• 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:
    Apparatus for making a drink individually, comprising: - a pressure source (12); a cellar defining a plurality of housings (14); a plurality of removable containers (16), each immobilized, in a service position, in a respective housing, each container comprising a container containing an ingredient and an upstream dump valve allowing an exit of said ingredient to the outside of the container; container under the effect of an overpressure generated inside said container by said pressure source; an enclosure for receiving the ingredients extracted from said containers, via said upstream dump valves, under the effect of said overpressure, so as to manufacture said beverage; - A control module adapted to control said overpressures in said storytellers according to a desired composition for said drink.
    公开号:FR3048171A1
    申请号:FR1651556
    申请日:2016-02-25
    公开日:2017-09-01
    发明作者:Valentin Lecomte;Geoffrey Martins
    申请人:Cocktail Square;
    IPC主号:
    专利说明:

    Apparatus for making a drink
    TECHNICAL FIELD The invention relates to an apparatus for making beverages individually, and in particular for making cocktails.
    State of the art
    Cocktail machines are available on the market. They allow to mix ingredients contained in different removable containers to create a cocktail.
    The hygiene conditions must, however, be irreproachable, which requires frequent cleaning of the parts in contact with the ingredients. This cleaning is usually tedious or requires an additional water container.
    Moreover, the ingredients decay quickly after opening the corresponding containers. It is therefore necessary to change these containers regularly.
    In addition, the preparation time of a drink is generally relatively long.
    Finally, each ingredient change requires a reconfiguration of the device.
    There is therefore a need for a new apparatus for making a drink individually, and in particular a cocktail, which makes it possible to solve, at least partially, the aforementioned problems.
    An object of the invention is to meet this need. SUMMARY OF THE INVENTION The invention provides an apparatus for making a drink individually, comprising: a source of pressure; a storeroom defining a plurality of dwellings; a plurality of removable containers, each immobilized, in a service position, in a respective housing, each container comprising - a container containing an ingredient and - an upstream dump valve allowing an exit of said ingredient to the outside of the container under the effect of an overpressure generated inside said container by said pressure source; an enclosure for receiving the ingredients extracted from said containers, via said upstream emptying valves, under the effect of said overpressure, so as to manufacture said beverage; a control module adapted to control said overpressures in said storytellers according to a desired composition for said drink.
    As will be seen in more detail in the following description, an apparatus according to the invention moves the ingredients by overpressure, which limits the number of parts in contact with the ingredients. The implementation of overpressures also allows a quick and efficient cleaning.
    Finally, the upstream emptying valve closes in the absence of overpressure in the corresponding container, which limits the contact between the ingredient inside the container and the external environment. This ingredient is advantageously better preserved.
    An apparatus according to the invention may also comprise one or more of the following optional features: each container has a head fixed on said container, said head comprising a pressurization valve allowing a fluid inlet from said pressure source, preferably air, inside container; the head is removable, and preferably screwed on said container; the pressurizing valve has an opening pressure of between 100 mbar and 1 bar, and / or the upstream emptying valve has an opening pressure of between 100 mbar and 1 bar;
    In one embodiment, each housing comprises a downstream discharge valve allowing an outlet of said ingredient under the effect of a pressure generated inside said container by said pressure source, the downstream discharge valve being disposed downstream of the upstream dump valve, considering the direction of flow of the ingredient leaving the container; the downstream dump valve has a lower opening pressure than the upstream dump valve; the intermediate volume between the upstream and downstream dump valves is less than 5 cm3; in one embodiment, the apparatus comprises a cap movable between a disengaged position and a closed position in which it allows or prohibits, respectively, a gravity flow of the ingredient from said container to said enclosure; the plug is shaped to allow the establishment of a container in said housing that when in the unobstructed position; in the open position of the cap, each upstream dump valve opens directly above said enclosure, so that an ingredient exiting said downstream dump valve falls directly into said enclosure; the apparatus comprises means for holding said stopper in the closed position when the housing is not occupied by a container; the apparatus comprises magnetic means for holding the plug in the closed position in the absence of a container in said housing, the apparatus comprises a depressurization circuit of the enclosure, said depressurization circuit comprising a depressurization line setting in fluid communication the enclosure with a pressure well, a depressurization valve, controlled by the control module, being inserted in said depressurization line; the apparatus comprises a compressor of which an inlet constitutes a said pressure well and an outlet constitutes a said source of pressure; each container has a wall with a thickness greater than 1 mm, preferably greater than 1.5 mm, and / or has an interior volume of less than 1 L, preferably less than 0.5 L; the apparatus comprises, for each housing, magnetic coupling means between said housing and a container disposed in said housing; the apparatus comprises a cooling module of the ingredients in said enclosure; the apparatus comprises a detector capable of detecting a presence of a person within 15 m of the apparatus, the control module being programmed to control said overpressures in said containers according to a desired composition for said drink and for activate the cooling module as a result of detection by said detector; the detector is capable of detecting a signal emitted by an electronic device, in particular for establishing or maintaining a computer connection, in particular by Wifi or Bluetooth, in particular a connection of a remote control of said apparatus or of a mobile telephone; the cooling module comprises a Peltier module; the enclosure defines a bowl for receiving the ingredients leaving the containers, preferably removable, and, preferably, the cooling module has a surface of shape substantially complementary to the shape of said bowl; the cooling module is in contact with the bowl on more than 50% of the outer surface of the bowl; the cooling module is in contact with the bowl on more than 80% of the outer surface of the bowl; the cooling module comprises a capsule, preferably removable, containing a fluid under pressure, preferably nitrogen or CO2, preferably in liquid form, and a cooling valve, controlled by the control module, so as to selectively allow or prohibit an escape of said fluid from the capsule; preferably, the apparatus comprises a conduit for guiding the fluid escaping from the capsule to the inside of said chamber, a pipe being constituted by any means for guiding the fluid, and in particular by one or more tubes. rigid or flexible, or by one or more lights provided through parts of the apparatus; preferably, said duct opens out with an opening disposed at less than 50 mm, preferably at less than 40 mm, preferably at less than 30 mm, preferably at less than 20 mm, preferably at less than 10 mm from the bottom of said enclosure; preferably, the apparatus comprises a filling valve, preferably controlled by the control module, selectively putting in fluid communication the inside and the outside of said enclosure; preferably, said pipe is at least partly formed in a shutter of the filling valve; the apparatus comprises means for mixing the ingredients in the enclosure, the control module being programmed to activate said means according to the activation of the cooling module; the apparatus comprises a remote control, preferably a telephone device provided with a specialized application, adapted to configure the control module and / or to transmit a recipe to the control module; each container is provided with a marker, preferably an NFC marker, the apparatus comprising a reader adapted to read and / or write in said marker, preferably remotely, information relating to the use of said container, and in particular the filling level and / or the frequency of use and / or the dates of use, the apparatus also preferably including an interface for displaying one or more of said information; said marker is attached to the container of said container. Definitions
    The "service" position is a position in which the containers are arranged in their respective dwellings.
    In the present description, there is a "valve", whose shutter, conventionally a flexible membrane, for example silicone, opens under the effect of a differential pressure greater than an opening pressure and closes with itself when the differential pressure is lower than the opening pressure, and a "valve", the opening and closing are controlled by the control module. A "valve" is sometimes called "non-return valve". Unless otherwise indicated, the flaps of an apparatus according to the invention are preferably of the "cross-slit" type.
    The "upstream" and "downstream" positions are defined with respect to the flow of the ingredient.
    A "coupler" is a member of a housing allowing a fluid connection between the interior of a container housed in this housing and the enclosure.
    BRIEF DESCRIPTION OF THE DRAWINGS Other features and advantages of the invention will become apparent on reading the following detailed description and on examining the appended drawing, in which: FIG. 1 schematically represents an apparatus according to the invention; invention; Figure 2 shows a detail of an apparatus according to a preferred embodiment of the invention, in section; FIG. 3 represents an exemplary container that can be used in the apparatus according to the invention of FIG. 2, and in particular - the container of the container in longitudinal median section (FIG. 3a); the container of the container in exploded view (FIG. 3b); - The container head in median longitudinal section (Figure 3 c); the head of the container in exploded view (FIG. 3d); - the container, in front view and exploded (Figure 3 e); - A container detail in median longitudinal section, the container being assembled in the cellar (Figure 3f); the container in median longitudinal section (FIG. 3g); Figures 4a and 4b show the cellar of the apparatus of Figure 2 in top view and in perspective respectively; Figure 5 shows the funnel and the cooling module of the apparatus of Figure 2; Figure 6 shows a detail of an apparatus according to a preferred embodiment of the invention, in section; FIG. 7 is a schematic representation of the operating principle of a filling valve capable of conveying a cooling fluid.
    The various parts of an apparatus according to the invention are described with reference to a service position in which the apparatus is disposed on a horizontal floor and ready to manufacture a drink. The adjectives "superior" and "inferior" refer to this position.
    Detailed Description General
    Figure 1 shows an apparatus 10 for manufacturing a beverage unit, that is to say, glass, according to the invention. The apparatus 10 comprises a pressure source 12, a storer 13 having a plurality of housings 14, a plurality of containers 16, or "pods", each container 16 being disposed in a corresponding housing 14, a funnel 18 allowing a mixture of different ingredients of the drink, and a control module 20.
    The circuit for filling the funnel with an ingredient initially contained in a container is similar regardless of the container considered. In FIG. 1, in a nonlimiting manner, three circuits Ci, C2 and C3 have been represented. In the following description, only one of these circuits (Ci) is described. For this purpose, generic references, without index, are used.
    Cellar
    Each housing 14 is preferably of substantially complementary shape to the lower part of a container, so as to receive and immobilize in position said container.
    Preferably, the apparatus comprises more than three, more than four, more than five, more than six, more than seven, and / or fewer than twenty, less than fifteen, or even less than ten dwellings, preferably less than eight dwellings preferably six dwellings.
    Preferably, all the housings 14 are adjacent to each other. Preferably, the smallest distance between two adjacent housings is less than 5 cm, preferably less than 3 cm. The compactness of the device is improved.
    Each housing 14 comprises a pressurization coupler 30 connected to a pressurization line 32 and for increasing the pressure inside the corresponding container 16.
    Each housing 14 also comprises a dump coupler 36 through which the ingredient can be extracted from the container 16.
    The housings in which the containers are introduced preferably have an elongated shape. Preferably, the emptying coupler 36 of a housing is disposed at an end of said housing. More preferably, all the emptying couplers of the different housings are arranged close to each other. Preferably, the maximum distance between two adjacent emptying couplers is less than 5 cm, preferably less than 3 cm.
    containers
    The containers 16 are removable, that is to say that they can be extracted from the housing, and then returned to the housing in the service position, as often as desired.
    All containers are preferably identical. They may contain the same or different ingredients. Preferably, at least two containers contain different ingredients.
    A container 16 comprises a container 42 defining a volume in which an ingredient 44 is placed, and a head 46, fixed on the container 42.
    A container 42 preferably has an internal volume greater than 0.1 liter, preferably greater than 0.2 liter, and / or less than 1.5 liter, preferably less than 1 liter, preferably less than 0.5 liter . It preferably has a generally flat parallelepipedal general shape, as shown in Figure 2a. The length L42 of a container 42 is preferably greater than 80 mm and / or less than 150 mm, preferably less than 130 mm. The thickness β42 of a container 42 is preferably greater than 10 mm and / or less than 30 mm. The width I 42 of a container 42 is preferably greater than 100 mm, preferably greater than 110 mm and / or less than 150 mm, preferably less than 130 mm.
    The wall of a container 42 may be of any "food" material adapted to the ingredient 44 contained in the container. The container may be disposable, that is to say non-refillable, or reusable. Preferably, the material of the container wall 42 is plastic when the container is reusable. Preferably, when the container is disposable, said material is plastic or comprises or is made of a fibrous material, preferably cellulosic, such as paper or cardboard. The thickness of the wall is preferably greater than 1 mm, preferably greater than 1.5 mm, so that the container is rigid. Preferably, the rigidity is such that it is not possible to extract the ingredient 44 by a simple manual pressure on the container 42.
    The container 42 defines a closed volume, which constitutes "the inside" of the container. The container 42 only opens out via a pressurizing orifice 50 and a discharge orifice 52 which, in the operating position, are selectively in fluid communication with the pressurizing and emptying couplers 36 of the corresponding housing, respectively.
    When the container 42 is disposable, the pressurizing orifices 50 and emptying 52 are, before use of the container, preferably temporarily closed by means of a removable cap, removed before the container 42 is coupled to the head 46 Preferably, the pressurizing and emptying openings open on the lower face 54 of the container 42.
    In one embodiment, the container 42 is provided with a lid 58. Preferably, the lid 58 is removable, which allows the container to be filled.
    The head 46 is fixed on the lower part of the container 42.
    In one embodiment, the head 46 is fixed to the container 42 removably, for example by a screw system 48 or clips. Advantageously, the head 46 can be used for several containers 42, which is particularly useful when the container 42 is disposable.
    The head 46 comprises a casing 60, preferably made of a rigid plastic, defining a pressurization duct 62 and a discharge duct 64, closed off by pressurization and upstream discharge valves 69, respectively, fixed to the casing 60, by for example, by means of pressurizing flanges 74 and emptying 76, respectively.
    The valves can be fixed by any means, for example by gluing or clipping on the housing 60.
    The pressurizing and emptying ducts open on the upstream side, that is to say on the container side, on an upper surface 78 provided with grooves 81 and 83. Seals 85 and 87 are inserted into the grooves 81 and 83, respectively, and in the assembled position of the head 46 on the container 42, are supported, in a sealed manner, on the lower face 54 of the container 42. Preferably, the simple screwing of the head 46 on the container 42 is sufficient to compress the seals 85 and 87 and to seal.
    The emptying duct 64 of the casing 60 ends, in the lower part, in the form of a nipple 89.
    Advantageously, the design of a head 46 independent of the container 42 makes it possible to manufacture containers 16 at reduced cost, and to use disposable containers 42.
    Pressurizing circuit of a container
    The pressure source 12 is in particular intended to pressurize the interior of the containers 16 to extract the ingredient for pouring into the funnel.
    The pressure source 12 preferably comprises a compressor 92, preferably an air compressor, an outlet 93 of which is connected to pressurizing circuits of the containers 16 and the funnel 18.
    The pressurizing circuit of a container comprises a pressurizing line 32 placing in fluid communication the outlet 93 of the compressor 92 and the interior of the container. A pressurizing valve 94 is inserted into each pressurizing line 32 of a container.
    The pressurizing coupler 30 has a pressurizing nozzle 98, of a shape substantially complementary to the pressurizing duct 62 of the container head and which, in the service position, penetrates inside the pressurization duct 62. The pressurizing nozzle 98 is surrounded by a groove receiving a seal 100, so that, in the service position, the lower face 102 of the head 46 can bear, tightly, on the seal 100.
    The pressurizing valve 67 of the container head is oriented to open under the effect of a relative overpressure outside the container. This overpressure, or opening pressure ΔΡ67, is preferably between 100 mbar and 1 bar. The compressed air circulating in the pressurization line 32 can thus circulate, without leakage, to the pressurizing valve 67 and open when the pressure inside the container 42 is significantly lower than the pressure of the compressed air .
    In a preferred embodiment, the pressurizing valve is a mechanical valve comprising a shutter pushed against its seat by an elastic means, preferably a spring.
    Drain circuit of a container
    The emptying coupler 36 has a discharge nozzle 104, in the form of a sleeve, into which the teat 89 defined by the housing 60 can be introduced. Externally, the teat 89 has a shape substantially complementary to the inner shape of the discharge nozzle 104. A groove is formed inside the emptying nozzle 104 and receives a seal 108. The emptying nozzle and the nipple are shaped so that, when the nipple is introduced into the nozzle of emptying, it compresses the seal 108, so as to ensure a sealed contact.
    The emptying coupler 36 of the housing is provided with a downstream discharge valve 110. The upstream and downstream emptying valves 69 are oriented to open under the effect of a relative overpressure inside the container 42. The opening pressures ΔΡ69 and ΔΡ110 are the pressure differences allowing these openings and are preferably between 100 mbar and 1 bar. More preferably, the opening pressure ΔΡ110 is lower than the opening pressure ΔΡβ9, the ratio ΔΡ69 / ΔΡ110 between these opening pressures being preferably greater than 1.05, preferably greater than 1.10, preferably greater than 1.15. When the upstream emptying valve 69 opens, so is immediately the same with the downstream discharge valve 110. On the other hand, in the event of limited depressurization downstream of the downstream discharge valve, the downstream discharge valve 110 may open without the upstream dump valve 69 opens. It is thus possible to evacuate an ingredient residue contained in the intermediate volume 111 between the two upstream emptying valves 69 and downstream 110.
    The intermediate volume 112 is preferably less than 10 cm3, preferably less than 5 cm3, preferably less than 3 cm3, preferably less than 2 cm3.
    In the absence of a container on a housing, the corresponding downstream check valve 110 remains closed. Advantageously, the absence of a container therefore does not modify the operation of the apparatus 10. In addition, the enclosure of the funnel, described below, remains isolated from the external environment, which improves the conditions hygiene.
    In one embodiment, the downstream discharge valve 110 is replaced by a plug 109 sealingly closes the emptying coupler 36 of the housing in the absence of a container in said housing, in a closed position. The plug 109 is shaped to remain in the closed position regardless of the downstream pressure, and especially when the pressure in the chamber is high to fill the glass, as described below.
    The holding in the closed position can result from the weight of the plug or, preferably, a lock or the application of a magnetic attraction force.
    The plug 109 can be disengaged from the emptying coupler 36, so as to no longer impede the passage of liquid through the emptying valve (unobstructed position). In the disengaged position, it can in particular rest on the container, as shown in FIG.
    Preferably, the plug is shaped so that the positioning of a container in a housing is possible after release of the cap.
    Preferably, the plug is secured to the cellar, preferably rotatably mounted on the cellar, about an axis X, preferably substantially horizontal, between the closed positions and disengaged.
    Preferably, the plug has the shape of a substantially flat pallet, as shown in FIG.
    More preferably, the cap is provided with a handle 113 facilitating its handling by the user.
    Mating the container and a housing
    The container 16 and the housing 14 corresponding preferably comprise coupling means ensuring sealing by the joints 100 and 108. The coupling can be performed by any means. Preferably, the coupling is magnetic. In a preferred embodiment, the housing 14 comprises a magnet 112 and the container 16 comprises metal, for example in the form of a metal insert 114, arranged to be attracted by the magnet 112 in the service position . The attraction between the magnet 112 and the metal insert 114 advantageously allows the container 16 to be pressed into the housing 14, thereby ensuring compression of the seals 100 and 108. The use of coupling means advantageously makes it possible to control the pressure between the container 16 and the housing 14, and thus avoid any uncontrolled deformation, in particular the membranes of the valves.
    Means of communication between the container and the cellar
    Each container 16 still carries a marker 116, or "tag", preferably of the NFC type, preferably fixed on the head 46. The marker 116 is preferably fixed on the lower face 54 of the container 42 or, on the lower wall of the the head 46, on the opposite side to the lower face of the head 46. Advantageously, the marker 116 is protected.
    The marker 116 preferably contains information on the ingredient 44 contained in the container, for example its composition, its volume, its density, its origin, the number of calories it brings or its expiry date. The apparatus 10 further comprises a reader 120, arranged to read the marker 116. Preferably, the communication between the marker 116 and the reader 120 is performed without contact, preferably by NFC (in English "near field communication"). .
    In one embodiment, the container 42 has a protrusion 118, which protrudes from the lower face 54 of the container 42. The marker 116 is preferably fixed on this protrusion, so that, in the assembled position, it extends near the lower face 102 of the head 46. The exchange of information between the marker 116 and the reader 120 are facilitated.
    Preferably, the reader 120 is also able to write on the marker 116. Preferably, it is able to write on the marker 116 information relating to the use of the container 16, for example relating to the amount of ingredient already extracted from the container, or the date of first use of the container.
    The reader 120 is preferably in communication with the control module 20. Advantageously, the control module 20 can inform the user of the need to change a container or provide for the next replacement of the container, but also to inform it of the expiry of the ingredient contained in the container. The recording of information on the marker 116 by the reader 120 also makes it possible, advantageously, to keep a traceability of this information, even if the container is extracted from its housing, for example to be used on another apparatus. Health risks are greatly reduced and the quality of the information provided to users is improved.
    Finally, the marker advantageously allows the control module 20 to know the contents and the slot occupied by the container, without the user of the device needs to configure it for this purpose.
    Funnel and glass filling circuit The funnel 18 defines, with the cellar 13, a hermetic enclosure 122. The enclosure 122 defines a bowl 121 in which the ingredients leaving the emptying orifices 36 of the housings are discharged, by overpressure into the containers 42.
    In a preferred embodiment, the bowl 121 is disposed immediately below the emptying couplers 36. Preferably, each emptying coupler 36 opens, downstream, directly into the funnel, so that an ingredient exiting through the downstream dump valve 110 falls directly into the bowl 121, without passing through a conduit such as a hose or rigid. The hygiene conditions are then optimal.
    More preferably, the enclosure 122 is defined by the bowl 121 and the cellar 13, bearing on the bowl 121, in the manner of a cover. Preferably, the lower face 123 of the cellar has a groove, in which is disposed a seal. This groove is arranged so that this seal bears, in a sealed manner, on the upper edge 125 of the bowl 121.
    More preferably, the bowl 121 is pressed against the cellar by magnetic means, the attraction force being sufficient to ensure compression of the seal.
    Preferably, the bowl 121 of the funnel is removable so that it can be cleaned. The funnel 18 further comprises a filling valve 126, controlled by the control module 20. The filling valve 126 is inserted in a filling line 128 opening at the bottom of the enclosure 122 at one end, and at the end other end, above a location 130 for receiving a glass 132 to be filled. Preferably, the apparatus 10 comprises a support 134 defining the location 130 on which the glass 132 is to be placed. The filling line 128 allows a flow of the mixture contained in the chamber 122, to the glass 132, under the effect of an overpressure in the chamber 122. Preferably, the filling line 128 is of a substantially length no, the filling valve 126 being integrated in the bottom of the enclosure 122.
    Funnel pressurization circuit
    The pressurizing circuit of the funnel enclosure comprises a pressurization line 136 placing in fluid communication the outlet 93 of the compressor 92 and the interior of the enclosure 122. A pressurization valve 138 is inserted in the line of pressure. pressurization 136.
    Funnel depressurization circuit The device has a funnel depressurization circuit.
    The depressurization circuit of the funnel comprises a depressurization line 140 placing in fluid communication the interior of the chamber 122 with a pressure well 142, for example the atmospheric pressure. A depressurization valve 144, controlled by the control module 20, is inserted into the depressurization line.
    In a preferred embodiment, the pressure well 142 is the compressor 92. Advantageously, during the entire filling phase of the chamber 122, the air can flow, in a closed circuit, between the compressor, the containers 42 and the enclosure 122.
    In a preferred embodiment, the depressurization circuit 144 of the enclosure 122 also makes it possible to suck up any deposits, in particular between the upstream and downstream discharge valves 69 and 110, so that these deposits fall into the enclosure 122.
    Preferably, the depressurization line 140 opens, upstream, into the chamber 122 through an opening 146 situated at a high point of the enclosure 122, so that the mixture of ingredients contained in the enclosure 122 can not be sucked by the depressurization line, if the depressurization valve is open.
    Brewing circuit
    Preferably, the apparatus further comprises a stirring circuit, not shown, for injecting air under pressure into the mixture of ingredients in the chamber. The stirring circuit preferably comprises a pressure source, for example the compressor 92, and a stirring line provided with a stirring valve, preferably controlled by the control module 20, and putting the enclosure and the source of pressure.
    The stirring circuit preferably makes it possible to emulsify the mixture present in the enclosure, and, if necessary, to increase the speed of its cooling. In one embodiment, the mixing circuit can be confused with the pressurization circuit of the enclosure 122.
    Cooling module The apparatus 10 also preferably comprises a cooling module 150, preferably arranged so as to cool the chamber 122. The cooling module 150 is preferably controlled by the control module 20 according to measurements. by means of a temperature sensor 152. It preferably extends under the enclosure 122, or even defines a portion of the enclosure 122. Preferably, in the operating position, the bowl 121 is in contact with the cooling module 150. Preferably, the cooling module 150 has a surface of shape substantially complementary to the shape of the bowl 121, so that, in the operating position, the contact between the cooling module 150 and the bowl 121 is narrow, and preferably is performed on more than 50%, more than 80%, even substantially 100% of the outer surface of the bowl 121.
    In a first preferred embodiment, the cooling module comprises one and preferably several Peltier modules 151, preferably provided with a radiator on the opposite side to the bowl 121. Preferably, the heat of these radiators is discharged to the outside. through a network of conduits 155.
    In this first preferred embodiment, the cooling module preferably comprises a temperature diffuser 153, preferably of aluminum, itself cooled by a Peltier module.
    In a second preferred embodiment, the cooling module comprises a capsule 160 containing a fluid 162 under a pressure preferably greater than 5 bar, greater than 10 bar or greater than 15 bar, preferably approximately 20 bar. The fluid inside the capsule may be in gaseous form or, preferably, in liquid form. The fluid is preferably carbon dioxide or nitrogen. The apparatus comprises a cooling line 163 provided with a cooling valve 164 controlled by the control module 20, so as to selectively put in fluid communication the fluid 162 and the outside of the capsule, preferably at the atmospheric pressure. The opening of the cooling valve 164 thus causes the expansion of the fluid 162, and thus the production of frigories.
    Preferably, the capsule 160 is removable so that it can be replaced. The capsule may for example be screwed, preferably close to the enclosure 122, preferably on the enclosure 122.
    The internal volume of the capsule is preferably greater than 10 cm 2 and less than 100 cm 2.
    The cooling valve 164 can be fixed on a neck of the capsule, for example by clipping, preferably by screwing.
    Control module
    The control module 20 conventionally comprises a processor and a memory comprising code instructions for operating the processor, in particular for controlling the electrical components, and in particular the various valves and the compressor.
    Preferably, the control module includes an interface allowing the user to enter control parameters, for example in the form of a choice of a drink recipe. The interface is preferably a touch screen.
    In a preferred embodiment, the control module also comprises communication means for receiving information via the Internet, for example updates or new recipes.
    Preferably, the memory of the control module 20 comprises more than two, more than five, more than ten or more than twenty recipes, each recipe corresponding to a sequence of instructions sent by the control module, as explained below. .
    In a preferred embodiment, the apparatus further comprises a remote control 154 for interacting remotely with the control module 20, for example to order the manufacture of a particular beverage or adjust its composition or temperature.
    The remote control 154 is preferably a telephone device provided with a specialized application. Preferably, the specialized application makes it possible to visualize the list of recipes and to order the manufacture of a drink according to this recipe.
    In one embodiment, the application transmits to the control module 20 the instructions for carrying out the drink. Presence detector
    In a particularly advantageous embodiment, in particular for the first preferred embodiment of the cooling module, the apparatus 10 further includes a presence detector 156 enabling the control module to assess whether a potential user is close to the apparatus. The detector 156 may for example detect a Wifi or Bluetooth signal generated by a portable device of a potential user preferably pre-identified, for example generated by his mobile phone. It can also detect the establishment of a communication between the remote control 154 and the control module 20, or the simple start of the remote control 154 or the device.
    Preferably, the control module 20 controls the cooling module 150 without waiting for the production of a drink to be ordered. Advantageously, if a user orders the manufacture of a drink later, the chamber 122 has already been cooled. The manufacture of a fresh drink is advantageously accelerated.
    In one embodiment, after a predetermined time, for example after three minutes, the cooling module is again extinguished by the control module, which allows energy savings.
    Preferably, the presence detector allows the detection of a potential user only in a radius less than 15 m, preferably less than 10 m, preferably less than 5 m. Advantageously, the number of unnecessary activations of the cooling module, that is to say, not followed by the manufacture of a drink, is reduced.
    In the second preferred embodiment of the cooling module, the apparatus 10 preferably does not include a presence detector 156, a significant production of colds by expansion being immediate. Mixer, gas injector, water addition
    In a preferred embodiment, the apparatus further comprises a mixer, not shown, for mixing the contents of the enclosure 122. The mixer can be mechanical and be actuated by a motor. The apparatus may also comprise a gas injector, in particular a carbon dioxide injector, known per se, for gasifying the contents of the chamber 122, in order to obtain a carbonated beverage. The apparatus may also comprise an ice-making module, known per se, for introducing ice into the glass 132.
    Finally, the apparatus may comprise a water addition module for adding water to the enclosure and / or, preferably, in the glass 132.
    In the preferred embodiment, the apparatus 10 operates as follows.
    Different containers 42, containing different ingredients 44, are purchased. Preferably, the pressurizing orifices 50 and emptying 52 are initially closed by means of a lid. The container 42 is thus sealed and the container can be easily manipulated to be sold in commerce, for example in supermarkets. The covers are removed or torn before the container is assembled to the head 46. The opening of these openings may also result from the assembly of the container 42 to the head.
    During the assembly of the head 46, the joints around the upstream pressurizing and emptying valves of the head come to rest, in a sealed manner, opposite the pressurizing orifices 50 and emptying 52, respectively, of the container 16. .
    Ready-to-use containers, already assembled, can also be marketed. Preferably, the containers are reusable, i.e., they can be refilled with ingredient 44, for example by filling through the pressurizing valve 67 and the pressurizing port 50.
    All the containers are arranged in corresponding housings, in the service position.
    In the first preferred embodiment of the cooling module, the plug 109 is disengaged from the emptying coupler of the housing in which a container is to be arranged. Preferably, the presence of the stopper prevents the introduction of the container, which avoids any manipulation error.
    The placing of a container in a housing causes the magnet 112 of the housing to attract the metal insert 114 of the container 16. The resulting attraction forces lead to pressing the nipple 89 of the head 46 against the seal sealing member 108 disposed in the emptying nozzle 104 of the housing. The coupling of a container in a housing thus leads to establish a sealed circuit from the container 42, through the upstream emptying valve 69, the nipple 89 and, where appropriate, the downstream discharge valve 110, to bowl 121 of the funnel.
    The attraction forces also lead to pressing the seal 100. This results in a pressurizing sealing coupling, from the pressurizing coupler 30 of the housing to the pressurizing port 50 of the container 42.
    In the service position, each marker 116 is read by the reader 120, which allows the control module 20 to know that the container is present on the housing, but also, for example, to know the nature of the ingredient, the amount of residual ingredient, as well as the date of commissioning.
    Knowing the nature of the ingredient and the residual amount of ingredient in the container advantageously allows the container to be placed in any housing. Before beginning the manufacture of a drink, it is sufficient for the reader to read the marker to know the ingredients available, and their locations and quantities.
    In particular when the container is reusable, the user can reprogram the marker at each filling, preferably by means of the reader 120.
    When a potential user is in the vicinity of the device, its presence can be detected by the detector 156, in particular if it activates the remote control 154 or a WIFI or BLUETOOTH type signal corresponding to one of its personal devices, for example his mobile phone, is detected.
    Preferably, in the first preferred embodiment of the cooling module, the control module then activates the cooling module 150, which makes it possible to immediately cool the enclosure 122. The user can moreover order the manufacture of a drink, by interaction with a touch screen or buttons of the apparatus or via the remote control 154. In a preferred embodiment, the control module determines the beverages that the apparatus is capable of manufacturing, according to quantities of the ingredients available, and only offers these drinks to the user, preferably via his phone.
    The control module then orders the pouring into the chamber 122 of the ingredients concerned. More specifically, to transfer an ingredient 44 from its container 16 to the enclosure 122, the control module 20 opens the corresponding pressurizing valve 94. The control module 20 also opens the depressurization valve 144 of the enclosure. It starts the compressor 92, which allows the injection of air under pressure, through the pressurizing coupler 30, the pressurizing valve 67 and the pressurizing port 50, into the container 42. The pressure the interior of the container 42 increases accordingly. Beyond a threshold, under the effect of this overpressure, the upstream emptying valves 69 and downstream 110 open and the ingredient 44 can flow, through the emptying orifice 52, the nipple 89, the emptying valves 69 and 110, and the emptying coupler 36, in the enclosure 122.
    Preferably, the depressurization valve 144 is connected to the inlet of the compressor. During the pressurization phase, the air circuit is therefore advantageously closed. The hygiene conditions are optimal.
    The different ingredients can be poured into the chamber 122 simultaneously or not. Preferably, they are poured substantially simultaneously, which accelerates the manufacture of the drink.
    The nature of the ingredients and their dosage are determined by means of a recipe stored in the control module 20.
    In particular to make a cocktail, at least two different ingredients are poured into the enclosure.
    The amount of an ingredient dispensed may in particular be adjusted with the duration of the pressurization of the corresponding container and / or with the value of the pressure imposed in the container.
    After dosing a determined quantity of ingredients 44, depending on the recipe, the pressurizing valves 94 of the containers are all closed. The pressure in the chamber 122 decreases and the upstream and downstream dump valves close.
    Preferably, the enclosure 122 is then cleaned. For this purpose, the vacuum source 146 is preferably activated, and the depressurization valve 144 is kept open.
    When the housing comprises a downstream discharge valve 110, the pressure drop inside the enclosure 122 is preferably adapted so that the downstream discharge valve 110 opens, but the upstream dump valve 69 remains closed. The ingredient contained in the intermediate volume 111 between these two valves can therefore flow into the chamber 122. Preferably, a cleaning cycle is performed before the filling valve 126 opens. Advantageously, the ingredients extracted from the intermediate volume 111 can therefore be discharged into the glass 132.
    When the housing does not include a downstream check valve, but a plug 109, the emptying coupler 36 of the housing remains permanently clear in the presence of a container in said housing. Advantageously, the ingredient passing through the upstream dump valve can thus flow by gravity into the chamber 122. No cleaning cycle is therefore necessary to clean the space downstream of the upstream dump valve. Activation of the cooling module 150 cools the ingredients present in the enclosure 122. Preferably, the control module 20 evaluates the temperature of the mixture contained in the enclosure 122 by means of the measurement taken by the temperature sensor 152 and regulates the cooling module 150 accordingly.
    In the first preferred embodiment of the cooling module, implementing Peltier modules, the cooling module 150 is preferably activated as soon as the detector 156 detects the presence of a potential user. The ingredients are poured into a funnel whose temperature is already reduced, which allows to considerably accelerate the cooling. The use of Peltier modules and a thermal diffuser in close contact with the funnel bowl further accelerates cooling.
    In the second preferred embodiment of the cooling module, the cooling module 150 is preferably activated after the ingredients have been poured into the enclosure 122. For this purpose, the control module 20 controls an opening of the cooling valve. cooling 164, which allows the fluid 162 contained in the capsule 160 to escape. This exhaust leads to a sudden fall in the pressure of the fluid 162, and therefore to the production of frigories. These frigories are preferably directly transmitted to the mixture of ingredients contained in the bowl 121, that is to say that the fluid is preferably injected into the mixture of ingredients contained in the bowl.
    Advantageously, rapid cooling and reduced cost is possible.
    Tests were carried out with a mixture comprising an alcoholic liquid (between 0 ° to 70 °) and a quantity of sugar of between 0 and 250 g. This mixture, placed in the chamber, stainless steel, was initially at 27 ° C. The fluid (CO2 or nitrogen), initially in the liquid state in the capsule, at about 20 bar, was ejected from the capsule into the mixture. This ejection caused the fluid to expand, which itself cooled the gaseous fluid to about -50 ° C. The injection of the gaseous fluid into the mixture reduced the temperature of the latter to approximately 5 ° C in a few seconds.
    The brewing valve can be opened in order to inject into the chamber 122 air for mixing the various ingredients, or even to create an emulsion, but also facilitate cooling. Alternatively, or in addition, the blade of a mechanical mixer can be rotated inside the enclosure.
    In one embodiment, a carbon dioxide injector is also implemented to inject into the mixture contained in the chamber 122 a specific amount of carbon dioxide to obtain a carbonated beverage. If necessary, water can also be added inside the enclosure 122.
    Once the mixture inside the chamber 122 corresponds to the selected recipe and is at the appropriate temperature, the control module 20 orders the closure of the depressurization valve 144 and, if necessary, the closure of the brewing valve and the end of the injection of carbon dioxide and / or water, so that the enclosure 122 is hermetic.
    The control module 20 then controls the opening of the pressurization valve 138, which allows the injection of air under pressure inside the chamber 122, and thus the opening of the filling valve 126. Under the effect of the pressure of the air thus injected into the chamber 122, the mixture contained in the chamber 122 flows into the glass 132.
    The dose of an ingredient extracted from a container is recorded by the reader 120 in the marker 116 of the container. On reading the information contained in the marker, the reader can determine the amount of residual ingredient, and, if necessary, warn the user. At any time, a container can be removed from its housing. As soon as it is removed, the pressurizing valve 67 closes. Ingredient 44 is thus isolated from the outside, which allows its conservation.
    Thanks to the marker, the container can be replaced on any housing. The extraction of a container 16 also leads to the closure of the corresponding downstream discharge valve 110. Advantageously, the interior of the enclosure 122 remains isolated from the external environment, which makes it possible to put it under pressure or under vacuum, and further improves hygiene conditions.
    As it is now clear, an apparatus according to the invention makes it possible very quickly and accurately to produce a fresh drink, and in particular a cocktail. In addition, the containers can be easily replaced, which offers great flexibility of use. Finally, an apparatus according to the invention allows an extremely fast cooling of the manufactured beverage.
    An apparatus according to the invention also allows optimal hygiene, in particular because the circuits for the ingredients are extremely short, an ingredient that can be transferred directly from a container to the enclosure 122, then directly from the enclosure 122 to the glass 132, without passing through pipes.
    Preferably, an apparatus according to the invention comprises no duct, and in particular no flexible or rigid pipe between any container and the funnel.
    Of course, the invention is not limited to the embodiments described and shown, provided for illustrative purposes only.
    In particular, valves may be replaced by valves controlled by the control module. Conversely, valves may be replaced by valves.
    For example, the fill valve 126 could be replaced by a fill valve 168 controlled by the control module. Advantageously, emptying the chamber is thus possible without the enclosure needing to be pressurized.
    In a most preferred embodiment, as shown in FIG. 7, the filling valve 168 conventionally comprises an actuator 169 and a shutter 170, the actuator driving the shutter between closed and open positions, in which it closes or leaves clear, respectively, a filling orifice 172 formed in the bottom of the enclosure 122.
    Preferably, the shutter 170 is arranged to be cooled by the fluid exiting the capsule 160. In particular, the shutter may have an inner lumen 174 in which said fluid 162 may be injected.
    Preferably, the capsule and the cooling line 163 are fixed with respect to the enclosure 122. An impervious sliding contact 173 is preferably provided between the cooling line 163 and the shutter surface defining the internal light 174.
    Preferably, the shutter is made of a metallic material, favorable to the transfer of frigories to the mixture contained in the enclosure. In one embodiment, the shutter may be provided with fins to promote this transfer.
    More preferably, the inner lumen 174 opens into the enclosure, preferably so that the fluid passes through the mixture of ingredients contained in the enclosure. Preferably, the inner lumen 174 opens at the lower end of the shutter by one or more injection orifices 176. The injection orifices 176 preferably extend to less than 20 mm, preferably less than 10 mm from the bottom of the enclosure in the closed position of the shutter. The duration of the contact between the fluid and the mixture of ingredients contained in the chamber is increased.
    Preferably still, the injection direction is substantially radial, with respect to the axis of the filling orifice 172. Preferably, the injection direction is substantially parallel to the bottom of the enclosure, as shown in FIG. 7. The duration of the contact between the fluid and the mixture of ingredients contained in the chamber is further increased. In addition, the injection of the fluid contributes to the mixing of the ingredients.
    Advantageously, the shutter 170 thus exerts not only the function of selectively closing the filling orifice 172, but also a function of radiator and / or cooling fluid conduit. The compactness and simplicity of the device are improved.
    权利要求:
    Claims (14)
    [1" id="c-fr-0001]
    Apparatus for manufacturing a single drink, comprising: - a source of pressure (12); a cellar defining a plurality of housings (14); a plurality of removable containers (16), each immobilized in a service position, in a respective housing, each container comprising - a container containing an ingredient and - an upstream dump valve allowing an exit of said ingredient to the outside of the container under the effect of an overpressure generated inside said container by said pressure source; an enclosure (122) for receiving the ingredients extracted from said containers, via said upstream dump valves, under the effect of said overpressure, so as to manufacture said beverage; a control module (20) adapted to control said overpressures in said storytellers according to a desired composition for said drink.
    [2" id="c-fr-0002]
    Apparatus according to the immediately preceding claim, wherein each container has a head attached to said container, said head having a pressurizing valve allowing fluid input from said pressure source, preferably air, into the interior of the container. container.
    [3" id="c-fr-0003]
    3. Apparatus according to the immediately preceding claim, wherein the head is removable, and preferably screwed on said container.
    [4" id="c-fr-0004]
    4. Apparatus according to any one of the two immediately preceding claims, wherein the pressurizing valve has an opening pressure of between 100 mbar and 1 bar, and / or - the upstream flap valve has an opening pressure of between 100 mbar and 1 bar.
    [5" id="c-fr-0005]
    5. Apparatus according to any one of the preceding claims, wherein each housing comprises: - a downstream discharge valve (110) allowing an output of said ingredient under the effect of an overpressure generated inside said container by said source pressure, the downstream discharge valve being disposed downstream of the upstream emptying valve, considering the direction of flow of the ingredient leaving the container, or - a plug (109) movable between a disengaged position and a position of shutter in which it authorizes or prohibits, respectively, a gravity flow of the ingredient from said container to said enclosure.
    [6" id="c-fr-0006]
    6. Apparatus according to the immediately preceding claim, wherein: - the downstream dump valve has a lower opening pressure than the upstream dump valve, or - the cap is shaped to allow the establishment of a container in said housing only when in the unobstructed position.
    [7" id="c-fr-0007]
    7. Apparatus according to any one of the two immediately preceding claims, - wherein the intermediate volume between the upstream and downstream flush valves is less than 5 cm3.
    [8" id="c-fr-0008]
    Apparatus according to any one of the three immediately preceding claims, wherein each housing comprises a dump coupler (36) through which the ingredient of the container immobilized in said housing can be removed from said container, said dump coupler opening, to the downstream, directly in a funnel (18) defined by said enclosure.
    [9" id="c-fr-0009]
    9. Apparatus according to any one of the four immediately preceding claims, comprising means for holding said plug in the closed position when the housing is not occupied by a container.
    [10" id="c-fr-0010]
    10. Apparatus according to the immediately preceding claim, comprising magnetic means for holding the plug in the closed position in the absence of a container in said housing.
    [11" id="c-fr-0011]
    11. Apparatus according to any one of the preceding claims, comprising an enclosure depressurization circuit, said depressurization circuit comprising a depressurization line (140) placing fluid in communication the enclosure with a pressure well (142). a depressurization valve (144), controlled by the control module (20), being inserted in said depressurization line.
    [12" id="c-fr-0012]
    12. Apparatus according to the immediately preceding claim, comprising a compressor having an inlet constitutes a said pressure well and an outlet constitutes a said pressure source.
    [13" id="c-fr-0013]
    Apparatus according to any one of the preceding claims, wherein each container has a wall of a thickness greater than 1 mm, preferably greater than 1.5 mm, and / or has an interior volume of less than 1 L, of preferably less than 0.5 L.
    [14" id="c-fr-0014]
    14. Apparatus according to any one of the preceding claims, comprising, for each housing, magnetic coupling means between said housing and a container disposed in said housing.
    类似技术:
    公开号 | 公开日 | 专利标题
    EP1967100B1|2009-05-20|System for preparing a beverage from a capsule and method
    EP3419482A1|2019-01-02|Apparatus for making a drink
    CA2621405C|2012-05-15|Metering valve comprising a fixed inner conduit and a mobile outer sleeve
    CA2888635A1|2014-05-30|Device for preparing beverages by pod infusion having a pivoting cradle
    BE1021585B1|2015-12-16|DEVICE FOR PREPARING INFUTED BEVERAGES COMPRISING AN INJECTION TUBE IN THE INFUSION CHAMBER.
    WO2018189351A1|2018-10-18|Container intended for vacuum-storage of foods, cover, assembly comprising the container and the cover and system for vacuum-packing foods
    FR2942218A1|2010-08-20|APPARATUS FOR SERVING GLASS OF A LIQUID, IN PARTICULAR WINE
    FR3048170A1|2017-09-01|APPARATUS FOR MAKING A BEVERAGE
    EP3410902B1|2019-09-25|Machine for dispensing beverages from a pod, equipped with a device for the synchronized injection of two volumes of air
    EP3148899B1|2020-09-02|Box comprising an inner bag for a liquid food
    WO2015121736A2|2015-08-20|Thermoregulated device for modifying the consistency of a composition and method for operating the device
    EP3013193B1|2017-07-12|Device for preparing infused drinks, comprising a pivoting capsule support
    WO2019170549A1|2019-09-12|Apparatus for making a beverage
    EP2129582B1|2012-02-29|Method for inerting a container with the injection of an inert gas and device for implementing same
    FR2671538A1|1992-07-17|Device for dispensing and metering products
    FR3064994B1|2019-06-21|GLASS SERVICE DEVICE
    CA2916084A1|2014-12-31|Device for preparing infused drinks, comprising a capsule positioning means
    FR3066478A1|2018-11-23|ASSEMBLY FOR PACKAGING A FLUIDIC PRODUCT
    EP3410899A1|2018-12-12|Machine for dispensing beverages from a pod, with a pump system for metering the amount of water
    FR2967410A1|2012-05-18|Whipped product e.g. meringue, dosing device, has ejection unit comprising removable piston to exert pressure on product for ejecting whipped product towards exterior of reservoir through extraction orifice when valve is opened
    WO2018109326A1|2018-06-21|Beverage container
    BE820663A|1975-02-03|Wine cooler and dispenser - has reservoir with cooling equipment and means for mixing carbonaceous gas
    FR2777172A1|1999-10-15|Sandwich maker
    同族专利:
    公开号 | 公开日
    EP3419482A1|2019-01-02|
    CN109068878B|2021-04-27|
    FR3048171B1|2018-03-30|
    US20190053658A1|2019-02-21|
    US11109708B2|2021-09-07|
    WO2017144477A1|2017-08-31|
    CA3015709A1|2017-08-31|
    CN109068878A|2018-12-21|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    WO2007120047A2|2006-04-19|2007-10-25|Sara Lee/De N.V.|System for preparing a beverage suitable for consumption, and exchangeable holder for such system|
    US20130129870A1|2010-02-01|2013-05-23|Green Mountain Coffee Roasters, Inc.|Method and apparatus for cartridge-based carbonation of beverages|
    US20120111887A1|2010-11-10|2012-05-10|Lancer Corporation|Method and apparatus for dispensing a beverage from a liquid concentrate|FR3078532A1|2018-03-05|2019-09-06|Kuantom|APPARATUS FOR MAKING A BEVERAGE|PT1247481E|2001-04-03|2005-03-31|Nestle Sa|EXTRACTION DEVICE WITH INTEGRATED CAPSULES CHARGING SYSTEM|
    US9652756B2|2009-07-23|2017-05-16|Smart Bar Usa Llc|Point of sale interface for an automatic beverage dispenser|
    EP2736389B1|2011-07-28|2016-04-06|Nestec S.A.|Beverage dispenser with automatic closure of the powder containers chutes|
    WO2013036564A2|2011-09-09|2013-03-14|Fountain Master, Llc|Beverage maker|
    NL2011917C2|2013-02-20|2014-12-18|At Venture B V|SYSTEM FOR PREPARING A DRINK AND METHOD FOR THIS.|
    CN105189293A|2013-04-24|2015-12-23|Gea食品策划德国股份有限公司|Tool-integrated valve for rough and/or fine vacuum|
    US20160251104A1|2013-07-24|2016-09-01|Alpha Consolidated Holdings Inc.|Bottle with expansion chamber and pinch grips|
    WO2015157475A1|2014-04-08|2015-10-15|Remington Designs, Llc|Beverage brewing systems and methods for using the same|
    EP3142960A4|2014-05-12|2018-01-24|The Coca-Cola Company|Beverage dispenser system with remote ingredients handling|
    US20150359380A1|2014-06-12|2015-12-17|John Oleksy|Coffee maker and brewing method|
    EP3000778A1|2014-09-26|2016-03-30|Anheuser-Busch InBev S.A.|Beverage dispenser with jet mixing means|US8960999B1|2014-03-28|2015-02-24|Gudpod Holdings, Llc|System for mixing beverages and method of doing the same|
    FR3078531B1|2018-03-05|2021-05-21|Kuantom|APPARATUS FOR MAKING A BEVERAGE|
    法律状态:
    2017-02-27| PLFP| Fee payment|Year of fee payment: 2 |
    2017-09-01| PLSC| Publication of the preliminary search report|Effective date: 20170901 |
    2018-01-30| PLFP| Fee payment|Year of fee payment: 3 |
    2018-10-05| CA| Change of address|Effective date: 20180831 |
    2018-10-05| CD| Change of name or company name|Owner name: KUANTOM, FR Effective date: 20180831 |
    2020-01-28| PLFP| Fee payment|Year of fee payment: 5 |
    2021-01-28| PLFP| Fee payment|Year of fee payment: 6 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1651556A|FR3048171B1|2016-02-25|2016-02-25|APPARATUS FOR MAKING A BEVERAGE|
    FR1651556|2016-02-25|FR1651556A| FR3048171B1|2016-02-25|2016-02-25|APPARATUS FOR MAKING A BEVERAGE|
    EP17705910.2A| EP3419482A1|2016-02-25|2017-02-21|Apparatus for making a drink|
    US16/078,307| US11109708B2|2016-02-25|2017-02-21|Apparatus for making a drink|
    PCT/EP2017/053955| WO2017144477A1|2016-02-25|2017-02-21|Apparatus for making a drink|
    CA3015709A| CA3015709A1|2016-02-25|2017-02-21|Apparatus for making a drink|
    CN201780025842.4A| CN109068878B|2016-02-25|2017-02-21|Apparatus for making beverages|
    [返回顶部]