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    • 专利摘要:
    invention patent: "capsule for the preparation of a drink comprising an identification code". the present invention relates to the capsule for preparing a drink from the beverage ingredients contained therein, comprising a body (2) consisting at least of a compartment for receiving said beverage ingredients and a flange similar to the flange ( 4) extending externally and transversely to the central axis (i) of said body; a membrane (6) to close the opening that is sealed in the flange-like flap, an optical code (7) containing binary information configured to be read by a chamber (11) of a beverage producing device (20), in which the optical code (7) is a two-dimensional bar code having straight edges (7a -7d) and which is inscribed in a circular area (8) concentric relative to the center (o) of the membrane having a radius (r) less than the radius (ro) of the membrane.
    公开号:BR112012017864B1
    申请号:R112012017864-4
    申请日:2011-01-12
    公开日:2020-05-26
    发明作者:Vincent Rognon
    申请人:Société des Produits Nestlé S.A.;
    IPC主号:
    专利说明:

    DESCRIPTION REPORT OF THE INVENTION PATENT FOR CAPSULE FOR THE PREPARATION OF A DRINK AND SYSTEM FOR PREPARING A DRINK FROM THE SAME.
    Field of the Invention
    [0001] The present invention relates to a capsule and system for the preparation of a drink, more particularly a capsule with a code for identification of the capsule in the beverage production device and to provide information and / or regulation parameters in the drink preparation device. The invention also relates to a method for providing information to a user of a capsule for the preparation of a beverage in the beverage dispensing device.
    Background
    [0002] Capsule systems comprising an identification code for regulation parameters in a beverage production machine have previously been proposed. For example, capsules or cartridges containing coffee, milk, chocolate, tea or combinations of these ingredients are used in specifically designed machines in which water is fed under pressure in the capsule that interacts with the ingredients for the preparation of a drink. Such machines can operate at different pressures.
    [0003] WO 02/28241 describes a cartridge for the preparation of hot or cold drinks wherein the package includes an interpretable aspect of the machine that can be interpreted to direct the beverage production device to employ a specific beverage preparation operation suitable for private drink preparation package.
    [0004] WO 02/074144 describes a beverage preparation system comprising a beverage preparation device recognition system that allows the beverage preparation system to recognize the presence, type and / or capabilities of the device
    Petition 870200015972, of 2/3/2020, p. 5/35
    2/22 beverage preparation inserted in the system.
    [0005] In WO 02/078498, a machine-readable identifier in a packaging portion, containing ground coffee, for espresso machines is provided in a rotationally symmetrical manner, thus allowing it to be easily and reliably read, essentially in a flat surface of the packaging portion. The packaging portion is preferably a portion of a capsule with an essentially round bottom to which the identifier is applied coaxially. One problem remains that reading the code requires the capsule to be read over a large movement step that forces the capsule to be moved to perform the reading. Furthermore, the surface on which the code is printed is not typically flat but more convex due to the pressure of the internal gas in the capsule. As a result, the code can be distorted and the reading negatively affected. Finally, the code contains a very limited amount of information, thus making these solutions not very attractive.
    [0006] In order to solve the problems of the code printed on flexible surfaces, such as in WO 02/078498, attempts have been made to flatten the surface by mechanical elements of the device as in EP 1593329. However, such a method can cause the rupture of the capsule and will cause mechanical rubbing on the device that is not desirable or even accidental tearing of the packaging.
    [0007] EP 1440640 describes a method of preparing at least one beverage range comprising different steps including inserting at least one beverage cartridge, operating a user interface to initiate an operating cycle, creating a specific beverage preparation cycle based on a traditional bar code, passing the aqueous medium through the beverage cartridge to produce a beverage in which the temperature, pre-wetting, volume flow rate and air purge of the aqueous medium are adjusted with
    Petition 870200015972, of 2/3/2020, p. 6/35
    3/22 code-based, providing eductors in a certain cartridge to provide foaming of the drink.
    [0008] The solutions have also consisted of replacing the optical code with a radio frequency code such as in EP 1715778. However, this technology remains expensive for disposable containers such as beverage capsules.
    [0009] WO 2009007292 describes a method of a reading device in a beverage preparation apparatus (drinks) to register an image of a one-dimensional or multidimensional pattern on the drinks or service disc that is inserted into an open beverage preparation camera of the device and, before starting the preparation or operation of the service, it is changed from a loading position to a closing position via intermediate positions in a closing operation of the beverage preparation chamber. This is developed by virtue of the fact that the reading device is activated before the beverage preparation chamber is closed, with the result that at least one image of the pattern is recorded before the closed position is reached. The problem here comes from the complexity of image processing, in particular, the comparison of multiple images that is needed.
    [00010] In general, prior art systems suffer from the problem of reliable reading of the capsule identification code. Attempts have been made to improve identification, but most solutions are complicated that implement and / or provide other problems.
    [00011] Generally, the capsule should be oriented or inserted into the beverage device in a precise manner to ensure the correct reading of an optical bar code from the machine. For example, in EP 1440640, the capsules must be placed in a unique precise orientation on the capsule retainer to allow reading by means of re
    Petition 870200015972, of 2/3/2020, p. 7/35
    4/22 knowledge of capsule (see figure 40). Therefore, there are clear limitations to possible automation of the beverage production device, in particular, if several capsules need to be read in sequence in the device. Furthermore, prior art capsule systems suffer from the problem of limited code storage capacity which greatly reduces the scope of communication between the capsule and the device or user.
    Summary of the Invention
    [00012] The present invention alleviates the problems of the prior art system by providing a simple, reliable and economical solution for identifying the capsule, communicating information and adjusting parameters that can also be implemented in any beverage production device, including a beverage. fully automated device, in which it is essential to safely identify the capsules inserted there, such as when preparing multi-component multi-capsule drinks. The invention also provides solutions to improve communication with the user during and / or outside the beverage preparation periods.
    [00013] Therefore, the present invention relates to a capsule for the preparation of a drink from the beverage ingredients contained therein, comprising:
    - a body comprising at least one compartment for receiving said beverage ingredients and a flange-like flap extending outwardly and transversely to a central axis (1) of said body;
    -a membrane to close the opening that is sealed in the flange similar to the flange;
    -an optical code containing binary information configured to be read by a drink-producing device's camera;
    where the optical code is a two-dimensional bar code
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    5/22 having straight edges and which is inscribed in a circular concentric area relative to the center (O) of the membrane having a radius smaller than the radius of the membrane.
    [00014] The solution of the invention provides several advantages.
    [00015] First, the capsule no longer requires that it be specifically inserted in a predetermined orientation in the capsule retainer or carrier to ensure proper detection. A degree of freedom is given as to the orientation of the capsule relative to the central axis. This greatly facilitates the insertion of the capsule into the device.
    [00016] Second, in particular due to its small size, the code can be identified without flattening the package and without necessarily moving the device relative to the capsule (or vice versa) to read the code. Therefore, the code can be read while the capsule is in a static position, thus making the device simpler and more reliable. In addition, the visual properties of the capsule such as brand, color, lettering, etc. are not affected as much as compared to prior art solutions.
    [00017] Third, the two-dimensional code contains more information than the typical optical code, thus offering a wider choice of parameterization and improved communication.
    [00018] Preferably, the two-dimensional bar code is inscribed in a circular area with a radius of less than 15mm, preferably less than 13mm. As a result, the reading of the capsule can be performed while the capsule is static and the camera is placed relatively close to the capsule, thus affecting neither the simplicity nor the compactness of the device.
    [00019] Furthermore, the two-dimensional code is placed between at least one opaque inner layer and a transparent outer layer of the membrane. As a result, the code is protected from external physical and / or chemical attacks but also provides sufficient
    Petition 870200015972, of 2/3/2020, p. 9/35
    6/22 contrast to be read despite its small size.
    [00020] The two-dimensional bar code comprises information in binary format including: product information, authentication data, beverage production parameter settings, URL and their combinations.
    [00021] In a preferred embodiment of the present invention, the two-dimensional bar code is printed on the capsule, using an invisible ink. This has the advantage of keeping the capsule surface free for decoration with visible ink, which is advantageous, particularly from an aesthetic point of view. Invisible ink is generally known as a substance used for inscription, which is invisible to the human eye or on application or shortly thereafter, and which can later be made visible by some means or is visible under certain conditions (eg under UV light) by recognition devices such as a camera or barcode scanners.
    [00022] The invention also relates to a system for preparing a beverage from a capsule according to any one of the preceding claims in which it comprises:
    a beverage producing device comprises a capsule manipulator means including a capsule retainer for receiving the capsule there and identification and control means, wherein the identification and control means comprises a digital camera positioned relative to the manipulator means and configured to capture an image of the two-dimensional code placed in the capsule and transfer said image or related binary information to a control unit of the identification and control means.
    [00023] Said means for identification and control can comprise a display configured to display product information in the decoded form of said image or binary information.
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    7/22
    [00024] In a preferred embodiment, the system comprises a range of capsules corresponding to the different drink families (for example, espresso, lungo, latte macchiato, cappuccino, etc.). For at least two capsules in the range, the code for each capsule is of a different matrix size that is adapted to encode information related to your drink family. The device's camera is thus also configured to read bar codes from at least two different matrix sizes to identify which beverage family the identified capsule belongs to.
    [00025] In a particular mode, the code for at least two capsules can comprise countless bits that vary according to the number of characters in the drink name.
    [00026] The capsule-handling means of the device preferably comprises a slider or tubular feeder for guiding the capsule in a capsule retainer movably placed thereon. When a capsule is inserted into the device, it falls by gravity into the capsule retainer and is positioned while its encoded membrane remains uncovered for subsequent self-identification. The camera is preferably placed in the transport path between the capsule handling medium and the liquid injection medium. Furthermore, a capsule transport means is provided to move the capsule retainer that receives the capsule in front of the digital camera. In particular, the capsule transport means can comprise a conveyor belt driven by an engine.
    [00027] The invention also relates to a method for providing information to a user of a capsule for the preparation of a beverage in a beverage producing device comprising a provision of a capsule with a two-dimensional bar code on it, captured by less than one barcode image via a digital camera and display of decoded information from said image in
    Petition 870200015972, of 2/3/2020, p. 11/35
    8/22 a display.
    [00028] In particular, the digital camera can be part of the beverage producing device and / or a portable telecommunication terminal.
    [00029] The displayed information includes direct information and / or a web address. As direct information, it essentially means information obtainable directly from the data contained in the bar code such as product information, drink preparation parameters or user instructions.
    Brief Description of Drawings
    [00030] Additional features and advantages of the present invention will be detailed in the description of the following drawings:
    figure 1 shows a side view of a capsule of the invention,
    figure 2 shows a top view of the capsule of figure 1, figure 2 shows an enlarged view of figure 2,
    figure 2b shows an enlarged view of figure 2 according to a first variant,
    figure 2c shows an enlarged view of figure 2 according to a second variant,
    figure 2d shows an enlarged view of figure 2 according to a third variant,
    figure 3 shows a capsule in a reading mode in the device of the invention,
    -Figure 4 shows the top of the capsule when read in a reading mode on the device of the invention,
    figure 5 illustrates a system of the invention when the capsule is in the insertion mode in the device,
    -Figure 6 illustrates the system of figure 5 when the capsule is in a reading mode,
    -Figure 7 illustrates the system of Figure 5 when the capsule is
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    9/22 in a drink preparation mode,
    figure 8 illustrates a method of communication using the capsule system of the invention with a mobile telecommunication terminal,
    -Figure 9 illustrates the processing of the bar code in the capsule using the telecommunication terminal,
    Figure 10 illustrates the acquisition of information from the portable telecommunication device of an image displayed on the beverage production device.
    Detailed Description of the Invention
    [00031] The invention relates to a capsule containing beverage ingredients for the preparation of a drink, by injecting liquid into the capsule and interaction of the liquid with these ingredients. The ingredients include: roasted and ground coffee, instant coffee, leaf tea, instant tea, cocoa, daily or non-daily dairy products, chicory, fruit or vegetable extract, culinary extracts and their combinations. Additives can also be added in an appropriate amount such as sweeteners, flavoring agents, thickeners, edible vehicles, dyes, foaming agents, stabilizers, buffers, emulsifiers, processing aids and combinations thereof. The term capsule generally refers to any simple-to-use beverage package that can be rigid, semi-rigid, sometimes even flexible, including cartridges, capsules or pads, sachets, etc., used in a beverage production machine by the injection of a liquid, usually water, under pressure and at a certain temperature (hot, cold or ambient), for interaction with ingredients contained in the package and for sending the package of a liquid or partially liquid product (that is, the drink) . The interaction between the liquid and the ingredients can happen through extraction, dissolution, dilution, infusion, dispersion, mixing, emulsification and their combinations.
    Petition 870200015972, of 03/02/2020, p. 13/35
    10/22
    [00032] The capsule 1 typically comprises a body 2 comprising at least one compartment for receiving the beverage ingredients. The body may be a form of revolution of the central axis I, such as a substantially truncated cone shaped cup, with one side larger and a narrow side ending with a delivery duct 3. On the long side, the body comprises a flange-like flap 4 extending externally and transversely to the central axis I. The body is closed by an upper membrane 5 sealed in the flap similar to flange 4, thus delimiting the internal compartment with the body. Inside, the capsule may comprise means for opening a wall that closes in the shipping duct, as described in EP 1472156 B1.
    [00033] With reference to figure 2, a view of the top of the capsule of figure 1 is shown showing the membrane 5 and its annular sealed portion 6 on the flange-like flap. The membrane is not necessarily flat. Sometimes, a gas-tight membrane expands slightly outward due to internal gas pressure (carbon dioxide, nitrogen, etc.). The membrane comprises a center of axis O which represents the point of the central axis I intersecting the surface of the membrane.
    [00034] As more clearly illustrated in relation to figure 2a, membrane 5 comprises an optical DataMatrix code 7 containing binary information configured to be read by a camera of a beverage production device as will be explained. The optical code is a two-dimensional bar code having straight edges 7a, 7b, 7c, 7d. As you know, the illustrated bar code is a matrix code made up of small square cells that represent bits (0 if the cell is light and 1 if the cell is dark or vice versa). The left edge 7a and the bottom edge 7b form an L shape that is known as a Finder pattern and is used to locate and
    Petition 870200015972, of 2/3/2020, p. 14/35
    11/22 guide the code. The top edge 7c and the right edge 7d represent the timing pattern that provides the count for the number of bits that determines the matrix size of the code. The coding for specific code is more specifically described in ISO, ISO / IEC 16022 standard.
    [00035] According to the invention, the optical code 7 is inscribed in a circular area 8 (illustrated by a circle in dotted lines) whose center is concentric with the center O of the membrane and which has a radius R which is smaller, preferably at least 1.5 times, more preferably at least twice smaller than the Ro radius of the membrane. By definition, the code is inscribed in circular area 8 when none of its angles exceeds the limits of the circular area. The radius Ro represents the radius of the entire membrane including the sealed portion 6.
    [00036] In the example in figure 2a, the code is formed from four edges 7a -7d of equal length making it into a square with four angles that intersect the limits of the circular area (that is, the circle in a dotted line).
    [00037] In the example in figure 2b, the code is formed by a rectangular polygon with four angles that intersect the limit of the circular area. In this way, the longest sides of the rectangular code intersect the boundary of the circular area (that is, the circle is dotted line).
    [00038] In the example in figure 2c, the code is formed from a square code that is deviated from the center relative to the center O, but still inscribed in a circular area whose center is concentric with the center O of the membrane. In particular, a simple angle of the square code intersects the boundary of the circular area (ie the circle in a dotted line).
    [00039] In the example in figure 2d, the code is formed by a rectangular code that is deviated from the center relative to the center O, but still inscribed in a circular area whose center is concentric with the cen
    Petition 870200015972, of 2/3/2020, p. 15/35
    12/22 section O of the membrane. In particular, a single angle of the rectangular code intersects the boundary of the circular area (that is, the circle in a dotted line).
    [00040] Typically, code de-centering occurs once the membrane is cut and sealed at high rates in the body after receiving the code, so the centering of the membrane cannot be guaranteed during manufacture. Typically, the decentralization of the code relative to the center O to a maximum value of about 5mm is possible.
    [00041] In all of these examples, the radius R of circular area 8 is much smaller than the radius Ro of the membrane. Therefore, the circular area determines the zone of the limit position for the code that needs to be respected to provide the advantages of the present invention, in particular, the reliable detection in the entire angular position of the capsule as will be explained later. The limits of area 8 are only virtual (illustrated by the dotted lines) and do not need to be evident in the capsule. Preferably, the bar code is inscribed in circular areas 8, as previously defined, with a radius R less than 15mm, preferably less than 13mm, more preferably between 3 and 11 mm. In the most preferred designs, the bar code has a surface area of less than 120 mm 2 , more preferably between 20 and 90 mm 2 . The lower limit is essentially guided by the restrictions of reading detection technology, but also by the possible visual defects of the code when printing on or on the membrane.
    [00042] The invention is not necessarily limited to the DataMatrix code as illustrated but it is applicable with any two-dimensional bar code consisting of a matrix code comprising black and white or colored modules arranged in a square or rectangular pattern and including any of next
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    13/22 code patterns: DataMatrix code, Semacode, Quick Response Code (QR, Aztec code, Maxi code or EZ code. All of these codes use the same two-dimensional principles, although using different coding algorithms and different symbologies involving symbol patterns such as squares, dots, circles, etc. hidden with images and their combinations.
    [00043] The bar code is designed with a matrix size sufficient to store information related to the drink (ie product information), the parameters relevant to beverage preparation in the beverage production device, updated bits, error bits and bits related to optics. Preferably, the matrix size (i.e., the row number by the column number representing the number of bits) is between 10 by 10 and 22 by 22, preferably 12 by 12 and 18 by 18.
    [00044] The bar code can be a pattern visible to the naked eye inserted in layers of the membrane 4 for the purpose of protection against scratching, hot liquid, etc. In particular, the membrane preferably comprises at least one opaque inner layer and at least one transparent or translucent layer in which the code is inserted between those two layers. For example, the bar code can be printed directly on the surface of said inner and outer layers or it can be printed on a label that is inserted between the two layers. Preferably, the opaque layer is made of polymer selected from: PP, PE, PET and their combinations. The outer layer is preferably chosen from PET. For example, the membrane comprises two opaque layers of PP and PET of 70 and 12 microns respectively and a transparent outer layer of PET of about 10 - 20 microns.
    [00045] In a possible alternative, the bar code can be a pattern invisible to the naked eye, as if printed with special ink
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    14/22 and readable within a specific light frequency range such as UV. In particular, a specific invisible pattern can be used to distinguish genuine capsules from counterfeit capsules.
    [00046] For product information, the information regarding the name of the drink can be stored in the code that makes it possible to identify the capsule. The total name of the drinks can thus be made available as a binary part of the code using up to 125 bits. Other product information such as the capsule's expiration date can be stored in the code also using other bits of the code. [00047] The name of the drink such as an alphabetical or alpha-numeric sequence (espresso, lungo, cappuccino, latte macchiato, etc.) can therefore be stored in the code in a sequence of bits. The name can then be displayed on a connected display 12 or part of the device, for example, before and / or during preparation.
    [00048] In a possible way, the 2-D bar code comprises a URL (Uniform Resource Locator) address that allows connection to the user via a display and means of communication to a website, such as the website of the supplier of capsule. The communication medium can be a mobile telecommunication device such as a mobile phone, PDA, etc. with digital camera function or can be embedded in the beverage production device. For this, the beverage production device comprises a communication unit configured to access the website via a transmitter and the internet and an internet browser. Therefore, information services such as up-to-date commercial offers, warnings or product information can be easily displayed or services in order to order the capsule (for example, in a virtual storage linked on the website) can be offered to the user via the display .
    [00049] Concerning the regulation parameters of the device, the 2-D bar code comprises bits to store information
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    15/22 such as:
    -water temperature, for example, hot, heated, ambient and cold temperatures,
    -volume of drink, for example, 25, 40, 110,150, 250, 500 ml, etc.,
    -nature of the ingredients, for example, roasted and ground coffee, soluble ingredient, herbal tea, etc.
    - operation of emptying capsule in particular for soluble ingredient.
    - type of capsule, for example, simple, two in one, doppio, etc.
    -infusion time, in particular for infusion ingredient,
    -a serial number for each capsule referring to the database,
    -data update and combinations thereof.
    [00050] As illustrated in figure 3, the beverage producing device comprises a means of identifying and controlling the capsule 9 whose function is to identify, regulate the parameters of the beverage production device and optionally provides information and value services added to the user such as internet-oriented access. These means comprise a control unit 10 such as a central controller or several controllers, a digital camera 11, optionally, a display 12 which can be connected together or integrated into one or more units and a communication unit 19. The control unit control 10 is to be considered in a general sense as including one or more units including processors, memories, programs and algorithms, input-output interfaces capable of operating different modules and units of the identification and control medium as well as the system of preparation of drink from the device as
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    16/22 heater, pumps, etc. The separate control modules can be designed to isolate the communication control from the control of the beverage preparation system. The program and the algorithm may include decoding applications for the camera.
    [00051] The control unit can also comprise a user interface to receive inputs regarding various choices for beverage, beverage, internet communication parameters, etc.
    [00052] The display can, for example, be an LCD or plasma screen, a touch screen or be combined with control unit 10 and / or communication unit 19, such as in the form of a computer, a laptop, a mobile telecommunication terminal such as mobile phone, I-pod, PDA, etc. and other equivalent telecommunication devices. The communication unit 19 can comprise, for example, an intranet connection, a wifi and / or Bluetooth connection enabling communication with an external server and / or terminal.
    [00053] Camera 11 can be any input device that captures an optical image and digitizes it in an electronic image represented as binary data. The camera is designed as a digital camera typically comprising an image sensor 17 (for example, CCD), an optical lens and aperture 14 to conform, focus and accentuate the camera's image capture zone and a processor that can be associated with camera 11 to be placed in the control unit. The camera can also be designed as a camera with a jitter shutter that is capable of taking an image of the bar code while the capsule is moving in the device. The camera can be designed as a scanner with the ability to move relative to the device when reading the capsule bar code. The camera can also be portable and plugged into an allocated location on the device.
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    17/22
    [00054] As shown in figure 4, the camera is arranged relative to the capsule so that the image capture zone of the device, illustrated by the rectangular zone 25, on the membrane of the capsule, covers the circular area 8 in which the bar code is entered, as previously defined. The image capture zone can be about 10 to 300% wider than the surface area of the circular area 8 and can be any suitable polygonal zone such as rectangular, square or circular depending on the type of camera. Preferably, the camera is configured to provide an image capture zone that is wide enough to capture the bar code from different positions (centered or off-center relative to O), of different matrix sizes and also possibly of different shapes (squares) or rectangular). The definition of the image capture zone depends on different parameters such as the characteristics of the lens and aperture, the distance between the camera and the code, the characteristics of the shutter, etc. In a particular application, two barcodes of different sizes are required for product information for different capsules corresponding to different drink families (eg espresso, lungo, cappuccino, etc.). Larger size codes may be required when the drink name is too long or additional instructions are required for complex drink recipes.
    [00055] The beverage production system shown in figure 5 comprises a capsule 1, a beverage producing device 20 including capsule identification and control means 9. In a preferred embodiment, device 20 comprises capsule manipulating means 21 to enable inserting the capsule into the device and transporting it to a liquid injection unit 22 of the device. For this, the capsule manipulator means comprises a gravity insertion means 23, such as a slider or magazine 23, for
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    18/22 guide the capsule in the device by gravity to the capsule retainer 24. It should be noted that the gravity insertion means can receive the capsule while the capsule has its top membrane substantially vertical or angled as illustrated using a slider. Alternatively, the capsule can be substantially horizontal when pending on the device using a tubular feeder such as the capsule selection mechanism described in EP 1593326. The capsule then falls into a capsule retainer 24 and can be recovered in a substantially horizontal position of its membrane as shown in figure 6. The capsule retainer is associated with the means of transport 25 that moves the capsule from the insertion zone to the identification zone where the capsule is placed below the camera 11 with the bar code facing the camera at a predetermined distance. The means of transport can comprise any suitable vehicle that drives the capsule retainer linearly and / or rotationally. For example, the means of transport comprises an electric motor 26 and linearly driving a conveyor belt at 27 which supports the capsule retainer. When positioned below the camera 11, the means of transport can be stopped to capture at least one image of the bar code 7 placed on the membrane of the capsule. Alternatively, the image capture operation can take place with a camera with a jitter shutter while the capsule retainer is moved from the insertion zone to the liquid injection zone.
    [00056] After identification, the control unit activates the means of transport 25 to move the capsule retainer in the liquid injection zone. In this zone, the device comprises liquid injection means 28 comprising a closure plate 29 and a liquid injector 30 that is engaged with the capsule as by the relative movement of the capsule retainer and closure plate 29. When engaged, the injector
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    19/22 of liquid communicates with the capsule compartment to enable the liquid to be fed into the capsule. As known to you, the liquid injection means 28 is fluidly connected to the fluid supply means 31 including a water tank 32, a liquid measurement means 33 (e.g. piston pump) for volume measurement of the liquid in the capsule as a function of the identified capsule and a liquid heater 34. Typically, the liquid used to prepare the drink is water. The fluid supply means may further comprise a gas supply means 35 such as an air pump for emptying the residual liquid capsule after the beverage preparation operation. The selective activation of a supply medium, in particular, the liquid measuring medium 33, heater 34 and gas supply medium 35 is controlled by the identification and control medium 9 according to the regulation parameters of the device stored in the code .
    [00057] During the different operations, the display can be controlled to leave the user ready to operate different functions and / or provide information. For example, before inserting the capsule in the beverage production device, the control unit prepares, via display 12, the user to insert a capsule in the device to start the beverage preparation operation (figure 5). A capsule presence sensor 36 of the identification and control medium can check the presence of the capsule in the manipulating medium, eg at the cursor, tubular feeder or capsule retainer. If a capsule is detected, the means of transport can be activated and / or the message prepared to insert a capsule is removed from the display.
    [00058] As already mentioned, after identifying the capsule by the camera 11 (figure 3), the product information is decoded and the control unit can command a message on the display 12 regarding this product information, such as the name of the product. drink and / or such
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    20/22 decoded information can start a program that displays the additional information contained in a memory of the control unit or information retrieved by the communication unit 19 from a remote database. Such additional information could be commercial information, nutritional information, information concerning the geographical origin of the coffee or tea ingredients, etc.
    [00059] In the drink preparation operation (figure 7), other information can be displayed on the display 12 such as product information, user instructions, drink preparation information, etc. For example, the product information displayed during or after capsule identification can be started at this stage only or continued. User instructions can be provided to prepare the user to perform steps relevant to drink preparation procedures. For example, a preparation for waiting for the last beverage component to leave the capsule can be provided. Also, a preparation for inserting a second capsule can also be displayed, when a drink is prepared from two or more beverage components such as cappuccino or latte macchiato that need more than one capsule. The drink preparation information can include information regarding the temperature of the drink or injected liquid, pressure, volume of the drink, etc. This information can also be displayed at the appropriate time during the process. [00060] In a possible application illustrated in figure 8, the beverage production device is configured via the communication unit to communicate with a user's mobile telecommunication terminal 40 for exchange information such as the display information on its display 41 such as product information or a link to a commercial website corresponding to the encoded URL address.
    [00061] As illustrated in figure 9, the product information as well as URL contained in the code can also be read by a terminal
    Petition 870200015972, of 03/02/2020, p. 24/35
    21/22 mobile telecommunication 40 before inserting the capsule in the beverage production device. For this, the mobile telecommunications terminal requires a digital camera 42 and a decoding application that can be loaded by the user at the end or preloaded. The loading application is configured to read the 2-D barcode on the capsule and decode the usable information from there. It should be noted that only certain bits of the code can be made accessible to the user when others can be confidential or unnecessary. In this way, algorithms or software to select relevant data from the code is provided in the terminal. Such algorithms or software can be loaded as part of the decoding application. Several applications already exist to decode the matrix code such as Kaywa reader and the like. Software can also be provided with menus and sub-menus, graphics, images, cinemas, avatar, etc. to display various services in a more attractive or intuitive way.
    [00062] The invention provides the user benefits in which he / she can obtain product information, for example, nutritional content, product recipes, etc. such as previous insertion of the capsule in the beverage production device, or relevant access websites if the terminal has an internet browser and transmits. For example, this direct and quick link to websites makes it possible to achieve a transaction such as arranging new capsules or accessories in order or participating in competitions, promotions or accessing a customer call after settlement sales or call centers, etc.
    [00063] As other examples, the recipe instructions can be displayed to the user for preparing a multi-component drink such as cappuccino, latte macchiato, etc., using more than one capsule.
    [00064] It should also be noted that the telecommunication terminal can be used to load information from a remote server and
    Petition 870200015972, of 03/02/2020, p. 25/35
    22/22 subsequently transferring it to the control unit of the beverage production device such as to update it in: beverage preparation parameterization software, user instruction software, decoding application and their combinations.
    [00065] Another application of the coded bar capsule 20D is illustrated in figure 10 in which the beverage production device 20 is configured to display on its display 12, an image 50 of the 2-D bar code, as captured by your digital camera 11. The image can be a complete or partial reproduction of the 2D barcode 7 and the same or different size. When displayed, the bar code image 50 can be recaptured by a portable telecommunication device 40, decoded via a decoding application and processed using various communication software.
    [00066] Naturally, the present invention is not limited to the preferred described embodiments, but extends to other equivalents that are covered by the scope of the following embodiments.
    权利要求:
    Claims (14)
    [1]
    1. Capsule for the preparation of a drink from the beverage ingredients contained therein, comprising:
    a body (2) comprising at least one compartment for receiving the beverage ingredients and a flange-like flap (4) extending externally and transversely to a central axis (I) of the body;
    a circular membrane (6) to close the opening that is sealed in the flange similar to the flange;
    an optical code (7) containing binary information configured to be read by a camera (11) of a beverage production device (20), characterized by the fact that where the optical code (7) is a two-dimensional bar code having rectilinear edges (7a-7d) and which is inscribed in a circular area (8) concentric relative to the center (O) of the membrane having a radius (R) at least 1.5 times, preferably at least twice, less than the radius (Ro) of the membrane.
    [2]
    2. Capsule according to claim 1, characterized by the fact that the two-dimensional bar code (7) is inscribed in a circular area (8) with a radius (R) less than 15 mm, preferably less than 13 mm.
    [3]
    3. Capsule according to any one of the preceding claims, characterized by the fact that the two-dimensional bar code (7) has a matrix dimension between 10 by 10 and 22 by 22, preferably between 12 by 12 and 20 by 20 , the size of which depends on the number of encrypted data required.
    [4]
    4. Capsule according to any of the preceding claims, characterized by the fact that the two-dimensional bar code (7) comprises encoded data including at least the name of the drink.
    Petition 870200015972, of 03/02/2020, p. 27/35
    2/3
    [5]
    5. Capsule according to any of the preceding claims, characterized by the fact that the two-dimensional code (7) comprises a URL address (Uniform Resource Locator).
    [6]
    6. Capsule according to any of the preceding claims, characterized by the fact that the two-dimensional bar code (7) is printed on the capsule with an invisible ink.
    [7]
    A system for preparing a beverage from a capsule as defined in any one of the preceding claims, wherein it comprises:
    a beverage producing device (20) comprising capsule manipulator means (21) including a capsule retainer (24) for receiving the capsule (1) in this place and identification and control means (9), characterized by the fact that the means identification and control (9) comprises a digital camera (11) positioned relative to the manipulator medium (21) and configured to capture an image of the two-dimensional code (7) placed in the capsule and transferring the image or binary information related to it to a unit control (10) of the identification and control means (9).
    [8]
    8. System for preparing a drink, according to claim 7, characterized by the fact that the means for identification and control (9) comprises a display (12) configured to display product information in the decoded form of said image or information binary.
    [9]
    9. System according to claim 7 or 8, characterized by the fact that it comprises a range of capsules corresponding to the different drink families (for example, espresso, lungo, latte macchiato, cappuccino, etc.) in which to at me
    Petition 870200015972, of 03/02/2020, p. 28/35
    3/3 in the two capsules of the range, the code of each capsule is of a different matrix dimension to be adapted to encode the information related to its drink family and in which the camera is configured to read bar codes of at least two dimensions different matrix numbers to identify which beverage family the identified capsule belongs to.
    [10]
    10. The system according to claim 9, characterized by the fact that the bar code for at least two capsules comprises a number of bits that varies according to the number of characters in the drink name.
    [11]
    System according to any one of claims 7 to 10, characterized in that the capsule manipulator means (21) comprises a slider (23) or tubular feeder to guide the capsule in a capsule retainer (24) placed in a mobile way under it.
    [12]
    12. System according to any one of claims 9 to 11, characterized in that the camera (11) is placed in the transport path between the capsule-handling means (21) and the liquid injection means (22) .
    [13]
    13. System according to claim 12, characterized by the fact that it comprises a means of transporting the capsule (25) for moving the capsule retainer (24) with the capsule in this place in front of the digital camera (11) .
    [14]
    14. System according to claim 13, characterized by the fact that the means of transport (25) comprises a conveyor belt (27) driven by a motor (26).
    类似技术:
    公开号 | 公开日 | 专利标题
    BR112012017864B1|2020-05-26|CAPSULE FOR THE PREPARATION OF A DRINK AND SYSTEM FOR PREPARING A DRINK FROM THE SAME
    BR112012017862B1|2020-04-07|method for providing information to a user of a capsule for the preparation of a drink using a code and system for preparing a drink from a capsule
    RU2586982C2|2016-06-10|Beverage preparation system, coded insert and methods of use
    JP5972285B2|2016-08-17|Bar code for beverage preparation capsules
    JP6306165B2|2018-04-04|Capsule for preparing edible composition
    同族专利:
    公开号 | 公开日
    EP2525691A1|2012-11-28|
    WO2011089048A9|2012-10-18|
    US20130014648A1|2013-01-17|
    JP2013517027A|2013-05-16|
    KR20120121901A|2012-11-06|
    CN102781290B|2015-06-17|
    IL220572D0|2012-08-30|
    BR112012017864A2|2016-04-19|
    RU2012135489A|2014-02-27|
    DK2525691T3|2014-05-12|
    CA2786493C|2017-11-21|
    ES2467938T3|2014-06-13|
    AU2011208836A1|2012-07-19|
    SG182271A1|2012-08-30|
    HK1175970A1|2013-07-19|
    HRP20140389T1|2014-06-06|
    KR102060946B1|2020-02-11|
    EP2345351A1|2011-07-20|
    CN102781290A|2012-11-14|
    AU2011208836C1|2018-08-02|
    AU2011208836B2|2015-07-09|
    IL220572A|2014-09-30|
    JP5793150B2|2015-10-14|
    CL2012001987A1|2012-12-07|
    EP2525691B1|2014-04-16|
    MY162066A|2017-05-31|
    WO2011089048A1|2011-07-28|
    US10117539B2|2018-11-06|
    CA2786493A1|2011-07-28|
    AR079928A1|2012-02-29|
    MX2012008251A|2012-08-03|
    PT2525691E|2014-05-26|
    PL2525691T3|2014-09-30|
    UA107693C2|2015-02-10|
    RU2534052C2|2014-11-27|
    SI2525691T1|2014-06-30|
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    法律状态:
    2019-01-08| B06F| Objections, documents and/or translations needed after an examination request according [chapter 6.6 patent gazette]|
    2019-10-29| B25A| Requested transfer of rights approved|Owner name: SOCIETE DES PRODUITS NESTLE S.A. (CH) |
    2019-11-05| B06U| Preliminary requirement: requests with searches performed by other patent offices: procedure suspended [chapter 6.21 patent gazette]|
    2020-03-24| B09A| Decision: intention to grant [chapter 9.1 patent gazette]|
    2020-05-26| 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 12/01/2011, OBSERVADAS AS CONDICOES LEGAIS. |
    2021-11-09| B21F| Lapse acc. art. 78, item iv - on non-payment of the annual fees in time|Free format text: REFERENTE A 11A ANUIDADE. |
    2022-03-03| B24J| Lapse because of non-payment of annual fees (definitively: art 78 iv lpi, resolution 113/2013 art. 12)|Free format text: EM VIRTUDE DA EXTINCAO PUBLICADA NA RPI 2653 DE 09-11-2021 E CONSIDERANDO AUSENCIA DE MANIFESTACAO DENTRO DOS PRAZOS LEGAIS, INFORMO QUE CABE SER MANTIDA A EXTINCAO DA PATENTE E SEUS CERTIFICADOS, CONFORME O DISPOSTO NO ARTIGO 12, DA RESOLUCAO 113/2013. |
    优先权:
    申请号 | 申请日 | 专利标题
    EP10151030A|EP2345351A1|2010-01-19|2010-01-19|Capsule for the preparation of a beverage comprising an identification code|
    EP10151030.3|2010-01-19|
    PCT/EP2011/050322|WO2011089048A1|2010-01-19|2011-01-12|Capsule for the preparation of a beverage comprising an identification code|
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