WO2022118485A1 - コーヒー飲料製造装置 - Google Patents
コーヒー飲料製造装置 Download PDFInfo
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- WO2022118485A1 WO2022118485A1 PCT/JP2020/046463 JP2020046463W WO2022118485A1 WO 2022118485 A1 WO2022118485 A1 WO 2022118485A1 JP 2020046463 W JP2020046463 W JP 2020046463W WO 2022118485 A1 WO2022118485 A1 WO 2022118485A1
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- coffee beverage
- displayed
- coffee
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Images
Classifications
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- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47J—KITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
- A47J31/00—Apparatus for making beverages
- A47J31/44—Parts or details or accessories of beverage-making apparatus
- A47J31/52—Alarm-clock-controlled mechanisms for coffee- or tea-making apparatus ; Timers for coffee- or tea-making apparatus; Electronic control devices for coffee- or tea-making apparatus
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- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47J—KITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
- A47J31/00—Apparatus for making beverages
- A47J31/44—Parts or details or accessories of beverage-making apparatus
- A47J31/52—Alarm-clock-controlled mechanisms for coffee- or tea-making apparatus ; Timers for coffee- or tea-making apparatus; Electronic control devices for coffee- or tea-making apparatus
- A47J31/521—Alarm-clock-controlled mechanisms for coffee- or tea-making apparatus ; Timers for coffee- or tea-making apparatus; Electronic control devices for coffee- or tea-making apparatus the electronic control being performed over a network, e.g. by means of a computer or a handheld device
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47J—KITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
- A47J31/00—Apparatus for making beverages
- A47J31/44—Parts or details or accessories of beverage-making apparatus
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B67—OPENING, CLOSING OR CLEANING BOTTLES, JARS OR SIMILAR CONTAINERS; LIQUID HANDLING
- B67D—DISPENSING, DELIVERING OR TRANSFERRING LIQUIDS, NOT OTHERWISE PROVIDED FOR
- B67D1/00—Apparatus or devices for dispensing beverages on draught
- B67D1/08—Details
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/048—Interaction techniques based on graphical user interfaces [GUI]
- G06F3/0481—Interaction techniques based on graphical user interfaces [GUI] based on specific properties of the displayed interaction object or a metaphor-based environment, e.g. interaction with desktop elements like windows or icons, or assisted by a cursor's changing behaviour or appearance
- G06F3/0482—Interaction with lists of selectable items, e.g. menus
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/14—Digital output to display device ; Cooperation and interconnection of the display device with other functional units
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47J—KITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
- A47J31/00—Apparatus for making beverages
- A47J31/42—Beverage-making apparatus with incorporated grinding or roasting means for coffee
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/14—Digital output to display device ; Cooperation and interconnection of the display device with other functional units
- G06F3/147—Digital output to display device ; Cooperation and interconnection of the display device with other functional units using display panels
Definitions
- the present invention relates to a coffee beverage manufacturing apparatus.
- Patent Document 1 Various coffee extraction devices are known (for example, Patent Document 1).
- An object of the present invention is to provide a coffee beverage manufacturing apparatus capable of deepening the understanding of a product and conveying the attractiveness of the product during the production of a coffee beverage.
- the extraction device for solving the above purpose is A coffee beverage manufacturing apparatus comprising a display device capable of displaying data selected from a data group including at least one of video data or image data during coffee beverage manufacturing.
- the data group includes the first data and the second data.
- the first data is easier to display than the second data, It is characterized by that.
- the display device may be capable of switching the data being displayed to other data in the data group according to the operation of the user during the production of the coffee beverage.
- the user can switch the display content, so that it is possible to prevent boredom during beverage manufacturing.
- the display device may give a notification prompting the user to switch to the first data while displaying the second data.
- the first data can be easily displayed by the user's operation.
- the display device switches from the state of displaying the first data to the state of displaying the second data during the production of the coffee beverage, and when the production of the coffee beverage is completed, the second.
- the first data may be displayed at the start of production of the next coffee beverage.
- One or a plurality of data in the data group may be set as the first data.
- various data can be used as the first data, so that more information about the product can be conveyed.
- the above coffee beverage manufacturing equipment Information about the data displayed on the display device may be transmitted to an external device.
- This coffee beverage manufacturing device can collect useful information when considering product sales strategies.
- the data group may include data for explaining the manufacturing process of the coffee beverage.
- the data group may include data for explaining the creator of the coffee beverage recipe.
- the data group may include data for explaining the coffee beans used in the coffee beverage.
- the display device may be capable of switching the data being displayed to other data in the data group according to the progress of the manufacturing process of the coffee beverage.
- the coffee beverage production system may be provided with an external device capable of communicating with the coffee beverage production apparatus.
- a coffee beverage manufacturing apparatus capable of deepening the understanding of a product and conveying the attractiveness of the product during the production of the coffee beverage.
- FIG. 1 is a schematic diagram of the function of a beverage manufacturing apparatus. Partially broken perspective view of the separator. Perspective view of the drive unit and the extraction container. The figure which shows the closed state and the open state of the extraction container of FIG. The front view which shows the structure of a part of the upper unit and the lower unit.
- FIG. 7 is a vertical cross-sectional view of FIG. 7. Schematic diagram of the central unit.
- the block diagram of the control device of the beverage manufacturing apparatus of FIG. (A) and (B) are flowcharts showing a control example executed by a control device. A flowchart showing a display process during the production of a coffee beverage.
- a flowchart showing a display process during the production of a coffee beverage The figure which shows the screen which is displayed before the start of the manufacturing process of a coffee beverage. The figure which shows the screen which is displayed during the production of a coffee beverage. The figure which shows the screen which is displayed during the production of a coffee beverage. The figure which shows the screen which is displayed during the production of a coffee beverage. The figure which shows the screen which is displayed during the production of a coffee beverage. The figure which shows the screen which is displayed during the manufacturing of a coffee drink, and the reception screen of image selection. The figure which shows an example of the table which shows the pattern of the image during manufacturing. It is a figure which shows an example of the display timing of a specific data during the production of a coffee beverage. It is a figure which shows an example of the memory of the display time and the number of times of switching of data displayed during the production of a coffee beverage. It is a figure which shows an example of the guidance display which leads to the state which a specific data is displayed.
- FIG. 1 is an external view of the beverage manufacturing apparatus 1.
- the beverage production device 1 of the present embodiment is an device that automatically produces coffee beverages from roasted coffee beans and liquid (here, water), and can produce a cup of coffee beverages per production operation. ..
- the roasted coffee beans used as a raw material can be stored in the canister 40.
- a cup mounting portion 110 is provided at the lower part of the beverage manufacturing apparatus 1, and the manufactured coffee beverage is poured from the pouring portion 10c into the cup.
- the beverage manufacturing apparatus 1 includes a housing 100 that forms the exterior thereof and surrounds the internal mechanism.
- the housing 100 is roughly divided into a main body 101 and a cover 102 that covers a part of the front surface and a part of the side surface of the beverage manufacturing apparatus 1.
- the cover portion 102 is provided with an information display device 12.
- the information display device 12 is a touch panel type display, and can display various information as well as receive input from a device manager or a beverage consumer.
- the information display device 12 is attached to the cover portion 102 via the moving mechanism 12a, and can be moved in a certain range in the vertical direction by the moving mechanism 12a.
- the cover portion 102 is also provided with a bean input port 103 and a door 103a for opening and closing the bean input port 103.
- roasted coffee beans different from the roasted coffee beans stored in the canister 40 can be charged into the bean input port 103. This makes it possible to provide a special drink to the consumer of the beverage.
- the cover portion 102 is made of a translucent material such as acrylic or glass, and the entire cover portion 102 constitutes a transparent cover as a transmissive portion. Therefore, the mechanism inside the cover portion 102 is visible from the outside. In the case of the present embodiment, a part of the manufacturing section for manufacturing the coffee beverage can be visually recognized through the cover section 102. In the case of the present embodiment, the main body 101 is a non-transparent portion as a whole, and it is difficult to visually recognize the inside thereof from the outside.
- FIG. 2 is a partial front view of the beverage manufacturing apparatus 1, and is a diagram showing a part of the manufacturing unit that can be visually recognized by the user from the front view of the beverage manufacturing apparatus 1.
- the cover portion 102 and the information display device 12 are illustrated by imaginary lines.
- the housing 100 in the front portion of the beverage manufacturing apparatus 1 has a double structure of a main body portion 101 and a cover portion 102 on the outside (front side) thereof.
- a part of the mechanism of the manufacturing unit is arranged between the main body portion 101 and the cover portion 102 in the front-rear direction, and the user can visually recognize the mechanism via the cover portion 102.
- a part of the mechanism of the manufacturing unit that can be visually recognized by the user through the cover unit 102 is a collective transport unit 42, a grinding machine 5A, 5B, a separation device 6, an extraction container 9, and the like, which will be described later.
- a rectangular recess 101a recessed in the back side is formed in the front portion of the main body portion 101, and the extraction container 9 and the like are located in the back side in the recess 101a.
- the cover portion 102 is supported by the main body portion 101 at its right end via a hinge 102a so as to be openable and closable.
- an engaging portion 102b that keeps the main body portion 101 and the cover portion 102 in a closed state is provided.
- the engaging portion 102b is, for example, a combination of a magnet and iron.
- the cover portion 102 is a horizontal opening type, but a vertical opening type (vertical opening type) or a slide type may be used. Further, the cover portion 102 may be configured so that it cannot be opened and closed.
- FIG. 3 is a schematic diagram of the function of the beverage manufacturing apparatus 1.
- the beverage manufacturing device 1 includes a bean processing device 2 and an extraction device 3 as a coffee beverage manufacturing unit.
- the bean processing device 2 produces ground beans from roasted coffee beans.
- the extraction device 3 extracts coffee liquid from the ground beans supplied from the bean processing device 2.
- the extraction device 3 includes a fluid supply unit 7, a drive unit 8, which will be described later, an extraction container 9, and a switching unit 10.
- the ground beans supplied from the bean processing device 2 are put into the extraction container 9.
- the fluid supply unit 7 puts hot water into the extraction container 9. Coffee liquid is extracted from the ground beans in the extraction container 9. Hot water containing the extracted coffee liquid is sent to the cup C as a coffee beverage via the switching unit 10.
- Fluid supply unit and switching unit The configuration of the fluid supply unit 7 and the switching unit 10 will be described with reference to FIG. First, the fluid supply unit 7 will be described.
- the fluid supply unit 7 supplies hot water to the extraction container 9, controls the air pressure in the extraction container 9, and the like.
- the atmospheric pressure when illustrated numerically, it means an absolute pressure unless otherwise specified, and the gauge pressure is an atmospheric pressure with the atmospheric pressure as 0 atmospheric pressure. Atmospheric pressure refers to the atmospheric pressure around the extraction container 9 or the atmospheric pressure of the beverage production equipment.
- the fluid supply unit 7 includes pipes L1 to L3.
- the pipe L1 is a pipe through which air flows
- the pipe L2 is a pipe through which water flows.
- the pipe L3 is a pipe capable of circulating both air and water.
- the fluid supply unit 7 includes a compressor 70 as a pressurizing source.
- the compressor 70 compresses the atmosphere and sends it out.
- the compressor 70 is driven, for example, by using a motor (not shown) as a drive source.
- the compressed air delivered from the compressor 70 is supplied to the reserve tank (accumulator) 71 via the check valve 71a.
- the atmospheric pressure in the reserve tank 71 is monitored by the pressure sensor 71b, and the compressor 70 is driven so as to be maintained at a predetermined atmospheric pressure (7 atmospheric pressure (6 atmospheric pressure in gauge pressure) in this embodiment).
- the reserve tank 71 is provided with a drain 71c for drainage, so that water generated by compression of air can be drained.
- Hot water (water) constituting coffee beverages is accumulated in the water tank 72.
- the water tank 72 is provided with a heater 72a for heating the water in the water tank 72 and a temperature sensor 72b for measuring the temperature of the water.
- the heater 72a maintains the temperature of the accumulated hot water at a predetermined temperature (120 degrees Celsius in this embodiment) based on the detection result of the temperature sensor 72b.
- the heater 72a is turned on, for example, when the temperature of hot water is 118 degrees Celsius, and turned off at 120 degrees Celsius.
- the water tank 72 is also provided with a water level sensor 72c.
- the water level sensor 72c detects the water level of hot water in the water tank 72. When the water level sensor 72c detects that the water level is lower than the predetermined water level, water is supplied to the water tank 72. In the case of this embodiment, water is supplied through a water purifier (not shown).
- a solenoid valve 72d is provided in the middle of the pipe L2 from the water purifier. When the water level sensor 72c detects a drop in the water level, the solenoid valve 72d is opened to supply water, and when the water level reaches a predetermined level, the solenoid valve 72d is electromagnetically provided. The valve 72d is closed and the water supply is cut off. In this way, the hot water in the water tank 72 is maintained at a constant water level. The water supply to the water tank 72 may be performed each time the hot water used for producing the coffee beverage is discharged.
- the water tank 72 is also provided with a pressure sensor 72 g.
- the pressure sensor 72g detects the air pressure in the water tank 72.
- the air pressure in the reserve tank 71 is supplied to the water tank 72 via the pressure regulating valve 72e and the solenoid valve 72f.
- the pressure regulating valve 72e reduces the atmospheric pressure supplied from the reserve tank 71 to a predetermined atmospheric pressure. In the case of this embodiment, the pressure is reduced to 3 atm (2 atm in gauge pressure).
- the solenoid valve 72f switches between supplying and shutting off the air pressure regulated by the pressure regulating valve 72e to the water tank 72.
- the solenoid valve 72f is controlled to open and close so that the atmospheric pressure in the water tank 72 is maintained at 3 atm except when water is supplied to the water tank 72.
- the air pressure in the water tank 72 is lowered to a pressure lower than the water pressure (for example, 2.) by the electromagnetic valve 72h so that the water is smoothly replenished to the water tank 72 by the water pressure. Reduce the pressure to less than 5 atm).
- the solenoid valve 72h switches whether or not the inside of the water tank 72 is released to the atmosphere, and when the pressure is reduced, the inside of the water tank 72 is released to the atmosphere. Further, the solenoid valve 72h releases the inside of the water tank 72 to the atmosphere when the pressure in the water tank 72 exceeds 3 atm except when the water is supplied to the water tank 72, and keeps the inside of the water tank 72 at 3 atm. do.
- the hot water in the water tank 72 is supplied to the extraction container 9 via the check valve 72j, the solenoid valve 72i, and the pipe L3.
- the solenoid valve 72i By opening the solenoid valve 72i, hot water is supplied to the extraction container 9, and by closing it, the supply of hot water is cut off.
- the amount of hot water supplied to the extraction container 9 can be controlled by the opening time of the solenoid valve 72i. However, the opening and closing of the solenoid valve 72i may be controlled by measuring the supply amount.
- a temperature sensor 73e for measuring the temperature of hot water is provided in the pipe L3, and the temperature of hot water supplied to the extraction container 9 is monitored.
- the air pressure in the reserve tank 71 is also supplied to the extraction container 9 via the pressure regulating valve 73a and the solenoid valve 73b.
- the pressure regulating valve 73a reduces the atmospheric pressure supplied from the reserve tank 71 to a predetermined atmospheric pressure. In the case of this embodiment, the pressure reduction can be adjusted to 5 atm (4 atm in gauge pressure) or less.
- the solenoid valve 73b switches between supplying and shutting off the air pressure regulated by the pressure regulating valve 73a to the extraction container 9. The air pressure in the extraction container 9 is detected by the pressure sensor 73d.
- the solenoid valve 73b When pressurizing the inside of the extraction container 9, the solenoid valve 73b is opened based on the detection result of the pressure sensor 73d, and the inside of the extraction container 9 is at a predetermined pressure (in the case of this embodiment, a maximum of 5 atm (4 atm in gauge pressure). )) Pressurize.
- the air pressure in the extraction container 9 can be reduced by the solenoid valve 73c.
- the solenoid valve 73c switches whether or not to release the inside of the extraction container 9 to the atmosphere, and releases the inside of the extraction container 9 to the atmosphere when the pressure is abnormal (for example, when the inside of the extraction container 9 exceeds 5 atm).
- the inside of the extraction container 9 is washed with water.
- the solenoid valve 73f is opened during cleaning to supply water to the extraction container 9.
- the switching unit 10 is a unit that switches the delivery destination of the liquid delivered from the extraction container 9 to either the pouring unit 10c or the waste tank T.
- the switching unit 10 includes a switching valve 10a and a motor 10b for driving the switching valve 10a.
- the switching valve 10a switches the flow path to the pouring portion 10c when the coffee beverage in the extraction container 9 is delivered.
- the coffee beverage is poured from the pouring portion 10c into the cup C.
- the switching valve 10a is a 3-port ball valve in the case of this embodiment. Since the residue passes through the switching valve 10a during cleaning, a ball valve is suitable for the switching valve 10a, and the motor 10b switches the flow path by rotating its rotating shaft.
- the bean processing apparatus 2 includes a storage device 4 and a crushing device 5.
- the storage device 4 includes a plurality of canisters 40 in which the roasted coffee beans are stored. In the case of this embodiment, three canisters 40 are provided.
- the canister 40 includes a tubular main body 40a for accommodating roasted coffee beans and a handle 40b provided on the main body 40a, and is configured to be detachably attached to the beverage manufacturing apparatus 1.
- Each canister 40 may accommodate different types of roasted coffee beans, and the type of roasted coffee beans used for producing a coffee beverage may be selected by an operation input to the information display device 12.
- the roasted coffee beans of different types are, for example, roasted coffee beans of different varieties of coffee beans. Further, the roasted coffee beans of different types are coffee beans of the same type, but may be roasted coffee beans having different degrees of roasting. Further, the roasted coffee beans of different types may be roasted coffee beans having different varieties and degrees of roasting. Further, at least one of the three canisters 40 may contain roasted coffee beans in which a plurality of varieties of roasted coffee beans are mixed. In this case, the roasted coffee beans of each variety may have the same degree of roasting.
- a configuration in which only one canister 40 is provided may be provided. Further, when a plurality of canisters 40 are provided, all or a plurality of canisters 40 of the same type of roasted coffee beans may be accommodated.
- Each canister 40 is detachably attached to the weighing and transporting device 41.
- the weighing and transporting device 41 is, for example, an electric screw conveyor, and automatically weighs a predetermined amount of roasted coffee beans housed in the canister 40 and sends them to the downstream side.
- Each weighing and transporting device 41 discharges roasted coffee beans to the collecting and transporting unit 42 on the downstream side.
- the collective transport unit 42 is composed of a hollow member, and forms a transport passage for roasted coffee beans from each conveyor 41 to the crushing device 5 (particularly the grinder 5A).
- the roasted coffee beans discharged from each weighing and transporting device 41 move inside the collecting and transporting unit 42 by their own weight and flow down to the crushing device 5.
- a guide portion 42a is formed in the collective transport portion 42 at a position corresponding to the bean input port 103.
- the guide portion 42a forms a passage for guiding the roasted coffee beans charged from the bean input port 103 to the crushing device 5 (particularly the grinding machine 5A).
- FIG. 4 is a partially determined perspective view of the separation device 6.
- the crushing device 5 includes grinders 5A and 5B, and a separating device 6.
- the grinders 5A and 5B are mechanisms for grinding roasted coffee beans supplied from the storage device 4.
- the roasted coffee beans supplied from the storage device 4 are ground by the grinding machine 5A, further ground by the grinding machine 5B into powder, and charged into the extraction container 9 from the discharge pipe 5C.
- Grinders 5A and 5B have different grain sizes for grinding beans.
- the grinding machine 5A is a grinding machine for coarse grinding
- the grinding machine 5B is a grinding machine for fine grinding.
- the grinders 5A and 5B are electric grinders, respectively, and include a motor as a drive source, a rotary blade driven by the motor, and the like.
- the size (particle size) of the roasted coffee beans to be crushed can be changed by changing the rotation speed of the rotary blade.
- Separation device 6 is a mechanism for separating unnecessary substances from ground beans.
- the separating device 6 includes a passage portion 63a arranged between the grinding machine 5A and the grinding machine 5B.
- the passage portion 63a is a hollow body forming a separation chamber through which the ground beans that freely fall from the grinder 5A pass.
- the passage portion 63a is connected to a passage portion 63b extending in a direction (in the case of the present embodiment, the left-right direction) intersecting the passing direction of the ground beans (in the case of the present embodiment, the vertical direction).
- a suction unit 60 is connected to the portion 63b. When the suction unit 60 sucks the air in the passage portion 63a, a lightweight object such as chaff or fine powder is sucked. This makes it possible to separate unwanted substances from the ground beans.
- the suction unit 60 is a centrifugal separation type mechanism.
- the suction unit 60 includes a blower unit 60A and a recovery container 60B.
- the blower unit 60A is a fan motor and exhausts the air in the recovery container 60B upward.
- the collection container 60B includes a separably engaged upper 61 and a lower 62.
- the lower portion 62 has a bottomed tubular shape with an open upper portion, and forms a space for accumulating unnecessary substances.
- the upper portion 61 constitutes a lid portion attached to the opening of the lower portion 62.
- the upper portion 61 includes a cylindrical outer peripheral wall 61a and an exhaust pipe 61b formed coaxially with the outer peripheral wall 61a.
- the blower unit 60A is fixed to the upper portion 61 above the exhaust stack 61b so as to suck the air in the exhaust stack 61b.
- a passage portion 63b is connected to the upper portion 61.
- the passage portion 63b is open to the side of the exhaust stack 61b.
- the airflow indicated by arrows d1 to d3 in FIG. 4 is generated. Due to this air flow, air containing unnecessary substances is sucked from the passage portion 63a into the recovery container 60B through the passage portion 63b. Since the passage portion 63b is open to the side of the exhaust stack 61b, the air containing unnecessary substances swirls around the exhaust stack 61b. Unwanted matter D in the air falls due to its weight and is collected in a part of the recovery container 60B (accumulated on the bottom surface of the lower portion 62). The air is exhausted upward through the inside of the exhaust stack 61b.
- a plurality of fins 61d are integrally formed on the peripheral surface of the exhaust stack 61b.
- the plurality of fins 61d are arranged in the circumferential direction of the exhaust stack 61b.
- the individual fins 61d are inclined obliquely with respect to the axial direction of the exhaust stack 61b.
- the lower portion 62 is made of a translucent material such as acrylic or glass, and the entire portion constitutes a transparent container having a transmissive portion. Further, the lower portion 62 is a portion covered with the cover portion 102 (FIG. 2).
- the manager and the consumer of the beverage can visually recognize the unnecessary substance D accumulated in the lower portion 62 through the peripheral wall of the cover portion 102 and the lower portion 62. It may be easier for the manager to confirm the cleaning timing of the lower portion 62, and for the beverage consumer, it is possible to visually recognize that the unnecessary substance D has been removed, which raises expectations for the quality of the coffee beverage being manufactured. In some cases.
- the roasted coffee beans supplied from the storage device 4 are first coarsely ground by the grinder 5A, and when the coarsely ground beans pass through the passage portion 63a, they are unnecessary substances by the separation device 6. Is separated.
- the coarsely ground beans from which unnecessary substances have been separated are finely ground by a grinder 5B.
- the unnecessary substances separated by the separating device 6 are typically chaff and fine powder. These may reduce the taste of the coffee beverage, and the quality of the coffee beverage can be improved by removing chaff and the like from the ground beans.
- the roasted coffee beans may be crushed by one grinder (one-step crushing).
- one grinder one-step crushing
- the particle size of the ground beans can be easily made uniform, and the degree of extraction of the coffee liquor can be made constant.
- heat may be generated due to friction between the cutter and the beans.
- By performing two-step crushing it is possible to suppress heat generation due to friction during crushing and prevent deterioration of ground beans (for example, deterioration of flavor).
- the mass difference between unnecessary substances and ground beans (necessary part) can be increased. This can improve the separation efficiency of unnecessary substances and prevent the ground beans (necessary portion) from being separated as unnecessary substances. Further, by interposing the separation treatment of unnecessary substances using air suction between the coarse grinding and the fine grinding, it is possible to suppress the heat generation of the ground beans by air cooling.
- FIG. 5 is a perspective view of the drive unit 8 and the extraction container 9. Most of the drive unit 8 is surrounded by the main body 101.
- the drive unit 8 is supported by the frame F.
- the frame F includes upper and lower beam portions F1 and F2 and pillar portions F3 that support the beam portions F1 and F2.
- the drive unit 8 is roughly classified into three units, an upper unit 8A, a middle unit 8B, and a lower unit 8C.
- the upper unit 8A is supported by the beam portion F1.
- the central unit 8B is supported by the beam portion F1 and the column portion F3 between the beam portion F1 and the beam portion F2.
- the lower unit 8C is supported by the beam portion F2.
- the extraction container 9 is a chamber including a container body 90 and a lid unit 91.
- the extraction container 9 may be referred to as a chamber.
- the central unit 8B includes an arm member 820 that detachably holds the container body 90.
- the arm member 820 includes a holding member 820a and a pair of shaft members 820b separated from each other to the left and right.
- the holding member 820a is an elastic member such as a resin formed in a C-shaped clip shape, and holds the container body 90 by the elastic force thereof.
- the holding member 820a holds the left and right side portions of the container body 90, and the front side of the container body 90 is exposed. This makes it easier to visually recognize the inside of the container body 90 from the front.
- the container body 90 is manually attached to and detached from the holding member 820a, and the container body 90 is attached to the holding member 820a by pressing the container body 90 against the holding member 820a in the front-rear direction. Further, the container body 90 can be separated from the holding member 820a by pulling out the container body 90 from the holding member 820a to the front side in the front-rear direction.
- Each of the pair of shaft members 820b is a rod extended in the front-rear direction, and is a member that supports the holding member 820a.
- the number of shaft members 820b is two, but it may be one or three or more.
- the holding member 820a is fixed to the front end of the pair of shaft members 820b.
- the pair of shaft members 820b are moved forward and backward, whereby the holding member 820a is moved back and forth, and the container body 90 can be moved in parallel in the front-back direction.
- the central unit 8B can also perform a rotational operation of turning the extraction container 9 upside down, as will be described later.
- FIG. 6 is a diagram showing a closed state and an open state of the extraction container 9. As described above, the extraction container 9 is turned upside down by the central unit 8B.
- the extraction container 9 of FIG. 6 shows the basic posture in which the lid unit 91 is located on the upper side.
- the vertical positional relationship is described in the following description, it shall mean the vertical positional relationship in the basic posture unless otherwise specified.
- the container body 90 is a bottomed container and has a bottle shape having a neck portion 90b, a shoulder portion 90d, a body portion 90e, and a bottom portion 90f.
- a flange portion 90c is formed at the end of the neck portion 90b (the upper end portion of the container body 90) to define an opening 90a communicating with the internal space of the container body 90.
- Both the neck portion 90b and the body portion 90e have a cylindrical shape.
- the shoulder portion 90d is a portion between the neck portion 90b and the body portion 90e, and has a tapered shape so that the cross-sectional area of the internal space thereof gradually decreases from the body portion 90e side to the neck portion 90b side. ing.
- the lid unit 91 is a unit that opens and closes the opening 90a.
- the opening / closing operation (elevating / lowering operation) of the lid unit 91 is performed by the upper unit 8A.
- the container body 90 includes a body member 900 and a bottom member 901.
- the main body member 900 is a tubular member having an open top and bottom forming a neck portion 90b, a shoulder portion 90d, and a body portion 90e.
- the bottom member 901 is a member forming the bottom portion 90f, and is inserted and fixed to the lower portion of the main body member 900.
- a seal member 902 is interposed between the main body member 900 and the bottom member 901 to improve the airtightness inside the container main body 90.
- the main body member 900 is made of a translucent material such as acrylic or glass, and the whole thereof constitutes a transparent container as a transmissive portion.
- the manager and the consumer of the beverage can visually recognize the extraction status of the coffee beverage in the container body 90 through the cover portion 102 and the body member 900 of the container body 90. It may be easier for the administrator to check the extraction operation, and the beverage consumer may enjoy the extraction status.
- a convex portion 901c is provided in the center of the bottom member 901, and the convex portion 901c has a communication hole for communicating the inside of the container body 90 to the outside and a valve for opening and closing the communication hole (valve 903 in FIG. 8). It is provided. The communication hole is used for discharging the waste liquid and the residue when cleaning the inside of the container body 90.
- a seal member 908 is provided on the convex portion 901c, and the seal member 908 is a member for maintaining airtightness between the upper unit 8A or the lower unit 8C and the bottom member 901.
- the lid unit 91 includes a hat-shaped base member 911.
- the base member 911 has a convex portion 911d and a flange portion 911c that overlaps with the flange portion 90c when closed.
- the convex portion 911d has the same structure as the convex portion 901c in the container body 90, and is provided with a communication hole for communicating the inside of the container body 90 to the outside and a valve (valve 913 in FIG. 8) for opening and closing the communication hole. Has been done.
- the communication hole of the convex portion 911d is mainly used for injecting hot water into the container body 90 and delivering coffee beverages.
- a seal member 918a is provided on the convex portion 911d.
- the seal member 918a is a member for maintaining airtightness between the upper unit 8A or the lower unit 8C and the base member 911.
- the lid unit 91 is also provided with a sealing member 919.
- the sealing member 919 improves the airtightness between the lid unit 91 and the container body 90 when the lid unit 91 is closed. A filter for filtration is held in the lid unit 91.
- FIG. 7 is a front view showing a partial configuration of the upper unit 8A and the lower unit 8C
- FIG. 8 is a vertical sectional view of FIG. 7.
- the upper unit 8A includes the operation unit 81A.
- the operation unit 81A performs an opening / closing operation (elevation) of the lid unit 91 with respect to the container body 90 and an opening / closing operation of the valves of the convex portions 901c and 911d.
- the operation unit 81A includes a support member 800, a holding member 801 and an elevating shaft 802 and a probe 803.
- the support member 800 is fixedly provided so that the relative position with respect to the frame F does not change, and accommodates the holding member 801.
- the support member 800 also includes a communication portion 800a that communicates the pipe L3 with the inside of the support member 800. Hot water, water and atmospheric pressure supplied from the pipe L3 are introduced into the support member 800 via the communication portion 800a.
- the holding member 801 is a member that can detachably hold the lid unit 91.
- the holding member 801 has a cylindrical space into which the convex portion 911d of the lid unit 91 or the convex portion 901c of the bottom member 901 is inserted, and is provided with a mechanism for detachably holding these.
- This mechanism is, for example, a snap ring mechanism, which engages with a constant pressing force and is disengaged with a constant separating force.
- the hot water, water, and atmospheric pressure supplied from the pipe L3 can be supplied into the extraction container 9 through the communication portion 800a and the communication hole 801a of the holding member 801.
- the holding member 801 is also a movable member provided so as to be slidable in the vertical direction in the support member 800.
- the elevating shaft 802 is provided so that the axial direction thereof is the vertical direction.
- the elevating shaft 802 airtightly penetrates the top of the support member 800 in the vertical direction, and is provided so as to be able to move up and down with respect to the support member 800.
- the top of the holding member 801 is fixed to the lower end of the elevating shaft 802.
- the holding member 801 slides in the vertical direction by raising and lowering the elevating shaft 802, and the holding member 801 can be attached to and separated from the convex portion 911d and the convex portion 901c. Further, the lid unit 91 can be opened and closed with respect to the container body 90.
- a screw 802a constituting a lead screw mechanism is formed on the outer peripheral surface of the elevating shaft 802.
- a nut 804b is screwed onto the screw 802a.
- the upper unit 8A includes a motor 804a, and the nut 804b is rotated in-situ (without moving up and down) by the driving force of the motor 804a.
- the elevating shaft 802 moves up and down by the rotation of the nut 804b.
- the elevating shaft 802 is a tubular shaft having a through hole in the central shaft, and the probe 803 is slidably inserted vertically into the through hole.
- the probe 803 airtightly penetrates the top of the holding member 801 in the vertical direction, and is provided so as to be vertically movable up and down with respect to the support member 800 and the holding member 801.
- the probe 803 is an operator for opening and closing the valves 913 and 903 provided inside the convex portions 911d and 901c.
- the lowering of the probe 803 causes the valves 913 and 903 to open from the closed state, and the raising of the probe 803 causes the valve to open. It can be changed from an open state to a closed state (due to the action of a return spring (not shown)).
- a screw 803a constituting a lead screw mechanism is formed on the outer peripheral surface of the probe 803.
- a nut 805b is screwed to the screw 803a.
- the upper unit 8A includes a motor 805a, and the nut 805b is provided so as to rotate in place (without moving up and down) by the driving force of the motor 805a. The rotation of the nut 805b raises and lowers the probe 803.
- the lower unit 8C includes the operation unit 81C.
- the operation unit 81C has a configuration in which the operation unit 81A is turned upside down, and opens and closes the valves 913 and 903 provided inside the convex portions 911d and 901c.
- the operation unit 81C also has a configuration in which the lid unit 91 can be opened and closed, but in the present embodiment, the operation unit 81C is not used for opening and closing the lid unit 91.
- the operation unit 81C includes a support member 810, a holding member 811 and an elevating shaft 812 and a probe 813.
- the support member 810 is fixedly provided so that the relative position with respect to the frame F does not change, and accommodates the holding member 811.
- the support member 810 also includes a communication portion 810a that communicates the switching valve 10a of the switching unit 10 and the inside of the support member 810. Residues of coffee beverage, water, and ground beans in the container body 90 are introduced into the switching valve 10a via the communication portion 810a.
- the holding member 811 has a cylindrical space into which the convex portion 911d of the lid unit 91 or the convex portion 901c of the bottom member 901 is inserted, and is provided with a mechanism for detachably holding these.
- This mechanism is, for example, a snap ring mechanism, which engages with a constant pressing force and is disengaged with a constant separating force.
- the residue of coffee beverage, water, and ground beans in the container body 90 is introduced into the switching valve 10a through the communication portion 810a and the communication hole 811a of the holding member 811.
- the holding member 811 is also a movable member provided so as to be slidable in the vertical direction in the support member 810.
- the elevating shaft 812 is provided so that the axial direction thereof is the vertical direction.
- the elevating shaft 812 airtightly penetrates the bottom of the support member 800 in the vertical direction, and is provided so as to be able to move up and down with respect to the support member 810.
- the bottom of the holding member 811 is fixed to the lower end of the elevating shaft 812.
- the holding member 811 slides in the vertical direction by raising and lowering the elevating shaft 812, and the holding member 811 can be attached to and separated from the convex portion 901c and the convex portion 911d.
- a screw 812a constituting a lead screw mechanism is formed on the outer peripheral surface of the elevating shaft 812.
- a nut 814b is screwed onto the screw 812a.
- the lower unit 8C includes a motor 814a, and the nut 814b is rotated in place (without moving up and down) by the driving force of the motor 814a.
- the elevating shaft 812 moves up and down by the rotation of the nut 814b.
- the elevating shaft 812 is a tubular shaft having a through hole in the central shaft, and the probe 813 is slidably inserted vertically into the through hole.
- the probe 813 airtightly penetrates the bottom of the holding member 811 in the vertical direction, and is provided so as to be vertically movable up and down with respect to the support member 810 and the holding member 811.
- the probe 813 is an operator for opening and closing the valves 913 and 903 provided inside the convex portions 911d and 901c.
- the raising of the probe 813 causes the valves 913 and 903 to open from the closed state, and the lowering of the probe 813 causes the valve to open. It can be changed from an open state to a closed state (due to the action of a return spring (not shown)).
- a screw 813a constituting a lead screw mechanism is formed on the outer peripheral surface of the probe 813.
- a nut 815b is screwed onto the screw 813a.
- the lower unit 8C includes a motor 815a, and the nut 815b is provided to rotate in place (without moving up and down) by the driving force of the motor 815a. The rotation of the nut 815b raises and lowers the probe 813.
- FIG. 9 is a schematic view of the central unit 8B.
- the central unit 8B includes a support unit 81B that supports the extraction container 9.
- the support unit 81B includes the unit body 81B'that supports the lock mechanism 821 in addition to the arm member 820 described above.
- the lock mechanism 821 is a mechanism for maintaining the lid unit 91 in a closed state with respect to the container body 90.
- the lock mechanism 821 includes a pair of gripping members 821a that vertically sandwich the flange portion 911c of the lid unit 91 and the flange portion 90c of the container body 90.
- the pair of gripping members 821a have a C-shaped cross section in which the flange portion 911c and the flange portion 90c are sandwiched and fitted, and are opened and closed in the left-right direction by the driving force of the motor 822.
- each gripping member 821a is fitted to the flange portion 911c and the flange portion 90c so as to sandwich the flange portion 911c vertically and the lid portion 821a.
- the unit 91 is airtightly locked to the container body 90. In this locked state, the lid unit 91 does not move (the lock is not released) even if the holding member 801 is raised by the elevating shaft 802 to open the lid unit 91. That is, the locking force of the locking mechanism 821 is set stronger than the force of opening the lid unit 91 using the holding member 801. This makes it possible to prevent the lid unit 91 from being opened with respect to the container body 90 in the event of an abnormality.
- the gripping members 821a When the pair of gripping members 821a are in the open state, the gripping members 821a are separated from the flange portion 911c and the flange portion 90c as shown by the broken line in the boxed view of FIG. 9, and the lid unit 91 and the container body 90 are separated from each other. And is unlocked.
- the holding member 801 When the holding member 801 is in the state of holding the lid unit 91 and the holding member 801 is raised from the descending position to the ascending position, and when the pair of gripping members 821a is in the open state, the lid unit 91 is removed from the container body 90. Be separated. On the contrary, when the pair of gripping members 821a are in the closed state, the holding member 801 with respect to the lid unit 91 is released, and only the holding member 801 rises.
- the central unit 8B also includes a mechanism for horizontally moving the arm member 820 in the front-rear direction using the motor 823 as a drive source.
- the container body 90 supported by the arm member 820 can be moved between the extraction position on the rear side (state ST1) and the bean charging position on the front side (state ST2).
- the bean charging position is a position where the ground beans are charged into the container body 90, and the ground beans ground by the grinder 5B are charged from the discharge pipe 5C into the opening 90a of the container body 90 from which the lid unit 91 is separated.
- the position of the discharge pipe 5C is above the container body 90 located at the bean charging position.
- the extraction position is a position where the container body 90 can be operated by the operation unit 81A and the operation unit 81C, and is a position coaxial with the probes 803 and 813 to extract the coffee liquid.
- the extraction position is the position behind the bean input position.
- FIGS. 5, 7 and 8 show the case where the container body 90 is in the extraction position. In this way, by changing the position of the container body 90 between the input of the ground beans, the extraction of the coffee liquid and the supply of water, the steam generated during the extraction of the coffee liquid is the discharge pipe which is the supply unit of the ground beans. It can be prevented from adhering to 5C.
- the central unit 8B also includes a mechanism for rotating the support unit 81B around a shaft 825 in the front-rear direction using the motor 824 as a drive source.
- the posture of the container body 90 can be changed from the upright posture (state ST1) in which the neck portion 90b is on the upper side to the inverted posture (state ST3) in which the neck portion 90b is on the lower side.
- the lock mechanism 821 maintains the state in which the lid unit 91 is locked to the container body 90.
- the extraction container 9 is turned upside down in the upright posture and the inverted posture.
- the convex portion 911d is located at the position of the convex portion 901c in the upright posture, and the convex portion 911d is located at the position of the convex portion 901c in the inverted posture. Further, the convex portion 901c is located at the position of the convex portion 911d in the upright posture and the convex portion 901c in the inverted posture. Therefore, in the inverted posture, the operation unit 81A can perform the opening / closing operation on the valve 903, and the operation unit 81C can perform the opening / closing operation on the valve 913.
- Control device 11 of the beverage manufacturing device 1 will be described with reference to FIG.
- FIG. 10 is a block diagram of the control device 11.
- the control device 11 controls the entire beverage manufacturing device 1.
- the control device 11 includes a processing unit 11a, a storage unit 11b, and an I / F (interface) unit 11c.
- the processing unit 11a is a processor such as a CPU.
- the storage unit 11b is, for example, a RAM or a ROM.
- the I / F unit 11c includes an input / output interface for inputting / outputting signals between the external device and the processing unit 11a.
- the I / F unit 11c also includes a communication interface capable of data communication with the server 16 and the mobile terminal 17 via a communication network 15 such as the Internet.
- the server 16 can communicate with a mobile terminal 17 such as a smartphone via the communication network 15, and can receive, for example, information such as a reservation for beverage production and impressions from the mobile terminal 17 of a beverage consumer. ..
- a beverage manufacturing device 1, a server 16, and a mobile terminal 17 are included to form a system for extracting coffee beverage liquid from an extraction target.
- the processing unit 11a executes the program stored in the storage unit 11b, and controls the actuator group 14 based on the instruction from the information display device 12, the detection result of the sensor group 13, or the instruction from the server 16.
- the sensor group 13 is various sensors provided in the beverage manufacturing apparatus 1 (for example, a hot water temperature sensor, a mechanism operating position detection sensor, a pressure sensor, etc.).
- the actuator group 14 is various actuators (for example, a motor, a solenoid valve, a heater, etc.) provided in the beverage manufacturing apparatus 1.
- Beverage consumers can set profiles for beverage production from the mobile terminal 17. For example, the user can set the amount of coffee beans, the grain size of the ground, the amount of steamed hot water, the steaming time, the amount of hot water to be extracted, the extraction pressure, the extraction time, and the like on the screen of the mobile terminal 17, for example, by using a slide bar. By making it possible to adjust the parameters for extracting the coffee beverage on the mobile terminal 17, the user may be able to easily experience the feeling of a coffee extraction operation like a barista.
- the user visits a cafe, for example, and holds the two-dimensional code indicating the setting content displayed on the screen of the mobile terminal 17 over the image pickup unit of the information display device 12, so that the setting content can be displayed on the information display device. It can be transmitted to 12.
- the setting contents may be transmitted to the information display device 12 by another method instead of the two-dimensional code, and for example, the setting contents may be transmitted to the information display device 12 by short-range wireless communication.
- the above-mentioned parameters for extracting coffee beverages are referred to as extraction profiles or recipes.
- FIG. 11A shows a control example related to one coffee beverage manufacturing operation.
- the state of the beverage manufacturing apparatus 1 before the manufacturing instruction is called a standby state.
- the state of each mechanism in the standby state is as follows.
- the extraction device 3 is in the state shown in FIG.
- the extraction container 9 is in an upright posture and is located at the extraction position.
- the lock mechanism 821 is in the closed state, and the lid unit 91 closes the opening 90a of the container body 90.
- the holding member 801 is in the descending position and is attached to the convex portion 911d.
- the holding member 811 is in the raised position and is attached to the convex portion 901c.
- Valves 903 and 913 are closed.
- the switching valve 10a communicates the communication portion 810a of the operation unit 8C with the waste tank T.
- FIG. 11A When there is an instruction to manufacture a coffee beverage in the standby state, the process of FIG. 11A is executed. Preheat treatment is performed in S1. This process is a process of pouring hot water into the container body 90 and preheating the container body 90 in advance. First, the valves 903 and 913 are opened. As a result, the pipe L3, the extraction container 9, and the waste tank T are in a communicating state.
- the solenoid valve 72i is opened for a predetermined time (for example, 1500 ms) and then closed. As a result, hot water is injected from the water tank 72 into the extraction container 9. Subsequently, the solenoid valve 73 is opened for a predetermined time (for example, 500 ms) and then closed. As a result, the air in the extraction container 9 is pressurized, and the discharge of hot water to the waste tank T is promoted.
- a predetermined time for example, 1500 ms
- the solenoid valve 73 is opened for a predetermined time (for example, 500 ms) and then closed.
- the holding member 801 is lowered to the lowered position, and the lid unit 91 is attached to the container body 90.
- the lock mechanism 821 is closed, and the lid unit 91 is airtightly locked to the container body 90.
- the holding member 811 rises to the ascending position.
- the valve 903 is in the open state and the valve 913 is in the closed state.
- FIG. 11B is a flowchart of the extraction process of S3.
- the remaining amount of hot water is poured into the extraction container 9 so that one cup of hot water is contained in the extraction container 9.
- the solenoid valve 72i is opened and closed for a predetermined time (for example, 7000 ms). As a result, hot water is injected from the water tank 72 into the extraction container 9.
- the inside of the extraction container 9 can be brought into a state of a temperature exceeding 100 degrees Celsius (for example, about 110 degrees Celsius) at 1 atm. Subsequently, the inside of the extraction container 9 is pressurized by S13.
- the solenoid valve 73b is opened and closed for a predetermined time (for example, 1000 ms), and the inside of the extraction container 9 is pressurized to a pressure at which hot water does not boil (for example, about 4 atm (about 3 atm at gauge pressure)). After that, the valve 903 is closed.
- this state is maintained for a predetermined time (for example, 7000 ms) to perform immersion type coffee liquid extraction (S14).
- a predetermined time for example, 7000 ms
- immersion type coffee liquid extraction S14
- the coffee liquid is extracted by a dipping method under high temperature and high pressure.
- the following effects can be expected in the immersion type extraction under high temperature and high pressure. The first is that the high pressure makes it easier for hot water to permeate the inside of the ground beans and promotes the extraction of coffee liquor. Second, the high temperature promotes the extraction of coffee liquor. Third, the high temperature reduces the viscosity of the oil contained in the ground beans and promotes the extraction of the oil. This makes it possible to produce a fragrant coffee beverage.
- the temperature of hot water may exceed 100 degrees Celsius, but a higher temperature is more advantageous in terms of extracting coffee liquor.
- the temperature of the hot water may be, for example, 105 degrees Celsius or higher, 110 degrees Celsius or higher, or 115 degrees Celsius or higher, and may be, for example, 130 degrees Celsius or lower, or 120 degrees Celsius or lower.
- the atmospheric pressure may be any atmospheric pressure at which hot water does not boil.
- the pressure inside the extraction container 9 is reduced.
- the atmospheric pressure in the extraction container 9 is switched to the atmospheric pressure at which hot water boils.
- the valve 913 is opened, and the solenoid valve 73c is opened and closed for a predetermined time (for example, 1000 ms).
- the inside of the extraction container 9 is released to the atmosphere. After that, the valve 913 is closed again.
- the inside of the extraction container 9 is rapidly depressurized to a pressure lower than the boiling point, and the hot water in the extraction container 9 boils at once.
- the hot water and ground beans in the extraction container 9 are explosively scattered in the extraction container 9.
- hot water can be boiled uniformly.
- the destruction of the cell wall of the ground beans can be promoted, and the subsequent extraction of coffee liquor can be further promoted.
- the extraction of the coffee liquor can be promoted. In this way, in this embodiment, the coffee liquid extraction efficiency can be improved.
- the extraction container 9 is inverted from the upright posture to the inverted posture.
- the holding member 801 is moved to the ascending position and the holding member 811 is moved to the descending position.
- the support unit 81B is rotated.
- the holding member 801 is returned to the descending position, and the holding member 811 is returned to the ascending position.
- the neck portion 90b and the lid unit 91 are located on the lower side.
- the permeation type coffee liquid is extracted and the coffee beverage is delivered to the cup C.
- the switching valve 10a is switched so that the pouring portion 10c and the passage portion 810a of the operation unit 81C communicate with each other. Further, both the valves 903 and 913 are opened. Further, the solenoid valve 73b is opened for a predetermined time (for example, 10000 ms) to bring the inside of the extraction container 9 to a predetermined pressure (for example, 1.7 atm (0.7 atm in gauge pressure)).
- a predetermined time for example, 10000 ms
- a predetermined pressure for example, 1.7 atm (0.7 atm in gauge pressure
- the coffee liquid extraction efficiency can be improved by using the immersion type extraction in S14 and the permeation type extraction in S17 in combination.
- ground beans are deposited from the body 90e to the bottom 90f.
- the ground beans are deposited from the shoulder portion 90d to the neck portion 90b.
- the cross-sectional area of the body portion 90e is larger than the cross-sectional area of the neck portion 90b, and the deposited thickness of the ground beans in the inverted posture is thicker than the deposited thickness in the upright posture. That is, the ground beans are relatively thin and widely deposited when the extraction container 9 is in the upright position, and relatively thick and narrowly deposited in the inverted position.
- the immersion type extraction of S14 is performed in the state where the extraction container 9 is in an upright posture, hot water and ground beans can be brought into contact with each other over a wide range, and the extraction efficiency of coffee liquid can be improved.
- the hot water and the ground beans tend to come into partial contact with each other.
- the permeation type extraction of S17 is performed in the state where the extraction container 9 is in the inverted position, the hot water passes through the accumulated ground beans while in contact with more ground beans. The hot water comes into contact with the ground beans more evenly, and the extraction efficiency of the coffee liquor can be further improved.
- the discharge process of S4 is performed.
- processing related to cleaning the inside of the extraction container 9 is performed.
- Cleaning of the extraction container 9 is performed by returning the extraction container 9 from the inverted posture to the upright posture and supplying water (purified water) to the extraction container 9. Then, the inside of the extraction container 9 is pressurized, and the water in the extraction container 9 is discharged to the waste tank T together with the residue of the ground beans.
- the time required for producing one coffee beverage is, for example, about 60 to 90 seconds.
- the display control process during the production of the coffee beverage according to the present embodiment will be described.
- the image during production selected by the user is displayed on the information display device 12.
- each description of the coffee beverage manufacturing process is displayed as a manufacturing image during the production of the coffee beverage.
- the profile of the creator of the recipe such as a barista is displayed as an image during production of the coffee beverage.
- information on the coffee bean plantation used in the selected recipe is displayed as an in-production image.
- the "user” may be a staff member or a manager who provides a coffee beverage by the beverage manufacturing apparatus 1, or a general customer who has ordered a coffee beverage.
- FIG. 12 is a flowchart showing a display control process during the production of the coffee beverage according to the present embodiment.
- the process of FIG. 12 is realized, for example, by the CPU of the processing unit 11a loading the program stored in the ROM of the storage unit 11b into the RAM and executing the program.
- Such a program constitutes the program as the present invention.
- the processing unit 11a accepts a recipe selection from the user.
- the recipe selection may have the following structure. For example, on the screen displayed on the information display device 12, it is displayed as a plurality of selectable items such as "Blend A", “Blend B", ... Corresponding to each type of coffee beans. ..
- a recipe for example, parameters such as the amount of coffee beans, the grain size of the ground, the amount of steamed water, the steaming time, the amount of extracted hot water, the extraction pressure, and the extraction time are associated and stored. That is, when any item is selected on the screen, the associated and stored parameter is selected as the recipe.
- the processing unit 11a may accept the selection of the recipe on the screen on the information display device 12, or may acquire the information of the recipe selected on the mobile terminal 17.
- the processing unit 11a accepts from the user the selection of an image to be displayed during the production of the coffee beverage. After accepting the recipe selection in S1201, the processing unit 11a displays the screen 1810 shown in FIG. 18B on the information display device 12. Items 1811 to 1814 are displayed as selection items on the screen 1810. Item 1811 is selected when displaying images illustrating each manufacturing process during the production of coffee beverages. Item 1812 is selected when displaying information about coffee beans during the production of coffee beverages. Item 1813 is selected when displaying information on the creator of a recipe such as a barista during the production of a coffee beverage.
- Item 1814 is selected when displaying history information related to a recipe during the production of a coffee beverage, for example, one-point information such as an arrangement method discovered during the process of devising a recipe. Further, the item 1815 is selected when the information of the items selected in the items 1811 to 1814 is transmitted to the other beverage manufacturing apparatus 1. When the button 1816 is pressed, the setting contents in the screen 1810 are confirmed, and the process proceeds to S1203. The process of S1202 may allow the user to select an image prior to the production of the coffee beverage.
- the processing unit 11a determines whether or not the selection information of items 1811 to 1814 is reflected in the other beverage manufacturing apparatus 1. For example, when the item 1815 is selected, the processing unit 11a determines that the selection information of the items 1811 to 1814 is reflected in the other beverage manufacturing apparatus 1, and in S1204, the processing unit 11a determines that the items 1811 to 1814.
- the selection information of is transmitted to another beverage manufacturing apparatus 1.
- the other beverage manufacturing apparatus 1 that has received the selection information sets a default image to be displayed during the production of the coffee beverage based on the received selection information.
- the process proceeds to S1205.
- the process proceeds to S1205.
- the processing unit 11a determines whether or not the item for which selection has been accepted in S1202 is the recipe information of item 1813. If it is determined that the item for which selection has been accepted in S1202 is the recipe information of item 1813, the process proceeds to S1207. On the other hand, if it is determined that the item for which selection has been accepted in S1202 is not the recipe information of item 1813, the process proceeds to S1206.
- the processing unit 11a displays the screen 1401 of FIG. 14A on the information display device 12.
- information about this recipe is displayed in the area 1402.
- information regarding the present recipe for example, the name 1403 of the present recipe, the photographic image 1404 of the creator of the present recipe such as the varistor, the feature 1405 of the present recipe, and the profile 1406 of the varistor are displayed.
- the area 1402 is not limited to these information, and other information may be displayed.
- the back button 1407 is pressed, the screen returns to the previously displayed screen such as the recipe selection screen.
- the extraction start button 1408 is pressed, the production of the coffee beverage is started based on this recipe.
- the processing unit 11a waits for the display start timing of the image whose selection has been accepted in S1202. For example, when the preheat treatment of S1 in FIG. 11A is started, the processing unit 11a determines that it is the display start timing of the image for which selection has been accepted in S1202, and the image for which selection has been accepted in S1202 in S1208. Starts displaying.
- the processing of S1208 will be described later in FIG.
- the processing unit 11a ends the display of the image. For example, the processing unit 11a ends the display of the image when the discharge processing of S4 in FIG. 11A is completed. Then, in S1210, the processing unit 11a displays a notification screen to the effect that the coffee extraction is completed on the information display device 12.
- the notification screen may indicate that the coffee extraction is complete, and for example, a message such as "Extraction is complete. Please take coffee.” May be displayed.
- the message is not limited to the text display, but may be a still image, a moving image, or a combination thereof.
- FIG. 13 is a flowchart showing the process of S1208.
- the processing unit 11a determines whether or not the display of the image for which selection has been accepted in S1202 needs to be switched for each manufacturing process of the coffee beverage. For example, when the processing unit 11a accepts the selection of the item 1811 in S1202, the processing unit 11a determines that switching is necessary for each manufacturing process of the coffee beverage, and proceeds to S1302.
- the processing unit 11a displays an image corresponding to the manufacturing process. For example, when the processing of S1302 is executed for the first time, the processing unit 11a displays the screen 1411 of FIG. 14B corresponding to the preheat treatment of S1 of FIG. 11 on the information display device 12. In the area 1412 of the screen 1411, the currently executed manufacturing process is identifiablely displayed. Area 1413 displays the remaining time of the current process. In the area 1414, information corresponding to the selected tab among the tabs 1417 to 1420 is displayed. The tab 1417 corresponds to the item 1811 in FIG. 18B, and when the tab 1417 is selected, an explanatory image of each manufacturing process is displayed in the region 1414. Tab 1418 corresponds to item 1812 in FIG.
- tab 1418 when tab 1418 is selected, information about coffee beans is displayed in region 1414.
- Tab 1419 corresponds to item 1813 in FIG. 18B, and when tab 1419 is selected, information about the recipe is displayed in area 1414.
- the tab 1410 corresponds to the item 1814 of FIG. 18B, and when the tab 1420 is selected, the history information related to the recipe is displayed in the area 1414.
- FIG. 14B shows an example in which tab 1417 is selected, and an explanatory image of each manufacturing process is displayed in the area 1414.
- the name "preheating" of the manufacturing process currently being executed and its description are displayed, and in the area 1416, an image image of the manufacturing process "preheating" currently being executed is displayed.
- the screen 1501 of FIG. 15 (A) is displayed.
- the area 1502 of the screen 1501 displays the name “grind” of the manufacturing process currently being executed and its description, and the area 1503 displays an image of the manufacturing process "grind” currently being executed.
- the screen 1511 of FIG. 15B is displayed.
- the name "steaming" of the manufacturing process currently being executed and its explanation are displayed, and in the area 1513, an image image of the manufacturing process "steaming" currently being executed is displayed.
- the screen 1601 of FIG. 16A is displayed.
- the name "main hot water supply” of the manufacturing process currently being executed and its explanation are displayed, and in the area 1603, an image image of the manufacturing process "main hot water supply” currently being executed is displayed. To.
- the screen 1611 of FIG. 16B is displayed.
- the name "stirring” of the manufacturing process currently being executed and its description are displayed, and in the area 1613, an image image of the manufacturing process "stirring" currently being executed is displayed.
- the screen 1701 of FIG. 17 (A) is displayed.
- the name "cup delivery” of the manufacturing process currently being executed and its explanation are displayed, and in the area 1703, an image image of the manufacturing process "cup delivery" currently being executed is displayed.
- the images of the regions 1416, 1503, 1513, 1603, 1613, and 1703 may be, for example, identifiablely displayed members that are currently in operation. Further, the image image may be a still image or a moving image such as an animation or a video image. Further, it may be possible to select whether or not to use the image of the regions 1416, 1503, 1513, 1603, 1613, and 1703 as a moving image, for example, on the screen 1810 of FIG. 18 (B). That is, in the present embodiment, "selection of an image" by selecting tabs 1417 to 1420 includes selection of an image type, selection from a still image, selection from a moving image, and selection from a still image and a moving image. At least include.
- the processing unit 11a determines whether or not the change of the image to be displayed has been accepted. For example, the processing unit 11a determines whether or not a tab for displaying a tab other than the currently displayed image is selected from the tabs 1417 to 1420. For example, when the screen 1411 of FIG. 13B is displayed in S1302 and any of the tabs 1418 to 1420 is pressed, it is determined that the image change has been accepted, and the process proceeds to S1306. On the other hand, if it is determined that the image change is not accepted, the process proceeds to S1304.
- the processing unit 11a determines whether or not it is the timing to switch the image to be displayed based on whether or not the coffee beverage manufacturing process is switched. For example, when the processing unit 11a proceeds from the preheat treatment of S1 in FIG. 11A to the grind processing of S2, the processing unit 11a determines that it is the timing to switch the image to be displayed, and proceeds to S1305. On the other hand, if it is determined that it is not the timing to switch the image to be displayed, the process from S1302 is repeated.
- the processing unit 11a determines whether or not the image displayed before the switching is an image corresponding to the final manufacturing process. For example, when the image displayed before the switching is the screen 1701 of FIG. 17 (A) corresponding to the discharge process of S4 of FIG. 11 (A), the processing unit 11a corresponds to the final manufacturing process. It is determined that the image was an image, and the process of FIG. 13 is terminated. After the end of FIG. 13, the display of the image is terminated in S1209 of FIG. On the other hand, if it is determined that the image does not correspond to the final manufacturing process, the process from S1302 is repeated.
- the processing unit 11a displays the image for which the change has been accepted in S1306. For example, when the processing unit 11a accepts the pressing of the tab 1418 while displaying the screen 1501 of FIG. 15A, the processing unit 11a displays the screen 1710 of FIG. 17B. In the area 1414 of the screen 1710, the name 1711 of the present recipe, the photographic image 1712 of the coffee bean farm corresponding to the present recipe, the information 1713 about the coffee beans and the farm, and the explanation 1714 are displayed. The area 1414 of the screen 1710 is not limited to these information, and other information may be displayed. The screen 1710 displays the same contents regardless of the process of manufacturing the coffee beverage. By displaying the screen 1710, it may be possible to provide the user with information on the coffee bean plantation corresponding to the recipe.
- the processing unit 11a when the processing unit 11a accepts the pressing of the tab 1419 while displaying the screen 1411 of FIG. 14 (B), the processing unit 11a displays the screen 1801 of FIG. 18 (A).
- the name 1802 of the present recipe, the photograph image 1803, the feature 1804 of the present recipe, and the profile 1805 on the screen 1801 are the description in the name 1403 of the present recipe, the photograph image 1404, the feature 1405 of the present recipe, and the profile 1406 of FIG. 13 (A). It is the same.
- the screen 1801 displays the same contents regardless of the process of manufacturing the coffee beverage. By displaying the screen 1801, it may be possible to provide the user with information about the creator of the recipe.
- photographic images 1404, 1712, 1803 may be still images, or may be moving images such as animations and video images.
- the image after the switching is displayed from the time corresponding to the elapsed time displayed before the switching. For example, if the elapsed time of the screen 1501 displayed before the switching is 10 seconds, in S1306, the processing unit 11a displays the screen 1710 from the time when 10 seconds have elapsed. With such a configuration, the user may be able to check the remaining time of the area 1413 regardless of whether or not the image is switched. After S1306, the process proceeds to S1308.
- the processing unit 11a determines whether or not the change of the image to be displayed has been accepted. For example, the processing unit 11a determines whether or not a tab for displaying a tab other than the currently displayed image is selected from the tabs 1417 to 1420.
- the screen 1710 of FIG. 17B is displayed in S1308, when any of the tabs 1417, 1419, and 1420 is pressed, it is determined that the change of the displayed image is accepted.
- the process proceeds to S1302
- if the pressing of any of the tabs 1419 and 1420 is accepted the process proceeds to S1306.
- the processing unit 11a determines whether or not it is the timing to end the display of the image. For example, when the discharge process of S4 of FIG. 11A is completed, the processing unit 11a determines that it is the timing to end the display of the image, and ends the process of FIG. 13. After the end of FIG. 13, the display of the image is terminated in S1209 of FIG. On the other hand, if it is determined that it is not the timing to end the display of the image, the process from S1308 is repeated.
- S1301 If it is determined in S1301 that the image for which the selection has been accepted in S1202 does not need to be switched for each manufacturing process of the coffee beverage, the process proceeds to S1307. For example, when the selection of any one of the items 1812 to 1814 is accepted in S1202, it is determined that the switching is not necessary for each manufacturing process of the coffee beverage, and the process proceeds to S1307.
- the processing unit 11a displays an image corresponding to the item for which selection has been accepted in S1202, for example, screen 1710 or screen 1801. After S1307, the process proceeds to S1308, and the above-mentioned processing is performed.
- the image of the regions 1416, 1503, 1513, 1603, 1613, 1703 may be a moving image, but whether or not to make a moving image is selected on the screen 1810 of FIG. 18 (B). It may be possible.
- the error screen when the occurrence of an error related to beverage production is internally determined, the error screen can be displayed, and the user cannot select the image during production while the error screen is displayed. It may be in a state.
- the error is, for example, a cover opening error when the opening of the cover portion is detected, or various errors (for example, temperature error, pressure) when various sensors (for example, temperature sensor, pressure sensor) show an abnormal value. Error) etc.
- an example of displaying an image being manufactured such as a moving image on the information display device 12 is shown, but the present invention is not limited to the case where one image being manufactured is displayed in one display area (display means), and a plurality of manufactured images are manufactured.
- Each of the medium images may be configured to be displayed in a plurality of display areas.
- the image being manufactured “varistor image” is displayed in a display area of the information display device 12
- the image being manufactured “farm image” is displayed in another display area of the information display device 12 in parallel, and the image is manufactured in parallel.
- the middle image "manufacturing process image” may be displayed on the cover portion 102.
- the user's selection screen for the in-manufacturing image is not limited to displaying the name of the in-manufacturing image (tabs 1417 to 1420) as shown in FIG. 14 (B), and each in-manufacturing image or a part of each in-manufacturing image. May be displayed in turn.
- the tab 1417 of FIG. 14B is selected and the region 1414 is selected for a few seconds after the start of production of the beverage until the user makes a selection or a certain amount of time elapses.
- the in-manufacturing image "extraction process description" is displayed in, and for the next few seconds, the tab 1418 in FIG.
- the in-manufacturing image "bean information” is displayed in the area 1414, and the next number.
- the tab 1419 of FIG. 14 (B) is selected, the in-manufacturing image "recipe information” is displayed in the area 1414, and for the next few seconds, the tab 1420 of FIG. 14 (B) is selected.
- the in-manufacturing image "recipe history” is displayed in the area 1414, the tab 1417 in FIG. 14 (B) is selected for the next few seconds, and the in-manufacturing image "extraction process explanation" is displayed in the area 1414. The user may be prompted to select an image during production.
- FIG. 19 is a diagram showing an example of a management table showing a pattern of a manufacturing image stored in advance in the storage unit 11b, for example.
- the image during production is displayed and controlled based on the management table shown in FIG.
- the table of FIG. 19 is displayed, for example, on the maintenance screen of the beverage manufacturing apparatus and can be edited by the administrator.
- the in-manufacturing image pattern 1 of FIG. 19A is adopted as the in-manufacturing image, as described above in FIGS. 14 to 18, "varistor image”, "farm image”, “manufacturing process image”, etc.
- the moving image is selectively displayed. Further, for example, when the in-manufacturing image pattern 2 of FIG.
- step 1 preheating step
- step 2 grinding step
- step 1 heating step
- step 2 grinding step
- step 1 is a preheating step
- step 2 is a grind step (step of grinding beans)
- step 3 is a steaming step
- step 4" is a main hot water supply step.
- Step 5 shows a stirring step
- step 6 shows a cup sending step. Note that “process 3” to "process 5" are omitted.
- the "state" in each table of FIG. 19 is a field for registering whether or not the user can select the manufacturing image of the corresponding row, and if this field is "OK", the user selects the manufacturing image of the corresponding row. Is selectable, and "No” indicates that the user cannot select the in-manufacturing image of the corresponding row. If the field is not "OK", it may be configured not to be displayed as a user's choice (eg, tabs 1417-1420 in FIG. 14B).
- Video B1" to “Video B6”, “Video F1” to “Video F6”, “Video M1” to “Video M6”, and “Video H2" in FIG. 19 indicate the names of various videos, and “still image P1".
- -"Still image P6", “Still image S1"-"Still image S5", “Still image M1"-”Still image M6” indicate the names of various still images. If they are the same, it means that the contents are also the same. For example, “Video B1" to be played during “Step 1" (preheating step) when “Varistor image” is selected and “Step 1" (Step 1) when "Farm image” is selected.
- the manufacturing image pattern 1 in FIG. 19A is an example in which a “varistor image”, a “farm image”, and a “manufacturing process image” are registered as a plurality of manufacturing images that can be selected by the user. ..
- the "varistor image” is selected by the user
- the "movie B1” is reproduced when the beverage manufacturing process is "process 1" (preheating process), and the "video B1” is reproduced in the “process 2" (grinding process).
- the “moving image B2" is reproduced, and in the “step 6" (process of sending the cup), the "moving image B6" is reproduced.
- the in-manufacturing image pattern 2 in FIG. 19B is an example in which a "product image”, a "store image”, and a “machine image” are registered as a plurality of in-manufacturing images that can be selected by the user.
- the in-manufacturing image pattern 3 in FIG. 19C is an example in which a "product image", a "store image”, and a “history image” are registered as a plurality of in-manufacturing images that can be selected by the user.
- the "machine image” cannot be selected by the user.
- “Yes” and “No” of this "state” cannot be changed by user operation, but can be changed by administrator operation.
- the administrator operation is, for example, an operation that can be changed on the management screen displayed when the administrator password or the like is input. In this example, when the administrator password or the like is input, each manufacturing image is displayed.
- the "Status” field can be changed, and when the "Status” field of "Machine Image” is changed from “Not” to “Yes", the user can change the "Product Image", "Store Image”, “History Image”, and "Machine Image”. You can select the image being manufactured from the four. On the contrary, if the "product image” is changed from “possible” to "not” by the administrator operation, the user cannot select the "product image” as the image being manufactured.
- the "varistor image” is an introduction video of the varistor that created a recipe that can be used in the beverage manufacturing equipment
- the "farm image” can be used in the beverage manufacturing equipment.
- This is an introduction video of the coffee bean production farm used in the recipe
- the "manufacturing process image” is an introduction video of the 6 manufacturing processes (preheating, grind, steaming, main hot water supply, stirring, cup delivery) of the beverage manufacturing equipment. be.
- the "product image” is a group of still images introducing recipes that can be used in the beverage manufacturing device
- the "store image” is a group of still images introducing the store in which the beverage manufacturing device is installed, and is a “machine image”.
- “historical image” is a group of moving images and still images introducing the history of the development of the beverage manufacturing equipment.
- the in-manufacturing image in the first line of the in-manufacturing pattern in FIG. 19 may be used as the default in-manufacturing image.
- the "varistor image” in the first line is used as the manufacturing image when the user does not select the image when the power is turned on or when recovering from an error. It may be reproduced.
- the default in-manufacturing image may be set by the administrator. For example, it may be possible to replace the lines of the image pattern being manufactured by the administrator's operation.
- the "farm image” in the second line are exchanged by the administrator operation, the "farm image” is used. May be the default in-production image.
- the lines of the image pattern during manufacturing may be replaced according to various information stored with the use of the beverage manufacturing device.
- the first line “varistor image” and the second line “farm image” in the manufacturing image pattern. May be replaced so that the "farm image” becomes the default in-production image, or the in-production image selected by the user from the power-on of the beverage production device is cumulatively saved and selected by the user most.
- the rows of the in-production image pattern may be swapped so that the in-production image is the default in-production image.
- the "varistor image” in the first line and the “farm image” in the second line in the in-manufacturing image pattern are exchanged, and "farm image” is the default in-manufacturing image. It may be set to.
- a plurality of beverage manufacturing devices in a certain store for example, a plurality of beverage manufacturing devices installed in the store A, a plurality of beverage manufacturing devices installed in any of the stores A and B) or a place where a certain store is located (for example, a store).
- the most recently selected in-manufacturing image or the most selected in-manufacturing image may be set as the default in-manufacturing image.
- the manufacturing image most selected by one user may be the default manufacturing image when the user performs a beverage manufacturing operation.
- the in-manufacturing image that is selected the least number of times by one user may be the default in-manufacturing image.
- a display area in a user selection screen (for example, a display in which tabs 1417 to 1420 of FIG. 14B are displayed, respectively) is shown. It may be replaced with an example of setting the in-manufacturing image displayed in the display area) in which the tab 1417 is displayed.
- the manufacturing image most selected by one user may be the default manufacturing image when the user performs the beverage manufacturing operation
- "one user” Display area of the selection screen of the manufacturing image when the user performs a beverage manufacturing operation on the manufacturing image most selected by (for example, a display area in which tabs 1417 to 1420 of FIG. 14B are displayed, respectively. ) May be displayed in a certain display area (for example, the display area in which the tab 1417 of FIG. 14B is displayed). ”
- the image being manufactured in the image pattern being manufactured may be added from the outside (for example, a server) through a signal line (for example, a LAN line such as the Internet).
- a signal line for example, a LAN line such as the Internet.
- a new image being manufactured from a server via the Internet by an administrator operation, for example, a "new recipe image" (step 1: moving image N1, step 2: moving image N2, ..., step 6: still image N6).
- a new recipe image step 1: moving image N1, step 2: moving image N2, ..., step 6: still image N6.
- the data of each image may be downloaded and added to the user-selectable in-manufacturing image.
- the "Status” field of the newly added image in production is set to “Not", and the user selects it only after changing the "Status” from “Not” to “Yes” by the administrator operation. It may be possible, or the "Status” field may be "OK” from the beginning.
- an example of downloading data from a server via the Internet has been given, but the present invention is not limited to this, and images and image data during production stored in another device such as another beverage manufacturing device can be copied or moved. You may do it.
- Image data is stored externally (for example, a server), and every time a beverage is extracted, when the power is turned on, or when an image to be selected by the user is displayed, a signal line (for example, the Internet, etc.) or wireless communication is used in the beverage manufacturing device. You may want to download it.
- a signal line for example, the Internet, etc.
- FIGS. 12 to 19 above a configuration for displaying various data (image data and moving image data) during the production of coffee beverages has been described.
- specific data among the data displayed during the production of coffee beverages, such specific data can be easily displayed so that more people can see the displayed contents. good.
- the information for identifying the specific data referred to here may be set in advance in the database, or may be set by a person (for example, an administrator) who operates the beverage manufacturing apparatus 1. good.
- specific data may be configured to increase the number of times it is displayed compared to other data or to lengthen the display time.
- the lottery probability may be set higher than other data.
- specific data may be displayed at a specific timing during the production of the coffee beverage, for example, it may be displayed at the start of any of the coffee beverage manufacturing processes.
- FIG. 20A shows an example in which a “product image”, which is specific data, is displayed at the timing of starting production of a coffee beverage.
- the "product image” displayed at the start of production is switched to the "manufacturing process image” by the user's operation. Further, in the subsequent production of coffee beverages, the "product image” displayed at the start of production is displayed as it is until the end of production.
- specific data a plurality of specific data set according to the type of coffee beverage may be set respectively.
- specific data may be displayed according to the coffee beverage to be produced. Further, specific data may be displayed regardless of the type of coffee beverage. In this case, one data may be set as the specific data, or a plurality of data may be set. You may.
- the specific data to be displayed during the production of the next coffee beverage is determined according to the display time of the specific data during the production of the previous coffee beverage. May be good.
- 20 (B) and 20 (C) show an example when a "product image” and a "varistor image” are set as specific data. Then, if the display time of the specific data is more than half of the time required for manufacturing, the specific data is switched, and if it is less than half, the same specific data is displayed again.
- the display time is less than half of the time required for manufacturing. There is no time.
- the "product image” displayed at the start of the previous production of the coffee beverage is displayed again in the subsequent production of the coffee beverage.
- the "product image” displayed at the start of manufacturing the first coffee beverage is switched to the "manufacturing process image" by the user's operation, but the display time is required for manufacturing. It is more than half the time.
- a "varistor image" which is new specific data, is displayed in the subsequent production of the coffee beverage.
- FIG. 20D shows an example in which a “product image” and a “varistor image” are set as specific data.
- two specific data are displayed across the "manufacturing process image” during the production of the coffee beverage, of which the "varistor image” is displayed later.
- a “product image” which is specific data different from the specific data displayed immediately before the subsequent production of the coffee beverage is displayed.
- the configuration for determining the specific data to be displayed in the subsequent production of the coffee beverage according to the display time and the display order of the specific data during the production of the coffee beverage As described above, not limited to these examples, when there are multiple specific data, the specific data to be displayed during the production of the next coffee beverage depends on the display status of the specific data during the production of the previous coffee beverage. You may decide the data of.
- the total display time may be stored. Further, the data of these images being manufactured may be stored for the number of times the data is switched to other data during manufacturing (displaying). Further, the data of these images during manufacturing may be stored for the number of times the data is switched from other data during manufacturing (displaying). FIG. 21 shows an example of these stored values. These values can be used as useful information when considering the sales strategy of the product.
- the information regarding the data displayed during the production of the coffee beverage may be configured to be transmitted to an external device. With this configuration, useful information can be gathered when considering the sales strategy of the product.
- FIG. 22 shows an example of an induced display when the photographic image 1712 (see FIG. 17B) of the coffee bean plantation displayed by tapping the tab 1418 is set as specific data. There is.
- the guidance display 1901 for guiding the photographic image 1712 of the coffee bean plantation is performed. By performing this guided display 1901, it is possible to promote a state in which specific data is displayed, deepen the understanding of the product, and convey the attractiveness of the product.
- the beverage manufacturing apparatus 1 is a combination of an apparatus for producing ground coffee beans and an apparatus for producing coffee beverages from the ground beans.
- the configuration of the display during operation described with reference to FIGS. 12 to 22 includes both an operation for an apparatus for producing ground beans and an operation for an apparatus for producing coffee beverages from ground beans. Therefore, the configuration of the display during operation described with reference to FIGS. 12 to 22 is not limited to the configuration of the present embodiment, and is from an apparatus for producing ground coffee beans (for example, a crushing apparatus 5) or ground beans. It can also be applied to equipment for producing coffee beverages.
- the beverage manufacturing apparatus of the above embodiment displays the moving image as a manufacturing means when a moving image is selected from a plurality of images during the manufacturing means for manufacturing the beverage and the manufacturing of the beverage by the manufacturing means.
- the selection means accepts the user's selection of the manufacturing image (S1303, S1308) when the manufacturing image is displayed by the display means, and the manufacturing image by the user by the selection means.
- the display means switches the image being manufactured that was displayed before accepting the selection to the image being manufactured that has received the selection (S1302, S1306). do. With such a configuration, even when the in-manufacturing image is displayed, it is possible to switch to and display the selected in-manufacturing image.
- the display means is characterized in that the image being manufactured after the switching is displayed from the time corresponding to the elapsed display time of the image being manufactured before the switching.
- the image during manufacturing after switching can be displayed from the time corresponding to the elapsed display time of the image during manufacturing before switching.
- the present invention is further provided with a transmission means (S1204) for transmitting the content of the selection of the image being manufactured received by the selection means to another beverage manufacturing apparatus.
- a transmission means S1204 for transmitting the content of the selection of the image being manufactured received by the selection means to another beverage manufacturing apparatus.
- the manufacturing image is an image (1411, 1501, 1511, 1601, 1611, 1701) explaining the manufacturing process of the beverage.
- the image during production is an image (1801) explaining the creator of the recipe for the beverage.
- the beverage is produced from coffee beans, and the image during production is an image (1710) illustrating the coffee beans.
- the manufacturing means manufactures a beverage by a plurality of manufacturing steps, and at least one of the plurality of images is composed of a plurality of types of moving images, and the following from a certain manufacturing process in the plurality of manufacturing steps.
- the manufacturing process of the above it is characterized in that one moving image in the plurality of types of moving images is switched to the next moving image (FIG. 19). With such a configuration, it is possible to configure the moving image to be switched as the manufacturing process progresses.
- a coffee beverage manufacturing apparatus provided with a display device (for example, an information display device 12) capable of displaying data selected from a data group including at least one of moving image data or image data during coffee beverage manufacturing.
- the data group includes first data (for example, specific data) and second data (for example, data other than specific data).
- the first data is more likely to be displayed than the second data (eg, FIG. 20).
- the coffee beverage manufacturing apparatus which is characterized by the above, has been described.
- the display device can switch the data being displayed to other data in the data group according to the operation of the user during the production of the coffee beverage (for example, FIG. 20B). C)),
- the coffee beverage manufacturing apparatus which is characterized by the above, has been described.
- the display device performs a notification prompting the user to switch to the first data while displaying the second data (for example, the guided display 1901 in FIG. 22).
- the coffee beverage manufacturing apparatus which is characterized by the above, has been described.
- the display device switches from the state of displaying the first data to the state of displaying the second data during the production of the coffee beverage, and when the production of the coffee beverage is completed, the second.
- the first data is displayed at the start of production of the next coffee beverage (for example, FIG. 20A).
- the coffee beverage manufacturing apparatus which is characterized by the above, has been described.
- One or a plurality of data in the data group can be set as the first data (for example, FIGS. 20B to 20D).
- the coffee beverage manufacturing apparatus which is characterized by the above, has been described.
- the display time of each data in the data group can be stored (for example, FIG. 21).
- the coffee beverage manufacturing apparatus, which is characterized by the above, has been described.
- the coffee beverage manufacturing apparatus described above. Information about the data displayed on the display device is transmitted to an external device.
- the coffee beverage manufacturing apparatus which is characterized by the above, has been described.
- the data group includes data for explaining the manufacturing process of the coffee beverage (for example, FIGS. 14 (B), 15 (A) (B), 16 (A) (B), 17 (A). )),
- the coffee beverage manufacturing apparatus which is characterized by the above, has been described.
- the data group includes data for explaining the creator of the coffee beverage recipe (for example, FIG. 18A).
- the coffee beverage manufacturing apparatus which is characterized by the above, has been described.
- the data group includes data for explaining the coffee beans used in the coffee beverage (for example, FIG. 17B).
- the coffee beverage manufacturing apparatus which is characterized by the above, has been described.
- the display device can switch the data being displayed to other data in the data group according to the progress of the manufacturing process of the coffee beverage (for example, FIG. 14B). 15 (A) (B), 16 (A) (B), 17 (A)),
- the coffee beverage manufacturing apparatus which is characterized by the above, has been described.
- a coffee beverage production system including an external device (for example, a server 16 and a mobile terminal 17) capable of communicating with the coffee beverage production device has been described.
- a method for displaying data in a coffee beverage manufacturing device for example, a beverage manufacturing device 1 provided with a display device (for example, an information display device 12).
- a selection step of selecting data from a data group containing at least one of video data or image data It has a display step of displaying the data selected in the selection step on the display device, and has.
- the data group includes first data (for example, specific data) and second data (for example, data other than specific data).
- the first data is more likely to be selected than the second data (eg, FIG. 20).
- the selection step and the display step are performed according to the operation of the user during the production of the coffee beverage (for example, FIGS. 20B and 20C).
- the method of displaying data which is characterized by this, has been explained.
- the display step provides a notification prompting the user to switch to the first data while displaying the second data (for example, the guided display 1901 in FIG. 22).
- the method of displaying data which is characterized by this, has been explained.
- the state in which the first data is displayed during the production of the coffee beverage is switched to the state in which the second data is displayed, and the second data is displayed when the production of the coffee beverage is completed. If so, the first data is selected in the selection step at the start of production of the next coffee beverage (for example, FIG. 20A).
- the method of displaying data which is characterized by this, has been explained.
- One or a plurality of data in the data group can be set as the first data (for example, FIGS. 20B to 20D).
- the method of displaying data, which is characterized by this, has been explained.
- the data group includes data for explaining the manufacturing process of the coffee beverage (for example, FIGS. 14 (B), 15 (A) (B), 16 (A) (B), 17 (A). )), The method of displaying data, which is characterized by this, has been explained.
- the data group includes data for explaining the creator of the coffee beverage recipe (for example, FIG. 18A).
- the method of displaying data which is characterized by this, has been explained.
- the data group includes data for explaining the coffee beans used in the coffee beverage (for example, FIG. 17B).
- the method of displaying data which is characterized by this, has been explained.
- the selection step and the display step are performed according to the progress of the coffee beverage manufacturing process (for example, FIGS. 14 (B), 15 (A) (B), 16 (A) (B), FIG. 17 (A)),
- the method of displaying data which is characterized by this, has been explained.
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Abstract
Description
コーヒー飲料の製造中に、動画データあるいは画像データのうちの少なくともいずれかを含むデータ群の中から選択されたデータを表示可能な表示装置を備えたコーヒー飲料製造装置であって、
前記データ群には、第一のデータと第二のデータが含まれ、
前記第一のデータが前記第二のデータよりも表示されやすい、
ことを特徴とする。
前記表示装置は、コーヒー飲料の製造中のユーザの操作に応じて、表示中のデータを前記データ群のうちの他のデータに切り替えることが可能なものであってもよい。
前記表示装置は、前記第二のデータの表示中に、前記第一のデータに切り替えることを促す報知を行うものであってもよい。
前記表示装置は、コーヒー飲料の製造中に前記第一のデータを表示している状態から前記第二のデータを表示している状態に切り替え、該コーヒー飲料の製造が完了したときに該第二のデータを表示していた場合には、次のコーヒー飲料の製造開始時に前記第一のデータを表示するものであってもよい、
このコーヒー飲料製造装置では、第一のデータの表示の機会をより多くすることができる。
前記データ群の中の一または複数のデータを、前記第一のデータとして設定可能なものであってもよい。
前記データ群のそれぞれのデータの表示時間を記憶可能なものであってもよい。
前記表示装置に表示中のデータに関する情報を、外部の装置に送信するものであってもよい。
前記データ群は、コーヒー飲料の製造工程を説明するためのデータを含むものであってもよい。
前記データ群は、コーヒー飲料のレシピの作成者を説明するためのデータを含むものであってもよい。
前記データ群は、コーヒー飲料に用いるコーヒー豆を説明するためのデータを含むものであってもよい。
前記表示装置は、前記コーヒー飲料の製造工程の進み具合に応じて、表示中のデータを前記データ群のうちの他のデータに切り替えることが可能なものであってもよい。
図1は飲料製造装置1の外観図である。本実施形態の飲料製造装置1は、焙煎コーヒー豆と液体(ここでは水)からコーヒー飲料を自動製造する装置であり、一回の製造動作につき、コップ一杯分のコーヒー飲料を製造可能である。原料となる焙煎コーヒー豆は、キャニスタ40に収容可能である。飲料製造装置1の下部にはカップの載置部110が設けられており、製造されたコーヒー飲料は注ぎ部10cからカップへ注がれる。
流体供給ユニット7及び切替ユニット10の構成について図3を参照して説明する。まず、流体供給ユニット7について説明する。流体供給ユニット7は、抽出容器9へのお湯の供給や、抽出容器9内の気圧の制御等を行う。なお、本書において、気圧を数字で例示している場合、特に断わらない限り絶対圧を意味し、ゲージ圧とは大気圧を0気圧とする気圧である。大気圧とは、抽出容器9の周囲の気圧、又は、飲料製造装置の気圧を指し、例えば、飲料製造装置が海抜0mの地点に設置されている場合は、国際民間航空機関(=「International Civil Aviation Organization」〔[略]ICAO〕)が1976年に制定した国際標準大気(=「International Standard Atmosphere」〔[略]ISA〕)の海抜0mでの基準気圧(1013.25hPa)である。
図1、図2を参照して豆処理装置2について説明する。豆処理装置2は、貯留装置4及び粉砕装置5を含む。
貯留装置4は、焙煎後のコーヒー豆が収容される複数のキャニスタ40を含む。本実施形態の場合、キャニスタ40は三つ設けられている。キャニスタ40は、焙煎コーヒー豆を収容する筒状の本体40aと、本体40aに設けられた取手40bとを含み、飲料製造装置1に対して着脱自在に構成されている。
図2及び図4を参照して粉砕装置5を説明する。図4は分離装置6の一部判断斜視図である。粉砕装置5は、グラインダ5A及び5B、及び、分離装置6を含む。グラインダ5A及び5Bは貯留装置4から供給される焙煎コーヒー豆を挽く機構である。貯留装置4から供給される焙煎コーヒー豆は、グラインダ5Aで挽かれた後、グラインダ5Bで更に挽かれて粉状にされ、排出管5Cから抽出容器9へ投入される。
<4-1.概要>
抽出装置3の駆動ユニット8及び抽出容器9について図5を参照して説明する。図5は駆動ユニット8及び抽出容器9の斜視図である。駆動ユニット8の大部分は本体部101に囲包されている。
図6を参照して抽出容器9について説明する。図6は抽出容器9の閉状態及び開状態を示す図である。上記のとおり、抽出容器9は中部ユニット8Bにより上下が反転される。図6の抽出容器9は、蓋ユニット91が上側に位置している基本姿勢を示している。以下の説明において上下の位置関係を述べる場合、特に断らない限りは基本姿勢における上下の位置関係を意味するものとする。
上部ユニット8A及び下部ユニット8Cについて図7、図8を参照して説明する。図7は上部ユニット8A及び下部ユニット8Cの一部の構成を示す正面図であり、図8は図7の縦断面図である。
中部ユニット8Bについて図5及び図9を参照して説明する。図9は中部ユニット8Bの模式図である。中部ユニット8Bは抽出容器9を支持する支持ユニット81Bを含む。支持ユニット81Bは上述したアーム部材820の他、ロック機構821を支持するユニット本体81B’を含む。
図10を参照して飲料製造装置1の制御装置11について説明する。図10は制御装置11のブロック図である。
処理部11aが実行する飲料製造装置1の制御処理例について図11(A)及び(B)を参照して説明する。図11(A)は一回のコーヒー飲料製造動作に関わる制御例を示している。製造指示前の飲料製造装置1の状態を待機状態と呼ぶ。待機状態における各機構の状態は以下の通りである。
以下、本実施形態におけるコーヒー飲料の製造中における表示制御処理について説明する。本実施形態では、レシピに対応するコーヒー飲料の製造中に、ユーザにより選択された製造中画像を情報表示装置12に表示する。例えば、ユーザの選択に応じて、コーヒー飲料の製造中に、製造中画像として、コーヒー飲料の製造工程の各説明を表示する。例えば、ユーザの選択に応じて、コーヒー飲料の製造中に、製造中画像として、バリスタ等レシピの作成者のプロフィールを表示する。例えば、ユーザの選択に応じて、コーヒー飲料の製造中に、製造中画像として、選択されたレシピに使用されたコーヒー豆の農園の情報を表示する。なお、「ユーザ」とは、飲料製造装置1によりコーヒー飲料を提供するスタッフや管理者の場合や、コーヒー飲料を注文した一般客の場合がある。
上記の実施形態の飲料製造装置は、飲料を製造する製造手段と、前記製造手段による飲料の製造中に、複数の画像から動画像が選択された場合、該動画像を製造中画像として表示する表示手段(図12)と、動画像と静止画像のうちの少なくともいずれかを含む前記複数の画像から、前記表示手段により表示される前記製造中画像を選択する選択手段(1417~1420)とを備えることを特徴とする。そのような構成により、コーヒー飲料の製造中に、複数の画像から選択された動画像を表示することができる。
コーヒー飲料の製造中に、動画データあるいは画像データのうちの少なくともいずれかを含むデータ群の中から選択されたデータを表示可能な表示装置(例えば、情報表示装置12)を備えたコーヒー飲料製造装置(例えば、飲料製造装置1)であって、
前記データ群には、第一のデータ(例えば、特定のデータ)と第二のデータ(例えば、特定のデータ以外のデータ)が含まれ、
前記第一のデータが前記第二のデータよりも表示されやすい(例えば、図20)、
ことを特徴とするコーヒー飲料製造装置、について説明した。
前記表示装置は、コーヒー飲料の製造中のユーザの操作に応じて、表示中のデータを前記データ群のうちの他のデータに切り替えることが可能なものである(例えば、図20(B)(C))、
ことを特徴とするコーヒー飲料製造装置、について説明した。
前記表示装置は、前記第二のデータの表示中に、前記第一のデータに切り替えることを促す報知を行うものである(例えば、図22の誘導表示1901)、
ことを特徴とするコーヒー飲料製造装置、について説明した。
前記表示装置は、コーヒー飲料の製造中に前記第一のデータを表示している状態から前記第二のデータを表示している状態に切り替え、該コーヒー飲料の製造が完了したときに該第二のデータを表示していた場合には、次のコーヒー飲料の製造開始時に前記第一のデータを表示するものである(例えば、図20(A))、
ことを特徴とするコーヒー飲料製造装置、について説明した。
前記データ群の中の一または複数のデータを、前記第一のデータとして設定可能なものである(例えば、図20(B)~(D))、
ことを特徴とするコーヒー飲料製造装置、について説明した。
前記データ群のそれぞれのデータの表示時間を記憶可能なものである(例えば、図21)、
ことを特徴とするコーヒー飲料製造装置、について説明した。
前記表示装置に表示中のデータに関する情報を、外部の装置に送信するものである、
ことを特徴とするコーヒー飲料製造装置、について説明した。
前記データ群は、コーヒー飲料の製造工程を説明するためのデータを含むものである(例えば、図14(B)、図15(A)(B)、図16(A)(B)、図17(A))、
ことを特徴とするコーヒー飲料製造装置、について説明した。
前記データ群は、コーヒー飲料のレシピの作成者を説明するためのデータを含むものである(例えば、図18(A))、
ことを特徴とするコーヒー飲料製造装置、について説明した。
前記データ群は、コーヒー飲料に用いるコーヒー豆を説明するためのデータを含むものである(例えば、図17(B))、
ことを特徴とするコーヒー飲料製造装置、について説明した。
前記表示装置は、前記コーヒー飲料の製造工程の進み具合に応じて、表示中のデータを前記データ群のうちの他のデータに切り替えることが可能なものである(例えば、図14(B)、図15(A)(B)、図16(A)(B)、図17(A))、
ことを特徴とするコーヒー飲料製造装置、について説明した。
前記コーヒー飲料製造装置と通信可能な外部装置(例えば、サーバ16、携帯端末17)を備えたコーヒー飲料製造システム(図10)、について説明した。
表示装置(例えば、情報表示装置12)を備えたコーヒー飲料製造装置(例えば、飲料製造装置1)におけるデータの表示方法であって、
コーヒー飲料の製造中に、動画データあるいは画像データのうちの少なくともいずれかを含むデータ群の中からデータを選択する選択ステップと、
前記選択ステップで選択されたデータを表示装置に表示する表示ステップと、を有し、
前記データ群には、第一のデータ(例えば、特定のデータ)と第二のデータ(例えば、特定のデータ以外のデータ)が含まれ、
前記第一のデータが前記第二のデータよりも選択されやすい(例えば、図20)、
ことを特徴とするデータの表示方法、について説明した。
コーヒー飲料の製造中のユーザの操作に応じて、前記選択ステップと前記表示ステップを行う(例えば、図20(B)(C))、
ことを特徴とするデータの表示方法、について説明した。
前記表示ステップは、前記第二のデータの表示中に、前記第一のデータに切り替えることを促す報知を行う(例えば、図22の誘導表示1901)、
ことを特徴とするデータの表示方法、について説明した。
コーヒー飲料の製造中に前記第一のデータを表示している状態から前記第二のデータを表示している状態に切り替え、該コーヒー飲料の製造が完了したときに該第二のデータを表示していた場合には、次のコーヒー飲料の製造開始時の前記選択ステップにおいて前記第一のデータを選択するものである(例えば、図20(A))、
ことを特徴とするデータの表示方法、について説明した。
前記データ群の中の一または複数のデータを、前記第一のデータとして設定可能なものである(例えば、図20(B)~(D))、
ことを特徴とするデータの表示方法、について説明した。
前記データ群のそれぞれのデータの表示時間を記憶する記憶ステップを有する(例えば、図21)、
ことを特徴とするデータの表示方法、について説明した。
前記表示装置に表示中のデータに関する情報を、外部の装置に送信する送信ステップを有する、
ことを特徴とするデータの表示方法、について説明した。
前記データ群は、コーヒー飲料の製造工程を説明するためのデータを含むものである(例えば、図14(B)、図15(A)(B)、図16(A)(B)、図17(A))、
ことを特徴とするデータの表示方法、について説明した。
前記データ群は、コーヒー飲料のレシピの作成者を説明するためのデータを含むものである(例えば、図18(A))、
ことを特徴とするデータの表示方法、について説明した。
前記データ群は、コーヒー飲料に用いるコーヒー豆を説明するためのデータを含むものである(例えば、図17(B))、
ことを特徴とするデータの表示方法、について説明した。
前記コーヒー飲料の製造工程の進み具合に応じて、前記選択ステップと前記表示ステップを行う(例えば、図14(B)、図15(A)(B)、図16(A)(B)、図17(A))、
ことを特徴とするデータの表示方法、について説明した。
Claims (11)
- コーヒー飲料の製造中に、動画データあるいは画像データのうちの少なくともいずれかを含むデータ群の中から選択されたデータを表示可能な表示装置を備えたコーヒー飲料製造装置であって、
前記データ群には、第一のデータと第二のデータが含まれ、
前記第一のデータが前記第二のデータよりも表示されやすい、
ことを特徴とするコーヒー飲料製造装置。 - 請求項1に記載のコーヒー飲料製造装置であって、
前記表示装置は、コーヒー飲料の製造中のユーザの操作に応じて、表示中のデータを前記データ群のうちの他のデータに切り替えることが可能なものである、
ことを特徴とするコーヒー飲料製造装置。 - 請求項2に記載のコーヒー飲料製造装置であって、
前記表示装置は、前記第二のデータの表示中に、前記第一のデータに切り替えることを促す報知を行うものである、
ことを特徴とするコーヒー飲料製造装置。 - 請求項1から3のいずれか一項に記載のコーヒー飲料製造装置であって、
前記表示装置は、コーヒー飲料の製造中に前記第一のデータを表示している状態から前記第二のデータを表示している状態に切り替え、該コーヒー飲料の製造が完了したときに該第二のデータを表示していた場合には、次のコーヒー飲料の製造開始時に前記第一のデータを表示するものである、
ことを特徴とするコーヒー飲料製造装置。 - 請求項1から4のいずれか一項に記載のコーヒー飲料製造装置であって、
前記データ群の中の一または複数のデータを、前記第一のデータとして設定可能なものである、
ことを特徴とするコーヒー飲料製造装置。 - 請求項1から5のいずれか一項に記載のコーヒー飲料製造装置であって、
前記データ群のそれぞれのデータの表示時間を記憶可能なものである、
ことを特徴とするコーヒー飲料製造装置。 - 請求項1から6のいずれか一項に記載のコーヒー飲料製造装置であって、
前記表示装置に表示中のデータに関する情報を、外部の装置に送信するものである、
ことを特徴とするコーヒー飲料製造装置。 - 請求項1から7のいずれか一項に記載のコーヒー飲料製造装置であって、
前記データ群は、コーヒー飲料の製造工程を説明するためのデータを含むものである、
ことを特徴とするコーヒー飲料製造装置。 - 請求項1から8のいずれか一項に記載のコーヒー飲料製造装置であって、
前記データ群は、コーヒー飲料のレシピの作成者を説明するためのデータを含むものである、
ことを特徴とするコーヒー飲料製造装置。 - 請求項1から9のいずれか一項に記載のコーヒー飲料製造装置であって、
前記データ群は、コーヒー飲料に用いるコーヒー豆を説明するためのデータを含むものである、
ことを特徴とするコーヒー飲料製造装置。 - 請求項1から10のいずれか一項に記載のコーヒー飲料製造装置であって、
前記表示装置は、前記コーヒー飲料の製造工程の進み具合に応じて、表示中のデータを前記データ群のうちの他のデータに切り替えることが可能なものである、
ことを特徴とするコーヒー飲料製造装置。
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CA3204085A CA3204085A1 (en) | 2020-12-03 | 2020-12-14 | Coffee beverage production device |
US18/254,509 US20240099502A1 (en) | 2020-12-03 | 2020-12-14 | Coffee beverage production device |
KR1020237019482A KR20230104702A (ko) | 2020-12-03 | 2020-12-14 | 커피음료 제조장치 |
CN202080107674.5A CN116670065A (zh) | 2020-12-03 | 2020-12-14 | 咖啡饮料制造装置 |
EP20964336.0A EP4257538A1 (en) | 2020-12-03 | 2020-12-14 | Coffee beverage production device |
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JP2015519262A (ja) * | 2012-03-16 | 2015-07-09 | スターバックス・コーポレイション | 飲料吐出システム用のダイナミックグラフィックディスプレイ |
JP2019030433A (ja) | 2017-08-07 | 2019-02-28 | 株式会社Tree Field | 粉砕装置及び飲料製造装置 |
JP2019509785A (ja) * | 2016-02-12 | 2019-04-11 | キュー・ビー・オー・コーヒー・ゲゼルシャフト・ミット・ベシュレンクテル・ハフツングQbo Coffee Gmbh | 飲料調製機 |
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WO2020121242A1 (en) * | 2018-12-13 | 2020-06-18 | Carimali S.P.A. Con Socio Unico | Automatic machine for dispensing beverages |
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JP7210954B2 (ja) * | 2018-09-14 | 2023-01-24 | 富士電機株式会社 | 飲料供給装置及び動画再生制御方法 |
JP7168225B2 (ja) * | 2019-12-11 | 2022-11-09 | 株式会社大都技研 | 抽出装置、抽出装置における表示方法、並びにシステム |
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JP2015519262A (ja) * | 2012-03-16 | 2015-07-09 | スターバックス・コーポレイション | 飲料吐出システム用のダイナミックグラフィックディスプレイ |
JP2019509785A (ja) * | 2016-02-12 | 2019-04-11 | キュー・ビー・オー・コーヒー・ゲゼルシャフト・ミット・ベシュレンクテル・ハフツングQbo Coffee Gmbh | 飲料調製機 |
JP2020513898A (ja) * | 2016-12-23 | 2020-05-21 | チボ ゲーエムベーハー | 飲料準備マシンを動作するための方法、飲料準備マシン、および動作機器を動作するための方法 |
JP2019030433A (ja) | 2017-08-07 | 2019-02-28 | 株式会社Tree Field | 粉砕装置及び飲料製造装置 |
WO2020121242A1 (en) * | 2018-12-13 | 2020-06-18 | Carimali S.P.A. Con Socio Unico | Automatic machine for dispensing beverages |
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US20240099502A1 (en) | 2024-03-28 |
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EP4257538A1 (en) | 2023-10-11 |
JP7144075B2 (ja) | 2022-09-29 |
CN116670065A (zh) | 2023-08-29 |
JP2022089054A (ja) | 2022-06-15 |
TW202222228A (zh) | 2022-06-16 |
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