dispenser for mixing a drink from a capsule and capsule

专利摘要:
capsule-based system for preparing and dispensing a drink. the present invention relates to the dispensing of a substance from a container by means of a dispensing apparatus. specifically, the exemplary embodiment of the present invention relates to (1) a container and (2) the automated method for opening such a container and (3) the automated method of dispensing the contents from such container into a receptacle or customer glass.
公开号:BR112013011180B1
申请号:R112013011180
申请日:2011-11-09
公开日:2020-05-19
发明作者:E Riehm George；Matteo Lo Faro Gian；G Weaver Greg；R Laverack John；R Weseman Kurt；Shentu Yuanli
申请人:La Vit Tech Llc；
IPC主号:

专利说明:

Invention Patent Descriptive Report for DISPENSER TO MIX A DRINK FROM A CAPSULE AND CAPSULE.
CROSS REFERENCE TO RELATED ORDERS
[0001] This claim claims the benefit of Provisional Order No.
US 61 / 411,786 deposited on November 9, 2010.
BACKGROUND OF THE INVENTION
Field of the Invention
[0002] This invention relates to systems for dispensing a drink. The invention also relates to the capsule used in a system for dispensing a drink and methods of dispensing the drink from a capsule.
Description of the Related Art
[0003] There are numerous devices and techniques for dispensing a drink, such as, for example, a cup of coffee or tea, from a capsule. In one approach, a disposable container fits on top of a cup and has a compartment for receiving a drink extract, such as coffee with a large reservoir on the top into which a person must pour boiling water. These devices can be disposable, but costly, coffee is exposed to the air where it can easily be spoiled or contaminated, and is not generally suitable for automatic coffee machines or other drinks. Because the beverage flow rate is generally slow, these devices are typically large in relation to the volume of beverage dispensed. Also, these devices can be designed to be used upright and only the bottom area is available for the filtration flow and this contributes to the slowness of the filtration process. In a construction, a filter is provided in a sealed receptacle and a support member is included intermediate to the receptacle and filter, which functions to support the filter. When the filter
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2/36 is moistened, it yields and conforms to the support member that has a hole in it to release the filtered drink, but otherwise blocks the filter outlet. Such a filter design used in an application where water is injected under pressure would provide low flow rates.
[0004] There are several well-known companies operating their own capsule-based machines in the coffee and tea space, including Nespresso by Nestle, Keurig by Green Mountain Café Roaster and Tassimo by Kraft. Mars Flavia and Britta Yource are machines using a purse-style single use dispensing system.
[0005] Currently, there are three other machines seeking to market a beverage system at the point of consumption of single serving based on bag / capsule similar. Omnifrio uses a piercing mechanism, which pierces the top and bottom of the capsule allowing a syrup concentrate to drain. Bevyz uses a pressure mechanism to pop the capsule to open it allowing for a mixing process. Finally, Esio makes a machine that offers a single serve beverage solution using a bag system.
[0006] When cold drinks are dispensed in a system in which the drink is prepared by mixing cold fluid, usually water with a powder, a significant challenge is that the powder will not dissolve efficiently during the mixing process. This can lead to a low quality output from the beverage system and possibly unhealthy and unpleasant residue on the machine itself. The present invention is intended to provide a system for providing a cold or hot beverage mixed at room temperature designed to allow effective mixing of the powder with the cold liquid during dispensing providing little or no residue, contamination or cross-contamination between drinks.
BRIEF SUMMARY OF THE INVENTION
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[0007] The purpose of the invention is to offer a convincing alternative to ready-to-drink (RTD) drinks based on bottled water and other water. The invention is intended to offer an economical, reliable and convenient solution at the Point of Consumption for the consumer's drinking and hydration needs. The invention is a unique beverage serving system that can produce unlimited chilled filtered water as well as unique single serving drinks through a proprietary capsule-based system. The invention can be filtered water and cold, hot, static (without gas), flavored, enhanced, ultrapurified flavors.
[0008] The capsules contain a powder or liquid that is mixed with filtered water to produce the drink. Drinks can be household formulas or common mass-marketed branded drinks licensed by manufacturers.
[0009] The varied embodiments of the invention have multiple benefits:
• Pure Water On Demand: Unlimited filtered pure water. Potentially unhealthy contaminants are filtered out of the water.
• Personalized Drinks on Demand: Consumers can enjoy many of their favorite branded drinks, produced with very pure water, cooled to the correct temperature. Option to make carbonated drinks available on certain machine models.
• CO2 reduction: No need to transport the heavy bottled drink to the point of consumption. Each machine in use reduces carbon emissions.
• Space Saving: No need to store bulky drinks, saving space in the fridge / kitchen / pantry.
• Health Benefit: Increased hydration resulting in
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4/36 of the best and most convenient hydration options, including better concentration, better circulation and more overall overall health.
• Financial Benefit: The capsule costs approximately 23% of the cost of regular bottled water and approximately 33% of the cost of bottled drinks.
[0010] The method of accessing the capsule by peeling offers an efficient and effective way to prepare and deliver a drink. A mechanical device is adapted to peel part or all of the top cover of a capsule. Alternatively, a drive motor to rotate it towards a cutter to cut or scrape the top cover of the capsule. Alternatively, the light fold could be included in a flap of the capsule that can be used to break the seal and allow the cover to then be peeled back. When the top is peeled back (tearing or scraping), the drinks are mixed with a liquid mixing stream, which in many ways will be water, cold or hot, sparkling or not. The test was successful in unloading a powdered beverage concentrate out of a capsule using a stream of water from an ordinary sink faucet as well as in controlled experiments on a fully functioning tester.
[0011] In another embodiment, the invention includes the capsule which includes one or more folds at the interface between the capsule cover and the capsule body. Forces can be applied to the capsule to peel the capsule in the folds to access the drink. The beverage can be mixed in the capsule using a mixing stream into the capsule, vibration to remove material in the capsule from the capsule to mix outside the capsule, or a combination of both. In many embodiments, a finishing stream is used to direct the mixing stream into the container that is filled with
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5/36 mixed drink.
[0012] It may be advantageous to promote controlled tearing in the fold of the capsule, which can ensure a smooth opening of the capsule. Controlled tearing can serve to reduce the force required to peel the capsule and / or provide a more uniform and repeatable tearing to open the capsule. A leading edge raised in the mechanism used to peel the capsule may be to provide controlled tearing. The raised leading edge may be located such that it would facilitate opening a capsule along a longitudinal centerline of the capsule or it may be outside the centerline of the capsule so that peeling will start off the centerline and travel along a fold to peel the capsule.
[0013] Specific technical achievements of the invention may include:
• Easy Recycling: The capsule is recyclable in the common aluminum recycling chain together with aluminum cans. No special treatment or collection is required for recycling. The capsules are free of residue or contaminants (such as coffee powder).
• Bacteria Control: All mixing takes place in the capsule, therefore, there is no cross contamination between the possible sweet substances dispensed by the machine and the machine itself. The finished product leaves the capsule and goes directly to the consumer's cup.
• Sterilization: The mixing chamber can be self-sterilizing either through heat or UV light, depending on the shape and model of the machine.
• Finishing chain for Excellent Mixing Features: A finishing chain mixes any powder or liquid that may have reached the beverage container (eg glass). This relatively powerful jet creates a vortex in the
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6/36 cup / receptacle, thus providing additional mixing. Optionally, certain machines can have a secondary washable mixing hopper where additional mixing can occur for certain types of drinks. Brief Description of the Figures
[0014] Figure 1 is an isometric view of an exemplary embodiment of the present invention;
[0015] figure 1A is a cross section taken along sectional lines 1A-1A in figure 1;
[0016] figure 2 shows a detailed view of a capsule insertion in the embodiment of figure 1;
[0017] figure 2A illustrates a cross section in detail taken along sectional lines 2A-2A in figure 2 with a capsule inserted in the dispenser device;
[0018] figures 2B-2D illustrate the process of opening the capsule and beverage mixture according to a first embodiment of the invention;
[0019] figure 3 is an isometric view of a second exemplary embodiment of the present invention;
[0020] figure 3A is a cross section taken along sectional lines 3A-3A in figure 3;
[0021] figure 4 illustrates a view of a capsule insertion in the embodiment of figure 3;
[0022] figure 4A illustrates a cross section taken along sectional lines 4A-4A in figure 4 with a capsule oriented for insertion into the dispenser device;
[0023] figure 5 is an isometric view of the second exemplary embodiment of the present invention with the capsule in the dispenser;
[0024] figure 5A is a cross section taken along sectional lines 5A-5A in figure 5;
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[0025] figure 6 illustrates a view of a capsule insertion in the embodiment of figure 5;
[0026] figure 6A illustrates a cross section taken along sectional lines 6A-6A in figure 6 with a capsule disposed in the dispenser device;
[0027] figure 7 is an isometric view of another exemplary embodiment of the present invention;
[0028] figure 7A is a cross section taken along sectional lines 7A-7A in figure 7;
[0029] figure 7B details a possible mixing action with the invention, specifically, for example, the embodiment of figure 7;
[0030] figure 8 is an isometric view of another exemplary embodiment of the present invention that illustrates a way of crushing the capsule;
[0031] figure 8A is a cross section taken along the sectional lines 8A-8A in figure 8;
[0032] figure 9 details a flow chart illustrating an exemplary process for dispensing a drink according to the present invention;
[0033] figure 10 is an exemplary system diagram that describes the flow paths for fluids in the beverage dispenser;
[0034] figures 11A and 11B illustrate another embodiment of the present invention where vibration is used in the beverage mix and / or dispensing process;
[0035] figures 12A, 12B, 13A, 13B illustrate details of the capsule opening process in the embodiment described in connection with figures 5 and 7 of the present invention;
[0036] figures 14A - 14F illustrate details of the process of opening the capsule for the modality disclosed in figures 5 and 7;
[0037] figures 15-17 illustrate the side and side views
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8/36 upper ends, respectively, of a capsule of the present invention;
[0038] figures 18-20 illustrate views of the upper side and end, respectively, of another larger capsule of the present invention;
[0039] These illustrations are illustrative of the present invention and should not be construed as limiting the scope or range of the invention presented in that application.
DETAILED DESCRIPTION OF MODALITIES OF THE INVENTION
[0040] The present invention relates to the dispensing of a substance from a container by means of a dispensing apparatus. Specifically, the exemplary embodiments of the present invention relate to (1) a capsule and (2) a dispenser with a mechanism for opening a capsule and (3) an automated method of dispensing the contents from such a container into a receptacle or cup from the customer with an option to eject the capsule at the end of the beverage preparation cycle. Each of these areas will be described in more detail below:
[0041] (1) The Container / Capsule: The capsule is comprised of three parts, all of which, in a preferred embodiment, are made of aluminum, although other materials, such as biodegradable materials and plastics, are possible with the present invention. :
• aluminum foil covering the top of the capsule, • a receptacle to hold the mixing agents, which can be in powder form as well as in liquid form. The receptacle can have a variety of shapes, such as an oval that has been cut in half when the receptacle is viewed from the top, and • a more rigid upper edge of the receptacle that can be formed from the same or different material from the receptacle and to which the sheet is attached by some bonding agent, such as
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9/36 as glue.
[0042] In an embodiment of the invention, the capsule comprises a preformed body or receptacle defining a filling cavity. The body has an opening and an integral planar circumferential margin surrounding the opening. The opening is closed by a cover sheet which is sealed to the circumferential margin by means of a circumferential sealing glue.
[0043] The circumferential margin has a flat dispensing part at any end that is covered by the cover sheet, for example, aluminum foil, the cover sheet of which is sealed to the dispensing part through at least two sealing seams directed to out on each side, joining the circumferential seam seam and the extension at a distance from each other from the circumferential seam seam to the edge of the dispensing part at either end.
[0044] A weakened seal extends between the two seal seams directed at the perpendicular sides: The gap between the two points is directed towards the cavity and the weakened seal seam joins the respective seal seams outwardly at a distance from the location where the respective outward-facing seal seams join the circumferential seal.
[0045] There are two sizes of capsules, one approximately 20 cc and the other approximately 40 cc. Obviously, other sizes are contemplated in this invention. A difference between the two sizes is the volume of the receptacle part of the capsule, which, in the larger version, is longer and more bulky, since it is capable of holding more mixing agent (s). The tops of the capsules are identical, allowing them to fit into the same ejection mechanism and chamber feed on the machine. The capsule contains a powder
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10/36 or a liquid concentrate. According to an embodiment of the invention, the substance, for example, powder or syrup or substance for energy drinks or other drinks, is dispensed directly from the container in a serving container, for example, a cup or a bottle. Also, water is dispensed into the service container, such that mixing can occur in the service container, thus preventing contamination of the dispensing apparatus with the substance. The capsules are described in more detail in connection with the illustrations below.
[0046] (2) The dispenser for opening such a capsule. Another aspect of the invention is the dispenser for opening the capsule. In general, to operate the machine, a user suspends a cover located on the top of the machine. The user would then insert the aluminum capsule into the tray slot or opening adjusted in size to hold the capsule and lower the lid by closing it. An optional optical scanner can be used to read an optional barcode on the capsule to ensure that the appropriate mixing process is activated by a control system, which could include a central processing unit. The capsule is opened by pressing and peeling the capsule. In one embodiment, the edge margin of the capsule is pressed firmly by the cap mechanism and part of the top of the capsule is peeled off by a feeder mechanism that holds the end of the capsule and breaks the seam to open it and then pulls the cover to peel the cover off the capsule. This initial portion of the seam may require most of the force to open and can be obtained by the user. When the cover breaks the seal, a servomotor that produces less torque can be selected to reduce the cost and complexity of the machine. In this embodiment, the capsule can be rotated (for example, swung down by about 45 ° -90 ° to
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11/36 from the horizontal) to facilitate the breaking and peeling of the cover at the top of the capsule.
[0047] A margin or support surface supports the cover sheet and holds the leading edge firmly contained, but allows the cover sheet to peel along the sealing seams directed outwardly in the dispensing part of the margin and down to along the sides. Seams can be optional if, by selecting an appropriate cover material or configuration, it allows tearing consistently along a desired path at a predetermined force. This way of opening the container does not require cutting means or other adapted means to open the container that could be contaminated with the substance, which is advantageous in view of hygiene and to avoid cross contamination. Obviously, as described in an alternative embodiment below, the capsule can be opened along a fold by opening one or both edges. In any configuration, the capsule is provided with a concave shape of the leading edge of the capsule, having the beneficial effect of directing the flow of the mixed product, so that splashing and contamination of the dispensing apparatus are reduced or avoided.
[0048] (3) The automated method of dispensing the contents from such a container.
[0049] The present invention contemplates a cold infusion process in which the drinks in the La Vit machine are prepared through a cold infusion, so that maximum mixing per capsule is possible. A user inserts an individually wrapped capsule into a machine.
[0050] According to another aspect of the invention, the substance, for example, powder, syrup or other substance for unsweetened or other drinks is dispensed directly from the container into
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12/36 a serving container, for example, a cup or bottle. Water is also dispensed into the service container, such that mixing occurs in the service container, thus preventing contamination.
[0051] Drink mix: As the capsule enters a 45 ° -90 ° pouring angle, water is injected into the capsule and the powder or liquid inside the capsule is mixed with the filtered water. Most or all of the powder mixture is obtained inside the capsule. The powder is agglomerated and highly soluble in nature.
[0052] Secondary Mixing Optional: The water-based mix is fed down through gravity into a funnel or catch tray where a secondary mix is given. This secondary mixing will take place with the aid of water introduced in the side of the said funnel through which a vortex created in the second mixing chamber. The funnel creates a vortex, which is complemented by a second nozzle that adds more water to the mixture. The mixture is then funneled down and out of the dispenser nozzle into a beverage receptacle. This step is optional and will depend on the machine model.
[0053] Quality when pouring: The drink leaves the capsule (or the secondary mixing chamber) and is poured directly into the receptacle / cup of the consumer. The primary current leaves the capsule and gravity feeds it into the consumer’s receptacle.
[0054] Finishing Chain: A relatively pressurized secondary stream of filtered water is injected directly from the receptacle / cup of the consumer causing a stir in the cup, thus causing any unmixed powder or liquid to mix completely in the content of the drink - (for example, glass).
Description of exemplary modalities illustrated in the figures
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[0055] Figure 1 is an isometric view of an exemplary beverage dispenser 10 of the present invention and figure 1A is a cross section taken along sectional lines 1A-1A in figure 1. Drink dispenser 10 is suitable for home or business environment. As illustrated, dispenser 10 is generally rectangular in shape and is adapted to be located to be located on a kitchen counter or some properly sized table. While the total size of the device is about 30 cm high, 20 cm deep and 35 cm wide, the particular dimensions can change without deviating from the scope of the invention according to the specification.
[0056] Dispenser 10 includes an optional display 12 for transmitting status information of the dispenser (such as dispensing, mixing, inappropriate size capsule) or other information that may be useful to a user, including information about the drink being dispensed (such as counting calories, ingredients, producer information) or even advertisements. Advertisements can be associated with particular drink choices, so if, for example, a person chooses vitamin-filled drinks, an advertisement can be targeted to associated health-related products or stores that sell associated health-related products. Figure 1 illustrates step 1 where the device provides initial instruction to the user, such as selecting a beverage capsule, lifting the cable and inserting a capsule. The instruction may have step numbers or letters associated with them for assistance during machine operation. Several images or icons can be used to represent the steps or instructions. The icons can represent a process step or they can represent a condition of the machine, for example, available, in operation, etc. or they can represent a condition of the drink, for example, hot, warm, cold, etc.
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[0057] For example, the display can be programmed to illustrate the steps in the beverage dispensing process. Step 1 of the dispensing process can include the display that provides the user with an initial instruction, such as selecting a beverage capsule, lifting the handle and inserting a capsule. The instruction may have step numbers or letters associated with them to assist during the operation of the machine. Several images or icons can be used to represent the steps or instructions. The icons can represent a process step or they can represent a condition of the machine, for example, available, in operation, etc. or they can represent a condition of the drink, for example, hot, warm, cold, etc. Another step, for example, step 2, of the process may include a display in which the information from the device is displayed, for example, the device detects a given step, for example, a capsule has been inserted into the machine. The screen illustrates a request to dispense, so that the dispensing process can begin. The user can then press the button on the touch screen or icon to start the dispensing process. Alternatively, a button on the machine can be used instead of or in addition to the touch screen control. The instruction can be separated from the icon that would start the drink dispensing process or it could be overlapping with the instruction. An additional step, for example, step 3, can be where the display is used to show the state of the machine during the dispensing process. An icon and / or words or phrases can be used to display the machine's status. A final step, for example, step 4 can be an exemplary screen display suitable to notify the user that the drink is ready and the dispensing process is complete. Again, words or icons can be used to communicate the message to the user. Also, although the four steps are used to describe the process, the present invention contemplates the
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15/36 using the drink dispensing process by touch screen with more steps as part of the dispensing process. Fewer steps are also anticipated and are within the scope of the invention. Obviously, other lights, such as LED lights, can be used to illuminate various portions of the machine and the dispensing compartment in a way that can provide additional lighting and / or information communication to the user. The capsule bar code allows the machine to read the capsule and display information about the capsule or the correct film. The schedule can be updated using a USB key or wirelessly.
[0058] Actuator buttons 14 and 16 are provided to allow the user to select a particular drink. The button 14, for example, can be selected to dispense hot water and has an appropriate indication to inform the dispenser user which selection could be, in the illustration, H is used. Alternatively, another clue can be used, such as color (for example, red) or wavy lines above a liquid symbol. Button 16, can be used to start a drink dispensing cycle where cold water is used to mix the drink and an appropriate indication (such as the letter C) can be used. Obviously, other types of symbols can be used to tell the actuator to dispense a cold drink. In addition, optional sensors 18 can be used to determine the presence of a beverage container (not shown in figure 1) at an appropriate filling location 24 in tray 22 of the beverage dispenser.
[0059] The dispenser 10 includes a door or cover 26 that can be opened by a cable 28. The cover 26 is illustrated as being on the top of the dispenser, but could be on the front or on the sides of the dispenser. The cover or door is used to access the capsule receiving compartment portion 30 of the
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16/36 dispenser and, as shown in figure 1A, the cover includes a pivot 27 that allows the door to swing open. Obviously, other types of mechanisms can be used. A mechanism for mixing and dispensing a drink is, according to an embodiment of the invention, described below. A removable box 40 with sides created by walls 42 can be used to store used capsules as described above. A rear portion 44 of dispenser 10 can be used to house a CPU and other electronic components 46, a water container (in figure 1A) or a chiller (referred to in figure 9) to cool the water. A heater (referred to in figure 9) useful for heating water can be supplied. As an optional desirable feature, the beverage dispenser can include a window showing the actual filter or a representation of a filter that communicates to the user that the water moving through the system is being filtered.
[0060] As shown in figure 1A, dispenser 10 also includes an optional mixing funnel 48 that can be used to guide water into the beverage container and assist in the mixing process. The mixing funnel can be shaped in a variety of ways and serve to guide drinks. The mixing funnel can optionally be provided with a nozzle 92 dispensing a secondary mixing stream 94. In addition, another type of beverage guiding structures can be used to guide the fluid into the beverage container. For example, although not illustrated in this embodiment, the fluid can be guided along the inside, or even the outside, of a tube or cylinder so that the chain flows out smoothly. The finishing tube or cylinder may be in addition to or in place of the mixing funnel.
[0061] Instead of or in addition to the mixing funnel 48, a nozzle can provide a liquid finishing stream 230, for example
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17/36 example, Water. The location of the nozzle finishing chain 45 is preferably in front of (from a user's point of view) mixing chain from funnel 48, if present, or the mixing chain from the capsule as described in detail below . The finishing chain can be used in addition to the mixing chain, instead of the mixing chain (if the user only wants a filtered drink). If the beverage mixture inside the capsule is deposited in the beverage container without the mixing chain, the finishing chain can mix the beverage in the mixing container. Additionally, when the finishing chain is used, as described in more detail below, the turbulent (and perhaps less aesthetically pleasing) chain can be covered by the more laminar finishing chain, thus providing the user with a more aesthetically pleasing beverage dispensing experience. . [0062] Figure 2 illustrates a detailed view of a capsule insertion in the mode of figure 1 and figure 2A illustrates a cross section in detail taken along sectional lines 2A-2A in figure 2 with a capsule inserted in the device dispenser. Figure 2A also shows two capsules 50, 52 that can be used to contain the mixture that can be mixed by the dispenser 10. In this embodiment of the invention, the capsules have a rectangular (or square) upper part 54, 56, respectively with a part lower arcuate curve 60, 62, respectively. The arcuate surface configuration can be modified to more or less adjust a drink mix. For example, a smaller capsule 50 may contain 20 cc of material and the larger capsule 52 may contain 40 cc of mix. A larger capsule 52 may be desirable for more mixing to produce a stronger drink, sweetener to produce a sweeter drink or for any material that can be mixed to take on more volume than is available in the market.
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18/36 size of 20 cc. The capsule elements 50, 52 are described in more detail, which include a flap 68 on which is arranged (usually with glue, not shown) a cover 70 which can, in one embodiment, be foil. The flap provides rigidity to the capsule. In a preferred embodiment, a sheet cover is glued or otherwise sealed to the flap, so that it is attached securely to the capsule and the material is sealed inside the capsule until dispensed by the dispenser.
[0063] Figures 2A-2D illustrate the process of opening the beverage capsule and mixture according to a first embodiment of the invention that can be described as a pressing and peeling process. As described in more detail below, a portion of the leaf is held tightly (pressed) and then a mechanism swings the capsule to tear or peel the capsule to open it until the drink is mixed. Thus, the method of opening the capsule for this modality is by tearing or peeling the top sheet of the capsule, so that the drink can (optionally) be mixed in the capsule itself to reduce the process of contaminating the dispenser with powder or unmixed drinks that could allow bacteria to grow. A capsule 50, 52 is selected to mix the drink and fits within the notch 64 in a frame 72 that swings over a joint 74 during the dispensing process as described above. Once a capsule 50, 52 is slid into slot 64 so that it is held securely on three sides (figure 2A), the cover 26 is closed over a hinge 27 in a direction illustrated by an arrow.
[0064] An optical reader 80 can be used to scan information from the capsule, so that information about the capsule and its contents can be processed on a CPU containing
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19/36 the electronic package 46 (shown schematically in figure 1) of the beverage dispenser 10. In that way, the beverage dispenser can ensure that any programmable variables (eg temperature, volume, mixing parameters, etc.) can be incorporated into the mixing process of the beverage dispenser for particular drinks.
[0065] Returning to the process of opening the capsule, as the user closes the lid, the lid (or some other part of the feeding mechanism 78) holds the end end 58 of the sheet and breaks the seam to open it. This first initial portion of the seam is the most difficult part to peel and is obtained by the user by pressing the cover 26 downwards. Once opened by breaking, a servomotor (not shown) rotates a gear 82 which, in turn, rotates a follower gear 84 that swings frame 72 around hinge 74. As frame 72 swings downwards, a portion of the cover 70 which is kept stationary and the remainder of the capsule oscillate downward as shown in figure 2C. Optionally, the capsule is broken to open through the force of the cover and not through the servomotor inside the dispenser. This allows the use of a smaller servomotor and ensures its longevity. In this mechanism, the sheet is not perforated in any way, thus reducing the possibility of contamination by whatever is on the perforation surface. The separation of the cover blade from the dispensing portion of the capsule then progresses along the weakened seal towards the outward-facing seal seams. This way of opening the capsule does not require cutting means or other adapted means to peel the capsule that could be contaminated with the substance, which is advantageous in view of hygiene and to avoid cross contamination. Also illustrated in figure 2C, a mixing stream 86 is provided from the nozzle 88 which
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20/36 mixes the contents of the capsule in the container and then the mixing stream is allowed to flow into the mixing funnel 48 through a secondary nozzle 90 and 92 (figure 2C), so that the mixed drink can be guided (and perhaps additionally mixed) in the funnel as it is directed to the mixed drink container. An optional finishing chain, although often desirable, can be directed down towards the beverage container 90. The finishing chain 230 from the nozzle 45 can help to mix the beverage (outside the capsule) and direct the mixed beverage towards cup 90. The hopper can be optional if the finishing chain is designed optimally and appropriately.
[0066] Once the drink is dispensed, the capsule is ready to be placed in the used capsule box of the drink dispenser as shown in figure 2D. The feed mechanism releases the edge 58 of the sheet from its stuck location and the capsule can fall into the container through gravity. The frame is preferably oriented so that the notches direct the used capsule towards the used capsule container. The drink is dispensed, the capsule has been disposed of in the used capsule box and the dispenser is ready to dispense another drink. An optical detector 43 detects when the used capsule compartment is full and indicates a message on the display 12 to empty the box.
[0067] Figure 3 is an isometric view of a second exemplary embodiment of the present invention and figure 3A is a cross section taken along sectional lines 3A-3A in figure 3. In this embodiment, one or both of the front and the back of a specially constructed capsule are broken to open together with a seam to allow the beverage device to be (optionally) mixed into the capsule. The general shape and contours of the dispenser can be the same (and characteristics
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21/36 similar to the dispenser housing are identified with similar numerals), the process of opening a capsule is different. [0068] In the second embodiment, the dispenser 100 includes a cover 126, the cover is configured to close in relation to a joint 127. A sensor 80 can be arranged in the housing to read the symbolic instructions on the capsule. The capsules, shown in figure 4A, can be of two sizes, one 20 cc and one 40 cc. The difference in principle between the sizes is the volume of the lowest part of the capsule. Figure 4A also illustrates two capsules 150, 152 that can be used to contain the mixture that can be mixed by the dispenser 100. In this embodiment of the invention, the capsules have a rectangular (or square) top 154, 156, respectively with a part concave bottom 160, 162, respectively. The concave surface configuration can be modified to more or less adjust the drink mix. For example, a smaller capsule 150 may contain 20 cc of material and the larger capsule 152 may contain 40 cc of mix. A larger capsule may be desirable for more mixing to produce a stronger drink, sweetener for producing a sweeter drink or for any material that can be mixed to take more volume than is available in the 20 cc size. The capsule elements 50 are described in more detail, which includes a flap 168 on which is arranged (usually with glue, not shown) a cover 170 which can, in one embodiment, be foil. The flap or curled edge provides rigidity to the capsule. In a preferred embodiment, a sheet cover is glued to the flap so that it is attached securely to the capsule and the material is sealed within the capsule. Capsules 150 and 152 are described in more detail in connection with figures 15-20.
[0069] Figure 5 is an isometric view of the second exemplary embodiment of the present invention with capsule 150 in
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22/36 dispenser 100 and figure 5A is a cross section taken along sectional lines 5A-5A in figure 5. Figure 6 illustrates a view of a capsule insert in the embodiment of figure 5 and figure 6A illustrates a cross section taken along sectional lines 6A-6A in figure 6 with a capsule disposed in the dispenser device. The capsule 150 or 152 is arranged in an opening in a frame 200 that is sized to accommodate the capsule at the base of the flap 168. Once arranged in the frame 200 as shown in figures 5 and 5A, the cover is closed over a hinge 127 which closes the cover for the dispenser. As shown in figures 6 and 6A, the cover includes a portion 129 which is arranged facing the top of the capsule in frame 200. An optical reader 80 in portion 129 scans the information from the capsule and sends it to the CPU (not shown in this figure).
[0070] Frame 200 includes three sections 202, 204 and 206. The section
204 is the central portion of the frame and forms a seat to hold the capsule securely as the capsule ends are opened. Section 202 at the front of the capsule and section 206 at the rear are attached to the central portion 204 by hinge parts 210 and 212, respectively. The pivot piece 210 allows the front section 202 to swing upwards with respect to the central portion 204. Likewise, the pivot piece 212 allows the rear section to swing upwards with respect to the central portion 204.
[0071] In the position seen in figures 6A and 6B the frame 200 can be considered to be in a resting position with the front section, the central portion and the rear section aligned in a planar relationship by springs or the like (not shown). The front section 202 rests on the side rails for the guides 214. The rails 214 act as both cams and stops as described below. An additional 216 cam sits just below the interior surface of the
Petition 870190122690, of 11/25/2019, p. 26/49
23/36 rear section 206 as best seen in figure 6A. From the Position seen in figure 6A, the user manually presses down on the front portions of the capsule flap 168 to rotate counterclockwise around the joint 212. The rails 214 act as stops when the capsule ends have been completely broken to open as seen in figure 7A. The user can then release the cover during the mixing and dispensing cycles as the mechanism (not shown) retains the cover and the frame in their fully lowered positions until after the crushing cycle. As detailed in connection with figures 17-20, the capsule includes a fold that allows controlled breaking and opening of the capsule ends as shown in figures 7 and 7A. It is the relative movement between the center portion 204 and the front and rear portions 202 and 206 allowed by the joints 210 and 212, which allows the capsule to open. Obviously, several mechanisms can be used to create the relative movement between the front and rear sections and the central section. For example, the center section can be lowered using a servo mechanism or the front and rear sections can be moved in relation to the center section by a servo mechanism that will allow articulated movement between the front section and the center section and the rear section and the center section. Additionally, while there are two hinged parts, it is within the scope of the invention to include a single hinged part and to open only one side of the capsule to allow the mixture to pour out. Furthermore, the terms front and rear are for guidance purposes and should not be seen as limiting the description of the invention. It is possible that the capsule is oriented at a different angle from that illustrated from front to back and the pouring mechanism could be adjusted accordingly. In addition, opening and mixing could be from the front to the rear.
Petition 870190122690, of 11/25/2019, p. 27/49
24/36
[0072] As illustrated in figure 7A, in an embodiment of the invention, the mixture in the capsule is allowed to leave the capsule before adding a liquid. In this embodiment, mixing can take place in a mixing funnel and / or in the beverage container itself. Figure 7B illustrates alternative mixing possibilities. A nozzle 218 fixed within the rear section 206 provides the mixing stream 220 to the water stream into the capsule. As illustrated, the mixing stream 220 is fixed within the frame 200. Alternatively, it could be outside the frame and oriented in a way that allows the stream to enter the top of the capsule so that water can mix with the mixture of drink. The amount, strength and temperature of the mixing stream can be regulated according to the particular mix or can remain fixed in the device. In addition, a finishing stream 230 from the Nozzle 45 can be used to add additional water not needed to mix with the beverage mixture. For example, in a 0.24 L serving, 0.09 L of water can be used to mix the drink and 0.15 L can be included in the finishing mix. This allows the appropriate amount of water to be used without unduly delaying the time needed to complete the mixing and dispensing process. In addition, since the finishing stream may be different from the mixing stream, the temperature of the water mixing stream can be heated to ensure that the beverage mixture is completely dissolved. Chilled water can be used as the finishing chain to ensure that the total temperature of the drink is at a desired cold temperature. Another benefit of using an optional finishing chain is that it can assist in creating a laminar flow of drink out of the machine, so that a user of the drink dispenser has a more pleasant view of the laminar flow out of the machine. dispenser and not a turbulent flow of mixed drink. Such
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The finishing chain can assist in the process of ensuring that the use of the device is a pleasant and smooth experience, so that you can enjoy the process of preparing a drink. [0073] As described above, with any modality, there are several alternatives that can be used in the mixing process. Any liquid to create the drink can be introduced into the mixing stream. This would ensure that the entire drink was mixed and would minimize the need for an alternative mixing arrangement. Without a finishing chain, the dispenser would be simplified. With the advantages of a finishing chain, the use currently contemplated by the beverage dispenser is with both a mixing chain and a finishing chain. The proportion of the amounts of the finishing chain and the mixing chain can vary and even be regulated by drink. Another alternative project contemplated is the use of a finishing chain with the drink mixture being allowed to leave the capsule through gravity.
[0074] The origin and orientation of the finishing chain can also vary. The finishing chain can be oriented to enter the beverage container from an oblique angle and contributes to the mixing process in the beverage container. A nice swirl can be created in the cup, which contributes to the aesthetically pleasing attributes of the dispenser. The finishing stream can be introduced into the mixing stream under (and side by side with) the lower opening of the capsule. In this, the orientation of the mixing stream is kept in line with the finishing stream and the finishing stream can introduce a laminar flow quality to the drink mix stream and contribute to another type of pleasant aspect to the drink dispensing. Finally, the finishing stream can be oriented so that it joins the mixing stream as the mixing stream exits the capsule. This would allow the
Petition 870190122690, of 11/25/2019, p. 29/49
26/36 laminar flow was additionally introduced into the beverage dispensing stream. If different temperatures are used for the mixing current and the finishing current, this would allow the mixture to equalize the temperature at the desired temperature. Since the warmer water dissolves the drink mixture more evenly, it would probably be warm / hot water that could be used to mix the drink and would be mixed with cooled or colder water so that the total temperature of the drink is at a desired temperature. The use of warmer water in the mixing stream can also allow less water to pass through the mixing capsule and increase the speed of delivery of the mixed drink. Obviously, it is possible to use colder water in the mixing capsule and warmer water in the finishing chain.
[0075] Figure 8 is an isometric view of another exemplary embodiment of the present invention that illustrates a way of crushing the capsule and figure 8A is a cross section taken along sectional lines 8A-8A in figure 8. In that embodiment, the drink has been dispensed and the capsule must be removed from the frame to allow the drink dispenser to be available to receive another capsule and dispense another drink. In this embodiment, the central section 204 is contained in two movable fingers, a left finger 204a and a right finger 204b. The left and right fingers slide laterally towards the capsule so that the capsule is crushed. The left and right arms 204a and 204b cross the notches on the side walls of the capsule receiving compartment 30 and are actuated by linear actuators (not shown). The capsule is preferably made from a light crushable material, such as a thin aluminum film. Once the capsule is crushed, the capsule will fall into the opening in the frame.
[0076] An optional mechanism 240 for peeling the container of
Petition 870190122690, of 11/25/2019, p. 30/49
27/36 empty capsule to allow it to fall into the container is illustrated. This mechanism 240, which can be mechanically controlled or controlled by the CPU, includes a linear actuator motor that can move a wall 242, so that it is oriented to receive the capsule, as shown in figure 8A. The CPU can also control the receptacle to be guided through the process of dispensing another drink. Of course, springs (not shown) can be provided so that the central portions 204a and 204b are returned to the position to accept another capsule.
[0077] Figure 9 details a flow chart illustrating an exemplary process for dispensing a drink according to the present invention. The exemplary process includes a dispenser workflow step 300 that can be shown on the touch screen in housing 10. In step 305, the device detects whether a beverage container, such as a glass, is present and how big the container. The device reads a code on the capsule (or bag) and determines the proportional size per container according to step 310. In step 315, the device instructs the user to press down on the cable or start breaking the capsule seal in another way . In step 320, the dispenser requires the user to activate hot or cold water selection. It is also possible that the beverage mixing process can be initiated by pressing down on the cover to break the capsule. Various automation features could be included to facilitate starting the mixing process and automating the variety of the mixing process.
[0078] In step 325, the display screen shows a drink status in dispensation. In step 330, the liquid being dispensed is displayed and timed. In step 335, the device indicates to the user that the beverage is dispensed and invites the user to remove the beverage container from the dispenser. When the device detects that the container of
Petition 870190122690, of 11/25/2019, p. 31/49
The beverage has been removed, the recycling process is started at step 340 and the central fingers 204a and 204b move to crush the capsule. The recycling door also opens in step 340. In step 345, the capsule falls into the recycling box and then the recycling box is closed at 350 and the system can be purged in step 355.
[0079] Other system functions can be communicated with words or icons in the system. Possible functions that can be performed by the machine and illustrated on the touch screen, either to inform the user that a step must be taken or to notify the user of the state of the machine. For example, the touch screen can be used to instruct the user to purge the system. Additionally, an exemplary screen to alert the user that the waste bin is full and requires emptying. The dispenser can alert the user when the cold water tank is empty and requires filling. Obviously, the machine can have a connection to the line for a water source, such as tap water, in which case the user can be alerted to issues related to water supply or problems with the connection. A source of hot and cold water can be provided. Finally, if filters are used on the device, a screen to instruct the user to change the filter at the appropriate time can be provided. The appropriate timing to change the filter, for example, by number of uses, number of days, etc. can be built into the schedule. The screen can be customized if desired to allow periodic cleaning or replacement of the pre-filter and polishing filter at different cycle times. Several images or icons can also be used to inform and entertain the user during the preparation and dispensing cycle. Images and icons can be static or mobile.
[0080] Figure 10 is an exemplary system diagram 450 that describes the flow paths for fluids in the beverage dispenser. The water
Petition 870190122690, of 11/25/2019, p. 32/49
29/36 can be supplied via tap water conduit 452 and / or a 454 refillable water tank. The refillable tank can be approximately 2-5 liters in capacity. The tank must be of sufficient capacity to allow several drinks to be prepared in series without extensive delay to cool or refill the tank. A pump 456 can be used to move the water through a conduit 458 from the water tank 454 towards a valve system 460 that controls the water source to be used in the dispensing. The 458 valve system can be used to cut water for the dispenser. Pre-filter 430 is disposed along conduit line 462. The pre-filter can be a commercially available filter suitable for the purpose of water purification and removal of impurities. A conduit valve 464 is the valve that controls the finishing water circuit 466 and the bleed circuit 490. A dispensing pump 470 is also provided along conduit 466 to supply the fluid to dispense from the dispenser. [0081] In units that provide both chilled and heated drinks, the unit can be configured as illustrated with a 472 hot water tank and a 474 chiller / chiller unit. Various valves 476, 478 and 480 and conduits 464, 482, 484 , 486, 488 connect the components. Dispenser outlets 494, 496 are used to dispense water from the system.
[0082] The dispenser according to the present invention can include a sanitizing sequence that disinfects all non-chlorinated post-filter conduits, so that the bacteria in the conduits and components is efficiently addressed. The conduits, for example, can be cleaned by opening valves 480, 478 and 476 to allow the conduits to circulate in hot water. Other types of cleaning / disinfection projects can be used, for example, conduits can have an internal fluid conduit and a
Petition 870190122690, of 11/25/2019, p. 33/49
External 30/36 that allow the cleaning fluid to be circulated.
[0083] Figures 11A and 11B illustrate another embodiment of the present invention where vibration is used in the beverage mix and / or dispensing process. In this embodiment, the capsule 150 is arranged in the central portion 504 of frame 500 and the front section frame 502 and the rear section frame 506 are articulated (at 510 and 512) as described in the previous embodiment. Here, the orientation of the capsule 152 is disposed adjacent to a vibration mechanism 520 which is an eccentric weight arm 522 connected by a rod 524 to a rotary motor (not shown). As the rotary engine rotates the eccentric weight, the vibration created in the capsule 152 mixes the beverage mixture in the capsule. The location of the vibration device can be anywhere along the concave portion of the capsule. This can serve to facilitate and make the beverage mixing process easier. In addition, the vibration may come to facilitate the movement of the beverage mixture out of the capsule and into a mixing area. In a preferred form, illustrated in figure 11B, vibration is engaged when mixing occurs to ensure that the mixture is completely moistened and dissolved in the mixing water.
[0084] Vibration can be used with a mixing current as shown. It can also be used with a mixing and finishing chain. Finally, it is possible that the vibration can be projected, such that a sufficient amount of material is vibrated from the capsule and is able to mix in the beverage container or in a mixing funnel.
[0085] Also illustrated in figures 11A and 11B is an additional feature of the frame 500 that allows a more consistent opening of the capsule during the opening process. A raised portion 540 in front of frame 502 provides a focal location for making an initial break in the capsule seal. Once the opening
Petition 870190122690, of 11/25/2019, p. 34/49
31/36 initial occurred, the opening will follow the fold along the front and rear ends of the capsule and will ensure a smooth and consistent opening process that includes the least required force and the most predictable pattern along the front and rear end of the capsule. As shown in figure 11B, the capsule during mixing is oriented at an angle, so that it facilitates mixing and pouring from the capsule. The side of the capsule (the concave section) can be oriented a few degrees from the horizontal as indicated on the horizontal line at the bottom of the capsule.
[0086] Figures 12A, 12B, 13A, 13B illustrate details of the capsule opening process in the embodiment described in connection with figures 5-7 and 11 of the present invention. In particular, the front section of the frame includes a raised portion 540 along the symmetrical center of the capsule. Obviously, the raised portion can be either in front of or behind the portions in the frame. As shown in Figure 12B, which illustrates an open capsule using a raised portion frame, open section 520 is smooth and consistent along the fold of the capsule. Opening 522 which is created without a raised portion 540 is illustrated for comparison. Figures 13A and 13B illustrate an alternative embodiment of the raised portion 550 in the frame. In this mode, it is arranged at a distance from the center line of the capsule. This will facilitate opening the capsule along the fold along the front (or rear) of the capsule. As shown in figure 13B, the capsule is opened at 524 with the raised portion 550 away from the center line.
[0087] Figures 14A - 14F illustrate details of the capsule opening process for the modality disclosed in figures 5, 7 and 11 in which a fold is illustrated in the capsule. In the capsule 600 shown in Figure 14A, the capsule includes a lower portion 602 and a flap 604. The edge of the foil cover 606 slightly protrudes the flap. THE
Petition 870190122690, of 11/25/2019, p. 35/49
32/36 capsule 600 is constructed with a fold 610, 612 in the front and rear, respectively, along the lower side of the flap 604. The fold serves to create a predetermined path for the capsule to open. As shown in figure 14B. Figures 14C and 14D illustrate a particular location of a weakened fold or section 610. The tear line is just below the flap 604 and produces an opening as shown in figure 14D. The opening may have a softer edge depending on the type of material from which the capsule is built, and the type of channel or weakened section is in the capsule. Figures 14E and 14F illustrate an alternative location for a fold 620. The break or break edge is on the flap 604 so that the break and the opening mechanism are able to smoothly peel the cap off the edge of the capsule as shown in open capsule in figure 14F. In this configuration, the opening may be between the sheet and the flap (for example, by separating the glue or affixing point between the flap and the sheet) or it may be below the top surface of the flap and a portion of the flap may be broken. with the leaf.
[0088] Figures 15-17 illustrate top and side views, respectively, of a capsule 700 of the present invention that can be used with the second embodiment of the invention. Capsule 700 includes a foil cover 702, a tab or rolled portion 704 and a concave body portion 706. The concave body portion is intended to hold the mixing material. The bottom portion of the concave body portion may include a 710 planed section. The planed section can assist in stabilizing the capsule on a table and stacking the capsules in a column. The sides of the concave body can be shaped in a way that allows proper pressing of the material to create the concave material. The flap portion 704 can be formed during the
Petition 870190122690, of 11/25/2019, p. 36/49
33/36 same process as the body portion. Alternatively, the flap portion can be added after the body forming process in a secondary assembly process that could streamline the body portion formation. The foil cover seals the beverage mixture in the capsule. Glue or some other material can be used to create the seal. The seal may be flat as shown, or alternatively, it could have a different outline or orientation in relation to the edge of the capsule. A weakened fold or section 712, 714 can be provided to the flap or to the body adjacent to the flap. The weakened section may contain holes or be a thin section of material. The edge of the weakened section may extend a certain portion around the capsule as shown, it could be along a portion of the capsule, up to about a quarter of the longitudinal direction of the capsule as shown in figure 15 with reference to distance a and b. Different dimensions can be provided for a and b as needed for the opening characteristics. The capsule can be sized so that only one particular capsule can be used in the machine, and the capsule can have an irregular orientation so that only one capsule in a particular orientation can be used in the cartridge.
[0089] Figures 18-20 illustrate top side and end views, respectively, of another larger capsule 800 of the present invention that can be used with the second embodiment of the invention. Capsule 800 includes a foil cover 802, a tab or rolled portion 804 and a hollow body portion 806. The hollow body portion is intended to hold the mixing material. The lower part of the concave body portion may include a planed section 810. The planed section may assist in stabilizing the capsule on a table and stacking the capsules in a column. The sides of the concave body can be shaped in a way that
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34/36 allows for proper pressing of the material to create the concave material. The flap portion 804 can be formed during the same process as the body portion. Alternatively, the flap portion can be added after the body forming process in a secondary assembly process that could streamline the body portion formation. The foil cover seals the beverage mixture in the capsule. Glue or some other material can be used to create the seal.
[0090] The seal can be flat as illustrated, or alternatively, it could have a different outline or orientation in relation to the edge of the capsule. A weakened fold or section 812, 814 can be provided to the flap or to the body adjacent to the flap. The weakened section may contain holes or be a thin section of material. The edge of the weakened section can extend a certain portion around the capsule as shown, it can be along a portion of the capsule, up to a quarter of the longitudinal direction of the capsule as shown in figure 18 with reference to distance c and d. Different dimensions can be provided for c and d as needed for the opening characteristics. The capsule can be sized so that only one particular capsule can be used in the machine, and the capsule can have an irregular orientation so that only one capsule in a particular orientation can be used in the cartridge. Additional Invention Details
[0091] The use of a peeling mechanism to open a capsule is a unique and desirable way to open the capsule. The peeling of the capsule expands the amount of space inside the capsule allowing an agglomerated powder to have more space to mix with the filtered water. The edge release method can be used with any of the embodiments of the present invention. In a capsule mixing method, mixing in the capsule
Petition 870190122690, of 11/25/2019, p. 38/49
35/36 allows the mixed solution to quickly leave the capsule, allowing fresh water to constantly mix with a new layer of dry powder, so that the powder does not become moist and form clots. Agglomerated powder does not mix readily when packed tightly. The capsule can be filled with powder or liquid. Optionally to use a powder or liquid in the capsule. In any case, vibration can be used to mix the material in the capsule with water.
[0092] Another advantage of the present invention is that the exterior of the capsule does not come into contact with the drinks. There is no contact of the finished product with the outside of the capsule, since there is no perforation of the leaf lid or capsule base into the drink. Most machines have contact with the outside of the capsule and the finished drink, which is not hygienic. The outside of the capsule was handled in a non-sterile manner. Automatic Capsule Ejection prevents the used capsule from settling and growing bacteria inside the mixing chamber. Having an empty chamber allows sterilization of that chamber.
• Color Screen: offers consumers the branded drink experience • The capsules are very environmentally friendly and easily recyclable.
• High-quality look and feel at the premium level of capsules and machine
[0093] While there are many drilling mechanisms that prepare and deliver drinks, it is believed that the La Vit peeling mechanism is a new way of preparing and delivering drinks. By exposing the inside of the capsule to a jet of water, the mechanism prevents any accumulation or conglomeration of dust in any part of the capsule, since the mixture is easily discharged outside the capsule allowing a complete and uniform mixing of the substance. THE
Petition 870190122690, of 11/25/2019, p. 39/49
36/36 future development could include introducing a different way of peeling or opening the capsule, a different capsule shape and a different way of mixing the agents and the water. When mixing takes place in the capsule and when it is empty, it is not subject to the growth of mold or bacteria like another capsule-based system where the capsule is not discharged.
[0094] Commercial product applications include primarily business and domestic applications, but include hospitals, institutions, schools, hotels, cruise ships and any environment where a beverage machine at the point of consumption would be convenient and beneficial.

权利要求:
Claims (15)
[1]
1. Dispenser (10, 100) for mixing a drink from a capsule (50, 52, 150, 152), the dispenser (10, 100) characterized by the fact that it comprises:
a frame (72, 200, 500) to accommodate the capsule, so that the capsule (50, 52, 150, 152) is located securely within the frame (72, 200, 500), a mechanism for opening at least an edge of a capsule cover (70, 170), the frame (72, 200, 500) positioning the capsule (50, 52, 150, 152) so that when the capsule (50, 52, 150, 152) is opened, a mixing stream is directed into the capsule and configured to pour out of an open edge of the capsule (50, 52, 150, 152).
[2]
2. Dispenser (10, 100) according to claim 1, characterized in that the mechanism for opening the capsule cover (70, 170) opens the capsule cover (70, 170) by peeling.
[3]
3. Dispenser (10, 100) according to claim 1, characterized in that the mechanism for opening the capsule cover breaks the capsule cover (70, 170) to open it.
[4]
4. Dispenser (10, 100) according to claim 1, characterized in that the frame (72, 200, 500) comprises a joint (74), so that the mechanism can oscillate over the joint (74) for opening the capsule (50, 52, 150, 152), and wherein the capsule includes a thin material at the top (54, 56, 154, 156) of the capsule and the mechanism additionally includes a means for securing an edge of the thin material, so that the material remains fixed while the mechanism oscillates the frame (72, 200, 500) on the joint (74) to effect the opening of the capsule (50, 52, 150, 152).
[5]
5. Dispenser (10, 100), according to claim 4, characterized by the fact that the frame (72, 200, 500) is adapted
Petition 870190122690, of 11/25/2019, p. 41/49
2/4 to position the capsule (50, 52, 150, 152), so that a mixing stream can mix the drink in the capsule (50, 52, 150, 152).
[6]
6. Dispenser (10, 100) according to claim 5, characterized in that it additionally comprises a finishing chain that is not oriented to go into the capsule (50, 52, 150, 152) and is directed in towards a beverage container.
[7]
7. Dispenser (10, 100), according to claim 1, characterized by the fact that it additionally comprises:
a reader (80) in the dispenser (10, 100) for reading information encoded in a capsule (50, 52, 150, 152); and a computer in the dispenser (10, 100) for making drinks according to a set of instructions based on the information encoded in the capsule (50, 52, 150, 152).
[8]
8. Dispenser (10, 100) according to claim 1, characterized in that it additionally comprises a frame (72, 200, 500) that includes at least one end that rotates on joints in relation to a central portion, the mechanism additionally including a portion of the device immobilizing the capsule (50, 52, 150, 152) in relation to the frame (72, 200, 500), the mechanism opening the capsule (50, 52, 150, 152) by rotating the hair at least one end with respect to the main portion for opening the capsule (50, 52, 150, 152).
[9]
9. Dispenser (10, 100) according to claim 8, characterized in that it additionally comprises a mixing stream nozzle (45) adapted to provide a water mixing stream into the capsule (50, 52, 150, 152) when the capsule is opened through a front end of the at least one pivoting end.
[10]
10. Dispenser (10, 100) according to claim 9,
Petition 870190122690, of 11/25/2019, p. 42/49
3/4 characterized by the fact that it additionally comprises a second nozzle (90, 92) adapted to provide a water finishing stream in addition to the mixing stream, in which the finishing stream is directed towards the drink container without going through the capsule (50, 52, 150, 152).
[11]
11. Dispenser (10, 100) according to claim 9 or 10, characterized in that the frame (72, 200, 500) is adapted to position the capsule (50, 52, 150, 152) so that the mixing stream can mix the beverage in the capsule (50, 52, 150, 152).
[12]
12. Dispenser (10, 100) according to claim
11, characterized by the fact that the frame (72, 200, 500) is adapted to position the capsule (50, 52, 150, 152) so that the finishing chain can further mix the beverage in the beverage container.
[13]
13. Capsule (50, 52, 150, 152) for use in a beverage dispenser (10, 100), characterized by the fact that it comprises:
a concave receptacle for containing a mixture;
a margin forming an opening in an external receptacle, the margin having a flat section; and a cover (70, 170) which is adapted to be arranged in the flat section of the margin;
wherein the capsule (50, 52, 150, 152) is adapted to be opened from at least one edge and the capsule (50, 52, 150, 152) is adapted to allow a drink to be mixed within the receptacle of the capsule (50, 52, 150, 152).
[14]
14. Capsule (50, 52, 150, 152) according to claim 13, characterized in that it additionally comprises a fold (610) along one edge of the capsule adjacent to the margin, in which the capsule (50, 52, 150, 152) is adapted
Petition 870190122690, of 11/25/2019, p. 43/49
4/4 to be opened along the fold.
[15]
15. Capsule (50, 52, 150, 152) according to claim 14, characterized by the fact that the capsule (50, 52, 150, 152) has an axisymmetric upper part (54, 56, 154, 156) .

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法律状态:
2018-12-18| B06F| Objections, documents and/or translations needed after an examination request according [chapter 6.6 patent gazette]|

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2019-08-27| B06U| Preliminary requirement: requests with searches performed by other patent offices: procedure suspended [chapter 6.21 patent gazette]|

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2020-03-10| B09A| Decision: intention to grant [chapter 9.1 patent gazette]|

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2020-05-19| B16A| Patent or certificate of addition of invention granted [chapter 16.1 patent gazette]|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 09/11/2011, OBSERVADAS AS CONDICOES LEGAIS. |

优先权:

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申请号 | 申请日 | 专利标题

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US41178610P| true| 2010-11-09|2010-11-09|

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PCT/US2011/060050|WO2012064885A1|2010-11-09|2011-11-09|Capsule based system for preparing and dispensing a beverage|

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