EP1981623A2 - Compensateurs pour robinets post-melange - Google Patents

Compensateurs pour robinets post-melange

Info

Publication number
EP1981623A2
EP1981623A2 EP07711164A EP07711164A EP1981623A2 EP 1981623 A2 EP1981623 A2 EP 1981623A2 EP 07711164 A EP07711164 A EP 07711164A EP 07711164 A EP07711164 A EP 07711164A EP 1981623 A2 EP1981623 A2 EP 1981623A2
Authority
EP
European Patent Office
Prior art keywords
compensator
tap
post mix
post
mix
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.)
Withdrawn
Application number
EP07711164A
Other languages
German (de)
English (en)
Inventor
Pasquale Spiegel
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Publication of EP1981623A2 publication Critical patent/EP1981623A2/fr
Withdrawn legal-status Critical Current

Links

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B67OPENING, CLOSING OR CLEANING BOTTLES, JARS OR SIMILAR CONTAINERS; LIQUID HANDLING
    • B67DDISPENSING, DELIVERING OR TRANSFERRING LIQUIDS, NOT OTHERWISE PROVIDED FOR
    • B67D1/00Apparatus or devices for dispensing beverages on draught
    • B67D1/08Details
    • B67D1/12Flow or pressure control devices or systems, e.g. valves, gas pressure control, level control in storage containers
    • B67D1/14Reducing valves or control taps
    • B67D1/1405Control taps
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01FMIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
    • B01F23/00Mixing according to the phases to be mixed, e.g. dispersing or emulsifying
    • B01F23/20Mixing gases with liquids
    • B01F23/23Mixing gases with liquids by introducing gases into liquid media, e.g. for producing aerated liquids
    • B01F23/236Mixing gases with liquids by introducing gases into liquid media, e.g. for producing aerated liquids specially adapted for aerating or carbonating beverages
    • B01F23/2362Mixing gases with liquids by introducing gases into liquid media, e.g. for producing aerated liquids specially adapted for aerating or carbonating beverages for aerating or carbonating within receptacles or tanks, e.g. distribution machines
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01FMIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
    • B01F25/00Flow mixers; Mixers for falling materials, e.g. solid particles
    • B01F25/40Static mixers
    • B01F25/44Mixers in which the components are pressed through slits
    • B01F25/441Mixers in which the components are pressed through slits characterised by the configuration of the surfaces forming the slits
    • B01F25/4413Mixers in which the components are pressed through slits characterised by the configuration of the surfaces forming the slits the slits being formed between opposed conical or cylindrical surfaces

Definitions

  • the invention shows that you can save on preferential post-mix - taps preferential Co 2 in the carbonation when in post-mix - taps are preferred compensators used. (In the open bar)
  • Post-Mix - Taps are preferably used in alcohol-free open dispensing.
  • the basic principle of the post-mix taps is that at least one supply line for carbonated liquid is connected to the faucet, and at least one supply line for beverage additives. IKe both liquids are brought together in the outlet area of the tap and can mix during the tapping process and yield, for example: a drink such as Coca Cola.
  • This type of valve can be regarded as state of the art.
  • Post-mix taps have no compensators, such as: beer tap taps, so-called compensator beer taps.
  • Beer compensator taps have the advantage that beer can be tapped faster. This proves that in the past a beer glass, until it was full, took up to about 8 minutes. In this day and age you can easily tap the same amount of beer in seconds. This can be explained by the fact that within the beer tap a compensator has been used, in front of the exit possibility for the beer. Because without a compensator, when the beer tap is opened and the beer is released, the Co 2 in the beer is released from the beer liquid and the beer liquid foams when it tapers in the glass. That was also the reason, because the tap has taken so long in the past because the beer foam had to sit first and then you could continue to tap.
  • the relaxing Co 2 is released from the beer liquid before leaving the faucet spout, the released co 2 is squeezed back into the beer liquid through the annular gap between the beer tap inner casing and compensator and can not relax during thawing and foam the beer liquid This can be tapped beer throughout.
  • the liquid temperatures can also play a major role here. Generally it is known, the cold the better you can tap.
  • Compensators were preferably half in connection with post-mix - never used taps (by the glass) it to the required preferably CO 2 to reduce the carbonation.
  • the unbound Co 2 is again squeezed before the exit possibility, preferably in the form of water or carbonated liquid
  • the annular gap between the Hahn- réellegehause and compensator is designed so that the desired amount of liquid with the vrierienen fluid pressure from the Kaibonator or optionally adapted by a so-called Kreislau ⁇ umpe and the desired Zapfinenge and dispensing speed.
  • the annulus will be two-tenths of a second larger.
  • the enlargement of the annular gap is achieved so that the compensator to be used in the diameter is made smaller by about two-tenths smaller has the advantage that, for example, on the post-mix - mecanichahngephin ⁇ se no change must be made. You can use this principle as you like, for example: to reduce or increase the flow rates.
  • the aforementioned basic principle applies to all Postoüx-Hahn models and generally to all tapping points.
  • the company Lancer has used a so-called Flocontrol insert in the post-mix tap housing. It is already known to the prior art that the company Lancer Beverage Technology, a so-called volumetric - post - mix - tap has on offer.
  • the so-called flow-through limiter in the tap keeps the desired flow rate of, for example: carbonated liquid, which is reached via a rubber disc, which has a hole, depending on the bore size.
  • This rubber disc is available in different sizes: for example: 1.5 OZ / in one second to 3.0 OZ / in one second Flow rate of carbonated fluid
  • These rubber discs are inserted into a housing This housing is available in different colors, for example: red for 1.5 OZ / per second, white for 2.25 OZ / per second and gray for 3.0 OZ / per second.
  • carbonated water flows through the rubber disc and flows through a hole in the housing and also exits through the housing towards the spout. This case was never used to intrigue a compensator inside the case, thereby saving Co 2 in the open dispenser.
  • housings can still be made of the outer structure, only the inner structure can be made so that a compensator is pointed and the annular gap between compensator for Co 2 reduction and inner wall housing sufficient for the amount of liquid flowing through.
  • This annular gap can also be used as a flow rate limiter and takes over the function of the rubber disc with the bore.
  • the flow restrictor housing can also be designed as a compensator by the cock housing is used to ensure the required annular gap between the compensator.
  • the venezhahnwahndung is very well suited for this, because it is already in practice very smooth surface and so can no bound Co 2 relax in the liquid on the walls.
  • the compensator is also made surface-free to counteract the Co 2 relaxation over the compensator.
  • the bores and compensators are also able to control desired flow rates and to ensure combined Co 2 reduction at exact calculation of the annular gap.
  • the amount of Co 2 can be significantly reduced in the carbonator kettle in a simple way, the Co 2 pressure on the Co 2 pressure regulator lowers, for example, from 7 bar to 5 bar. This measure causes the lower Co 2 pressure also feeds a smaller amount of Co 2 in the boiler.
  • the pressure only one thing must be taken into account so that the prescribed and required CO 2 pressure is not undercut, otherwise the required dispensing speed and liquid quantity would be reduced.
  • the invention it can be ensured that a large amount of Co 2 is saved and that the beverage additive in the tap of relaxing Co 2 is no longer churning up the beverage additive. Thanks to the invention can be retrofitted with little effort Post-Mix- Hahne, regardless of the type and manufacturer with compensators. These retrofitted post-mix taps would then help to save, for example, up to 50% Co 2 at open dispensing. This is an economic advantage for the operator and also benefits the environment, since the amount of Co 2 consumed in open dispensing worldwide is very high. As an operator in an open bar, you can also achieve more profit per drink.
  • the inventive step is that with very little resources and effort, existing constructions and production of post-mix faucets are not affected and may still cause the post-mix tap to use to save and significantly reduce Co 2 In addition, to produce better quality drinks, like the traditional post-mix taps.
  • Another advantage of the invention is the fact that a retrofit or exchange of post-mix taps, so post-mix taps without compensator, takes place against post-mix taps with compensator during operation such as Mac Donalds ,
  • Another advantage of the invention is that higher tapping speeds can take place in open dispensing because the Co is better bound in the liquid.
  • the invention is also to be applied in the field of industrial bottling of CoMitaltigen beverages. Also there Co 2 can be saved during bottling and reduced already be fed in the carbonation when you install compensators as close as possible beforegenabfiillung.
  • Co 2 volume of the 3 non-compensator taps is significantly lower than that of the compensator taps. Because to carbonize reduced Co 2 , it is necessary to reduce the Co 2 supply of the carbonator and this Co 2 reduction is due to the fact that only compensator taps the desired Co 2 volume in the drink can offer despite the Co 2 reduction in the carbonator (not pictured ).
  • the invention shows that preference is given by Post Mix Hahne (13X39X55) with preferred interested compensator (1X16X20X23X26X31X39X34X43) (51) (56) to greatly reduce the preferred Co 2 consumption in open dispensing (not shown pictorially).
  • At least one compensator i ⁇ i6X20X23X26 ⁇ 3i ⁇ 34X39X43X5i ⁇ 56 is preferably used at the factory. The taps are then able to reduce Co 2 in the carbonation in open dispensing (not pictured).
  • the compensator (i ⁇ i6) (20X23 ⁇ 26X3i ⁇ 34X39X43X5i ⁇ 56) is preferred in the Post Mix tapers (13) (39) (55) discharge zones for carbonated liquids (6 ⁇ i9) (45X57) towards the tap spout (8X14) (35X36) (68) with the rounded Page (7X22X25X29X54) to the supply of carbonated liquid for the taps (13X39X61) installed.
  • the preferentially carbonated tap water flows up onto a free and rounded surface (27X25) (29X54) (56) because it does not unnecessarily release Co 2 from the liquid because any degree of material in the tap or compensator corners and As the carbonized liquid ruptures, the Co 2 relaxes from the liquid (not shown).
  • the existing bleed or inflow capability (6 ⁇ i9X45X73) for preferentially carbonated liquids may be provided by the compensator (3) (17) (44X (57) on the existing size holes or conduits (70X71X72X73) (not pictured) ) without the preference of the series post mix taps (13X39X55) must be changed (not pictured).
  • the compensators i ⁇ i6 ⁇ 20 ⁇ 23X26) piX34X39X43) (51X56), if necessary, post Mk ⁇
  • Compensators (1X43) (67) with interested or additional spacing devices (12X42) are preferably used to keep the annular gap (3) (17) (44X57) always constant. This serves to prevent inflowing fluid from displacing the compensators (i ⁇ 43X67) in the outlet zone, thereby changing the annular gap within the Post Mix tap (13X39) (55).
  • flow rate limiters (2) such as, for example, the company Lancer.
  • the actual flow restriction of carbonated liquid takes place so that a rubber disc (5) has a certain bore (6) and this bore (6) allows only the desired amount of liquid in the direction of the tap outlet (35) via the possibility (14).
  • the rubber disc is inserted in a housing (2) with a bore which may be the same for all four housing types (not shown pictorially).
  • housings (2) have at least one outlet (8) for preferred carbonated liquid in the direction of outlet (14) for carbonated liquid.
  • Beverage additives at Post Mix systems has (not pictorially shown).
  • the invention also makes it possible to completely save the housings (2) by using the compensator inserts (9 ⁇ i 8). In this case, compensators (16) (33X34) will become more equilateral
  • the individual expansion joints (16X33X34) are manufactured to allow for the flow of tuned preferred flow rates of preferred carbonated fluid.
  • compensators (16X33X34) the Co 2 reduction in the open dispensing is ensured via the annular gap (17) and the cock inner wall housing extension (70) for the compensator (16X33X34) (not pictured).
  • the fluid pressure between the inner cockpit housing (11X41) (61) and expansion joints (1X7X16X21) (43) (53) (56) may cause the compensator to rupture rubber disc (5) pressed or the ⁇ fHhungen (6X19 ⁇ 4S) ( ⁇ iyteüweise seals (not illustrated) of the wSh ⁇ end Za ⁇ fens (sometimeslicli ⁇ 'shown CHT). This affects the Brix value for non - volumetric taps.
  • compensators (1) 23X31X33X34
  • compensators (1) are preferably provided with at least one possibility for attaching at least one O-ring (12X24) so that carbonated liquid does not flow between valve body (41) and, for example, compensator (23). can get.
  • the O-ring (4X12) (24) is designed so that it has a sealing effect between compensator and cock - inner housing (partially pictured not shown).
  • the compensator (31X33) (43) is provided with at least a saving of material (32X40X52) which flows off the better of preferably carbonated liquid guarantees in the direction Hahnauslaufisone (35).
  • This has the advantage that the space in the tap inner housing or in the flow restrictor housing, significantly larger and thus the liquid can flow out better than through the annular gap (3X17) (44X57). It is also inventively achieved by clamping the compensator - or screw connection or by gluing is secured (depicted teüwe se i n i c h t).
  • Compensator i ⁇ i6X20 ⁇ 23 ⁇ 26X3i ⁇ 33X34 ⁇ 43X5i ⁇ 56 ⁇ 66
  • Compensator Post-MIx taps 13X39X55
  • Figure 1 shows: a flow restrictor - housing (2) with free-floating compensator (1), with the preferred rubber discs (5), flow-limiting bore (6) and the ORingen (4) sealing possibility on the housing (2). These O-rings (4) are provided for sealing to the post mix compensator valve (13) against outflowing preferably carbonated liquid from the tap housing (13).
  • the compensator (1) has a degree-free, rounded surface (7).
  • the annular gap (3) between the housing inner wall (72) to the compensator (1) calculates depending on the required desired flow rate and has the effect of saving as much Co 2 as possible.
  • the housing (2) there is at least one opening (6) for the supply of the housing (2) with preferably carbonated liquid and at least one opening (8) for the outflow of preferably carbonated liquid by not yet dissolved Co 2 again introduced into the liquid has been.
  • the free-floating compensator (1) rests on the imprints (11) of the housing (2).
  • the pin (9) is used for adjustment on the cock housing (13).
  • the pin (10) is used advantageously for color detection which flow rate limiter housing (2) is located in the post-mix compensator tap (13).
  • Figure 2 shows: a flow restrictor housing (2) with a compensator (1) the construction is equipped with additional Distanzhaltevomchtungungnnung ßn (12) to allow no annular gap (3) change in vorzugsMber Post Mix compensator taps (13).
  • Figure 3 shows: shows a partial section of a Post Mix compensator tap (13) without Kompensatorgeophuse (2) which is replaced by a compensator (16) with its own seal (4) to prevent that preferentially carbonized liquid to flow out of the Post Mix compensator valve (13) can.
  • the compensator (16) also has ⁇ k Justie ⁇ nögtichkeit (18) and the pin for color detection (10).
  • the compensator (16) autonomously holds the annular gap (17) to the tap - indoor tap (70).
  • the compensator (16) is preferably made of two parts (16X18) and introduced into position (15). Via the inlet channel (19), preferably, carbonated liquid flows into the post mix compensator tap and flows via the channel (14) in the direction of the tap outlet (35 ) when tapping.
  • Figure 4 shows: a compensator (20) which has a Gradfireie and rounded surface (22) and on the opposite side at least one notch (21) so preferential carbonated liquid can flow better, for example, the compensator (20) larger in diameter is as the drainage possibility within the Kompensatorhahnes (55), because otherwise without the notch (21) no or not enough preferential carbonated liquid when tapping, can flow.
  • FIG. 5 shows: a compensator (23) with a degree-free compensatory (23), degree and rounded upstream side (25) for preferentially carbonated liquid and with at least one possibility to attach at least one O-ring (24) without being separated from the compensator (23) can solve.
  • the O-ring (24) serves to ensure that the compensator (23) is not kept constant from its inserted position by, for example, liquid leakage into one of the annular gaps (3X17X44).
  • FIG. 6 shows: Compensators (66X67) which are free of degrees and rounded off on both sides (7) and have a spacer element (12) with respect to the annular gap (3X17X44).
  • Figure 7 shows: a compensator (26) with a smooth and rounded surface (29) and introduced channels (27X28) for draining preferentially carbonated liquid not via the annular gap (3X17X44X57) preferred application for Post Mix taps (13) (39) (55) in the open bar.
  • the tap (13) is not offered as a compensator post mix tap by the aforementioned company Lancer.
  • This Kompensatorausfschreibung (16) has become mogucn only by the invention.
  • the spring (29) is used to adjust the compensator (16) and is above the groove (30) adjusted, on the straight and rounded side (7).
  • the spring (29) DrahtstInfoke is designed so that it does not obstruct the flow of liquid , (not shown pictorially). This post mix Compensator (13) will reduce the CO 2 consumption at the carbonator for carbonating strong.
  • FIG. 9 shows a schematic representation of a flow rate limiter housing (2) for mail Mk HÜine (13X39) which are to be used with preference.
  • the preferred rubber disc (5) with the ⁇ fmung (6) serves that preferably carbonated liquid can flow into the housing (2).
  • the opening (6) is preferably used to limit the incoming liquid to a desired amount of liquid or to increase it by different holes (6).
  • the O-rings (4) seal over the housing (2) and the Post Mix compensator tap (13), from which preferably no carbonated liquid can escape from the tap or tapping point (13).
  • the preferred carbonated liquid impinges in the housing (2) and is soothed by the straight and rounded side (7) and separated from the liquid by the still further Co 2 the rounded sides (7) in the annular gap (3) passed.
  • this annular gap (3) flows in the preferred carbonated liquid and the unbound Co 2 .
  • the flowing carbonated liquid flows via the recess (32) on the compensator in the direction of Trustöffiimig (8), in the direction Hahnauslaiif (35) (not shown pictorially).
  • the O-rings (24) have the task of securing the compensator (31), which does not flush any liquid or flushes the compensator (31) in the direction of the rubber disc (5) (not shown pictorially).
  • This is inventively solved so that the O-rings (24) sealing between compensator (31) and inner housing (72) is used so that no liquid can reach the compensator (31) position (11).
  • the pin (10) serves that it is possible preferrably a color recognition of the different housing (2) to recognize species.
  • the base (9) on the housing (2) serves to lock the housing (2) and to hold it in a specific position which ensures the opening (8) in the direction of the outflow possibility within the post mix compensator cock (13) (not shown pictorially).
  • FIG. 1 shows a schematic representation of a post mix compensator (31) which according to the invention serves to save and significantly reduce CO 2 in the course of carbonization.
  • This compensator (31) is preferably used in a flow rate limiter (2).
  • the degree-free and rounded side (7) is preferably used in the inflow direction (6) for preferably carbonated liquid of the flow restrictor housing (2).
  • the Materialausspanmg (32) serves the carbonated liquid can flow better than just an annular gap (3).
  • the O-rings (24) serve the compensator (31) is not pressed from the position (11) against the rubber disc (5).
  • FIG. 1 shows: a schematic representation of a compensator (33) for a volumetric post-mix valve (13) according to the invention eliminating the need for a compensator housing (not illustrated) since the compensator (33) is constructed so that the compensator (33) is directly in
  • the actual compensator (33) is made of the diameter and the compensator length so that it fits into the position of the otherwise seated flow restrictor - housing (not pictured) and also the required annular gap (3) in which the carbonated liquid and unbound Co 2 can flow out and at the same time between the compensator (31) and Hahninnen- wall (3) unbound Co 2 back into the Carbonated liquid can contribute and thereby according to the invention contributes Co 2 bek the carbonization save.
  • the material recess (32) serves to allow the preferably carbonated liquid to drain better and faster in the direction of the tap outlet.
  • the housing of the compensator (33) on which the rings (24) are mounted is made of diameter so that according to the invention it can be exchanged for the flow rate limiter of the standard equipment in preferred post mix taps of the series Volumetrie - Hahn from Lancer In the market, post mix taps to modify by replacing the flow restrictor housing against the compensator (33) it inventively thereby preferably to save Co 2 in the carbonation and improve the quality of the drink so much that a post mix drink equivalent to a bottle quality corresponds (not pictorially shown).
  • the compensator (33) has a pin (10) for color detection of the compensator (33).
  • the compensator (33) has at least one pin (9) to secure the position of the compensator (33) when inserted into a post mix tap (not shown pictorially).
  • Figure 2 shows: a partial section of a post mix cock (13), shown schematically
  • the opening (6) preferably flows according to the invention carbonated liquid and unbound Co 3 a.
  • the two separate media impinge on the degree-free and the rounded side (7) of the compensator (34). Only when tapping the two separate aforementioned media flow into the Singspalt (17).
  • the two separate media by friction and pressure conditions in the annular gap (17) again intensively connected to each other during the flow through the tap and pin is bound by this invention only for the most part bound Co z in tapped the liquid.
  • the bound and dissolved in the liquid Co 2 flows through the Offimng (14) in the direction Hahnauslauf (35) ⁇ and d (36) from.
  • the O-ring seal (24) ensures that no liquid
  • the pin (9) serves to the compensator (34) is adjusted and a; through the plate (38).
  • the plate (38) is attached to the post mix tap (13) by preferred screws (not pictured).
  • the pin (10) serves for a preferred color recognition is possible which compensator (33) is used in the cock (13) based on the Zapfinenge possible.
  • the compensator (33) is responsible preferably Co 2 at carbonize save the but it has been made possible by the invention in this way at the same time, the expansion joint (33) can regulate the desired flow rate in the present invention by different compensator (33) Diameter is possible (not shown pictorially).
  • the outlet sleeve (35) with the opening (36) preferably carbonated liquid and also preferred beverage additives are tapped together. With the operating lever (37), the tap is mechanically enabled.
  • FigureB a schematic section of a Cornelius Post Mix
  • carbonated liquid and undissolved Co 2 flow through the oil (47) into the housing (48) via the opening (49).
  • an O-ring (46) is mounted on the housing (48) to seal the housing (48) and via the inner cavity (71).
  • the housing (48) further components are introduced (not shown pictorially) which are used to set different Zapftnengen the cock (39) (not shown pictorially).
  • the inflowing liquid through the openings (47X49) can only get into the chamber (50) when the compensator post mix cock (39) is geöfimet only
  • the compensator (43) has attached spacers (42) which guarantee that the compensator (43) annular gap (44) always remains constant.
  • the compensator (43) in the outlet zone (68) at the same height has a material recess (40) so that preferably the after-carbonated liquid can flow off better and faster.
  • the compensator (43) is held in the horizontal position on the boundary (41) of the cock - inner housing (71) and can not be flushed out because the housing (48) limits the range of motion.
  • FIG. 14 shows a schematic representation of a conical compensator (51).
  • this conical compensator (51) it meets in the opposite direction with respect to h and h in the function of a Bi ⁇ rkompensator
  • Compensator not used for Co 2 savings in carbonizing This was only possible by this invention.
  • the narrower side (52) of the compensator serves to allow the preferentially carbonated liquid to drain better and faster.
  • the tip (53) of the compensator (51) is used for locking and adjustment of the compensator (51) (not shown pictorially).
  • FIG. 5 shows a schematic rear view of a post-mix compensator tap (55) according to the invention.
  • the compensator Post Mix Tap (55) is preferably equipped with at least one compensator (56) on the back. This is used in the opening (73) so that the degree-free and rounded side in the preferred direction for carbonated liquid and unbound preferentially Co 2 through the annular gap (57), the two aforementioned median drainage in faucet (55).
  • the bracket (59) is used as a Hahnsichenung at the tap.
  • the Guide (60) For the Bugel (59) is directly on the tap (55) Positioning of the faucet (55) connection and the connection to supply the faucet (55) with the supply lines for carbonated liquid and preferably beverage additives (not shown pictorially).

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  • Chemical & Material Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Dispersion Chemistry (AREA)
  • Devices For Dispensing Beverages (AREA)
  • Beverage Vending Machines With Cups, And Gas Or Electricity Vending Machines (AREA)

Abstract

L'invention concerne un procédé permettant de réduire l'utilisation de Co<SUP>2</SUP> lors de la carbonatation, lorsque le débit est ouvert, au moyen d'une prise d'eau, de préférence un robinet compensateur post-mélange.
EP07711164A 2006-01-30 2007-01-30 Compensateurs pour robinets post-melange Withdrawn EP1981623A2 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DE102006005423A DE102006005423A1 (de) 2006-01-30 2006-01-30 Das man durch mindestens einer Zapfstelle, bevorzugt Post-Mix-Kompensatorhahn den bevorzugt Co2 Verbrauch bei der bevorzugten Karbonisierung im offenen Ausschank reduziert
PCT/DE2007/000183 WO2007085248A2 (fr) 2006-01-30 2007-01-30 Compensateurs pour robinets post-melange

Publications (1)

Publication Number Publication Date
EP1981623A2 true EP1981623A2 (fr) 2008-10-22

Family

ID=38255555

Family Applications (1)

Application Number Title Priority Date Filing Date
EP07711164A Withdrawn EP1981623A2 (fr) 2006-01-30 2007-01-30 Compensateurs pour robinets post-melange

Country Status (3)

Country Link
EP (1) EP1981623A2 (fr)
DE (1) DE102006005423A1 (fr)
WO (1) WO2007085248A2 (fr)

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CN106827819B (zh) * 2017-02-15 2018-05-01 永春县裕顺工业设计有限公司 一种具有匀料功能的打印机油墨补料装置

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