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US3569656A - Automatic cooking cycle control system for microwave ovens - Google Patents

Automatic cooking cycle control system for microwave ovens
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US3569656A
US3569656AUS844364AUS3569656DAUS3569656AUS 3569656 AUS3569656 AUS 3569656AUS 844364 AUS844364 AUS 844364AUS 3569656D AUS3569656D AUS 3569656DAUS 3569656 AUS3569656 AUS 3569656A
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oven
energy
control means
programming
introducing
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US844364A
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Edward A White
Arthur Parnes
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Sunbeam Corp
Bowmar TIC Inc
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Bowmar TIC Inc
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Abstract

A microwave oven is shown with a pair of antenna elements in the oven cavity for radiating microwave energy throughout the cavity. In different embodiments, the cavity is thermally heated via separate heaters and via the antenna elements. Programming controls establish predetermined cycles for microwave energy and thermal heat, and a control network selectively operates the magnetron and one or both heaters in the sequence determined by the programming controls. Program input apparatus is illustrated which includes pushbuttons and a card data reader for selecting different programs, and sequence control networks with timing and relay networks are illustrated for automatically cycling the microwave energy and thermal heating on and off for each program selected.

Description

United States Patent [72] lnventors Edward A. White Fort Wayne, Ind.; Arthur Parnes, Tarzana, Calif. [21] Appl. No. 844,364 [22] Filed July 24, 1969 [45] Patented Mar. 9, 1971 [73] Assignee Bowmar Tic, Inc.
Newbury Park, Calif.
[54] AUTOMATIC COOKING CYCLE CONTROL SYSTEM FOR MICROWAVE OVENS Primary Examiner-J. V. Truhe Assistant Examiner-L. H. Bender Att0rneyPerry E. Turner ABSTRACT: A microwave oven is shown with a pair of antenna elements in the oven cavity for radiating microwave energy throughout the cavity. In different embodiments, the cavity is l D 8 C auns 9 rawmg Figs thermally heated via separate heaters and via the antenna ele- [52] [1.8. CI 219/10.55, m Progra ming controls establish predetermined cycles 219/10.75 for microwave energy and thermal heat, and a control net- [51] Int. Cl H05b 9/06, k selectively operates the magnetron and one or bothv H05b heaters in the sequence determined by the programming con- [50] Field of Search 219/ 10.55 01 Program input apparatus is illustrated which includes pushbuttons and a card data reader for selecting different pro- [56] References C'ted grams, and sequence control networks with timing and relay NI E STATES PATENTS networks are illustrated for automatically cycling the 3,028,472 4/1962 Baird 2l9/10.55 microwave energy and thermal heating on and off for each 3,031,558 4/1962 Euler 200/46 program selected.
H5472? cuties/v7 M -W Pan [e SOURCE ix (Io/smear. Neruaek 40 (v2 SEQUENCE CPA/720A NE 7' Waek 42 PiflvQA W [Amid/P42474 BACKGROUND OF THEINVENTION 1 Field of the Invention This invention relates to microwave ovens.
2. Description of the Prior Art The prior art includes microwave ovens which have means to select different microwave cooking times for different types of foods. One type of selector is a dial which is calibrated in terms of minutes and/or seconds. Another is a series of pushbuttons which have food-type designations, e.g., one pushbutton for pastries, another for vegetables, and so on. In both types, microwave energy is continuously injected into the oven cavity for the period of time that is selected. It is not possible at any setting to provide a cycle of spaced periods of microwave energy as needed or desired for various foods.
It was early recognized that in some cases it was desirable to also be able to thermally cook foodstuffs, and electric heating elements were installed in microwave ovens to be separately heated for this purpose. Such elements are also used to thermally cook some foodstuffs in conjunction with microwave cooking. For example, many meats which are cooked solely by microwave energy have an unappetizing appearance, and it is desired to overcome this objection by heating the elements so as to brown the meat surfaces to a desired color. A separate dial is provided for controlling the heating of such elements. It is not possible at any setting to provide cycles of predetermined microwave and thermal cooking operations desired for many foods. Due to the considerable variations in time scales for microwave and thermal cooking, the typical housewife finds it very difficult to schedule and combine the different types of cooking operations for satisfactory results.
Proper scheduling or cycling of microwave cooking and of microwave and thermal cooking is important for many types of foods in various conditions. Some foods, e.g., cakes and some meats, should have their outer surfaces sealed early in the cooking process, as at a high temperature before initiating microwave cooking, and it may be desirable to continue thermal heating during and/or after a period of microwave cookmg.
Proper cycling is also important for thawing and cooking frozen foods, which initially contain ice crystals throughout. In prior art ovens designed solely for microwave cooking, the controls for a particular type of frozen food are set for a longer cooking time than for such foodthat is already thawed. To convert the ice crystals to water at 3232 F. requires as much thermal energy as is required to raise water from 32 F. to 180F. Accordingly, since crystals at any given depth of the food do not melt at the same rate, the unavoidable result of continuous microwave cooking is that the food at any depth is not uniformly cooked, e.g., as meat having well done and rare portions at the same depth.
To avoid the time-consuming technique of allowing frozen food to thaw at room temperature before cooking, one can subject it to microwave energy for a short period, allow a rest period for the heat thus generated to melt all the ice crystals, and then apply microwave energy as in cooking thawed food. In a microwave oven which also has electric heating means for conventional thermal cooking, thawing can be accomplished by selective operation of the electric heating means for conventional thermal cooking, thawing can be accomplished by selective operation of the electric heating means before applying microwave energy. However, microwave ovens as heretofore known do not permit cycling of microwave energy, or of microwave energy in conjunction with thermal energy, except by setting and resetting dials and pushbuttons in accordance with charts of detailed instructions, or by trial and error.
SUMMARY OF THE INVENTION This invention embraces a microwave oven with programming and control means for automatically controlling the sequence and durations of application of microwave energ and thermal energy to foodstuffs in the oven.
BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a combined schematic and block diagram of an oven and a system of our invention forautomatically controlling the introduction of microwave and/or thermal energy into the oven cavity;
FIG. 2 is a perspective view of a microwave oven with pushbutton controls and time-selector dial included in the program input apparatus of the system of FIG. 1;
FIG. 3 is a combined schematic and block diagram illustrating program input apparatus and a sequence control network for the oven of FIG. 2;
FIGS. 4a-4d are graphs illustrating different cycles pro- I grammed into the oven of FIG. 2; I
FIG. 5 is a block'diagram of program input apparatus in the form of acard data reader, and of timing and relay networks programmed to control the times and sequences of introduc 'tion of conventional heat and microwave energy into an oven;
DESCRIPTION OF ILLUSTRATIVE EMBODIMENTS Referring to FIG. 1, anoven cavity 10 is shown in whichelectri heater elements 12, 14 are located, such elements being dapted for connection to a current source 16 via aswitching network 18 so that one or both of the elements can be heated. Also located in thecavity 10 areantenna elements 20, 22 which are connected tooutput probes 24, 26 from a waveguide feed 28. Amagnetron 30 is shown with its input probe positioned to introduce microwave energy into the feed 28 for driving theantenna elements 20, 22 for radiating microwave energy throughout thecavity 10.
A microwavepower control network 32 is shown coupled to the magnetron, and may include level control means for selectively effecting operation of the magnetron at one or the other of two energy levels, e.g., at full power or half power. A preferred means for controlling the operating power level of a magnetron is disclosed in the copending application of Helmut Boehm, entitled Transformer Power Supply for Microwave Generators", Ser. No. 810,671, filed Mar. 26, 1969, and includes switching means in a split primary circuit of the power transformer for connecting one or a pair of secondary circuits to the anode of the magnetron.
Theheater switching network 18 and microwavepower control network 32 are operated from asequence control network 40. Thesequence control network 40 includes suitable timing and relay means to operate theswitching network 18 and control network 34 for selectively energizing theheater elements 12, 14 and driving theantenna elements 20, 22 in a predetermined sequence. Operation of thecontrol network 40 is programmed in accordance withthe operation ofprogram input apparatus 42.
Theprogram input apparatus 42 includes any suitable means for establishing within thecontrol network 40 desired sequences for the introduction of conventional heat and microwave energy into thecavity 10 and for selecting total cycle time. For example, and referring to FIG. 2, amicrowave oven 44 has a number of pushbuttons 45-49, each designated for a particular cooking operation, here illustrated as warm, bake, roast, crisp, and broil." In this example, each pushbutton when depressed sets up a different cycle within thecontrol network 40 for the introduction of microwave and/or thermal energy into the oven cavity for predetermined fractions of the cycle. Arotatable knob 50 is provided as a time selector, with which to select the total time for any given cycle depending upon the quantity of food placed in the oven.
FIG. 3 illustrates thesequence control network 40 as including atiming network 52,relay circuits 54 connected between thetiming network 52 and the heater switching network, andrelay circuits 56 connected between the timing network and the microwave power control network. Each of the pushbuttons 45-49 may, for example, operate respective timers innetwork 52 for controllingrelay circuits 54 to operate the heater switching network so as to connect one or both of the heater elements to the current source, and for controllingrelay circuits 56 to operate the microwave power control network for establishing operation of the magnetron at desired power levels. The timers may be motor driven switching devices operable through respective relay paths to effect the desired operations, and thetime selector 50 may be adapted to vary the speeds of the timing motors and thereby select cycle duration for a given type or quantity of food.
FIGS. 4a4d are graphs which are illustrative of respective programs which are set up by operation of switch buttons 45- 48. The warm cycle illustrated in FIG. 4a is set up by pressingpushbutton 45, and is one which is suitable for warming cooked foods and for thawing frozen foods. In this connection, the sequence of operations set up in thetiming network 52 andrelay circuits 54 is one in which the oven temperature is initially raised to a predetermined level, illustrated as 150 F., such temperature being sensed by a suitable sensor in the oven. In FIG. 1 athermostat 58 for this purpose is shown connected to theheater switching network 18 and sequence con.trol network 40. In FIG. 3, the thermostat may be connected to thetiming network 52, which is suitably adapted, e.g., as through self-holding relay means, to switch the timing devices into operation when the oven temperature reaches 150F. For
such initial heating of the oven, the heater switching network I8 is operated in one example so that only one of theheaters 12, 14 is connected to the current source 16.
Upon the temperature'of the oven reaching 150 F., the microwave power control network is operated so that microwave energy from themagnetron 30 is introduced into the oven for predetermined periods at spaced intervals. In FIG. 40, each such period is shown to be two-tenths of the selected cycle time, and the intervals between such periods are shown to be two-tenths of the selected time. In one example, the associated timing devices and relay circuits operate the microwave power control network so that the magnetron operates at half power. To prolong magnetron life, the filament transformer of the magnetron power supply may be left on, or it may be disconnected during generation of microwave energy and reconnected during the intervals between such periods, whereby to insure proper cathode temperature whenever the power transformer is coupled to the anode.
Also as illustrated in FIG. 4a, thermal energy is introduced into the oven for predetermined periods at spaced intervals. Here, the heater switching network is controlled so that the heater is connected to the current source for respective periods of one-twentieth of the cycle time, with adjacent periods being spaced by an interval of one-tenth of the cycle time.
In treating frozen foods by operations of the type illustrated in FIG. 4a, each type of energy to which frozen food is subjected is applied for short periods of time spaced by rest" periods during which there is opportunity for heat generated within the body of the food to equalize. By appropriate selection of cycle time, all ice crystals are melted so that the food is completely thawed at the end ofthe cycle.
Aconventional alarm 58 is operated at the end of any selected cycle time to notify the operator that the cycle is terminated. For warmed foods, the alarm signifies that the food can be removed and served. For precooked frozen foods, the alarm signifies that the food has been thawed, in which case the warm button can again be pressed to renew the cycle, at the end of which the alarm signifies that the food can be removed and served. For uncooked frozen foods, the alarm signifies that the food is thawed, and is ready to be cooked, as by pressing the bake button to bake a cake, or pressing the roast" button or broil button to cook meat, etc.
In connection with FIG. 4a, it should be noted that we are here employing pulsed thermal energy and pulsed microwave energy. If desired, of course, a program can be established whereby warming or thawing can be effected by either form of energy along. For example, the timing and relay means in different examples alternately and simultaneously connect both heater elements to the current source for shorter periods and with greater intervals between periods, with the cycle time selected so that the desired warming or thawing is achieved thereby. Or, the microwave power control network may be controlled so that the magnetron operates at full power for shorter periods and with greater intervals between periods to achieve the desired warming or thawing.
Warming or thawing of foods in accomplished quickly with our invention. For example, by pulsing the heater element or elements on for lO-second periods at intervals of 20 seconds, and operating the magnetron for 5-second periods at intervals of 25seconds, an uncooked portion of frozen meat is satisfactorily thawed in 3 minutes. For thawing with thermal energy alone, such operations of the heater element or elements are preferably at greater intervals, e.g., 2 minutes, continued for a cycle time of 15 minutes in which each heater element is energized for a lO-second period during the interval that the other is not energized. For thawing with microwave energy along, the magnetron is operated for longer periods, e.g., 10 seconds at intervals of 50 seconds, for a cycle time of 7 minutes.
The bake cycle illustrated in FIG. 4b, which is initiated by presentingpushbutton 46, is one in which thermal energy is introduced into the oven cavity to raise the oven temperature to a predetermined level, indicated at a range of 320350 F., and to maintain it within such range. A separate temperature sensor for this purpose is connected to thesequence control network 40 to initiate the bake" cycle. For this cycle, the timing network and associated relay circuits control the microwave power control network so that the magnetron operates throughout the last half of the cycle.
For the roast cycle (FIG. 4c), the program is one in which the oven temperature is raised to and maintained at a higher level, indicated in the range 375400 F., and wherein microwave energy is introduced into the oven during the last seven-tenths of the cycle. For the crisp cycle (FIG. 4b), the program is again one in which thermal energy is introduced throughout the cycle, which begins when the oven temperature reaches a still higher level, indicated in the range 450- 475 F., but wherein microwave energy is introduced into the oven cavity during the first seven-tenths of the cycle, i.e., immediately upon the oven temperature reaching the desired level.
For broiling, only the top heater element I2 is connected to the current source whenpushbutton 49 is pressed. In such case, the food is placed on a rack immediately below theheater element 12 Our invention embraces any suitable cooperative program input and sequencing means for automatically applying microwave and/or thermal energy to an oven cavity in any desired sequence. For example, and referring to FIG. 5, the program input apparatus may include a card data reader 42' which is adapted to supply information signals or pulses to timing andrelay networks 66, 68 that are connected to the current control network and magnetron power control network. Thecard data reader 42 may take any of various forms, depending upon the type of card employed and the manner in which recording data is recorded on the card. Examples are magnetic card readers for magnetic cards, electrical or photoelectrical readers for punched cards, and readers for sensing embossments on a card that are positioned and dimensioned in accordance with desired microwave and/or thermal heating periods. Still further, our invention embraces, the use of any suitable means for effecting the desired time sequencing, whether electrical, electromechanical or pneumatic. For electrical time delay means, our invention extends to the use of integrated circuits and the use of digital techniques with which to obtain time interval adjustments.
previously described in the embodiment shown in FIG. '1.
While the foregoing has been described with reference to a microwave oven that employs separate means for introducing microwave and thermal energy into an oven cavity, our invention is also adapted for utilizing common elements to introduce both types of energy into the cavity. Referring to FIG. 6, the cavity is shown to include folded Calrod-type elements 70, 72, the ends of which are connected to theheater switching network 18, and intermediate portions of which are connected to the output probes 24, 26 of the waveguide feed 28. These are the types of elements disclosed in US. Pat. No. 3,320,396 of Helmut Boehm, entitled Electronic Oven, is sued May 16, 1967, and which are adapted to function as traveling wave antennas to radiate microwave energy throughout the oven when driven viaa waveguide feed, and which are also adapted to be energized from a current source to radiate thermal energy into the oven. Thesequence control network 40 controls the operations of theheater switching network 18 and themagnetron 30 in the same manner as FIGS. 1 and 2 illustrate means for creating-airflow in the oven cavity. A coolingair source 60, which has its motor connected to thesequence control network 40, is positioned to force cooling air over the magnetron and into the waveguide feed, and the oven 44 (FIG. 2) has a plurality ofopenings 62 in its top wall. As taught in U.S. Pat. 3,440,386 of Helmut Boehm, entitled Microwave Heating Apparatus, issued Apr. 22, 1969, such an arrangement is effective not only to cool the magnetron, but to force vaporsto the exterior of the oven and to prevent moistureand food particles from entering the and to prevent deterioration of uncooked frozen foods after they have thawed. In warming or thawing as above described, air entering the oven through the waveguide arms effects rapid cooling of the heater elements when they are disconnected from the current source. Accordingly, the termination of each period of heat radiation is more pronounced, whereby the ensuing rest interval has greater effect.
In thawing uncooked frozen foods, the cooling airflow may be continued after the thawing cycle is completed. In such case, the continued airflow cools the surface portions of the food sufficientlyto prevent deterioration for a reasonable time after thawing, e.g., 1 hour, during which it is expected the food will be cooked as desired, e.g., by programming the sequence control network to bake a cake. For this purpose, we prefer to have separate programs for warming and thawing, e.g., respective pushbuttons for a warm cycle and a thaw cycle, or separate cards in which data for warm and thaw cycles are recorded. In such case, the warm cycle program is one in which the sequence control network operates the cooling air source throughout the cycle, and in the thaw cycle program the control network operates the air source for a predetermined time, e.g., l hour, after the thawcycle is completed.
In another application of our invention, the food cooked by microwave and/or thermal energy is referenced to the temperature of the food. For this purpose, the temperature sensors described above may be constituted of probes inserted in the foods to be cooked. Such a probe is also adapted to function as a control element in the same manner as an oven thermostat. Such temperature sensors may be merely detectors, or they may be devices capable of generating signals which serve as additional data signals for controlling the starting and stopping of infrared and microwave radiations.
It should also be noted that our invention is applicable to an oven that is adapted for microwave heating either by radiating antennas inside the oven or by means for injecting microwave energy into the oven through openings in a cavity wall. Further, our invention is suitable for use in ovens which employ any suitable rnode stirring devices.
It should also be noted that power conservation is an important advantage that is realized with our invention. In cycling microwave and/or thermalenergy, the power expended is but a small fraction of that required to operate the magnetron continuously or to 'energize the heater elements continuously. This is important in geographical areas and various situations, e.g., mobile units such as house trailers, aircraft and ships,
where there is limited power available for operating electrical and electronic equipment. In such circumstances, our invention permits an oven to be operated as desired with periodically applied microwave energy alone, with periodically applied thermal energy alone, or with periodic applications of both forms of energy in such a way that they are not applied simultaneously.
We claim: 1. In combination:
an oven; means for introducing microwave energy into the oven;
means for thermally heating the interior of the oven; control means coupled to said energy introducing means and said thermal heating means for controlling the operations thereof; t means for programming said control means to operate so as to cause said energy introducing means to introduce microwave energy into the oven for one of a plurality of periods within a predetermined time cycle, and to cause said thermal heating means to-be operated for one of a plurality of periods within a predetermined time cycles, said programming means including means for effecting. operation of said control means to cause either or both said energy introducing means and said thermal heating, means to be operated on and off a plurality of times within a predetermined time cycle; and means cooperatively associated with said programming means and control means for selectively establishing the duration of the time cycle over which said control means effects operations of said energy introducing means and said thermal heating means. 2. In combination:
an oven; means for introducing microwave energy into the oven; means for thermally heating the interior of the oven; control means coupled to said energy introducing means and said thermal heating means for controlling the operations thereof; and said control means including selector means selectively settable for one of a plurality of on and off sequences for said energy introducing means, said control means including selector means selectively settable for one of a plurality of on and off sequencesfor said thermal heating means, means for programming said control means including means to simultaneously set both selector means to one of a plurality of combinations of settings thereof and effect automatic on and off sequences of said energy introducing means and thermal heating means pursuant to respective settings of the selected combination, and means cooperatively associated with said programming means and control means for selectively establishing the duration of the time cycle over which said control means effects operations of said energy introducing-means and said thermal heating means at the selected combination of settings.
3. In combination:
an oven;
means for introducing microwave energy into the oven;
means for thermally heating the interior of the oven;
control means coupled to said energy introducing means for controlling operations thereof, said control means including selector means selectively settable for one of a plurality of sequences of operation of said energy introducing,
means wherein the level of energy introduced into said oven is varied more than twice;
means for programming said control means including means to set said selector means to one of its settingsand effect: automatic operations of said energy introducing means ;to.
vary levels of energy introduced into the oven in the:
sequence corresponding to the selected setting of said selector means; and
means cooperatively associated with said programming means and control means for selectively establishing the duration of the time cycle over which said control means effects energy level changing operations of said energy introducing means at the selected setting.
4. The combination of claim 2, wherein said heating means includes a pair of heater elements spaced to receive an article of food between them, and wherein said programming means and control means are cooperative to effect operation of either heater element alone or both heater elements.
'5. The combination of claim 4, wherein said programming means and control means are cooperative to effect operation of both heater elements simultaneously or alternately.
6. The combination of claim 2, including means for creating a flow of cool air into the oven, said programming means and control means being cooperative to effect operation of said flow-creating means for a predetermined time after the end of a predetermined selectively established time cycle.
7. The combination of claim 4, wherein:
said energy-introducing means includes a magnetron; a waveguide feed extending between said magnetron and said oven; a microwave power control network coupled between said control network and said magnetron; and said network being adapted to operate said magnetron at different power levels,
and said programming means andcontrol means being-

Claims (8)

1. In combination: an oven; means for introducing microwave energy into the oven; means for thermally heating the interior of the oven; control means coupled to said energy introducing means and said thermal heating means for controlling the operations thereof; means for programming said control means to operate so as to cause said energy introducing means to introduce microwave energy into the oven for one of a plurality of periods within a predetermined time cycle, and to cause said thermal heating means to be operated for one of a plurality of periods within a predetermined time cycles, said programming means including means for effecting operation of said control means to cause either or both said energy introducing means and said thermal heating means to be operated on and off a plurality of timeS within a predetermined time cycle; and means cooperatively associated with said programming means and control means for selectively establishing the duration of the time cycle over which said control means effects operations of said energy introducing means and said thermal heating means.
2. In combination: an oven; means for introducing microwave energy into the oven; means for thermally heating the interior of the oven; control means coupled to said energy introducing means and said thermal heating means for controlling the operations thereof; and said control means including selector means selectively settable for one of a plurality of on and off sequences for said energy introducing means, said control means including selector means selectively settable for one of a plurality of on and off sequences for said thermal heating means, means for programming said control means including means to simultaneously set both selector means to one of a plurality of combinations of settings thereof and effect automatic on and off sequences of said energy introducing means and thermal heating means pursuant to respective settings of the selected combination, and means cooperatively associated with said programming means and control means for selectively establishing the duration of the time cycle over which said control means effects operations of said energy introducing means and said thermal heating means at the selected combination of settings.
3. In combination: an oven; means for introducing microwave energy into the oven; means for thermally heating the interior of the oven; control means coupled to said energy introducing means for controlling operations thereof, said control means including selector means selectively settable for one of a plurality of sequences of operation of said energy introducing means wherein the level of energy introduced into said oven is varied more than twice; means for programming said control means including means to set said selector means to one of its settings and effect automatic operations of said energy introducing means to vary levels of energy introduced into the oven in the sequence corresponding to the selected setting of said selector means; and means cooperatively associated with said programming means and control means for selectively establishing the duration of the time cycle over which said control means effects energy level changing operations of said energy introducing means at the selected setting.
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US4188520A (en)*1978-05-311980-02-12General Electric CompanyEffective concurrent microwave heating and electrical resistance heating in a countertop microwave oven
US4196330A (en)*1978-06-011980-04-01General Electric CompanyCombination oven fully utilizing the current-supplying capability of a power source
US4198553A (en)*1978-06-011980-04-15General Electric CompanyCombination oven fully utilizing the capability of a limited power source
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US4463238A (en)*1979-03-061984-07-31Sharp Kabushiki KaishaCombined microwave and electric heating oven selectively controlled by gas sensor output and thermistor output
US4868362A (en)*1979-03-061989-09-19Sharp Kabushiki KaishaMicrowave oven with circuit cooling system and magnetic shield system
US4375586A (en)*1979-06-151983-03-01Matsushita Electric Industrial Company, LimitedCooking assistance device and a combination thereof with a microwave oven
US4349715A (en)*1979-09-211982-09-14Sharp Kabushiki KaishaCassette tape controlled microwave cooking apparatus
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JPS56118303U (en)*1981-01-211981-09-09
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US4584448A (en)*1981-07-061986-04-22Sharp Kabushiki KaishaMicrowave heating appliance with simplified user's operation
US4481394A (en)*1981-07-211984-11-06Sharp Kabushiki KaishaCombined microwave oven and grill oven with automated cooking _performance
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US4831227A (en)*1987-03-061989-05-16Microwave Ovens LimitedMicrowave ovens and methods of cooking food
JP2574324B2 (en)1987-09-181997-01-22松下冷機株式会社 Vending machine with induction heating device
US5665259A (en)*1988-05-191997-09-09Quadlux, Inc.Method of cooking food in a lightwave oven using visible light without vaporizing all surface water on the food
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US5036179A (en)*1988-05-191991-07-30Quadlux, Inc.Visible light and infra-red cooking apparatus
US5620624A (en)*1988-05-191997-04-15Quadlux, Inc.Cooking method and apparatus controlling cooking cycle
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US5089679A (en)*1988-09-091992-02-18Microwave Ovens LimitedMicrowave oven with stand-by mode
US5057331A (en)*1989-01-131991-10-15Levinson Melvin LCooking food in a food preparation kit in a microwave and in a thermal oven
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US5488214A (en)*1992-03-141996-01-30E.G.O. Elektro-Gerate Blanc U. FischerInductive cooking point heating system
US6172346B1 (en)*1993-08-102001-01-09Ea Technology LimitedMethod of processing ceramic materials and a microwave furnace therefore
US6011242A (en)*1993-11-012000-01-04Quadlux, Inc.Method and apparatus of cooking food in a lightwave oven
US5567338A (en)*1994-06-291996-10-22Whirlpool Europe B.V.Method for controlling the microwave feed in a microwave oven, and microwave oven with such control
US5958271A (en)*1997-09-231999-09-28Quadlux, Inc.Lightwave oven and method of cooking therewith with cookware reflectivity compensation
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WO2002023952A1 (en)*2000-09-132002-03-21Merrychef LimitedProgrammable cooking systems
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AU2001284276B2 (en)*2000-09-132006-01-12Merrychef LimitedProgrammable cooking systems
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US20060047344A1 (en)*2004-08-312006-03-02Head Jesse SMethods and apparatus for operating a speedcooking oven
US7461588B2 (en)2004-08-312008-12-09General Electric CompanyMethods and apparatus for operating a speedcooking oven
US20090258332A1 (en)*2008-04-152009-10-15International Business Machines CorporationInteractive recipe preparation using instructive device with integrated actuators to provide tactile feedback
US8992225B2 (en)2008-04-152015-03-31International Business Machines CorporationMonitoring recipe preparation using instructive device and generating an alert to provide feedback
US20090259687A1 (en)*2008-04-152009-10-15International Business Machines CorporationInteractive Recipe Preparation Using Instructive Device with Integrated Actuators to Provide Tactile Feedback
US20090259689A1 (en)*2008-04-152009-10-15International Business Machines CorporationInteractive recipe preparation using instructive device with integrated actuators to provide tactile feedback
US20090258331A1 (en)*2008-04-152009-10-15International Business Machines CorporationInteractive recipe preparation using instructive device with integrated actuators to provide tactile feedback
US8323026B2 (en)*2008-04-152012-12-04International Business Machines CorporationInteractive recipe preparation using instructive device with integrated actuators to provide tactile feedback
US8342847B2 (en)2008-04-152013-01-01International Business Machines CorporationInteractive recipe preparation instruction delivery to disabled indiviuals
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CN101881471A (en)*2009-05-052010-11-10乐金电子(天津)电器有限公司Novel safe microwave oven
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WO2022026389A1 (en)*2020-07-272022-02-03Sharkninja Operating LlcCountertop cooking system
US11985734B2 (en)2020-07-272024-05-14Sharkninja Operating LlcCountertop cooking system
DE202024103691U1 (en)2023-07-062024-10-08Rational Aktiengesellschaft combination cooking appliance for cooking baked goods
DE102023117846A1 (en)2023-07-062025-01-09Rational Aktiengesellschaft Method for cooking baked goods and combination cooking appliance

Also Published As

Publication numberPublication date
FR2053129A1 (en)1971-04-16
DE2036654A1 (en)1971-01-28
FR2053129B1 (en)1974-08-09
GB1312992A (en)1973-04-11

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