JP3778728B2 - Microwave oven system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a microwave oven system for enabling control of a microwave oven in each home according to information supplied from a host computer via a communication line, and more particularly to a host computer having predetermined homepage information via the Internet. The present invention relates to a microwave oven system for accessing and enabling control of a microwave oven based on information from the host computer.
[0002]
[Background Art and Problems to be Solved by the Invention]
Japanese Patent Laid-Open No. 10-276478 discloses an apparatus for controlling household equipment in accordance with information given from an external communication network. In this gazette, each household electrical appliance is controlled from the host computer on the homepage via the Internet, a household electrical appliance control server, and a remote controller in the household electrical appliance control apparatus that controls various household electrical appliances in the home. A technique is shown that captures and achieves functions accordingly.
[0003]
This publication also describes the case where the control information is cooking information related to cooking. However, the cooking information desired by the user is obtained from a homepage and supplied to a microwave oven as a home appliance. No specific example of how the process for cooking is performed is shown in FIG.
[0004]
Therefore, an object of the present invention is to provide a microwave oven system having excellent practicality.
[0005]
[Means for Solving the Problems]
The microwave oven system according to claim 1 includes the Internet and A host computer connected to the Internet and having an information storage unit for storing homepage information corresponding to the homepage screen, and an output capable of outputting the homepage screen. An information processing unit including an information processing device that has a power unit and transmits and receives information via the Internet, and a microwave oven that performs a heating operation according to heating control data in supply information supplied from the information processing unit And Prepare. The homepage information includes a corresponding menu corresponding to each of the plurality of food menus. -At least one of how to make and materials It is operated to transfer menu data including explanatory information for explanation and heating control data for cooking the cooking menu recognized by the microwave oven and the menu data to the information processing apparatus via the Internet. Information of the transfer instruction button. And the microwave oven In the menu data supplied from the information processing unit when the transfer instruction button is operated The voice output unit for converting the content indicated by the explanation information into a voice signal and outputting the voice.
[0006]
This explanation information may be text data.
According to the first aspect, the user operates the transfer instruction button output on the homepage screen to transmit the heating control data corresponding to the desired cooking menu provided on the homepage via the Internet. Received by the information processing device and from the information processing device microwave Given Yeah Directly That is, the decoding process is omitted so that the heating control data can be recognized by the microwave oven, and the heating operation can be quickly controlled. Therefore, the desired cooking menu is cooked quickly and automatically in the microwave oven and is excellent in practicality.
[0007]
Also, in the microwave oven, it corresponds to the desired dish menu Theories explaining how to make and / or materials Since the bright information is output as a voice message by the voice output unit, it is possible to prepare for cooking while listening to the message as compared with the case where the explanation information is confirmed while performing the screen feed operation. .
[0008]
Further, when the explanation information is composed of text data, it is only necessary to use a voice output unit having a text reader function, so that an increase in cost can be avoided.
[0009]
The microwave oven system according to claim 2 further has the following characteristics in the system according to claim 1. In other words, the microwave oven further includes a memory in which various types of information are stored, and a range processing unit that accesses and processes information in the memory and communicates with the information processing unit. The range processing unit has information transmitting means for reading and transmitting various information from the memory in response to receiving an information request for requesting various information. The information processing unit includes a request transmission unit that transmits an information request to the range processing unit, and an information output unit that outputs various types of information transmitted by the information transmission unit via the output unit.
[0010]
According to the second aspect, various information on the microwave oven side is output from the output unit of the information processing unit when requested. Therefore, even if various types of information cannot be output on the microwave oven side, the user can check the contents by outputting various types of information from the output unit of the information processing unit as necessary. It is possible to know the state of the range comprehensively and is highly practical.
[0011]
According to a third aspect of the present invention, a variety of information in the microwave oven system according to the second aspect includes self-diagnosis information including at least information indicating the presence or absence of a failure in the microwave oven.
[0012]
According to the third aspect, the self-diagnosis information is presented by the various kinds of information that is output. Therefore, the user can perform failure analysis of the microwave oven by referring to self-diagnosis information such as the presence / absence of failure of the microwave oven, which is excellent in practicality.
[0013]
The microwave oven system according to claim 4 includes one or more cooking menus that are cooked by a heating operation according to heating control data in the microwave oven in various information in the microwave oven system according to claim 2 or 3. Of the cooking menu, menu information indicating a cooking menu having a high frequency of cooking is included.
[0014]
According to the fourth aspect, the menu information is presented by the various information that is output. Therefore, it is possible to give variations to the eating habits with reference to the cooking menu having a high frequency of cooking, and to improve the eating habits.
[0015]
The microwave oven system according to claim 5 is the microwave oven system according to any one of claims 2 to 4, wherein the heating operation is an operation according to any of a plurality of types of heating modes, and various information includes a plurality of types of information. For each heating mode, it is configured to include time information indicating the time when the heating operation is performed.
[0016]
According to the fifth aspect, time information is presented as various information. Therefore, the user can check the time information, know the tendency of using the heating mode of the range, and use it as a guideline for improving the usage.
[0017]
The microwave oven system according to claim 6 is the microwave oven system according to any one of claims 1 to 5, wherein the information processing unit stores at least one or more menu data received via the Internet. A memory unit; an input unit that inputs information about a special cooking menu that is externally operated; and a menu data storage unit that processes information input by the input unit, converts the information into menu data, and stores the menu data in the memory unit. And a supply means for reading out the menu data corresponding to the requested special dish menu from the memory unit and supplying the menu data to the microwave oven in response to the request.
[0018]
According to a seventh aspect of the present invention, in the microwave oven system according to the sixth aspect, the information processing unit further includes a relay device that relays and processes communication between the information processing device and the microwave oven. Composed.
[0019]
According to claim 6 or 7, the menu data of the special dish menu inputted by externally operating the input means of the information processing device or the relay device is stored in the memory portion of the information processing portion, and in response to a subsequent request It is read from the memory unit and supplied to the microwave oven. Therefore, even if the user cannot register the special dish menu, for example, the menu data of the original dish menu created by the user, on the microwave oven side due to restrictions on the microwave oven side, Once registered, the special cooking menu can be cooked automatically using the menu data supplied from the information processing unit side in the microwave when desired, so that it is excellent in practicality.
[0020]
A microwave oven system according to an eighth aspect of the present invention has the following characteristics in the microwave oven system according to any one of the first to seventh aspects. That is, the host computer, for each of a plurality of types of commercially available frozen food menu, a frozen food heating information storage unit that stores menu name data and standard heating control data for cooking the commercially available frozen food menu, Heating control data transmitting means for receiving a data request and reading and transmitting standard heating control data corresponding to the received data request from the frozen food information storage unit. When the menu data name of the desired commercial frozen food menu is input from the outside, the information processing apparatus includes a data request transmitting means for transmitting a data request including the input menu data name to the host computer, and a data request After the transmission, the standard heating control data is received from the host computer, converted into an optimum value corresponding to the heating operation capability of the microwave oven, and then supplied to the microwave oven.
[0021]
According to the eighth aspect of the present invention, when cooking a commercially available frozen food menu in a microwave oven, it is converted so as to be optimum corresponding to the capability of heating operation of the microwave oven via a host computer, the Internet and an information processing device. The standard heating control data of the frozen food menu is provided to the microwave oven. Therefore, in the microwave oven, when the commercially available frozen food menu is cooked, the frozen food menu can be optimally cooked without being limited by the ability of the microwave oven to perform the heating operation.
[0022]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below.
[0023]
(Embodiment 1)
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 illustrating a block configuration of each unit in FIG. 1.
[0024]
In FIG. 1, the microwave oven system is provided with an internet 5 and a host computer 4 connected thereto outside the house, and a personal computer (abbreviation of personal computer) connected to the microwave oven 1 and the internet 5 via a modem 6 in the house. 2) and a relay BOX 3 which is a relay device for relaying communication and connecting the two while converting signals between the personal computer 2 and the microwave oven 1 and which is supplied with power from the AC adapter 8. In the house, the microwave oven 1 and the relay BOX 3 are connected via a three-wire cable 9. At the time of this connection, 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. In addition, the personal computer 2 and the relay BOX 3 are connected via the RS-232C cable 7 in order to communicate in accordance with RS-232C.
[0025]
Information related to various home pages accessed via the Internet 5 is registered in the host computer 4 outside the home. The host computer 4 is a memory area in which information including a processing unit 41 for centrally controlling and managing the host computer 4 itself and information for configuring a homepage screen (hereinafter referred to as homepage information) is stored. A memory 42 having a homepage storage unit 421, an input unit 43, an output unit 44, and a communication unit 45 for communication connection between the Internet 5 and the host computer 4 are included.
[0026]
In FIG. 2, the microwave oven 1 includes a control unit 10A and a heating unit 10B. The control unit 10A includes a microcomputer 10, a memory 11, an LCD (liquid crystal display) panel 13 serving as a display unit, an LCD driver 12 for driving the LCD panel 13, and an I / F (interface) including an input / output terminal to which a connector CN is connected. An abbreviation) unit 14, an externally operable input unit 15, a power supply circuit 16 for supplying power to each unit of the microwave oven 1, a voice synthesis IC 17 for synthesizing and outputting voice data based on given data, and A speaker 18 for outputting sound based on sound data given from the IC 17 is included. The input unit 15 and the LCD panel 13 are integrally provided to constitute a touch panel.
[0027]
The heating unit 10 </ b> B performs a heating operation for cooking according to various information including heating data described later stored in the memory 11 under the control of the microcomputer 10. For the heating operation, the heating unit 10B includes a sensor unit 60, a buzzer 61, a relay and the like 62, a relay and the like 62, a turntable motor 63 controlled by the microcomputer 10, a heater 64, and a magnetron that generates microwaves for heating. 65. Here, since the heating operation in the heating unit 10B follows a known technique, a detailed description thereof will be omitted.
[0028]
The personal computer 2 includes a CPU 20, a memory 21 storing information including various programs, a display unit 22, an output unit 23, an externally operable input unit 24, and an RS-232C for connecting the RS-232C cable 7 and the CPU 20. An I / F unit 26 for connecting the port 25 and the modem 6 to the CPU 20 is included.
[0029]
The relay BOX 3 is an I / O for connecting the microcomputer 30, the flash memory 31 that is a nonvolatile storage element, the transmission / reception unit 32 for connecting the RS-232C cable 7 and the microcomputer 30, and the microcomputer 30. An F unit 33, a power supply circuit 34 for supplying power to each unit, a display device 36 related to the display 35 of FIG. 1, and a key input device 38 related to the key operation unit 37 of FIG. In FIG. 1, the display 35 and the key operation unit 37 are individually provided, but may be provided as an integrally configured touch panel.
[0030]
Note that UART (abbreviation of Universal Asynchronous Receiver Transmitter) is adopted for communication via the three-wire cable 9. If the relay BOX 3 is not provided, the microwave oven 1 can communicate directly with the personal computer 2.
[0031]
Here, a procedure for cooking in the microwave oven 1 in the home using cooking information published via the Internet 5 in the host computer 4 which is a homepage server will be described below.
[0032]
3, 4 and 5 are diagrams showing examples of home page screens displayed according to the home page information stored in the home page storage unit 421 of the host computer 4 in FIG. 1. FIG. 3, FIG. 4 and FIG. 5 show examples of homepage screens provided by the applicant through the Internet. When the user operates the personal computer 2 and accesses a predetermined address corresponding to the host computer via the Internet 5, the home page screen of FIG. 3 is displayed on the output unit 23 of the personal computer 2, and the home page screen of FIG. When the user clicks the item “microwave oven” indicated by the arrow A using the input unit 24, the home page screen shown in FIG. 4 is displayed. The homepage screen of FIG. 4 shows a cooking menu for every day in June in a calendar format. Here, as an example, a homepage screen having the title “June menu calendar” is shown. However, by specifying the next screen or the previous screen, for example, the monthly menu calendar for one year is displayed on the homepage screen. It is indicated by.
[0033]
Next, when the user clicks and designates the cooking menu indicated by the arrow A on the homepage screen of FIG. 4, the homepage screen of FIG. 5 is displayed, and images and materials showing the finished state of the designated cooking menu. Information, how to make, etc. are displayed. Here, only the homepage screen example of FIG. 5 is shown, but homepage information for the homepage screen of FIG. 4 described above for each menu for one year shown on the homepage screen of FIG. The homepage storage unit 421 is prepared in advance.
[0034]
Then, when the user looks at the homepage screen of FIG. 5 and designates and clicks the item “Download cooking data” indicated by the arrow A, the electronic information regarding the cooking menu shown in FIG. Data to be displayed to the user in the range 1 and heating data used for cooking using the heating unit 10 </ b> B of the microwave oven 1 are downloaded to the personal computer 2.
[0035]
In the memory 21 of the personal computer 2, a dedicated program for enabling the function corresponding to the click of the item indicated by the arrow A in FIG.
[0036]
The homepage provider creates homepage information corresponding to the homepage screens of FIGS. 3 to 5 in the host computer 4 using a predetermined program, converts the format, and stores it in the homepage storage unit 421. The details are well-known technology and will not be described.
[0037]
FIG. 6 is a diagram showing homepage information including menu information MI for each menu created by the host computer 4 of FIG. The homepage information HMD shown in the figure is information corresponding to the homepage screen of FIG. 5, and includes screen data DS15 and menu information MI that are displayed on the homepage screen and constitute the homepage screen. The menu information MI includes a display data group DS13 of text data displayed on the LCD panel 13 of the microwave oven 1 and a heating data group DS14 for controlling the heating operation of the microwave oven 1. The display data group DS13 includes a menu name MN, one or more material data IDi, and one or more creation data JDi for the corresponding menu. The heating data group DS14 includes one or more heating data KDi that are directly recognized by the microcomputer 10 for cooking the corresponding menu (without decoding) and used to control each part of the heating unit 10B. .
[0038]
The screen data DS15 is data constituting a screen displayed to the user on the home page screen of FIG. 5 on the personal computer 2, and the item “download cooking data” indicated by the arrow A is in the data DS15 of FIG. This corresponds to the transfer button B1.
[0039]
Therefore, when the user designates and clicks the item “download cooking data” indicated by the arrow A in FIG. 5, the transfer button B <b> 1 in FIG. 6 is clicked and the processing unit 41 of the host computer 4 displays the corresponding display data. Menu information MI including the group DS13 and the heating data group DS14 is downloaded to the personal computer 2 via the communication unit 45 and the Internet 5.
[0040]
FIG. 7 is a flowchart showing an outline of operations related to downloading of menu information in the personal computer 2 of FIG. In the figure, the user in the home operates the input unit 24 of the personal computer 2 to access the home computer 4 of the home page via the Internet 5 (F1 in FIG. 12). The home page information HMD in the home page storage unit 421 of the host computer 4 Data for the homepage screen including the screen data DS15 is transmitted to the personal computer 2 and the homepage screen of FIG. 3 is displayed on the output unit 23 (F2). When the item “microwave oven” indicated by the arrow A on the homepage screen in FIG. 3 is clicked by the input unit 24, the screen is switched and a homepage screen consisting of the menu group in FIG. 4 is displayed (F3 and F4).
[0041]
Next, on the homepage screen of FIG. 4, when “Tofu Burg” indicated by an arrow A is clicked on the input unit 24, the screen is switched, and a cooking menu screen of “Tofu Burg” shown in FIG. 5 is displayed (F5). And F6).
[0042]
Next, when the user clicks on the item “download cooking data” indicated by the arrow A in FIG. 5 using the input unit 24, the corresponding display and heating data DS13 and DS14 in the homepage storage unit 421 in the host computer 4 are displayed. The menu information MI consisting of is transmitted to the personal computer 2 and temporarily stored in the memory 21 (F8, F9).
[0043]
Each menu screen is provided with a button operated to designate “download cooking information” to allow the cooking information MI including the display data DS13 and the heating data DS14 to be transmitted to the personal computer 2.
[0044]
FIG. 8 is a flowchart showing an outline of the operation of the relay BOX 3 in FIG.
When a download request for the menu information MI occurs on the personal computer 2 side as described above, a communication request is transmitted from the personal computer 2 side to the relay BOX 3, and the menu information consisting of display and heating data DS13 and DS14 from the personal computer 2 according to the RS-232C method. The MI is transmitted and stored in the flash memory 31 via the transmission / reception unit 32 and the microcomputer 30 of the relay BOX 3 (F10 to F12 in FIG. 8). Thereafter, the microcomputer 30 transmits a menu information storage completion notice to the effect that the storage of the menu information is completed to the microwave oven 1 side (F121).
[0045]
The flash memory 31 can store menu information MI for a plurality of dish menus.
[0046]
In response to a request from the microcomputer 10 of the microwave oven 1, the microcomputer 30 of the relay box 3 transmits all menu names MN stored in the flash memory 31 to the microcomputer 10 of the microwave oven 1 via the cable 9 (F13 and F14). .
[0047]
Thereafter, in response to an instruction from the microcomputer 10 of the microwave oven 1, the microcomputer 30 in the relay BOX 3 selects the heating data corresponding to the specified menu name MN from one or more menu information MI stored in the flash memory 31. DS14 is transmitted to the microcomputer 10 of the microwave oven 1 (F16).
[0048]
FIG. 9 is a flowchart showing an outline of the operation of the microwave oven of FIG. FIG. 10 is a diagram showing an example of the contents stored in the flash memory 31 on the relay BOX side in the flowchart of FIG.
[0049]
For example, a maximum of five menu information MI can be stored in the flash memory 31. In FIG. 10, five menu information MI received from the host computer 4 of the homepage via the Internet 5 and the personal computer 2 are stored in advance. Each menu information MI includes a menu name MNi (i is 1, 2, 3,...), Material data IDi, production method data JDi, and heating data KDi.
[0050]
The operation of the microwave oven 1 in FIG. 9 will be described with reference to FIG. It is assumed that the contents of FIG. 10 are stored in advance in the flash memory 31 of the relay BOX 3.
[0051]
First, since the menu information MI is already stored in the flash memory 31 of the relay BOX 3, the user operates the key to instruct the microcomputer 10 to request all menu names MN from the microcomputer 30 of the relay BOX 3 (F17). F18).
[0052]
Since the microcomputer 30 reads all the menu names MNi from the flash memory 31 of FIG. 10 in response to requests for all the menu names MN and transmits them to the microwave oven 1 via the cable 9, the microcomputer 10 of the microwave oven 1 All menu names MNi are received and displayed on the LCD panel 13 (F19 to F20).
[0053]
Of all the displayed menu names MNi, if, for example, the menu “puff cream” is operated (touched) and specified by the user, the microcomputer 10 selects the heating data corresponding to the specified menu name MN3 (“puff cream”). KD3 is requested to the relay BOX3 via the cable 9 (F21 and F22).
[0054]
The microcomputer 30 of the relay box 3 reads the heating data KD3 corresponding to the menu name MN3 (“puff cream”) from the flash memory 31 in response to the data request corresponding to the menu name MN3 (“puff cream”) from the microwave oven 1. Since it transmits, the microcomputer 10 of the microwave oven 1 receives this heating data KD3, and once writes and stores it in the memory 11 (F22 and F23).
[0055]
The memory 11 stores the heating data KDi for all desired menus by repeating the above-described process for all desired menus in the same manner.
[0056]
Next, a description will be given of a case in which the desired menu display data group DS13 is output by voice instead of the screen output in the microwave oven 1. Here, a case is described in which the creation method data JDi in the display data group DS13 is output as audio, but the present invention is not limited to this. The material data IDi may be output by voice, or both data may be output by voice.
[0057]
FIG. 11 is a diagram illustrating a screen output example of the creation data JDi in the microwave oven 1. In the LCD panel 13 of the microwave oven 1 TA When Di is composed of a plurality of screens and displayed, it is displayed by a sequential screen feed operation as shown in FIG. However, all the making days TA In order to confirm Di, a screen feed key (not shown) of the input unit 15 must be operated. A user who feels bothered by this can also check all the creation data JDi using voice output from the voice synthesis IC 17 and the speaker 18 instead of the screen display. This will be described below. The information of the contents shown in FIG. 10 is stored in the relay BOX 3 and the personal computer 2 respectively, and the memory 11 of the microwave oven 1 corresponds to all the menu names MNi in FIG. It is assumed that the heating data KDi is stored. Then, the microwave oven 1 obtains data for voice output from the relay BOX 3 when the relay BOX 3 is connected, and from the personal computer 2 through communication when the relay BOX 3 is not connected.
[0058]
FIG. 12 is a flowchart of the voice output process of the creation data JDi according to the first embodiment of the present invention. 13A and 13B are diagrams showing examples of screens displayed on the microwave oven 1 side in the processing flowchart of FIG.
[0059]
When the user desires voice output instead of the screen display of FIG. 11, a screen display information request is transmitted from the microcomputer 10 of the microwave oven 1 to the microcomputer 30 of the relay BOX 3 or the CPU 20 of the personal computer 2 (F30, F31). ).
[0060]
More specifically, the LCD panel 13 of the microwave oven 1 uses all the menu names MNi stored in the memory 11 in advance, and the screen for menu selection shown in FIG. The desired menu name is selected on the screen of FIG. At this time, for example, if “cream puff” is selected, the screen of FIG. 13B is displayed on the LCD panel 13.
[0061]
When the user who sees this screen operates a start key (not shown) of the input unit 15, the microcomputer 10 reads the corresponding heating data KDi from the memory 11 and controls the cooking according to the heating data KDi. If audio output is desired, since the “how to make” key indicated by arrow A in FIG. 13B is pressed, the microcomputer 10 transmits a screen display information request in response to this operation. This screen display information request is encoded by the model name specifying the model of the microwave oven 1, the menu name MNi (MN3: cream puff) for which information is requested, and the type of information requested (material data IDi or making data JDi). It is shown.
[0062]
When the microcomputer 30 of the relay BOX 3 or the CPU 20 of the personal computer 2 receives the screen display information request transmitted from the microwave oven 1 side (F32, F33), the material data ID3 corresponding to the menu name MN3 indicated by the screen display information request or how to make it Data JD3 is read from flash memory 31 or memory 21 and transmitted to microcomputer 10 on the microwave oven 1 side (F34, F35).
[0063]
The microcomputer 10 of the microwave oven 1 receives the transmitted material data ID3 or how-to data JD3 (F36, F37), gives it to the voice synthesis IC 17 and converts it into a voice signal, and from the speaker 18 using the converted voice signal. Processing is performed to output audio (F38, F39). Note that a series of processes for converting text data into a voice signal and outputting the voice using the voice synthesis IC 17 and the speaker 18 are performed by a well-known technique, and therefore detailed description thereof is omitted here.
[0064]
Therefore, the user can recognize the method of making cream cream or the material data as audio without sending the screen as shown in FIG.
[0065]
(Embodiment 2)
Next, a second embodiment will be described. In the present embodiment, the configuration of FIG. 1 and FIG. 2 is adopted, and self-diagnosis information of the sensor unit 60 in the microwave oven 1 of FIG. 1, frequently used menu information, and usage time for each heating mode are shown. Information is transmitted from the microwave oven 1 as necessary and output to the outside in the relay BOX 3 or the personal computer 2. This will be described with reference to the drawings.
[0066]
FIG. 14 is a diagram for explaining information stored in the memory 11 of the microwave oven 1 according to the second embodiment of the present invention. As shown in FIG. 14, the memory 11 stores sensor self-diagnosis information 100, cooking menu frequency information 200, high-frequency information 300, and usage time information 400. The self-diagnosis information 100 of the sensor unit 60 of the microwave oven 1 is stored in the memory 11 by the microcomputer 10 according to the format of FIG. The sensor self-diagnosis information 100 is composed of 8-bit data, and the self-diagnosis information is indicated for each sensor in the sensor unit 60 using each bit data. When the sensor unit 60 includes, for example, a temperature sensor and a humidity sensor that detect the temperature and humidity in the heating chamber, and a weight sensor that detects the weight of the food placed on the turntable, the sensor self-diagnosis information 100 Bits 0 and 1 are assigned to the temperature sensor, bits 2 and 3 are assigned to the humidity sensor, and bit 4 is assigned to the weight sensor. Then, using the state of each bit assigned to each sensor, self-diagnosis information (normal, abnormal, etc.) of the corresponding sensor is set.
[0067]
The cooking menu frequency information 200 includes one or more cooking menu names 201 and frequency data 202 and a menu code 203 corresponding to each of the menu names 201. The cooking menu name 201 is a cooking menu name obtained from the above-mentioned home page and a function that is inherently provided in advance as a basic function for cooking in the microwave oven 1, for example, “warming” indicating a function for warming ordinary food, It includes “milk” indicating the heating function of milk and “sake can” indicating the function of sake. The frequency data 202 is a value indicating the number of times that the heating operation based on the heating data corresponding to the corresponding cooking menu name 201 is performed in the microwave oven 1. The menu code 203 is a code for uniquely identifying the corresponding cooking menu name 201 in the system.
[0068]
The high frequency information 300 is created by the microcomputer 10 and stored in the memory 11. Specifically, in the cooking menu frequency information 200, the menu code 203 corresponding to the one with the highest value indicated by the frequency data 202 is extracted as the high-use menu code 301 in order from the highest one, for example. .
[0069]
The usage time information 400 indicates the cumulative time that the heating unit 10B for each heating mode is used (driven) in the microwave oven 1 of FIG. The usage time information 400 specifies one or more heat source data 401 that indicates a heat source that is driven for heating, and usage time data that indicates the accumulated time that the heat source is used for heating for each of the heat source data 401. 402. The usage time data 402 is set by counting up from the microcomputer 12 every minute.
[0070]
As described above, in the second embodiment, information indicating the history of use of the microwave oven 1 and information indicating soundness based on the self-diagnosis information of the sensor unit are registered in the memory 11.
[0071]
FIG. 15 is a process flowchart for receiving and outputting information registered with the use of the range on the microwave oven 1 side in the personal computer 2 according to the second embodiment of the present invention. In this flowchart, the information 100 to 400 shown in FIG. 14 is information indicating the history of use of the microwave oven 1 in response to a request from the personal computer 2 and whether or not the personal computer 2 is in a healthy state with no failure ( External output). This process will be described below.
[0072]
First, when the user operates the input unit 24 of the personal computer 2 and inputs a request for desired information among various types of information as shown in FIG. 14 on the microwave oven 1 side, the input request is sent via the relay BOX 3. It is transmitted to the microcomputer 10 of the microwave oven 1 (F40, F41).
[0073]
The microcomputer 10 receives the request, reads the requested information from the memory 11, and transmits it to the CPU 20 of the personal computer 2 via the relay BOX 3 (F42 to F45).
[0074]
The CPU 20 receives the transmitted information and prints it out via the output unit 23 or displays it on the screen via the display unit 22 (F46 to F48). Note that although the processing via the relay BOX 3 is described here, if the relay BOX 3 is not provided, the personal computer 2 and the microwave oven 1 may directly communicate to perform the above-described processing.
[0075]
Thus, even when the information shown in FIG. 14 cannot be displayed on the microwave oven 1 side, since the information can be output and notified on the personal computer 2 side, the user can use the history of the microwave oven 1 It is possible to take a comprehensive measure of soundness (whether there is a failure, the content of the failure) and quickly take measures such as failure analysis.
[0076]
(Embodiment 3)
Next, a third embodiment will be described. In the first embodiment, the cooking is performed according to the cooking menu information MI provided on the homepage screen of the host computer 4. However, in the third embodiment, the recipe relating to the cooking created by the user is registered and registered. The cooking is automatically performed in the microwave oven 1 in accordance with the user's own recipe. This point will be described below.
[0077]
FIG. 16 is a process flowchart for a recipe registration operation according to the third embodiment of the present invention. The user operates the relay BOX 3 or the key input device 38 or the input unit 24 of the personal computer 2 according to the following procedure.
[0078]
That is, a recipe name indicating a menu name to be registered uniquely is input (F50). Next, the heating mode (range mode, oven mode, grill mode, etc.) of the microwave oven 1 for cooking the dish indicated by the input recipe is selected and input, and then the output level in the selected heating mode ( Microwave output (W), oven set temperature (° C.), heater duty ratio, etc.) are selected and input, and the heating time (minutes, seconds) is input, and finally the registration key is pressed (F51- F54).
[0079]
A series of data input so far in response to pressing of the registration key is stored in the memory 31 or 21 as the menu name MNi and the heating data KDi in addition to the data shown in FIG. 10 (F56). At the time of this storage, the microcomputer 30 or the CPU 20 recognizes these input data quickly without being decoded by the microcomputer 10 on the microwave oven 1 side, and converts the data into a format in which the heating unit 10B can be controlled in advance. Stored as heating data KDi.
[0080]
Here, it is assumed that only the heating data KDi is set corresponding to the user's own recipe. However, it is also possible to input and create the corresponding material data IDi and the production data JDi and register them in the memory. is there.
[0081]
Thus, since the data for cooking according to the recipe created by the user can be registered in the personal computer 2 or the relay BOX 3 in the same manner as the cooking menu data provided on the homepage screen described above, the user can Heating cooking according to a unique recipe can be automatically performed in the microwave oven 1.
[0082]
FIG. 17 is a diagram illustrating a procedure for performing cooking in the microwave 1 based on the data created according to the procedure of FIG. When the user inputs the recipe name after registering the data of the original recipe and operating the key input device 38 or the input unit 24 of the relay BOX 3 or the personal computer 2, the flash memory 31 or the memory 21 is displayed based on the input recipe name. 10 is retrieved, and the corresponding heating data KDi is read out and transmitted to the microcomputer 10 of the microwave oven 1 (F60 to F62). The microcomputer 10 receives the transmitted heating data KDi, temporarily stores it in the memory 11, and then when the heating start key of the input unit 15 is pressed, the heating unit 10B is controlled according to the heating data KDi, and the user The cooking menu of the desired recipe is automatically cooked (F63 to F66).
[0083]
(Embodiment 4)
The fourth embodiment of the present invention will be described below. FIG. 18 is a block diagram of a microwave oven system applied to Embodiment 4 of the present invention. 18 differs from the configuration of FIG. 1 in that the system of FIG. 18 includes a host computer 4A instead of the host computer 4 of FIG. The difference between the configuration of the host computer 4A and the configuration of the host computer 4 is that a frozen food data storage unit 422 is additionally provided in the memory 42 of the host computer 4. Other configurations are the same as those shown in FIG. 1 and FIG.
[0084]
The frozen food data storage unit 422 includes a frozen food menu name for specifying the frozen food for each of a plurality of commercially available frozen foods that can be cooked using a general microwave oven, and the frozen food data storage unit 422 In order to cook food, the heating data for controlling the heating operation of the microwave oven are associated with each other and stored in advance.
[0085]
FIG. 19 is a process flowchart showing a series of procedures for heating and cooking frozen food in Embodiment 4 of the present invention. When cooking of frozen food is desired, the microcomputer 10 of the microwave oven 1 transmits data indicating the model of the microwave oven or the maximum output level to the personal computer 2, and when the personal computer 2 receives these data, the connected electronic device It is stored in the memory 21 as range 1 information (F70 to F74). Then, a commercial frozen food menu name is input by the user via the input unit 15 on the microwave oven 1 side (F71) and transmitted to the personal computer 2. The personal computer 2 inputs the frozen food menu name transmitted from the microwave oven 1 and transmits it to the host computer 4A via the Internet 5 (F75, F76).
[0086]
The processing unit 41 of the host computer 4A receives the frozen food menu name via the communication unit 45, searches the frozen food data storage unit 422 based on this, and transmits the corresponding heating data to the personal computer 2 via the Internet 5. (F77-F79).
[0087]
When the CPU 20 of the personal computer 2 receives the heating data transmitted from the host computer 4A (F80, F81), the received heating data is based on the model data or maximum output data of the microwave oven 1 registered in advance as described above. It is converted into heating data (output level, heating time) that can be optimally cooked in the microwave oven 1, and the converted heating data is transmitted to the microcomputer 10 of the microwave oven 1 (F82 and F83). The conversion of the heating data is performed when the heating data received from the host computer 4A is heating using the microwave when the maximum microwave output is 800 W as information received in advance from the microwave oven 1 side, for example. If the level is 500 W, indicating that a heating time of 5 minutes is required, by converting the microwave output ratio of both data to the heating time, the received heating data is converted to a maximum microwave output of 800 W, and the heating time is Convert to 3 minutes 8 seconds and send to the microwave oven 1 side.
[0088]
The microcomputer 10 on the microwave oven 1 side shifts to the heating execution operation according to the received heating data after conversion (F86).
[0089]
In this way, the heating time of commercially available frozen food is automatically converted so as to obtain an optimum output level and heating time for the microwave oven 1 connected to the personal computer 2, and on the microwave oven 1 side based on the converted data. Since the heating can be performed, the output adjustment process in the user's microwave oven 1 can be omitted, and the failure of the cooking due to the user's input error can be prevented.
[0090]
The embodiment disclosed this time should be considered as illustrative in all points and not restrictive. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram of a microwave oven system according to a first embodiment of the present invention.
FIG. 2 is a diagram illustrating a block configuration of each unit in FIG. 1;
3 is a diagram showing an example of a home page screen displayed in accordance with home page information stored in a home page storage unit of the host computer of FIG. 1. FIG.
4 is a diagram showing an example of a home page screen displayed in accordance with home page information stored in a home page storage unit of the host computer of FIG. 1. FIG.
5 is a diagram showing an example of a home page screen displayed in accordance with home page information stored in a home page storage unit of the host computer of FIG. 1. FIG.
6 is a diagram showing homepage information including menu information MI for each menu created by the host computer 4 of FIG. 1. FIG.
7 is a flowchart showing an outline of operations related to downloading of menu information in the personal computer 2 of FIG. 1;
FIG. 8 is a flowchart showing an outline of the operation of the relay BOX 3 in FIG. 1;
FIG. 9 is a flowchart showing an outline of the operation of the microwave oven of FIG. 1;
10 is a diagram showing an example of the contents stored in the flash memory 31 on the relay BOX side in the flowchart of FIG. 8. FIG.
FIG. 11 is a diagram illustrating a screen output example of how to make data JDi in the microwave oven 1;
FIG. 12 is a flowchart of voice output processing of how-to data JDi according to Embodiment 1 of the present invention;
13A and 13B are diagrams showing examples of screens displayed on the microwave oven 1 side in the processing flowchart of FIG.
FIG. 14 is a diagram illustrating information stored in a memory 11 of a microwave oven 1 according to Embodiment 2 of the present invention.
FIG. 15 is a processing flowchart for receiving and outputting information registered with the use of the microwave oven 1 in the personal computer 2 according to the second embodiment of the present invention.
FIG. 16 is a process flowchart for a recipe registration operation according to the third embodiment of the present invention.
FIG. 17 is a diagram showing a procedure for performing cooking by heating in the microwave 1 based on data created according to the procedure of FIG.
FIG. 18 is a configuration diagram of a microwave oven system applied to Embodiment 4 of the present invention.
FIG. 19 is a process flowchart showing a series of procedures for heating and cooking frozen food according to Embodiment 4 of the present invention;
[Explanation of symbols]
1 Microwave oven
2 PC
3 Relay BOX
4, 4A Host computer
5 Internet
17 Speech synthesis IC
18 Speaker
31 Flash memory
421 Homepage storage
422 Frozen food data storage
HMD website information
B1 Transfer button
MI menu information
DS13 display data group
DS14 Heating data group
DS15 screen data group
MNi menu name
IDi material data
How to make JDi
KDi heating data
In the drawings, the same reference numerals denote the same or corresponding parts.

Claims (8)

An information processing apparatus connected to the Internet, having an input operation unit, a screen display unit, and a memory unit, and accessing the homepage via the Internet to receive information and connected to the external device An information processing apparatus for supplying the received information to
A host computer connected to the Internet, having an information storage unit storing homepage information corresponding to a homepage screen displayed on the screen display unit, and the homepage information for accessing the information processing apparatus; A host computer that reads from the information storage unit and transmits the information to the information processing device;
A relay device;
In a microwave oven system comprising: a control unit; a display unit; a key operation unit including a selection key and a cooking start key; an information transmission / reception unit connected to the relay device for communication; and a microwave oven having a memory. ,
The relay device is separate from the information processing device and the microwave oven,
Wherein the memory, in correspondence with each of a plurality of cooking menus, cooking name, and a heating control data necessary for cooking recipes recognized by the cooking menu in the microwave oven is stored containing Mume New Data ,
The control unit selects the cooking name displayed on the display unit by operating the selection key, and operates the cooking start key to display the cooking menu of the selected cooking name. The corresponding heating control data is read from the memory, and has a function of cooking according to the read heating control data,
The home page information includes texture New data before corresponding to each of a plurality of cooking menus presented on the home page, the menu data, is operated via the Internet in order to transfer to the information processing apparatus Information on the transfer instruction button, and
The information processing apparatus includes:
Storing one or more menu data received via the Internet in the memory unit;
The relay device is
A transmission / reception unit that is detachable from the information processing apparatus, and that exchanges data with the information processing apparatus;
A control device;
A non-volatile storage unit that stores the menu data corresponding to each of the one or more cooking menus read from the memory unit of the information processing apparatus and received via the transmission / reception unit;
An interface unit that can be attached to and detached from the microwave oven and exchanges data with the microwave oven using a UART;
Means for reading the dish name of each of the menu data from the non-volatile storage unit and transmitting it to the microwave oven via the interface unit;
A data request corresponding to the dish name specified in the microwave oven is received via the interface unit, and heating control data in the menu data corresponding to the dish name corresponding to the received data request, Means for reading from the non-volatile storage unit and transmitting to the microwave through the interface unit,
The control unit of the microwave oven
A data request corresponding to the dish name designated by the operation of the key operation unit among the dish names received from the relay device is transmitted to the relay device, and the heating control data received from the relay device is designated. A microwave oven system that stores in the memory corresponding to the dish menu of the cooked dish name . Before texture New data further includes a description information that describes the materials and how to make the corresponding food menu,
In the microwave oven, when the dish name displayed on the display unit is selected by operating the selection key, the selected dish menu supplied via the information processing apparatus and the relay apparatus. the contents indicated in the description information converted into a voice signal having a voice output unit for audio output, a microwave system according to claim 1 in pre texture New data. The controller is
Accessing the contents of the memory for information processing, communicating with the information processing device via the relay device ,
In response to receiving an information request, the information reading means for reading and transmitting information from the memory,
The information processing apparatus includes:
Request transmitting means for transmitting the information request to the control unit via the relay device ;
The microwave oven system according to claim 1, further comprising: an information output unit that receives the information transmitted by the information transmission unit via the relay device and outputs the information via the output unit.   The microwave oven system according to claim 3, wherein the memory stores self-diagnosis information including at least information indicating the presence or absence of a failure in the microwave oven.   The memory shows the cooking menu having a high frequency of cooking among one or more cooking menus including the cooking menu cooked by the heating operation according to the heating control data in the microwave oven. The microwave oven system according to claim 3 or 4, wherein menu information is stored. The pre-heating operation is an operation according to one of a plurality of heating modes.
The microwave oven system according to claim 5, wherein the memory includes time information indicating a time when the heating operation is performed for each of the plurality of types of heating modes. The information processing apparatus includes:
Are external operation input means for inputting information about the food menu of your own design,
Menu data storage means for processing information input by the input means, converting the information into the menu data, and storing the data in the memory unit;
In response to being requested, supply means for reading the menu data corresponding to the cooking menu originally created by the user requested from the memory unit and supplying the menu data to the microwave oven via the relay device ; The microwave oven system according to any one of claims 1 to 6, further comprising: The host computer
For each of a plurality of types of commercially available frozen food menus, a frozen food heating information storage unit in which the menu name data and the standard heating control data for cooking the commercially available frozen food menu are stored;
And receiving the menu name data, further have a, and heating control data transmitting means for transmitting reads from the standard heating control data corresponding to the Accepted pre Symbol menu name data the frozen food information storing unit And
The information processing apparatus includes:
When the menu name data of the commercially available frozen food menu desired is input from the outside, the menu name data transmit means for transmitting input the menu name data into pre Symbol host computer,
After the transmission of the menu name data, the standard heating control data is received from the host computer, converted to an optimum value corresponding to the capability of the heating operation of the microwave oven, and then supplied to the microwave oven The microwave oven system according to any one of claims 1 to 8, further comprising conversion / supply means for performing conversion.

Images