WO2001096786A1 - Systeme de four a micro-ondes fonctionnant sur la base d'informations qu'il reçoit et four a micro-ondes - Google Patents
Systeme de four a micro-ondes fonctionnant sur la base d'informations qu'il reçoit et four a micro-ondes Download PDFInfo
- Publication number
- WO2001096786A1 WO2001096786A1 PCT/JP2001/004715 JP0104715W WO0196786A1 WO 2001096786 A1 WO2001096786 A1 WO 2001096786A1 JP 0104715 W JP0104715 W JP 0104715W WO 0196786 A1 WO0196786 A1 WO 0196786A1
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- WIPO (PCT)
- Prior art keywords
- microwave oven
- information
- heating
- dish
- cooking
- Prior art date
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Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24C—DOMESTIC STOVES OR RANGES ; DETAILS OF DOMESTIC STOVES OR RANGES, OF GENERAL APPLICATION
- F24C7/00—Stoves or ranges heated by electric energy
- F24C7/02—Stoves or ranges heated by electric energy using microwaves
-
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B6/00—Heating by electric, magnetic or electromagnetic fields
- H05B6/64—Heating using microwaves
- H05B6/66—Circuits
- H05B6/68—Circuits for monitoring or control
- H05B6/688—Circuits for monitoring or control for thawing
Definitions
- Microwave oven system which receives information and operates based on the received information and microwave oven
- the present invention relates to a microwave oven system and a microwave oven that operate based on received information, and particularly to a microwave oven system and a microwave oven that operate based on information received via a communication line.
- control information is also described in the case where it is cooking information relating to cooking.
- Cooking information desired by a force user is obtained from a homepage, supplied to a microwave oven as a home appliance,
- a microwave oven as a home appliance
- An object of the present invention is to provide a microwave oven system and a microwave oven with excellent practicality. Is to provide.
- a microwave oven system includes a communication line, an information processing device, a microwave oven communicating with the information processing device, and a host computer.
- the information processing device includes an output unit, an input unit operated externally, a transmission / reception unit for transmitting / receiving information via a communication line, and an information storage unit for storing various information including information received by the transmission / reception unit.
- the host computer has an information storage unit connected to the communication line and storing homepage information corresponding to a homepage screen displayed on the output unit.
- the homepage information includes information on multiple dishes, dish data corresponding to each of multiple dishes including a heating control code common to different types of microwave ovens for cooking dishes, and cooking information.
- the information includes a transfer instruction button operated via the input unit to transfer data to the information processing device via the communication line.
- the microwave oven has a procedure storage unit that indicates a procedure suitable for the type of the microwave oven for performing the heating operation and stores a plurality of types of procedure information specified by the heating control data.
- the microwave oven heats and cooks a desired food among a plurality of foods in the homepage information
- the microwave oven reads out from the procedure storage unit based on the heating control code corresponding to the desired food supplied from the information processing device.
- the heating operation is performed according to one or more types of procedure information.
- a microwave oven system includes a communication line, an information processing device, a microwave oven that performs a heating operation for heating and cooking a dish, a relay device, and a host computer.
- the information processing apparatus includes an output unit, an input unit operated externally, and a transmission / reception unit that transmits / receives information via a communication line.
- the relay device has an information storage unit, and in order to relay information transmitted between the electronic range and the information processing device, the electronic range is provided at one end and the information processing device is provided at the other end.
- the host computer is connected to a communication line and has an information storage unit for storing homepage information corresponding to a homepage screen displayed on the output unit.
- the homepage information includes information on multiple dishes and multiple dishes that include a common heating control code between different types of microwave ovens for cooking dishes.
- the information includes the corresponding dish data and information on a transfer instruction button operated via the input unit to transfer the dish data to the information processing device via the communication line.
- the microwave oven has a procedure storing section in which a plurality of types of procedure information specified by the heating control code are stored, indicating a procedure suitable for the type of the microwave oven for performing the heating operation.
- the microwave oven stores the procedure storage unit based on the heating control code of the desired dish supplied from the information processing device via the relay device. The heating operation is performed according to one or more types of procedure information read from the.
- the cooking data of each of a plurality of dishes in the home page information includes a heating control code common to different types of microwave ovens.
- a desired dish of a plurality of dishes in the homepage information is heated and cooked, it is read from the procedure storage unit while being specified by the supplied heating control code of the desired dish.
- the heating operation is performed according to one or more types of procedure information.
- the procedure information specified by the heating control code to execute the heating operation indicates a procedure suitable for the model of the microwave oven. And excellent in practicality.
- the microwave oven further has a movable heater, and the plurality of types of procedural information include information indicating a moving amount of the heater. Is also good.
- the amount of movement of the heater is not a physical value but can be specified by the heating control code. Can be reduced, and data can be supplied (down-loaded) quickly.
- the microwave oven further has a heating control code storage section in which a heating control code is pre-written corresponding to each of one or more dishes which can be heated and controlled by the microwave oven.
- a heating control code storage section in which a heating control code is pre-written corresponding to each of one or more dishes which can be heated and controlled by the microwave oven.
- the microwave oven stores a procedure based on the heating control code corresponding to the predetermined dish read from the heating control code storage unit.
- the heating operation may be performed according to one or more types of procedure information read from the unit.
- the microwave oven uses not only the heating control code supplied (downloaded) from the home computer information of the host computer, but also the heating control code corresponding to a predetermined dish stored in the internal heating control code storage section.
- the predetermined dish can be heated and cooked according to an optimal procedure unique to the model.
- the heating control code storage unit is configured such that the heating control code corresponding to the selected dish is arbitrarily added in association with the selected dish. You may.
- the heating control code corresponding to the dish selected from one or more dishes that can be cooked by the microwave oven can be additionally stored in the heating control code storage unit in association with the selected dish. . Therefore, the heating control codes corresponding to all the dishes that can be cooked by the microwave oven can be additionally stored in the heating control code storage section. Heating can be performed simply by reading out the heating control code, which is easy to use.
- the selected dish may be a desired meal of a plurality of dishes. Therefore, is it possible to add and store the heating control code supplied (downloaded) from the host computer homepage information in the heating control code storage unit in association with the desired dish? Therefore, when heating the desired dish, the corresponding heating control code need only be read out from the heating control code storage unit. Therefore, the trouble of supplying (downloading) from homepage information can be omitted.
- a microwave oven is a microwave oven that performs a heating operation to heat and cook a dish, and is as follows.
- a code storage unit storing a common heating control code between different types of microwave ovens for heating and cooking the dishes, and the electronic storage for executing a heating operation.
- a procedure storage unit in which a plurality of types of procedure information indicating procedures suitable for the range model are stored.
- the microwave oven performs a heating operation according to one or more types of procedure information read from the procedure storage section based on a heating control code in a code storage section corresponding to a dish selected by an external operation among a plurality of dishes. Execute.
- heating control code for a dish
- the procedure information specified by the heating control code to execute the heating operation indicates a procedure suitable for the model of the microwave oven. It can be performed and has excellent practicality.
- the plurality of types of procedure information include one or more types of heating sequence information.
- the heating sequence information consists of a combination of one or more types of sequences suitable for the type of the microwave oven for performing the heating operation. Therefore, based on the heating sequence suitable for the type of microwave oven, it is possible to always perform the optimal heating cooking unique to each model.
- the combination of one or more types of sequences indicated by the heating sequence information includes one or more types of parameters for controlling the sequences.
- the value of one or more parameters is variably adjusted according to the specified amount.
- the heating operation according to the sequence is more accurate, and according to the cooking target, Since the sequence control parameter value can be variably adjusted according to the specified amount so that it can be flexibly adjusted, it is possible to always obtain an appropriate cooking state while being excellent in convenience.
- the one or more parameters may further include a period parameter indicating a period of the heating operation.
- the period parameter value indicating the heating operation period for sequence control is variably adjusted according to the specified amount so that the heating operation according to the sequence can be performed more accurately and flexibly according to the cooking target. it can.
- the arbitrary amount may be common between different types of microwave ovens, or may be different for each type of microwave oven.
- the above-mentioned microwave oven further includes a receiving unit that receives cooking information including a heating control code corresponding to a desired cooking supplied via a communication network, and the code storage unit includes a target to be selected by an external operation.
- a heating control code may be stored for each of the one or more dishes to be removed.
- the code storage unit stores, in other words, the heating control code corresponding to each of one or more dishes to be excluded from selection by the external operation, for example, to the desired dish received by the receiving unit.
- a corresponding heating control code can be stored.
- the above-mentioned microwave oven may further include a movable heater, and the plurality of types of procedure information may include information indicating a moving amount of the heater.
- the amount of movement of the heater can be specified by a heating control code instead of a physical value. Therefore, it is convenient to collectively specify a plurality of types of procedure information including the amount of movement of the heater by the heating control code.
- FIG. 1 is a schematic configuration diagram of a microwave oven system according to Embodiment 1 of the present invention.
- FIG. 2 is a diagram showing a block configuration of each unit in FIG.
- FIG. 3 is a diagram showing the contents stored in the memory 11A of FIG.
- FIGS. 4A and 4B are diagrams showing examples of the contents of the heater descent time tables 114 in FIG.
- FIG. 5 is a flowchart showing heating control of a standard dish “boiled vegetables” in a certain type of microwave oven.
- FIG. 6 is a heating control chart when “simmering” cooking is performed in a certain type of microwave oven.
- FIG. 7 is a flowchart when the heating patterns shown in FIGS. 5 and 6 are combined.
- FIG. 8 is a flowchart in which the cooking time is uniformly increased or decreased in the basic heating pattern of “boiled vegetables” according to the second embodiment.
- Fig. 9 shows the standard cooking name according to the second embodiment.
- the heating cooking time is captured in consideration of keywords such as “strong” and “weak”. This is a corrected flowchart.
- FIG. 10 is a processing flow chart in the case where the standard cooking name H N “hamburger” is designated and heating cooking is performed in the third embodiment.
- FIG. 11 is a diagram showing an example of a home page screen displayed according to the home page information stored in the home page storage section 421 of the host computer 4 in FIG.
- FIG. 12 is a diagram showing an example of a homepage screen displayed according to the homepage information stored in the homepage storage section 421 of the host computer 4 in FIG.
- FIG. 13 is a diagram showing an example of a home page screen displayed according to the home page information stored in the home page storage section 421 of the host computer 4 in FIG.
- FIGS. 14A and 14B are diagrams showing homepage information including the dish information MI about each dish created in the host computer 4.
- FIG. 15 is a flowchart showing an outline of operations relating to downloading of cooking information in the personal computer 2 of FIG.
- FIG. 16 is a flowchart showing an outline of the operation of the relay box 3 of FIG.
- FIG. 17 is a flowchart schematically showing the operation of the microwave oven shown in FIG.
- FIGS. 18A to 18D are diagrams illustrating examples of display screens on the microwave oven side in the flowchart of FIG.
- FIG. 19 is a diagram showing an example of the contents stored in the memory 31 on the relay BOX side in the flowchart of FIG.
- FIGS. 20A and 20B are diagrams illustrating another example of the dish information MI about each dish created in the host computer 4 and information set in the microwave oven 1.
- FIGS. 21A and 21B are diagrams showing another example of the dish information MI about each dish created in the host computer 4 and information set in the microwave oven 1.
- FIG. 22 is a diagram showing a state in which a new heating pattern code is registered in the memory 11 B of the microwave oven 1 of the model A.
- FIG. 23 is a diagram showing a state in which a new heating pattern code is registered in the memory 11 B of the microwave oven 1 of the model B.
- FIG. 24 is a schematic configuration diagram of a microwave oven system according to Embodiment 6 of the present invention.
- FIG. 25 is a diagram showing a block configuration of the microwave oven 1A and the personal computer 2A in FIG. BEST MODE FOR CARRYING OUT THE INVENTION
- FIG. 1 is a schematic configuration diagram of a microwave oven system according to Embodiment 1 of the present invention.
- FIG. 2 is a diagram showing a block configuration of each unit in FIG.
- the microwave oven system is connected to the Internet 5 outside the home
- a microwave oven 1 is installed in the house, a personal computer 2 connected to the Internet 5 via a modem 6, and a signal between the personal computer 2 and the microwave oven 1 is converted.
- a relay device for relaying communication while connecting the two, and a relay BOX 3 supplied with power from an AC adapter 8 is provided.
- the microwave oven 1 and the relay box 3 are detachably connected via a three-wire cable 9.
- a connector CN at one end of the three-wire cable 9 is connected to an input / output terminal (not shown) of the microwave oven 1 as shown.
- the personal computer 2 and the relay BOX 3 communicate with each other in the house according to RS-232C, they are detachably connected via the RS-232C cable 7.
- the personal computer 2 may be a portable information processing terminal device.
- the host computer 4 stores various information including a processing unit 41 for centrally controlling and managing the host computer 4 itself, and information for configuring a home page screen (hereinafter, referred to as homepage information).
- a memory 42 having a homepage storage section 421, which is a memory area, an input section 43, an output section 44, and a communication section 45 for communication-connecting the Internet 5 with the host computer 4.
- the host computer 4 functions as a server for supplying homepage information to an external information processing terminal device including the personal computer 2 via the Internet 5.
- the Internet 5 is mentioned as a communication network for accessing information registered in the host computer 4, the present invention is not limited to this. That is, it may be a dedicated or public communication network.
- the microwave oven 1 includes a control unit 10A and a heating unit 10B.
- Control unit 1 is a control unit 10A and a heating unit 10B.
- OA is a microcomputer 10, for example, a memory 11 A composed of a mask ROM (short for read-only memory), for example, a memory 11 B composed of a non-volatile memory, an LCD (liquid crystal display) panel 13, a LCD, No. LCD driver 1 2 for driving channel 1 3 Connector I / O terminal connected to CN No. F section (abbreviation of interface) 14, input section 15 that can be operated externally, and power supply circuit 16 for supplying power to each section of microwave oven 1 are included.
- the input unit 15 and the LCD panel 13 constitute a touch panel provided integrally.
- Microwave oven 1 will be improved in various functional aspects during the product development process. As a result, even when cooking the same dish, the method of heating, the output level for heating (power level, temperature, etc.), the heating time, etc., differ for each model of microwave oven 1. Accordingly, the microwave oven 1 stores information for cooking adapted to the model of the microwave oven 1.
- the heating unit 10B performs a heating operation for heating cooking according to the information stored in the memory 11A or 11B under the control of the microcomputer 10.
- the heating section 10B has a sensor section 60, a buzzer 61, a relay 62, and a turntable motor 63 controlled by the microcomputer 10 via a relay 62, etc.
- the heating operation in the heating unit 10B follows a well-known technique, and therefore detailed description is omitted.
- the personal computer 2 has a CPU (abbreviated central processing unit) 20, a non-volatile memory 21 for storing information including various programs, a display unit 22, an output unit 23, an externally operable input unit 24, and an RS-232. Includes RS-232 C port 25 for connecting C cable 7 and CPU 20 and 1/26 for connecting modem 6 and CPU 20.
- a CPU abbreviated central processing unit
- the middle and junction BOX 3 is composed of a microcomputer 30, for example, a memory 31 composed of a flash memory, a transmission / reception unit 32 for connecting the RS-232C cable 7 to the microcomputer 30, a three-wire cable 9 and the microcomputer 30. It includes an IZF section 33 for connection and a power supply circuit 34 for supplying power to each section.
- the microcomputer 30 is configured to include a CPU and a memory (not shown).
- UART Universal Asynchronous Receiver Transmitter
- the microwave oven 1 can directly communicate with the personal computer 2. it can.
- a predetermined program PRO for receiving cooking information matching the model of the microwave oven 1 used by the user from the memory 42 of the host computer 4 and downloading the cooking information to the memory 11 of the microwave oven 1 is a personal computer. Stored in memory 21 of computer 2.
- the microwave oven 1 provides cooking information of various cooking dishes (such as information for boiling, warming and thawing, etc. ).
- the dish information uniquely provided in this standard is hereinafter referred to as standard dish information, and the name of the dish corresponding to the standard dish information is referred to as a standard dish name.
- FIG. 3 is a diagram showing the contents stored in the memory 11A of FIG.
- the memory 11A stores a heating block data group 111, a pattern data group 112, a heating mode data group 113, and a heater descent time table 114.
- a standard dish name H N and a heating pattern code H P C are registered for each of a plurality of standard dishes.
- “*” is added to “Apple pie”, and it is instructed that this standard dish is included in the back menu described later.
- other standard dishes are included in the table menu described later.
- the same heating pattern code HPC is applied to different models of the microwave oven 1 with the same cooking name.
- the sequence indicated by the heating pattern data FLi may indicate a sequence based on a combination of a plurality of different heating pattern data FLi.
- the heating mode code MODi for uniquely specifying the heating mode to be executed is registered.
- the oven temperature data HET, the heating time (second) data HTM, and the microwave output level MOL are registered.
- Oven temperature data HET indicates the temperature of the oven due to heating of heater 64 in the operation mode.
- Heating time (seconds) Data HTM indicates a time period for heating cooking using the heater 64 or the magnetron 65 in the operation mode.
- the microphone mouth wave output level MOL indicates the microwave output level of the magnetron 65 in the operation mode.
- a code indicating each mode of the toaster, the range, the oven, and the grill is assigned as the heating mode code MODi.
- FIGS. 4A and 4B are diagrams showing examples of the contents of the heater descent time tables 114 in FIG.
- FIG. 4A shows the contents of the heater descent time table 1 14 when the type of the microwave oven 1 is “A”.
- FIG. 4B shows an example of the contents of the heater descent time table 1 14 when the model of the microwave oven 1 is “B”.
- the heater 64 in the oven of the microwave oven 1 can be lowered. For example, if the amount of descent is controlled by the drive time of the heater 64 for descent, the heater 64 It is possible to manage the amount of decrease in the dish name MN as a keyword instead of a specific drive time value.
- a dish name MN In each of the heater descent time tables 1 14 in FIGS. 4A and 4B, a dish name MN, a heater position code HLC, and a heater descent time data HDT are registered in association with each of a plurality of types of dishes. .
- the heater position code HLC which is a value common to different types of electronic range 1 for the same dish name MN, is information for uniquely specifying the corresponding heater descent time data HDT.
- Heater descent time data HDT indicates that when the dish with the corresponding dish name MN is cooked in the microwave oven 1 using the heater 64, the heater 64 starts descending from the predetermined initial position and the heating is started. It indicates the drive time for the heater 64 to descend until it descends to the appropriate position for the end of the descent.
- the corresponding heater descent time data HDT differs even when cooking the dish with the dish name MN.
- the dish name indicated by arrow A is MN ("toast")
- the microwave oven 1 of model A is 107
- the heater descent of microwave oven 1 of model B The time data HDT is 1 3 3.
- a menu consisting of a plurality of standard dish names HN that can be selected by the user by externally operating the input unit 15 of the microwave oven 1 is called a “front menu”, and a menu that cannot be selected is called a “back menu”.
- the corresponding heating pattern data FLi, mode data MDi and heater fall time data HDT are specified,
- the corresponding standard dish can be cooked in the microwave oven 1 based on the read data, but the heating pattern code HPC corresponding to the standard dish name HN registered as the back menu is used. Even with the microwave oven 1, the dish cannot be cooked.
- the standard dish name HN (“Apple pie”) indicated by the arrow A is registered as the back menu, but in the microwave oven 1 of the model “B”, for example, “ Bread, chiffon cake and sponge cake "may be registered as back menu. Since the heating function differs for each model of the microwave oven 1 as described above, the standard dish name H N registered as the back menu differs for each model.
- microwave oven 1 Even if the standard dish name HN of such a back menu cannot be selected from the input section 15 of the microwave oven 1, let the new microwave cooking operation be performed on the microwave oven 1 via the Internet 5 or the like. It is desirable to store in advance in the microwave oven 1 data on all of the heating patterns for the basic cooking, assuming that it is used for the following purpose. Therefore, in microwave oven 1, the dishes on the back menu cannot be selected, but the corresponding heating pattern code HPC, heating pattern data FL1, heater descent time data HDT and heating mode data MDi are stored in memory 1 1 It is registered in A in advance.
- cooking is done by basic actions such as “boil vegetables, defrost meat, boil, boil ingredients, stir ingredients and turn over ingredients”, and variations and combinations of these basic actions. Therefore, for each model of microwave oven 1,
- Fig. 5 is a flow chart showing the heating control of a standard dish "boiled vegetables” in a certain type of microwave oven.
- the corresponding heating pattern code HPC of the heating block data group 1 1 1 1 Based on this, the corresponding heating pattern data FLi, heating mode data MDi and heater descent time data HDT are read out as required, and these read out data are set, and the corresponding heating pattern read out.
- the sequence of the heating operation of FIG. 5 according to the data FL i is started under the control of the microphone computer 10.
- Step S is simply abbreviated as S.
- a weight sensor (not shown) in the sensor section 60 measures the weight of ingredients (vegetables) including the dishes put in the oven of the microwave oven 1, and the measured weight is stored in a variable G. (S3a).
- the variable G is substituted into the formula “A 1 XG + B” dedicated to “boiled vegetables,” and the ideal heating time according to the amount of vegetables in the microwave oven 1 is calculated. The calculated value is set to the variable T i 1 (S 4 a).
- the heating cooking using the microphone mouth wave is continued until the value of the variable T i 1 becomes 0, and when the variable T i 1 ⁇ 0, the magnetism is reduced.
- the microwave output by the tron 65 is turned off, and the cooking is completed (S5a to S7a).
- the sequence according to the flow chart of FIG. 5 is as follows.
- the heating pattern data FL i is stored in advance in the pattern data group 112 of the memory 11A as one heating pattern data FL i. Is done. This storage is performed, for example, when the microwave oven i is shipped from the factory.
- FIG. 6 is a flowchart of heating control when “simmering” cooking is performed in a certain type of microwave oven 1.
- the sequence according to the flowchart shown in FIG. 5 is registered in advance as heating pattern data FLi.
- the corresponding heating pattern data FL i is obtained based on the corresponding heating pattern code HPC.
- the heating mode data MD i and the heater fall time data HDT are read out as needed, these read out data are set, and the heating operation data in FIG. 6 according to the corresponding heating pattern data FL i is set.
- One case is started under the control of the microcomputer 10.
- a weight sensor (not shown) in the sensor unit 60 measures the weight of food including the tableware put in the oven of the microwave oven 1, and the measured weight is a variable G. (S la and S 2 a).
- variable G for which the weight is set is substituted into the calculation formula “A 2 XG + B 2” dedicated to the standard dish “simmered”, and the variable G according to the amount of the ingredients in the microwave oven 1 is stored.
- the cooking time data for the imaginary stew is calculated based on the formula, and set to the variable T i 2.
- the magnetron 65 is driven to generate a microwave (S3 and S4).
- time data (for example, 32 seconds) indicating a fixed period for determining ON / OFF of energization of the magnetron 65 is set to the variable C (S5).
- the countdown of the variables T i 2 and C is repeated until the value of the variable T i 2 becomes zero (1 ⁇ ⁇ at 36, S 7).
- the magnetron 65 is energized, the microwave output is continued, and the heater 64 is turned off (0 1 ⁇ , S 10 at 38).
- Magnetron 6 5 is de-energized, the microwave output is turned off, and the heater 64 is energized and turned on, and control is performed so that the power for heating is reduced, and the heating for stewing is performed. (YES at S8, S9).
- a sequence according to such a flow chart is previously defined as one heating pattern data FL i for performing the stew control in the microwave oven 1.
- the pattern data group 1 in the memory 11 A is stored in advance. Register in 1 and 2.
- FIG. 7 is a flowchart when the heating patterns shown in FIGS. 5 and 6 are combined.
- FIG. 7 shows a flow chart for heating control when cooking the standard dish name HN "Stew".
- the user operates the input unit 15 of the microwave oven 1 to specify the standard dish name HN “Stew” and instructs the start of heating cooking, and the corresponding heating pattern code HP C is set to the heating block data group.
- the heating pattern data FLi, the mode data MDi and the heater descent time data HDT are read as necessary.
- Various data are set in the microwave oven 1 based on the data, and heating cooking according to the sequence indicated by the read heating pattern data FLi is started.
- the heating pattern data FLi as shown in FIG. 7 is read.
- the heating pattern data FLi unique to the model of the microwave oven 1 can be used in combination to form a heating sequence for the standard cooking.
- the values of various variables A 1, Bl, A 2, and B 2. for sequence control are values specific to the type of microwave oven 1.
- the optimal heating time (T i 1) is calculated based on the measured weight (G) of the foodstuff. This is equivalent to the correction based on the basic heating control procedure of the microwave oven 1. Without this correction, the amount of ingredients displayed by microwave oven 1 or the quantity of ingredients listed in the cookbook of microwave oven 1 must be observed, and the cooking time will always be the same. However, it cannot be corrected for optimal cooking.
- FIG. 8 is a flowchart in which the cooking time is uniformly increased or decreased in the basic heating pattern of “boiled vegetables” according to the second embodiment.
- the heating cooking time is increased or decreased by 10% in common with each model of the microwave oven 1 with respect to that of the basic heating pattern data FLi.
- the magnetron 6 5 is energized, microwaves are output, the weight of food is measured, and the basic heating pattern data FL i is calculated using the formula (A l XG + B 1) dedicated to “boiled vegetables”. Then, the cooking time (T il) corresponding to is calculated (S1a to S4a).
- the microcomputer 10 calculates “1.1 XT 11 1” if the key word “time increase” is included in the designated standard dish name HN, and calculates the key number. If the “time reduction” is included, the calculation of “0.9 XT i 1” is performed, and the calculation result is finally determined as the cooking time data T i 1 (S20 to S23). ). After that, as in Fig. 5, cooking proceeds while counting down the variable Ti1 indicating the cooking time, and when Ti1 ⁇ 0, the microwave output by the magnetron 65 is turned off. To complete the heating (S5a to S7a). In the flowchart of FIG.
- the cooking time data T i 1 is increased or decreased by a value (10%) uniformly set between different models in the microwave oven 1, but the basic heating pattern data FL
- the cooking time data T i 1 of 1 may be corrected using an arbitrary coefficient. This arbitrary coefficient is set individually for each model of the microwave oven 1. Further, the arbitrary coefficient may be different for each cooking name cooked in the microwave oven 1.
- Fig. 9 shows the basic cooking pattern data FLi for the standard cooking name HN "boiled vegetables” according to the second embodiment, in which the heating cooking time is corrected in consideration of keywords such as “strong” and “weak”. It is a flow chart.
- the user operates the input unit 15 of the microwave oven 1 to operate the standard dish name HN.
- magnetron 65 is energized to measure the weight of ingredients, and the formula is calculated using the special formula for “boiled vegetables”.
- the calculated weight value (G) is substituted, and the cooking time (T il) corresponding to the basic heating pattern data FL i is calculated (S la to S 4a;).
- the standard dish name HN specified via the input unit 15 includes the keyword “strong setting”, the calculation of “(1 + a) XT i 1” is performed, and the keyword “weak setting” is performed.
- the heating output can be strongly or weakly controlled by correcting the cooking time data Ti1.
- FIG. 10 is a processing flowchart in the case where the standard cooking name HN “Hamburger” is designated and heating cooking is performed in the third embodiment.
- the user when the user operates the input unit 15 of the microwave oven 1 to designate the standard dish name HN “Hamburger” and instructs to start heating, the user operates the input unit 15 based on the corresponding heating pattern code HPC. , The corresponding heating pattern data FLi, the heating mode data MDi and the heater descent time data HDT are read out as necessary, these read-out data are set, and the corresponding heating pattern data FLi is used.
- the sequence of the heating operation in FIG. 10 is opened under the control of the microcomputer 10.
- the heater 64 is energized to start the heating operation. Thereafter, the weight of the food is measured, and the weight obtained by the measurement is set to the variable G, and then the cooking is performed using the variable G.
- the time data is calculated using “A3 XG + B 3” and set to the variable Ti 3 (S30 to S33).
- the heater 64 S is applied to the food in order to obtain a better finish.
- the cooking is performed by being fixed at an appropriate position.
- Heater descent time data HDT is required. Specifically, for example, if the microwave oven 1 is model A, the standard cooking name HN “Hamburger” in table 114 in FIG. 4A is specified by the corresponding heating pattern code HPC.
- the heater position code HLC to be used is “H—HMGB” in arrow B in FIG.
- the heater descent time data HDT (47 units) (1 unit is 2 Oms ec, for example)
- the heater descent time data HDT (99 units) is read in the same manner as in Table 1 14 in FIG. 4B and set to the variable T ht. (S34).
- a motor for lowering the heater 64 (not shown) is driven via a relay or the like 62, so that the heater 64 is lowered while the variable Tht is counted down.
- the descent of the heater 64 stops.
- the heater 64 is fixed at an appropriate position (S35 to S37).
- the movable amount of the movable heater 64 is not a physical quantity such as time, but a microwave oven specified by the heating pattern code HPC.
- the heater position code HLC for the same standard dish name HN can be shared between different models of the microwave oven 1.
- FIGS. 11, 12, and 13 show examples of a home page screen displayed according to the home page information stored in the home page storage section 42 1 of the host computer 4 in FIG.
- FIGS. 11, 12, and 13 show screen examples of a homepage provided by the present applicant via the Internet.
- the homepage screen shown in FIG. 11 is displayed on the output unit 23 of the personal computer 2.
- the item indicated by the arrow A on the home page screen in FIG. 11 (the item indicates “microwave oven”)
- the homepage screen in Fig. 12 shows the daily dishes of June in a calendar-style format.
- a homepage screen having the title “June menu calendar 1” is shown.
- a monthly menu power calendar for one year is specified.
- One is shown on the homepage screen.
- the homepage in FIG. 12 displays a video showing the finished state of the specified dish ("tofu hamburger”), information on ingredients, and information on how to make it.
- the homepage screen of Fig. 13 prepared in advance, for example, one year's worth of dishes shown on the homepage screen of Fig. 12 is shown above.
- Homepage information is prepared in advance in the homepage storage section 4 21.
- the host computer 4 responds via the Internet 5 in response.
- a dedicated program PRO for enabling a function corresponding to a click on the item indicated by the arrow A in FIG. 13 is installed in advance.
- FIGS. 14A and 14B are diagrams showing homepage information including dish information MI about each dish created in the host computer 4.
- the homepage information HMD shown in the figure is information corresponding to the homepage screen shown in Fig. 13 and is displayed on the homepage screen and displayed on the screen data DS15 and the microwave oven 1 for composing the homepage screen.
- the cooking information MI consisting of the heating pattern code DS141 for controlling the heating operation of the display data DS13 and the microwave oven 1.
- the screen data DS15 is data constituting a screen displayed to the user on the homepage screen in Fig. 13, and an item indicated by an arrow A in Fig. 13 ("Download cooking data") is Corresponds to the transfer button B1 in the screen data DS15 of Fig. 14A.
- the display data D S 13 includes a dish name MN of the corresponding dish, material data ID indicating necessary ingredients, and recipe data J D indicating a recipe procedure.
- the material data ID and the preparation data JD are data prepared in advance in the host computer 4 according to a predetermined procedure.
- FIG. 14B shows a data list obtained by format conversion of the cooking information MI shown in FIG. 14A.
- the data content DC, the address AD, and the capacity CA are shown for each of a plurality of types of data constituting the cooking information MI.
- the display data DS 13 of FIG. 14A and the heating pattern code DS 14 1 are respectively processed by the processing unit 41 of the host computer 4 as shown in FIG.
- the data is converted into data in a format recognizable by the computer 10 and stored in the homepage storage section 42 1.
- Data content DC is data DC11 of data code, last address and model code, start address DC2 of dish name and heating data, top of screen page address information Z last address DC3, processing name MN, heating pattern code DS141, screen page address information DC4 and display data DS13.
- the processing unit 41 determines whether the transfer button B1 is clicked and a download request is made, and when it is determined that the transfer button B1 is clicked, the accessed homepage information HMD The corresponding cooking information MI is downloaded to the personal computer 2.
- FIG. 15 is a flowchart showing an outline of an operation relating to downloading of cooking information in the personal computer 2 of FIG.
- the user at home operates the input unit 24 of the personal computer 2 to access the host computer 4 of the home page via the Internet 5 (step Fl in FIG. 15).
- Homepage information in the homepage of the host computer 4 Homepage information in the storage unit 4 21
- Home screen including HMD screen data DS15 The data for the home screen is transmitted to the personal computer 2, and the home page screen of FIG. 11 is displayed on the output unit 23 (F2).
- the screen switches and the homepage screen of Fig. 12 is displayed (F3 and F4). .
- the user clicks the item “download cooking data” indicated by the arrow A in FIG. 13 in the input unit 24 the corresponding display data in the homepage storage unit 421 in the host computer 4 shown in FIGS.
- the cooking information Ml including the DS 13 and the heating pattern code DS 141 is transmitted to the personal computer 2 and temporarily stored in the memory 21 (F8, F9).
- the dedicated program PRO By installing the dedicated program PRO from the homepage attached to the purchased relay BOX 3 in the memory 21 of the personal computer 2, the function by operating the transfer button B1 on the home page screen becomes effective.
- the dedicated program PRO automatically specifies the cooking information MI to download and the storage location of the downloaded cooking information MI, and downloads the cooking information MI with a single click of the transfer button B1. In addition to having the function of transmitting the cooking information MI once stored in the personal computer 2 to the relay BOX3.
- FIG. 16 is a flowchart showing an outline of the operation of the relay box 3 in FIG.
- a communication request is transmitted from the personal computer 2 to the relay BOX 3, and the display and heating data are transmitted from the personal computer 2 according to the RS-232C method.
- Receiving the cooking information MI consisting of the DS 13 and the coconut heat pattern code DS 141, the transmission / reception section 32 of the relay BOX 3 and the microphone port computer It is stored in the memory 31 via 30 (F10 to F12 in FIG. 16). After that, the microphone computer 30 sends an information storage completion notification to the microwave oven 1 that the storage of the cooking information has been completed (F122).
- the memory 31 can store dish information MI about a plurality of dishes.
- the microcomputer 30 of the relay BOX 3 In response to a request from the microcomputer 10 of the microwave oven 1, the microcomputer 30 of the relay BOX 3 sends all the cooking names MN stored in the memory 31 to the microcomputer 10 of the microwave oven 1 via the cable 9. (F13 and F14).
- the microcomputer 30 in the BOX 3 electronically displays the display data DS 13 and the heating pattern code DS 141 corresponding to the specified dish name MN from one or more dish information Ml stored in the memory 31.
- the signal is transmitted to the microcomputer 10 in the range 1 (F16).
- FIG. 17 is a flowchart schematically showing the operation of the microwave oven shown in FIG. Figure 1
- FIGS. 8A to 18D are diagrams illustrating examples of display screens on the microwave oven side in the flowchart of FIG.
- FIG. 19 is a diagram showing an example of the contents stored in the memory 31 on the relay BOX side in the flowchart of FIG.
- FIGS. 18A to 18D show examples of display screens of a touch panel in which the input unit 15 and the LCD panel 13 of FIG. 2 are integrally formed.
- the initial screen of Fig. 18A the standard dishes HN that can be cooked in the microwave oven 1 are listed.
- the Internet key 174 is displayed on the screen of FIG. 18B. It is displayed and operated.
- the screen of FIG. 18C is displayed.
- a list of dish names MN received from the relay BOX 3 is displayed according to the procedure of FIG.
- each dish information MI includes a dish name MN, ingredient data ID, recipe data JD, and a heating pattern code DS141.
- the relay BOX 3 is connected to the microwave oven 1.
- an information storage completion notification is sent from the microcomputer 30 of the relay BOX 3 via the cable 9. It is transmitted to the microcomputer 10 of the microwave oven 1.
- the microphone computer 10 receives the information storage completion notification, and as shown in FIG. 18B, the display mode of the Internet key 174 is changed by, for example, reverse display. The user can know that the cooking information Ml has already been stored in the memory 31 of the relay box 3 according to the change of the display mode of the Internet key 174 (F163).
- the user checks the display mode of the Internet key 174 in FIG. 18B indicating that the cooking information Ml is already stored in the memory 31 of the relay BOX 3, and operates the Internet key 174.
- the microcomputer 10 requests all the cooking names MN from the microcomputer 30 of the relay box 3 via the cable 9 (F17, F18) o
- Microcomputer 30 responds to all dishes MN's request and Since all the dish names MN are read from the memory 31 and transmitted to the microwave oven 1 via the cable 9, the microcomputer 10 of the microwave oven 1 receives all the dish names MN i and as shown in FIG. 18C.
- Display on LCD panel 13 (F19 to F20)
- the user operates the dish name MN (for example, the dish name MN indicates "tofu hamburger") indicated by an arrow A, for example, out of all the dish names MN displayed as shown in Fig. 18C.
- the microcomputer 10 requests the display data DS 13 and the heating pattern code DS 141 corresponding to the specified dish name MN (“tofu hamburger”) from the relay box 3 via the cable 9. (F21 and F22).
- the microphone mouth computer 30 of the relay BOX 3 responds to the dish name MN ("tofu hamburger") from the memory 31.
- the microcomputer 10 of the microwave oven 1 reads and transmits the display data DS 13 (dish name MN3, material data ID and recipe data JD) and the heating pattern code DS 141. Once the DS 141 is received, it is written and stored in the internal memory (F22 and F23).
- the microcomputer 10 displays the screen of FIG. 18D on the LCD panel 13 in order to prompt the user to input an instruction to start the heating of the specified dish (F24).
- the start key 173 of FIG. 18D is operated, heating cooking by the heating unit 10B according to the heating pattern code DS141 is started.
- the dish name MN, ingredient data ID, and recipe data JD in the received display data DS 13 are displayed in the dish name display area 175, ingredient display area 176, and recipe display area 177, respectively.
- FIG. 14A and FIG. 14A are identical to FIG. 14A and FIG.
- the heating pattern code DS 141 is included, and the microwave oven 1 that receives the heating pattern code DS 141 receives the heating pattern data FL i and the heating pattern data indicated by the received heating pattern code DS 141.
- Mode data MD 1 and heater position data HDT are read from memory 11 A as required and read. The heating operation is performed according to the data including the heating pattern data FLi.
- FIG. 2 OA and FIG. 20B are diagrams showing another example of the dish information MI about each dish created in the host computer 4 and information set in the microwave oven 1. If the dish name MN is “sponge cake” and the heating pattern code DS 141 is “M—S PONG”, the cooking information MI of OA is downloaded. Such a heating operation is performed.
- the microwave oven 1 receives the heating pattern code DS 141 given from the relay BOX 3 side, and converts the heat pattern data FL i indicated by the received heating pattern code DS 141 from the pattern data group 1 1 2
- the heating mode data MD i indicated by the heating pattern code DS 141 (M-S PONG) is read from the heating mode data group 113, and the read heating mode data MD is similarly read. Cooking is performed using i and the heating pattern data FL1. For example, if microwave oven 1 is model A, as shown in Fig.
- heating mode top and bottom fire oven
- heating time (seconds): Aa XG + Ba is obtained as data for cooking the sponge cake
- the optimum cooking is performed based on the obtained data and the sequence according to the read heating pattern data FL i.
- heating mode microwave and upper and lower heat Oven
- heating time (seconds): Ab XG + Bb and a microwave output level of 700 W were obtained as data for heating and cooking the sponge cake.
- the microwave oven 1 Optimal heating cooking is performed.
- FIGS. 21A and 21B are diagrams showing still another example of the dish information MI for each dish created in the host computer 4 and information set in the microwave oven 1.
- the cooking information Ml downloaded from the host computer 4 is such that the cooking name MN corresponds to “Hoinore Yaki” and the heating pattern code DS 141 is “M—HO IR: H—HO IR. Is set.
- Microwave oven 1 Cooking pattern code in Fig. 21 A MI in heating pattern code DS 141 When the heating cooking is performed according to the above, data corresponding to the heating pattern code DS141 is read from the memory 11A in the same manner as described above.
- the corresponding heating pattern data FL i is read from the pattern data group 112 based on the heating pattern code (M—HO IR), and the heating module The corresponding heating mode data MD 1 is read from the data group 113. Further, based on the heating pattern code (H—HO IR), the heater descent time data HDT indicated by the corresponding heater position code HLC is read from the heater descent time tape nozzle 114 (see FIG. 4A).
- microwave oven 1 of model A As a result, in the case of the microwave oven 1 of model A, as shown in Fig. 21B, "heating mode: toaster, heating time (seconds): Aa XG + Ba, heater descent time: 49 units” is heated. Obtained as data for cooking, and based on this data and the sequence of read-out heating pattern data FL i, the heater 1 for the optimal heating for “roll grilling” in the microwave oven 1 is used. The position is secured and cooking is performed.
- microwave oven 1 is B
- heating mode toaster
- heating time Ab XG + Bb
- heater descent time 90 units
- the heating is performed from the host computer 4 side via the Internet 5 via the personal computer 2 or the relay BOX 3 or the like.
- the pattern data can be downloaded and stored in the memory 11B of the microwave oven 1.
- the heating pattern method basically has heating control data that is optimal for each model of microwave oven 1, that is, heating pattern data FL i, heating mode data MD 1, and heater descent time data HDT. This is to specify the heating pattern code that is shared between the two. Therefore, here, it is specified by the heating pattern code DS 141 downloaded via the Internet 5. Heating pattern data FLi, heating mode data MDi and heater descent time data HDT are heating information limited to the model. By storing the new heating pattern code DS 14 1 downloaded from the home page of the host computer 4 in the memory 1 1 B of the microwave oven 1 in addition to the standard cooking menu in the microwave oven 1, A new menu using the heating pattern code DS144 stored in the storage device can be cooked.
- the storage of data in the memory 11B is performed as follows.
- the memory 31 of the relay BOX 3 stores the information shown in FIG. According to the format, the dish information MI of the desired dish is stored.
- the user confirms that the dish information Ml of the desired dish is stored in the memory 31 on the list display screen of the dish name MN in Fig. 18C, and inputs the desired dish name MN into the input section 15
- the request for the specified dish name MN and the corresponding heating pattern code DS1441 is transmitted to the relay BOX 3 by operating.
- the microcomputer 30 of the relay box 3 Since the microcomputer 30 of the relay box 3 receives this request, the microcomputer 30 reads out the requested cooking pattern MN and the corresponding heating pattern code DS 14 1 from the memory 31 and sends it to the microwave oven 1.
- the microcomputer 10 of the microwave oven 1 receives the requested cooking name MN and the corresponding heating pattern code DS1441, and writes it into the memory 11B.
- FIGS. 22 and 23 are diagrams showing a state in which new heating pattern codes are registered in the memories 11 B of the microwave ovens 1 of the model A and the model B, respectively. As shown in the figure, in the state where the standard dish name HN and the corresponding heating pattern code HPC are stored in the memory 11A, three new dish names MN indicated by arrows A, and The heating pattern code DS144 corresponding to is received and stored in the memory 111B.
- a corresponding heating pattern code is displayed.
- the HPC or DS 14 1 is read from the memory 11 A or 11 B, and the corresponding heating pattern data FL i and heating mode data MD 1 (heating time, heater 6) according to the read heating pattern code.
- 4 Oven temperature de And the descent time data HDT of the heater 64 are determined as necessary.
- FIG. 24 is a schematic configuration diagram of a microwave oven system according to Embodiment 6 of the present invention.
- FIG. 25 is a diagram showing a block configuration of the microwave oven 1A and the personal computer 2A of FIG.
- each of the microwave oven 1A and the personal computer 2A has an infrared receiving / emitting unit 66 and 27 for wireless communication by IrDA (Infrared Data Association) between the two.
- IrDA Infrared Data Association
- Microwave oven 1A and personal computer 2A in Fig. 24 are compared with microwave oven 1 and personal computer 2 in Fig. 2, respectively.
- the difference is that microwave oven 1A replaces IZF section 14 in Fig. 2.
- the Ir DAIZF section 141 associated with the infrared receiving / emitting section 66 is provided, and the personal computer 2A replaces the RS-232C port 25 in FIG.
- an Ir DAI section 25 1 is provided.
- Other configurations of the microwave oven 1A and the personal computer 2A are the same as those of FIG.
- the personal computer 2A is provided with the relay function described in each of the above embodiments. Since the function of BOX 3 is provided, even in such a configuration, The features shown in the form can be obtained. Here, a detailed description of the operation of the microwave oven system is omitted.
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- Physics & Mathematics (AREA)
- Electromagnetism (AREA)
- Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Electric Ovens (AREA)
Description
Claims
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP01934536A EP1291582A4 (en) | 2000-06-15 | 2001-06-04 | MICROWAVE OVEN SYSTEM BASED ON INFORMATION BASED ON IT AND MICROWAVE OVEN |
US10/275,625 US6936802B2 (en) | 2000-06-15 | 2001-06-04 | Microwave oven system operated based on received information received by it and microwave oven |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2000180039A JP3921036B2 (ja) | 2000-06-15 | 2000-06-15 | 電子レンジシステムおよび電子レンジ |
JP2000-180039 | 2000-06-15 |
Publications (1)
Publication Number | Publication Date |
---|---|
WO2001096786A1 true WO2001096786A1 (fr) | 2001-12-20 |
Family
ID=18681206
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
PCT/JP2001/004715 WO2001096786A1 (fr) | 2000-06-15 | 2001-06-04 | Systeme de four a micro-ondes fonctionnant sur la base d'informations qu'il reçoit et four a micro-ondes |
Country Status (6)
Country | Link |
---|---|
US (1) | US6936802B2 (ja) |
EP (1) | EP1291582A4 (ja) |
JP (1) | JP3921036B2 (ja) |
KR (1) | KR20030014268A (ja) |
CN (1) | CN1186563C (ja) |
WO (1) | WO2001096786A1 (ja) |
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Also Published As
Publication number | Publication date |
---|---|
EP1291582A1 (en) | 2003-03-12 |
CN1441891A (zh) | 2003-09-10 |
US20030141295A1 (en) | 2003-07-31 |
JP2001355856A (ja) | 2001-12-26 |
CN1186563C (zh) | 2005-01-26 |
KR20030014268A (ko) | 2003-02-15 |
US6936802B2 (en) | 2005-08-30 |
JP3921036B2 (ja) | 2007-05-30 |
EP1291582A4 (en) | 2004-12-29 |
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