• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The present invention relates to a set of parts for the in-situ production of a fermented target beverage by adding a liquid diluent (3), said part set comprising: - (c) A first chamber (1) with concentrated beverage extracts, and - (d A second chamber (2) separated from the first chamber by means of liquid comprises the ethanol of at least 80 vol. purity, - characterized in that the ethanol of the second chamber contains CO2 or N2 in saturation concentration at a temperature of 25 ° C and at a pressure of at least 2 bar (= 1 bar above atmospheric pressure). The present invention also relates to a dispensing device and a method for the in-situ preparation and delivery of a fermented target beverage by means of the aforementioned component set.
    公开号:BE1024307B1
    申请号:E20175212
    申请日:2017-03-30
    公开日:2018-01-29
    发明作者:Stijn Vandekerckhove;Daniel Peirsman
    申请人:Anheuser Busch Inbev Nv;
    IPC主号:
    专利说明:

    BE2017 / 5212
    Set for the in situ production of a fermented target drink by the addition of a liquid version.
    T e c h n i sch g ebled
    The present invention relates to mr:
    for diluent. provide me with beer such as beer, or a
    Gebr u i k with a dr a .nk issue : t v ormer i ΘΏ wonder ge ven of a through addition from a liquid In it Bee sin ν ' can the a moi i l Ο θ b 3 S ί serde be drink, rider, -P• '_ / -L. a W are. It liquid flat wate r be. :find: inc
    Today, there are more and more trendy drinks, with multiple drink components or drinks being added together so that consumers can create their own compositions at home that are adapted to their taste. This trend also applies to fermented drinks, such as malt-based fermented drinks, such as beers with different flavors and varieties:
    • hilling species.
    One way of providing consumers with such an opportunity is to provide the various components and flavors of a drink concentrated in a unit dose:
    A diluent diluent is added and mixed to create the desired beverage in situ while. it is served. The addition and mixing of the liquid diluent to the unit dose is generally performed in a dispenser,
    BE2017 / 5212
    Examples of dispensers of this type are coffee vending machines, where hot water is forced to percolate under pressure through a coffee powder bed in such a unit dose before serving. Similar dispensers exist for the. making tea. Another example of such dispensers are
    f r i s d r a n k a u t o m a t e n, that often turn into used in f a s t f ο o d r e s t a u r a n t s and others spot n where a consumers are glass can fill right away Soft drink from his choice of honor i selection from fri: 3d drinks, That all available are in the same vending machine. In
    such soft drink vending machines open, d.
    w. z
    c o n c e n t r e r the verse ies of the d o e 1 f r i s d r a n k in 5 ve r s ehe .i de ne pouches, gerne i "With s p u, i t w a t e r b i j it.
    dispensing the target soft drink thus formed. Such soft drink vending machines are advantageous because the syrup bags have much smaller dimensions than a corresponding ready-to-use soft drink, and are therefore much cheaper to ship and store.
    Many brewers have been tempted to adopt the same dosing solution for fermented drinks as they are for soft drinks, but to date with very limited to no success. One reason for these repeated failures is probably that fermented drinks are more difficult to concentrate and store over a long period of time than soft drink syrups. Rapid breakdown of the proteins in beer concentrates has indeed been observed, which has never been the case with soft drink syrups.
    BE2017 / 5212
    It would be desirable to provide a solution for providing unit doses for the in-situ creation and delivery of a fermented beverage, preferably a malt-based fermented beverage, such as beer, with a long shelf life. It would also be desirable to provide such a solution where the liquid diluent is flat water so that a pressurized gas cylinder is not required to create the target beverage. The present invention
    IQ provides a solution that meets these goals. These and other objects of the invention will become apparent in light of the drawings, detailed description and appended claims. Summary of the invention
    This invention is defined in the appended claims. Preferred embodiments are defined in the dependent claims. In particular, the present invention relates to a parts set for the in-situ production of a fermented target drink by addition of a liquid diluent (3), said parts set comprising: (a) a first chamber (1) with concentrated beverage extracts, and ( b) a second chamber (2), which is separated from the first chamber by means of liquid, containing ethanol of at least 80% by volume of purity, characterized in that the ethanol of the second compartments contains CO2 and / or N2 in saturation concentration at a temperature of 25 ° C and at a pressure of at least 2 bar (= 1 bar above
    0 a. T m o s f e r i s c h e d r u k)
    BE2017 / 5212
    The present invention also relates to a method of producing a target beer in situ and dispensing said fermented target beverage, the method comprising the steps of: (a) providing a dispenser according to claim 6 (a) to (d) ), and connecting the upstream end (5u) of the tubing system to a source of liquid diluent (3), (b) loading both first chamber (1) and second chamber (2) into their housing (12 ), (c) streaming the liquid diluent from the upstream end to the downstream end of the tubing, through both first and second chambers, and (d) recovering the fermented target beverage so produced in a vessel (10).
    Brief description of the figures
    For a more complete understanding of the nature of the present invention, reference is made to the following detailed description in conjunction with the accompanying drawings, in which:
    Figure 1: shows various embodiments of delivery devices of the present invention, comprising a unit dose comprising first and second chambers,
    Figure 2: shows the saturation concentration of CCy in water and ethanol (EtOH) depending on pressure at a temperature of 298 ° K.
    Figure 3: shows the relationship between the saturation concentration of CO2 in water and ethanol at a pressure of 1 bar and a temperature of 298 ° K.
    BE2017 / 5212
    Figure 4: shows an example of (a) loading a unit dose into a dispenser and (b) creating and dispensing a fermented target drink in situ.
    Extensive description of the invention
    As shown in Figure 1, the problem of short shelf life of unit doses of concentrated beer has been solved by splitting the unit doses into first and second chambers (1, 2). The first chamber (1) contains concentrated beverage extracts and the second chamber (2) contains ethanol. The second chamber contains. also gaseous carbon dioxide, CO 2 , or nitrogen, N 2f in saturation concentration at a temperature of 25 ° C and at a pressure of at least 2 bar (= 1 bar above atmospheric pressure).
    The concentrated drink extracts in the first chamber (1) can be obtained by producing a fermented drink ορ the traditional way (e.g., for a beer, by brewing in any way known in the art), followed by the concentrator of the fermented beverage thus produced. Concentration is done by removing, on the one hand, part of the water contained therein and, on the other hand, part of the ethanol contained therein. A significant amount of water and ethanol can be removed from the beverage by filtration, nanofiltration, ultrafiltration or nanofiltration, using suitable membranes well known to those skilled in the art. It is desirable to remove substantially all of the ethanol present in the beverage. After all, the inventors discovered that
    BE2017 / 5212 yeast that is still present in the drink and proteins that are present in a concentrate of a fermented drink deteriorate more quickly in the presence of ethanol. This is one reason for separating the unit doses in a first chamber without ethanol and a second chamber with ethanol.
    I.Q
    If almost all water during the
    concent rat iepr! oces out the drinks is removed, then w o r d t v r i j w e 1 also all ethanol ve removed. Ande on the other hand it possible < to between n 0.5 and 50 vol.%, At preference between 10 to 40 vol.% of the wa ter content the first room jden. In this case is it necessary to all
    to remove ethanol mixed with the remaining water. Ethanol can be removed from the remaining water.
    The second chamber contains ethanol and gaseous CO2 C 2 or N 2 . Second chamber ethanol should have a purity of at least 80% by volume, preferably at least 90% by volume, more preferably at least 95% by volume, most preferably at least 98% by volume.
    Incorporating gaseous CO or N 2 in the unit dose for making without a pressurized gas source in the dispenser or, as illustrated in Figure 1 (c), using a pressurized gas source (7) only for fine tuning the final desired gas level in the dispenser drink. Referring to Figure 3 illustrating the CO 2 saturation concentration
    in a w a t e r - e t h a η o 1 me n c isel at a temperature from 298 ° K 3. ± S a position of ethanol concentration. The ab s c i s XEtOH - 0 % coming corresponds to pure water, and XEtOH = 1 .0 0% coming match with pure ethanol. It is ; to
    BE2017 / 5212 show that CO2 saturation concentration in ethanol is about one order of magnitude higher than in water. This means that about ten times more carbon dioxide can
    turn into solved in pure ethanol as in the same volume pure water For these reasons, is it for target dr anchors with a e t h a n 01 g e h a 11 e v a n at least 5 full. %, possible at i , n the second room a. increased CO 2 take needed is V ear the target drink a reasonable one pressure in the t woe the room from 1 to 4 bar upstairs
    IQ atmospheric pressure,
    For example, the ethanol of the second chamber contains:
    - C0 2 at a concentration, x C0 2 (EtOH), between 1.0 and 3.0 mol%, preferably between 1.5 and 2.5 mol%, based on the total content of the second ridges...
    If the first chamber contains a little water, for example 10 to 40% by volume of water, it is also possible to dissolve gaseous CO2 or N 2 in the aforementioned water in the first chamber, this can contribute to achieving more bubbles in the target drink. This may be especially useful with a low ethanol target drink, Referring to Figure 2, which shows the molar% saturation concentration of CO2 at 298 ° K as a function of pressure. Depending on the amounts of ethanol and gas desired in the target drink, gas concentrations and pressures in the second and, optionally, the first chambers can be determined.
    The water of the first chamber contains:
    - CO2 in a concentration, xCCgiHbO), between 1.0 and 3.0 mol%, preferably between 1.5 and 2.5 mol%, based on the total water content of the first chamber.
    BE2017 / 5212
    Finally, as shown in Figure 1 (c), the final gas content in the target drink can be fine-tuned with an external pressurized gas source (7). This
    of course it requires use from additional c consumables, which disadvantageous is for it user comfort of a issue-in direction, but since the pressure gas source 1outer serves in front of
    fine tuning the final gas content in the target drink, the gas consumption is very limited and can be one
    IQ charge last a long time.
    The liquid diluent (3) generally includes water, and can be pure water alone. With pure water is meant water that contains minerals that make it drinkable. In particular, the liquid diluent can be flat water, as illustrated in Figure 1 (a), (c) and (d) of a tap, but it can of course be contained in a reservoir or other container. A dispenser for dispensing a fermented beverage such as beer, and using unit doses that do not require an additional gas source, and using pure water as a liquid diluent is, of course, most comfortable for the end users.
    Alternatively, the liquid diluent (3) may be a base liquid, for example with a neutral flavor profile which, when mixed with. different kinds of concentrated drinks from the first chamber and with the ethanol from the second chamber yields a wide variety of target drinks. Such an embodiment is illustrated in Figure 1 (b), wherein a piping with a liquid
    BE2017 / 5212 diluent (3) is used. For example, the liquid diluent can be a base beer without any flavors, and the first chamber is available in different flavors, such as cherry beer, dark abbey beer, amber abbey beer, stout, etc. With a single supply of base beer, it is possible to have a wide variety. of target beers by mixing said unit dose base beer comprising a second chamber filled with
    IQ ethanol and a gas, and a first chamber comprising a corresponding variety of flavored concentrated beverage extracts. Compared to a painting, the base beer forms a background color of
    the painting, and it ge ; a r orna t i see r the c o n c e n t r e r de 5 d r a n k e x t r a c t. 1 e v e r t the gel cleared central subject of the picture.
    The concentrated beverage extracts in the first chamber preferably include various amounts of ethyl acetate, isoamyl acetate, ethyl butyrate, and ethyl hetanoate. These are the major flavoring compounds of beer, the concentration profile of which gives each beer its own characteristic flavor profile. As explained above, it is preferred that the concentrated beverage extracts are produced by removing a portion of fresh water and
    most (or all) e thanol from a conve institutional brewed beer. Already s alterna tive for this, o f i n to f i 1 r ng " on this, can bpi - turn into produced honors or
    completed by the addition of aromatics
    As illustrated in Figure 1 (a) and (b), the first and second chambers can be provided as
    BE2017 / 5212 two separate units, which must be loaded separately in a dispenser. This can be advantageous if the end user wishes to regulate the amount of ethanol in his target drink. Each unit of the first and second chamber (1, 2) has an inlet connection (lu, 2u) and an outlet connection (Id, 2d), which can be coupled to an upstream and downstream end (5u, 5d) of a delivery tube. However, it is more difficult to have to load two dose units consecutively before dispensing a target drink.
    Alternatively, as shown in Figures 1 (c) and (d), the first and second chambers can be provided as two separate chambers in a single unit. This leaves no choice as to the amount of ethanol in the target drink, but is easier to use, since the end user only needs to load a single unit into the dispenser, coffee machines. As shown, the two chambers ii ke1i is k as shown in Figure 1 (c) and (d) can be connected in a single unit dose using fluid in series or in parallel through the internal tube which is initially closed by a membrane until the pressure of the liquid diluent bursts said membrane. Alternatively, by introducing a dose unit comprising first and second chambers, the first and second chambers are moved and pierce said membrane after contacting.
    As the name implies, a dose unit corresponds to one serving of drink. Dependent
    BE2017 / 5212
    IQ of net country and type of beverage, one serving can be a glass (IQ) with a capacity generally between 2 0 and 50 cm 3 (1 cm 3 == 0.1 cl). Consequently, for a target drink with an ethanol content of 5% by volume, the second chamber (2) must have a capacity of 10 cm 3 for a target drink of 200 cm 3 , of 17 cm 3 for a target drink of 330 cm 3 , and of 25 cm 3 for a target drink of 500 cm 3 (0.5 1). Likewise, a target drink of 500 cm 3 with a 9 vol.% Ethanol content requires a first chamber with a capacity of 45 cm 3 . The larger the second chamber, the greater the saved drink.
    the amount of CO;
    Oj an imp that can become and the greater the alcohol content varies
    The volume of the first chamber (1) can vary more than that. of the second chamber, depending on the amount of water nocf is present in the first
    room. For a first to room those at highest 5 vol.% water contains the capacité ï j_ r vz η the first room between 10 and 5 0 cm 3 lie. For a first room with between 2 0 and 4 0 vol. : % water, can the < capacity of the first chamber of the or of 5 0 to 150 cm 3 . Like horny 31 3 f Γ P θ f Q on fig -hour 1, has the on.de rhf a v i g e u i t. v i n d i n cf also be ' trekking on a n a f g i f t e-
    Apparatus for producing a fermented target beverage in situ by addition of a liquid diluent, and for dispensing fermented target beverage thus produced. The delivery device of the present invention includes:
    (a) a housing (12) for receiving the first chamber (1) from
    BE2017 / 5212 (b) a housing (12) the second chamber (2), for receiving (c) a delivery tube system (5d, 5u) comprising an upstream end (ou) and a downstream end (5d), wherein the upstream end is coupled to a source of liquid diluent, and connecting said source of liquid diluent using liquid, to the housing for
    I.Q
    receive from the first room, Ο.Θ housing ing for it receive from House of Representatives, Q V-) the st . r o orna f wa a r t s e end ( 5d) of the delivery tube , which opens time for one outdoor ATM steer. 7 ίΣύ ΤΊ first room and a second room like up here c: prokes are geiz elen in a respective housing, such that. it liquid
    diluent (3) flowing from the upstream end (5u) to the downstream end (5d) of the delivery tube system must flow through the interior of both first and second chambers (1, 2).
    The delivery device may include two different housings (12) which are fluidly connected to receive the first and second chambers separately. Alternatively, as shown in Figure 4, a single housing (12) may be used to receive either a single unit dose comprising both first and second chambers, or two separate first and second unit doses, each comprising the first and second, respectively. . Figures 1 (a) and (b) show examples using two separate unit doses, and Figures 1 (c) and (d) and 4 show examples of devices that
    BE2017 / 5212 receive a single unit dose comprising both first and second chambers.
    For hygienic reasons and for ease of use, a unit dose as illustrated in Figure 4 (a) may include first and second chambers and the downstream end (5d) of the delivery tube system. The unit dose may be loaded into the dispenser housing, a glass or other vessel of sufficient capacity placed under the downstream end of the dispensing tube system.
    Thus, t e 1 k e n s w a n n e r a n i e u w e a h. e i d s d. o s i s in the drop-in r i c h tin g w o r d t loaded, a new and clean current wa doctor tip a ; from the release tube used. H e t s t r o o o op w a a. R tse end of it drop-off s system (5h) must ο o rege Ima t i g turn into
    but since the same liquid diluent is used for each serving, it does not need to be replaced after each serving. This is especially true if the diluent is flat water, which is a preferred embodiment.
    Downstream of the first and second chambers, the delivery tube system may include a mixing chamber for mixing the liquid diluent with the concentrated beverage extracts, ethanol, and gas. The mixing chamber may include a motion element for dynamically mixing the components or, alternatively, it may be a static mixer or simply a sharply curved section in the downstream end of the delivery tube system. If a mixing chamber is used, care must be taken to become a mixing mechanism
    BE2017 / 5212 selected that does not generate excessive amounts of foam. by the presence of gaseous C0 2 or hg.
    The present invention also relates to a method of producing a fermented target beverage in situ and dispensing said fermented target beverage. An example of the method is illustrated in Figure 4, the method comprising the following steps:
    (a) providing reed with a delivery device
    IQ as discussed above, and connecting the upstream end (5u) of the tubing system to a source of liquid diluent (3), (b) loading both first chamber (1) and second chamber (2) into their housing (12), (c) it. flow the diluent from the upstream fluid to the downstream end of the tubing through both first and second chambers, and (d) recover the fermented target beverage so produced in a vessel (10).
    The use of the device of the present invention according to the aforementioned method and the use of the unit doses discussed above support the in situ preparation of a wide variety of fermented drinks, in amounts corresponding to one glass of drink, with a capacity between 200 and 500 cm 3 (= 20-50 cl). The fermented target beverage thus prepared can comprise between 4 and 9% by volume of ethanol, and between 1 to 6 g / l CO 2. and / or N 2 (typical CO 2 / N 2 ratio is about 3/1), by simply loading a unit dose into the
    BE2017 / 5212 a f g i f t e - i n ri c h t i n g e n h e t v 1 o e i b a r e v e r du η η ί n g- s m i dde 1 is a most preferred steaming of the unit dose embodiment, it is
    In the
    IQ liquid diluent flat water, and no additional pressurized gas source is required. The latter is possible by making use of the considerably higher solubility of gases such as CO or N 2 in ethanol relative to water, or a 4--9 volume% ethanol solution in water (cf. Figures 2 and 3).
    Alternatively, the liquid diluent is not just flat water, but a base drink in a vessel (cf. Figure 1 (b)). This solution supports the creation of a wide variety of drinks on the theme of the basic drink. A selection of base drinks with different flavor profiles can also be provided to further enhance the creative capabilities of the end user. In yet another embodiment, an additional pressurized gas source (7) can be used to fine-tune the gas content in the fermented beverage thus produced.
    BE2017 / 5212
    DESCRIPTION 1 First room Id First room exit lu Entrance of the first room 2 House of Representatives 2d First room exit 2h Entrance of the second room 3 Liquid diluent source 3p Liquid diluent pump 5d Outlet tube discharge 5am Delivery tube inlet 5v Liquid diluent valve 7 Compressed gas source (CO 2 or N 2 ) 7v Pressure gas valve 10 Vessel for collecting the in situ made drinks 11 A f g i f t e ~ i n r i c h t i n cf 12 Enclosure (s) for receiving first and second chamber
    BE2017 / 5212
    权利要求:
    Claims (15)
    [1]
    1. - A parts set for the in-situ production of a fermented target drink by adding a liquid diluent (3), said parts set comprising:
    (a) A first chamber (1) with concentrated beverage extracts, and (b) A second chamber (2), which is separated from the first chamber by means of liquid, comprising ethanol of at least 80% by volume of purity,
    Characterized in that the second chamber ethanol contains CO 2 and / or N 2 in saturation concentration at a temperature of 25 ° C and at a pressure of at least 2 bar (= 1 bar above atmospheric pressure).
    [2]
    The parts set according to claim 1, wherein the ethanol in the second chamber has a purity of at least 90% by volume, preferably at least 95% by volume, more preferably at least 98% by volume.
    [3]
    The parts set according to claim 1 or 2, wherein the ethanol of the second chamber comprises:
    - CO 2 at a concentration, x C0 2 (EtOH), between 1.0 and 3.0 mol%, preferably between 1.5 and 2.5 mol%, based on the total content of the second chamber in question...
    [4]
    The parts set according to any of the preceding claims 1 to 3, wherein the liquid diluent is flat water alone.
    [5]
    The present invention relates to a parts set for the in-situ production of a fermented target drink by adding a liquid diluent (3), said parts set comprising:
    5. - The parts set. according to claim 3, wherein the first chamber contains flat water in an amount between 10 and 40% by volume of water based on the total content of the first chamber.
    BE2017 / 5212
    [6]
    The parts set according to claim 5, wherein the water of the first chamber comprises:
    - CCy in a concentration, x c. 2 (H 2 Q), between 1.0 and 3.0 mol%, preferably between 1.5 and 2.5 mol%, based on the total content of the first room,
    [7]
    The kit of parts according to any preceding claim, wherein the concentrated extracts in the first chamber are obtained by at least partial separation of said target beer from water and ethanol, and ethyl acetate, isoamyl acetate, ethyl butyrate, and ethyl hetanoate.
    [8]
    The kit of parts according to any preceding claim, wherein the first and second chambers are provided as two separate units.
    [9]
    The kit of parts according to any one of claims 1 to 6, wherein the first and second chambers are provided as two separate chambers in a single unit.
    [10]
    (C) A first chamber (1) with concentrated beverage extracts, and (d) A second chamber (2), which is separated from the first chamber by liquid, comprising ethanol of at least 80% by volume purity,
    The set of parts according to any one of the preceding claims, wherein the volume ratio of the volume of the second chamber to the volume of the first chamber is between 20% and 100%, and wherein the first chamber preferably has a volume of between 20% and 20%. and has 50 cm 3 , and wherein the second chamber preferably has a volume between 10 and 50 cm 3 .
    [11]
    11. A dispenser for producing a fermented target beverage in situ by addition of a liquid diluent, and for dispensing the fermented target beverage so produced, comprising said dispenser:
    BE2017 / 5212
    I.Q
    (d) a housing first room, (e) a housing House of Representatives, (f) a deposit b ' s t r ο o m w a. a r t. s ; end (5i tip (5d), where it connected to a source of
    Outline system enclosure 11 of one and connects said liquid diluent source above, to the housing for receiving the first chamber, to the housing for receiving the second chamber, and the downstream end (5d) of the delivery tube, open to an outdoor atmosphere, characterized in that a first chamber and a second chamber as defined in any of the preceding claims are loaded into a respective housing such that the liquid diluent passes from the upstream end to the downstream end. end of the delivery tube system must flow through the inferior of both first and second chambers.
    [12]
    The dispenser of claim 6, wherein the source of the liquid diluent is a source of flat water alone.
    [13]
    The dispenser according to claim 6 or 7, wherein the first and second chambers are loaded in a single housing or in two separate housings, the two separate housings being connected to the source of liquid diluent by means of liquid. delivery tube system, either in conservatory or in parallel.
    BE2017 / 5212
    [14]
    14. Method for cane in situ production of a target beer and just dispensing the fermented target drink, the method comprising the following steps:
    (e) just providing a delivery device
    c.J such as s gede fined in claim 6 (a) to (d), and the ci P P 1 express from the s t r ο o m ο ρ w a a r t s e ι .lit end (5h) from the bu i s s ysteeir i on a source from V agile
    diluent (OS), (f) loading both first chamber (1) second chamber (2) into their housing (12), (g) stream it and flow the liquid diluent from the upstream end to the downstream end of the tubing system, through both first and second chambers, and (h) recovering the fermented target beverage so produced in a vessel (10).
    A method according to claim 12 or 13, wherein a set of first and second chambers is designed to serve between 200 and 500 cm 3 of a
    20 fermented target drink containing between 4 and 9 vol.% Ethanol, and 1 to 6 g / 1 CO 2 , by steaming a predetermined amount of liquid additive 1
    BE2017 / 5212
    Set for the in situ production of a fermented target drink by the addition of a liquid version.
    S ame nv a 11 i n g
    [15]
    Characterized in that, the ethanol of the second chamber contains CO 2 or N 2 in saturation concentration at a temperature of 2 5 ° C and at a pressure of at least 2 bar (= 1 bar above atmospheric pressure), The present invention- also relates to a dispenser 20 and a method for the in situ preparation and dispensing of a fermented target beverage by the aforementioned spare parts set.
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    同族专利:
    公开号 | 公开日
    KR20190012144A|2019-02-08|
    WO2017167863A1|2017-10-05|
    BE1024307A1|2018-01-23|
    JP6967527B2|2021-11-17|
    AU2017242650B2|2020-12-03|
    CN109415666A|2019-03-01|
    JP2019517956A|2019-06-27|
    EP3436562A1|2019-02-06|
    RU2018136321A3|2020-07-02|
    MX2018011840A|2019-07-08|
    CA3018999A1|2017-10-05|
    EP3225683A1|2017-10-04|
    RU2018136321A|2020-04-30|
    AU2017242650A1|2018-09-27|
    BR112018069699A2|2019-02-05|
    AR108044A1|2018-07-11|
    US20200318039A1|2020-10-08|
    RU2740478C2|2021-01-14|
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    法律状态:
    2018-02-28| FG| Patent granted|Effective date: 20180129 |
    优先权:
    申请号 | 申请日 | 专利标题
    EP16163061.1A|EP3225683A1|2016-03-30|2016-03-30|Kit for the in situ production of a fermented target beverage by addition of a liquid diluent|
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