way ~alve (48).
'rhis val~e (48) is conn~ete-l to thc water inlet nlbe (4~ and to the m~xing tank ~50).
In this tank (50) now is filrered tap water chilled to ~ Ll~re of about 4 de~rees Celsius (39.2 degrees Fahrenheit), and is ideal for the eTNichment wlth C~2- To achieve this, the m~x~ng tank ~50) is connectecl via a flexible tube ~1) to a srnal~
C02-gas bottle (52) loca.ted under the fountain c~isp~n~ (8). Via a pressure gove~n~ng va~ve (53) the a~no~nt of CC)2 fed into the mix~ng tank can casily be r~ tcrl Thed~n connP~o~(54)of ~ ~ng tank (50~ is via a tubc connPc~l to tap 6.
~ fo- e C02 Pn~l~.hP~I soda~ er ~nside the tanlc ~503 chilted to a tf~ of ap~ 5 degrees t~elsius ~41 degrees Fahu ~-L~L)canPasllybe ~4~ed by ope~g tap (6~ n~e o~t~Le one-wa~
valve (483 the CO2 caDnot dii~se into the wa~er tubings (1 X, 19, 41) 10 The C02-~o~e (563 in~ide~ m~ng t~nk (50) has a very small o~ , so that even when the ~02-bottle is ~ o;~Lu _,~ can not escape This ~s ~
s af ~ty l L L~ ~ 3 S ~ I y .
A slightly di~L~L des~gn is sho~m in figure 2. The already known palts of the founta~n ~i:iy~ser 1 are cr ~'c~ '.y ;A~nti~ to figure2. ~denticalparts the.t;r~.~ have ~e id~ ti~l nu .1.- :, as in figure l.
Also l-n~ to figure 1 is the m~g tank (50~ as well as ns tubing u~ regard to the water inle~ tube (49) and the drain conrlection ~54) The only di~.cc to 2~ figure 1 is that the COl-~;as fed into the nozzle (56) v~a tube 51 ~s not ta3~ from an i~ion~l CO2-bottle but ~om the one (39'~ located ~n the bE~sement (16?. Recy(~lc~
,_~ of that, the blbe 51 is longer ~n m figure _.) I and suns to~e~h~r with the o~r 18 tubing throu~h the shaf's 17 into the b~ n~ 16 a~d to a second y~ul~:
~YelifLIlg valve 57 located at the gas bottle 39' This has the a~lVdll'L~,~ that ~he 3S pressure of the CO2 used to emich the tap water in the mix~ng tanlc 50 is i...l~ ~,. n~f.nt f~om the pressure of the CO2 in the pressure tubes 3~' and can ~e independen~ly re~ll~t~l To pr~s ~he ~0 bev~rages from the~r co~ta~ners ~I2 up to the taps 2-~ ususally a pressure cf 4 ~ l Os Pa is used, because of the pre~c;
gove~n~ valve 57 a higher p~ssure of up to 7 * 10~ Pa may be use~ to release CO
45 into the rn~x~ng t.~nk 50.
In figure 3 another setup is shown which is intended for ~nmmiss~r~es beG~se of the smaller fo~a~ ensc. 61. T~e bar counter 62 has a sink 63 to wash glasses or other dishes. As inlet tube to t~e sink a tap (64) is used that is in turn co~ .-.r~l~ d to the water supply 65.
To comlect the de~rice to pro~ce soda water the water tube 6~i of the tap 64 is fiKed with a Te~ fit~ng 67. The j~nc~son 68 can be closed by a s.hut-o~valve 69 is tlle feed 70 of a filter 71 This ~lter should as ea~lier described, be e~ ~d with silver ~ns~t~.h~ci activa~ed ch~oal or a s~nilar typ~ eh~d the filte~ is ano~L~ shut-off valve 72, to al.'ow easy f~lter ~ ment by clos~g the shut-off valves 69 and 72 The filtrated water nOws into a coo~ng apparatus 73 where it is cooled to a temperature of 2-10 degrees CeIsnus ~35.6-50 degrees Fa}~ e;L~ The cooled water then flows through a one-way valve 74 ~nd into a ~g t~ 75 which may be i i~nts-~l to the tanlc 50 firom the fountaisl ..- 1. The filtered and cooled wa~er in the mixing tank 75 is than e~riched w~th CO2. A CO2-bottle 76 with a pressure valve 77 ;s c~....~ v~a a ~exible tube 78 to nozzle 79 in the t~nk 75.
By go~rern~ng (77) the press~re in thc tube (~8) the amount of'CCi2 in the tank (75) Gan be r~ te~
From the ~ratOE drain connp~;~l~ (80) of the taIlk (7~3 a nlbe (81) leads to a tap (82) w~ich is ~n~t~ d above the counter ~61).
~Jhen a guest orders a rn~x-drink such as a spri~zer orfuic~m~, the barkeeper ~rst pu~s the wLne or juice ir~to the glass and then adds cooled soda-water fi~m the tap 82 The resu~ting Tnix-drink has no ~liffereIIce ~n taste col.",~ed to rn~x-drirlks rnade ~c~ cornmercial mineral walcrs.
In fi~ure 4 is yet another f~l ~mple ofthis inven~ion shown this t~rne interKied for private home usage. It is conne~.te~ to the water supply 97 uuder a sir~ 92 Near the sinlc 93 ls a fia~.lcet 94 with temperature ccr (95) for cold and hot ~ter. T~is O 9 "
fi~ucet (95~ is c~ -A î~xl to <96) to the hot water supply of the b~ ng and also to the cold water supply (97).
addition to the faucet (94~ for cold and ~; hot water ano~ faucet (9~,) is placed near the sink ~9:~ from which soda-water can be taken. Ihe water supply (973 is connecter~
via a tube (100) and a sh~lt-offvalve (101~
to a filter (102). This filter shollld be of the 10 earlier mf~nti-~n~l type w~th silver ~-nnrh activated eI~o~l. r)ownline fiom the filtcr (102~ is another shut-off-ralve 103 which "_~ can be close~i together ~th the shut-off valve ( 101) for filte~ rt~pl~r,em~n~(lQ2). A
15 Tee fitting (104) is inserted at the drain of the shut-offv~lve ~03). A drain cu~ ;on at this crossing leads to the m~xing tank ~109) and to the soda-water tap (98), so that the opPning of an armature (106) from the mixing tank ~109) leads to filtere~ water flo~om the faucet (98~
This ~ltered v~ater is especia~y suitable for the elderly and also for infants A~other tube at the Tee fitting (104) is Z~ c~;~cd v~a a one-way ~alve (107) to the mlet tube <108) of a~x~ng-tank (109~.
Ihis tank (109) cas~ be iAPnti~ to ~he tanks 50 and 75 A no?7le (110) inside the tank (109) is conn~ec~ via a ~ able tube (111) to a CO~-bottle ~112) w~th a pressure gove~ng vaIve ( ~1~) With this valve (I I3) the CO2-pressure can be re~ red at the time of the inet~ tion of the C02-bottle (112) and needs not to be ch~n~
35 The d~ ~o~ n ~114) ofthe ~r~ang tank (109) is via another tube (1 15~
connP~x~ to the faucet (105) so that by opening an a~na~ure (116) at the tap (98) (~02-enr~ched water Mows from th3t tap 4;~ The arrnatures 106,1 16 re~ulatc thc soda water and the filtered water arnount so that eaGh farr~ly member can mix a water drink to personal preference A coolin~ appAratus ~; not planned a~;cording to figure 4 however one c;ould be placed ~ the shut-offvalve (I03) and the Tee fitting (104)
Claims (14)
PROPERTY OR PRIVILEGE IS CLAIMED ARE DEFINED AS FOLLOWS.
1. A method to produce soda-water or soda-like water by gastronomical businesses (fig. 1), commissaries (fig. 2) and/or consumers (fig. 3), whereby water from the water supply (41;65;97) is fed to a mixing-tank (50;75;109) where it is enriched with CO2 and the resulting soda-water can be taken downstream of the tank by opening a water faucet (98) or a tap (6;82), and whereby the water streams through the mixing-tank (50;75;109) from an inlet opening (49;108) at the tank's bottom to an outlet (54;80;114) at the top of thetank and thereby is continuously mixed with CO2 streaming through a nozzle into the tank.
2. A method according to claim 1, characterized in that the municipal water is cleaned (42,71;102) from flavors and odors before being mixed with CO2.
3. A method according to claim 1 or 2, characterized in that the municipal wateris cooled (19;73) to a temperature of approximately 2-10 degrees Celsius (35,5-50 degrees Fahrenheit) before being mixed with CO2.
4. A method according to one of the preceeding claims. characterized in that thewater is fed through a cooling coil of a refrigeration unit (19) before enteringthe mixing-tank (50;75;109).
5. A method according to one of the preceeding claims, characterized in that the amount of CO2 in the soda-water is adjusted (53;77;113) by changing the pressure of the added CO2 subsequent adding (105) of
6. A method according to one of the claims 1 to 5, characterized in that the amount of CO2 in the soda-water is adjusted by subsequent adding (105) of tap water in a suitable mixing ratio.
7. A device for producing soda-water or soda-like water by gastronomical businesses (fig. 1), commissaries (fig. 2) and/or consumers (fig. 3), characterized by a mixing-tank (50;75;109) which is connected (49;108) with its input end to the water supply (41;65;97) and with its other end (54;80;114) to a tap (98;6;82), and with an additional connection (56;79;110) to a pressure vessel (52;76;112) in which CO2 is stored; whereby the water inlet (49;108) is placed at the bottom of the housing and the water outlet (54;80;114) is placed at the top of the housing, and whereby the connection for the CO2 gas is formed as a nozzle (56;79;110), which is coupled to the pressure reduction valve (53;57;77;113) of a CO2 bottle (52;39;76;112) through a flexible tube for the continuous production of soda-water.
8. A device according to claim 7, characterized in that a one-way valve (48;74;107) is installed upstream of the mixing-tank (50;75;109).
9. A device according to claim 7 or 8, characterized in that a refrigeration unit (19;73) conducting municipal water is installed upstream of the mixing-tank (50;75;109) and/or upstream of the one-way valve (48;74;107).
10. A device according to claim 9, characterized in that a collecting tube (18) runs from the refrigeration unit (19) to the taps (2-5), from which the flexible tubing for the cooled water branches to the pressure reduction valve (48).
11. A device according to one of claims 7 to 10, characterized in that a filter (42;71;102) is installed upstream of the mixing-tank (50;75;109), the one-way valve (48;74;107) and/or the refrigeration unit (19;73).
12. A device according to claim 11 . characterized in that a shut-off valve (46;72;103) is installed at each of the feed connections (43;70) and the drain connections (44) of the filter (42;71;102).
13. A mixing-tank 50;75;109) intended for a device according to one of claims 6 to 10 with a water feed (49;108) and a water drain (54;80;114) as well as an opening (56;79;110) to feed in CO2, whereby the water feed (49;108) is placed at the bottom of the housing and the water drain (54;80;114) is placed at the top of the housing, and whereby the CO2 connection (56;79;110) is formed as a nozzle and comprises a connection for a flexible tubing (51;78;111).
14. A mixing-tank according to claim 13, characterized in that the tank (50;75;109) is made from a pressure and corrosion resistant material, for example stainless steel.
Applications Claiming Priority (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
DE19606191.1 | 1996-02-20 | ||
DE19606191 | 1996-02-20 | ||
DE19615106A DE19615106C2 (en) | 1996-02-20 | 1996-04-17 | Method and device for the production of soda water or soda-like water and the mixing container used in the process |
DE19615106.6 | 1996-04-17 |
Publications (1)
Publication Number | Publication Date |
---|---|
CA2247088A1 true CA2247088A1 (en) | 1997-08-28 |
Family
ID=26023051
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CA002247088A Abandoned CA2247088A1 (en) | 1996-02-20 | 1997-02-14 | Process and device for the continuous production of soda water or the like and mixing vessel used therein |
Country Status (3)
Country | Link |
---|---|
EP (1) | EP0881887A1 (en) |
CA (1) | CA2247088A1 (en) |
WO (1) | WO1997030602A1 (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111011680A (en) * | 2019-12-18 | 2020-04-17 | 黑龙江省科学院火山与矿泉研究所 | Preparation method and application of micro-bubble water based on natural soda water of Wudalianchi |
Family Cites Families (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB1188664A (en) * | 1967-11-27 | 1970-04-22 | Umc Ind | Dispensers |
US3943261A (en) * | 1973-09-18 | 1976-03-09 | The Coca-Cola Company | Process for water disinfection and carbonation |
US3926342A (en) * | 1974-08-01 | 1975-12-16 | All State Vending Equipment In | Carbonated water producing apparatus |
ZA835729B (en) * | 1982-08-20 | 1984-09-26 | Sodastream Ltd | Liquid aerating apparatus |
DE3436660A1 (en) * | 1984-10-05 | 1986-04-10 | Technica Entwicklungsgesellschaft mbH & Co KG, 2418 Ratzeburg | METHOD AND DEVICE FOR THE FURTHER TREATMENT OF WATER INTENDED FOR DRINKING AND USE |
-
1997
- 1997-02-14 WO PCT/EP1997/000699 patent/WO1997030602A1/en not_active Application Discontinuation
- 1997-02-14 CA CA002247088A patent/CA2247088A1/en not_active Abandoned
- 1997-02-14 EP EP97903283A patent/EP0881887A1/en not_active Withdrawn
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111011680A (en) * | 2019-12-18 | 2020-04-17 | 黑龙江省科学院火山与矿泉研究所 | Preparation method and application of micro-bubble water based on natural soda water of Wudalianchi |
Also Published As
Publication number | Publication date |
---|---|
EP0881887A1 (en) | 1998-12-09 |
WO1997030602A1 (en) | 1997-08-28 |
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