JP7303096B2 - heating cooker - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heating cooker that automatically cooks food placed in a cooking chamber.

As this type of heating cooker, for example, Patent Document 1 discloses a microwave generator that microwaves an object to be cooked, a first sensor and a second sensor that detect the temperature distribution in the cooking chamber, and an object to be cooked. and an automatic range cooking control unit that controls the microwave generator to heat and cook at the temperature, the automatic range cooking control unit detects a change in the detected temperature of the food to be cooked from the first sensor and the second sensor. Then, according to the detection result, the microwave generator restarts the microwave oven heating or controls to increase the microwave oven heating output. However, with such a heating cooker, even if the food is overheated or scorched in the middle of the cooking process, and smoke or odor is generated, the smoke or odor cannot be detected. Accordingly, there has been proposed a cooking control apparatus having an odor detecting means such as an odor sensor applied to a cooking apparatus such as a microwave oven (for example, Patent Document 2).

Japanese Patent Application Laid-Open No. 2018-84401 JP-A-3-5622

In the cooking control device of Patent Document 2, the amount of heating is uniformly determined from the amount of the gas of the predetermined component detected by the odor sensor and the surface temperature of the object to be cooked detected by the temperature sensor. For example, when cooking grilled fish, the heat level can be automatically controlled, while for other cooking items, it is necessary to input the settings for heating and cooking the cooking items, or it is possible to prevent smoke, burning, etc. In order to prevent overheating, it is necessary to stay close to the cooking control device all the time, which is very troublesome.

Therefore, in view of the above circumstances, the present invention enables, for example, one-touch cooking of an object to be cooked regardless of the ingredients, and the user does not have to be near the main body for a long time after the start of cooking, and anyone can easily cook. To provide a heating cooker capable of cooking with heat.

The present invention comprises a cooking chamber containing an object to be cooked, a heating means for heating the object to be cooked, an internal temperature detecting means for detecting a temperature in the cooking chamber, and a temperature discharged from the object to be cooked. an odor detecting means for detecting the amount of gas of a predetermined component contained in the exhaust gas; When the amount of the detected gas of the predetermined component changes from a decrease to an increase after the temperature detection means detects that the inside of the cooking chamber converges and stabilizes at the set temperature and becomes saturated. The heating means is configured to end heating when the odor detecting means detects that the odor has increased from the value of .

According to the invention of claim 1, since overheating such as smoking or scorching of the food to be cooked can be suppressed during cooking, the user does not have to be near the main body for a long time after the start of cooking, and anyone can cook. Easy to heat and cook.

According to the invention of claim 2, when the food to be cooked contains a component that easily evaporates and is likely to burn, the heating time when the amount of the gas of the predetermined component to end the cooking is detected is set to the amount of the gas of the predetermined component. Since the heating time is shortened after the amount turns from a decrease to an increase, it is possible to suppress the burning of the food to be cooked. On the other hand, in the case of a food that is difficult to burn, the heating time when the amount of the gas of the predetermined component that ends cooking is detected is the heating time from when the amount of the gas of the predetermined component turns from a decrease to an increase. Since it is longer, the food to be cooked can be heated to the inside, preventing undercooking and underheating.

According to the invention of claim 3, the user can know an estimate of how long it will take to complete the cooking.

BRIEF DESCRIPTION OF THE DRAWINGS It is an external appearance perspective view of the heating cooker which shows embodiment of this invention. Same as the above, it is the figure seen from the front front when the door was opened. Fig. 3 is a vertical cross-sectional view of the same as above, viewed from the side; Fig. 3 is a front front view of the same, with the cabinet and the oven rear plate removed; Fig. 2 is a vertical cross-sectional view of the microwave generator and its surroundings viewed from the side; Fig. 3 is a schematic diagram showing the internal structure of the main body of the same; Fig. 3 is a see-through perspective view of the exhaust port and its surroundings viewed from the rear upper part of the same. Fig. 3 is a vertical cross-sectional view of the main part of the exhaust path and its surroundings viewed from the side; FIG. 2 is a block diagram showing a main electrical configuration of the same; Fig. 2 is a graph showing changes in temperature in the cooking chamber, surface temperature of the food to be cooked, and the amount of gas of a predetermined component when the oven is heated.

Preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

First, based on FIGS. 1 to 8, the overall configuration of the first embodiment of the microwave oven as a cooking device of the present invention will be described. , a metal cabinet 2 is provided as a member for covering the outer shell of the microwave oven as a product. A door 3 is provided on the front surface of the main body 1 and can be opened and closed.

The upper part of the door 3 is provided with a handle 4 for opening and closing the door 3, which opens and closes vertically. It has The operation panel unit 5 is provided with a display unit 6 for displaying cooking settings, progress, etc., and an operation unit 7 for enabling various operation inputs related to heat cooking. The operation means 7 includes a menu selection setting means 7A, which is provided on the surface of an LED display serving as the display means 6, an oven start key 7B for starting automatic oven cooking, and an oven start key 7B for stopping cooking or operating/setting. and a cancel key 7C for canceling the An operation panel PC (printed circuit) board (not shown) for controlling the display means 6 and the operation means 7 is arranged inside the door 3 behind the operation panel portion 5 .

At the lower part of the main body 1, a water supply cassette 8 and a water receiver 9 which can be attached and detached from the front surface of the main body 1 are arranged. The water supply cassette 8 is a bottomed container for containing liquid water as a supply source of mist ejected from a mist supply device 53, which will be described later. The water receiver 9 is a bottomed container that receives food waste, water droplets, steam, etc. from the main body 1 .

A side surface of the cabinet 2 is provided with an intake port 11 for taking air into the cabinet 2 , and an upper back surface of the main body 1 is provided with an exhaust port 12 for discharging air from the cabinet 2 . Reference numeral 13 denotes a cord with a power plug, and the power plug is connected to, for example, a household outlet (not shown) to supply AC commercial power to the main body 1 .

A cabinet 2 forming the left and right side surfaces and the upper surface of the main body 1 includes an oven front plate 22 forming the front surface of the main body 1 and the rear surface of the main body 1 so as to cover the main body 1 and the oven bottom plate 21 forming the bottom surface of the oven range. It is provided between the oven rear plate 23 to be formed. Further, the main body 1 is provided with a cooking chamber 24 for accommodating an object S to be cooked and a thermistor 25 serving as a temperature detecting element for detecting the temperature of the cooking chamber 24 . The front surface of the cooking chamber 24 reaches the oven front plate 22 and has an opening for taking in and out the food S to be cooked. A thermistor 25 serving as internal temperature detection means is arranged near the door 3 inside the cooking chamber 24 .

A peripheral wall forming the inner surface of the cooking chamber 24 consists of a ceiling wall 24a, a bottom wall 24b, a left wall 24c, a right wall 24d, and an inner wall 24e. A back wall 24e of the cooking chamber 24 has a suction port 26 at its center, and a plurality of discharge ports 27 around the suction port 26.例文帳に追加An upper heater 28 for grilling is provided on the upper part of the main body 1, facing the dome-shaped ceiling wall 24a serving as the upper wall surface of the cooking chamber 24, for radiantly heating the food S to be cooked from above the cooking chamber 24. A microwave generator 29 including a magnetron is provided at the bottom of the main body 1 to supply microwaves, which are radio waves, into the cooking chamber 24 . As a result, the object to be cooked S stored in the cooking chamber 24 is grill-heated from above by heat radiation accompanying the energization of the upper heater 28, and the energization of the microwave generator 29 causes the interior of the cooking chamber 24 to be heated. Microwaves are radiated to the object S to be cooked which is housed in the container, and the object to be cooked S is microwave-heated.

A left side wall 24c and a right side wall 24d of the cooking chamber 24 are provided with a pair of left and right shelf supports 32 in two stages in order to store and hold a metal square plate 31 in a suspended state inside the cooking chamber 24. there is The square plate 31 used here has a bottomed concave shape with an open upper surface, and is formed by a housing portion 31A formed without holes in the rest, and a flange portion 31B extending horizontally outward from the upper end of the housing portion 31A. Configured. A vent hole 31C is formed in the flange portion 31B to allow hot air to flow through the square plate 31. As shown in FIG. FIG. 2 shows a state in which the flange portion 31B of the square plate 31 is placed on the lower shelf support 32 inside the cooking chamber 24, and the object to be cooked S is placed on the storage portion 31A. The plate 31 may be placed only on the upper shelf support 32, or two square plates 31 may be placed on the upper and lower shelf supports 32 respectively. Other accessories such as may be accommodated and held. Further, in the range heating by the microwave generator 29 described above, the object to be cooked S can be microwave-heated inside the cooking chamber 24 without placing the square plate 31 or the gridiron inside the cooking chamber 24 (Fig. not shown) and can be cooked.

Reference numeral 34 denotes a hot air unit for heating the oven provided inside the main body 1 from the rear to the bottom outside the cooking chamber 24 . The hot air unit 34 serves as means for heating the object S to be cooked, and includes a convex casing 36 attached to the back wall 24e, a hot air heater 37 for heating the air, and a heated air that is sent into the cooking chamber 24 and circulated. A hot air fan 38 , an electric hot air motor 39 that rotates the hot air fan 38 in a predetermined direction, and a transmission mechanism 40 that transmits the driving force from the hot air motor 39 to the hot air fan 38 . A hot-air heater 37 and a hot-air fan 38 are respectively disposed in a heating chamber 41 formed in the exterior rear of the cooking chamber 24 as an internal space between the inner wall 24e and the casing 36. A hot air motor 39 is disposed in a lower space 42 between the cooking chamber 24 formed in the bottom plate 21 of the oven and the bottom plate 21 of the oven. An oven rear plate 23 is arranged at the rear portion of the main body 1 so as to cover the entire hot air unit 34 from the rear outside.

The hot-air fan 38 of this embodiment is provided as a so-called centrifugal fan that takes in air in the axial direction and discharges it in a radial direction perpendicular to the axial direction by centrifugal force during rotation. It is arranged around 38 radial directions. The hot air heater 37, which is also a heat generating part, uses, for example, a sheathed heater, a mica heater, a quartz tube heater, a halogen heater, or the like. The suction port 26 and the hot air outlet 27 described above function as a ventilation section that communicates between the cooking chamber 24 and the heating chamber 41 .

In the present embodiment, when the hot-air fan 38 is driven to rotate as the hot-air motor 39 is energized, the air sucked from the inside of the cooking chamber 24 through the suction port 26 is blown out in the radial direction of the hot-air fan 38, thereby energizing the hot-air fan 38. Heated by the hot air heater 37 , the hot air passes through the outlet 27 and is supplied into the cooking chamber 24 . As a result, a path for circulating hot air inside and outside the cooking chamber 24 is formed, and the object to be cooked S in the cooking chamber 24 is heated by hot air convection.

Next, as a heating means for heating the object to be cooked S, the microwave generator 29 as microwave heating means and the detailed structure of the surroundings will be described. The bottom wall 24b of the cooking chamber 24 is constructed by covering the top opening of a recessed antenna housing portion 45 formed in the metal plate material 44 with a bottom plate 46 such as a ceramic plate through which microwaves can pass. The metal plate material 44 which is impermeable to microwaves integrally forms not only the peripheral portion of the bottom wall 24b, but also the left side wall 24c, the right side wall 24d, and the inner wall 24e. The inner surface of is made entirely of a microwave-impermeable material.

The microwave generator 29 includes a magnetron (not shown) serving as a microwave supply source, and a conductor in a lower space 42 inside the main body 1 that guides microwaves oscillated by the magnetron directly below the antenna housing portion 45 . A wave tube 47, an antenna motor 48 arranged below the waveguide 47, and an antenna holder 49 whose lower end portion is arranged inside the waveguide 47 and is attached and fixed to the rotating shaft of the antenna motor 48. , a cylindrical cable shaft 50 inserted and fixed in the antenna holder 49, and an antenna 51 to which the upper end of the cable shaft 50 is attached and fixed at the center thereof and which is rotatably provided inside the antenna housing portion 45. Mainly composed of When the top opening of the antenna housing portion 45 is closed with the bottom plate 46, the entire antenna 51 is arranged parallel to the flat bottom plate 46 forming the bottom wall 24b of the cooking chamber 24, facing the bottom plate 46.

A mist supply device 53 for feeding mist into the cooking chamber 24 includes, in addition to the water supply cassette 8 described above, a nozzle 55 for turning the supplied liquid water into mist, and a nozzle 55 connected between the water supply cassette 8 and the nozzle 55 . , a water supply pump 57 that guides water from the water supply cassette 8 to the nozzle 55 , and a plurality of mist ejection holes 54 that communicate with the nozzle 55 . As a result, while the mist supply device 53 is in operation, water from the water supply cassette 8 is sent to the nozzle 55 by the water supply pump 57, and the water supplied by this nozzle 55 is turned into mist, and the mist is discharged from the mist ejection hole 54 into the cooking chamber 24. supplied internally. At this time, if the temperature in the cooking chamber 24 is higher than 100 degrees Celsius at atmospheric pressure (hereinafter, the temperature value is the temperature value in Celsius at atmospheric pressure), this mist will instantly By evaporating into superheated steam, the object to be cooked S placed in the cooking chamber 24 is quickly and evenly heated with appropriate water molecules (superheated steam).

58 is an exhaust path that communicates the cooking chamber 24 and the exhaust port 12 . In FIGS. 7 and 8, arrows indicate the path for exhausting the exhaust gas from the cooking chamber 24. Exhaust such as smoke and steam generated from the food S in the cooking chamber 24 is discharged through an exhaust path 58 through an exhaust port. It is discharged from 12. An odor sensor 59 serving as an odor detecting means 68 is provided in the exhaust port 12 on the path through which the exhaust gas is discharged, and detects gas of a predetermined component contained in the discharged exhaust gas. With this configuration, the odor sensor 59 can be additionally installed in a conventional microwave oven, and the same effects as those of the microwave oven of this embodiment can be obtained. The odor sensor 54 of the present embodiment employs a semiconductor gas sensor whose electric resistance value changes depending on the amount of adsorbed gas of a predetermined component. A thin-film type gas sensor may also be used.

FIG. 8 illustrates the main electrical configuration of the microwave oven. In the figure, reference numeral 61 denotes a control means composed of a microcomputer. As is well known, the control means 61 includes a CPU as arithmetic processing means, a memory as storage means, a timer as timekeeping means, an input Equipped with an output device.

In the input port of the control means 61, in addition to the operation means 7 using the keys and the touch panel described above, an infrared sensor 63A serving as a detection element is equipped with a swing mechanism to detect the temperature distribution in the entire cooking chamber 24. Thus, the object temperature detection means 63 for detecting the surface temperature of the object S stored therein by the infrared sensor 63A, and the temperature inside the cooking chamber 24 such as the thermistor 25 for detecting the temperature inside the cooking chamber 24 are detected. means 64, hot air motor rotation detecting means 65 for detecting the rotation of the hot air motor 39, door open/close detecting means 66 for detecting the open/closed state of the door 3, and the origin position of the antenna 51 constituting the microwave generator 29 is detected. The antenna position detection means 67 and the odor detection means 68 such as the odor sensor 59 for detecting gas of a predetermined component discharged from the exhaust port 12 are electrically connected to each other.

In addition to the display means 6 described above, the output port of the control means 61 has a microwave heating means 71 including the magnetron of the microwave generator 29 and its driving means, an upper heater 28 for grill heating, and an oven heating means. Heater drive means 72 such as a relay for energizing/disconnecting the hot air heaters 37 respectively; and a pump driving means 75 for operating the water supply pump 57 of the mist supplying device 53 are electrically connected.

The control means 61 receives an operation signal from the operation means 7 , an object temperature detection means 63 , an internal temperature detection means 64 , a hot air motor rotation detection means 65 , a door open/close detection means 66 , and an antenna position detection means. 67 and each detection signal from the odor detection means 68, the microwave heating means 71, the heater driving means 72, the antenna driving means 73, and the hot-air motor driving are performed at predetermined timings based on the clocking from the clocking means. It has a function of outputting a driving control signal to the means 74 and the pump driving means 75 and outputting a display control signal to the display means 6 . These functions are realized by the control means 61 reading the program recorded in the memory as a storage medium. It has a program that lets you

The cooking control section 77 mainly controls the operation of each section related to the cooking of the food item S. Upon receiving an operation signal associated with the operation of the operation means 7, a detection signal from the door opening/closing detection means 66 is received. , when it is determined that the door 3 is closed, the microwave heating means 71, the heater driving means 72, the antenna driving means 73, the hot air motor driving means 74, and the pump driving means 75 are operated according to the operation signal. to control the cooking of the food S in the cooking chamber 24 by sending a control signal to . In addition, a plurality of cooking menus are stored in advance in the memory as cooking information including the ingredients of the object S to be cooked and the heating conditions for performing various types of cooking. When the menu selection setting means 7A incorporated in 7 is operated appropriately, one or a plurality of cooking menus selected from among them are set as a specific cooking menu for heat cooking, and a predetermined cooking menu according to the cooking menu is set. It is configured to automatically heat and cook the object S to be cooked according to the procedure.

The menu selection setting means 7A is specifically provided on the surface of the LED display serving as the display means 6, and is a touch key that enables selection of a specific menu from a plurality of menus displayed on the LED display. , when a specific menu is selected by operating the touch key, the specific menu is set and stored by the cooking control unit 77, and the food S to be cooked is processed in a predetermined procedure according to the specific menu. and a start key for starting cooking. This is merely an example, and the configuration of the menu selection setting means 7A is not particularly limited.

Next, the operation of the microwave oven having the above configuration will be described in detail. With the food S to be cooked in the cooking chamber 24 in advance, the door 3 is closed while gripping the handle 4, and the power plug of the cord 13 with the power plug is inserted into the outlet to turn on the power. 1 is turned off in which heating is not performed, and the display/notification control unit 78 causes the display means 6 to display a plurality of menus. Here, after a specific cooking menu is selected and operated by the menu selection setting means 7A, the operation means 7, etc., when the start of heating and cooking of the object to be cooked S is instructed, selection is made according to the control program incorporated in the memory of the control means 61. A control signal generated corresponding to the selected cooking menu is output from the output port of the control means 61 at a predetermined timing, and the food S is cooked.

Here, the action when the oven heating menu is selected will be described with reference to FIG. In FIG. 9, _T1 is a graph of the internal temperature of the cooking chamber 24 detected by the thermistor 25, _T2 is a graph of the surface temperature of the object to be cooked S detected by the infrared sensor 63A, and O is 4 is a graph of the amount of gas of a predetermined component detected by an odor sensor 59. FIG. When selecting an oven cooking menu, in the microwave oven of this embodiment, for example, the oven start key 7B is selected to start oven cooking, and the process proceeds to step S1.

In step S1, the heat cooking control unit 77 receives a detection signal from the infrared sensor 63A of the cooking object temperature detection means 63 after the start, and after the detection signal from the infrared sensor 63A stabilizes or saturates, the inside temperature is detected. In response to the detection signal from the thermistor 25, which is the temperature sensor of the means 64, the heater driving means 72 and the hot air motor driving means of the hot air unit 34 are operated so that the object to be cooked S and the interior of the cooking chamber 24 are heated to the set temperature. 74 to control the electrical connection/disconnection of the hot air heater 37 and the hot air motor 39 . As a result, the rotational force generated in the hot air motor 39 is transmitted to the hot air fan 38, and the hot air fan 38 rotates inside the heating chamber 41. It is captured. Also, by the rotation of the hot air fan 38, the air sucked into the heating chamber 41 from the cooking chamber 24 through the suction port 26 is sent to the energized hot air heater 37 side, and the heated air is sent to the cooking chamber 24 through the blowout port 27 as hot air. By supplying the hot air, the food S in the cooking chamber 24 is heated by hot air convection.

At this time, if the object to be cooked S contains a component that easily evaporates, such as fermented foods such as miso, soy sauce, and mirin, the temperature of the object to be cooked S rises, for example, the alcohol contained in the fermented food. The volatile components evaporate first and are discharged with the rest of the exhaust through the exhaust path 58 and out the exhaust port 12 . Here, the heat cooking control unit 77 of the present embodiment receives a detection signal from the infrared sensor 63A of the cooking object temperature detection means 63 and a detection signal from the odor sensor 59 of the odor detection means, and controls the cooking after the start. The surface temperature of the object S and the amount of the gas of the specified component contained in the discharged exhaust gas are monitored. The degree of scorching of the food S to be cooked is determined from the amount of increase in hit.

For example, in the case of FIG. 9, in the graph _T2 of the surface temperature of the object to be cooked S, the surface temperature of the onion, which is the object to be cooked S, rises from 50° C. to 70° C. in one minute after the start. In addition, in the graph O of the amount of the gas of the predetermined component, it rises to point P1 one minute after the start, and the amount of increase per hour of the gas of the predetermined component is large. Therefore, the heat cooking control unit 77 determines that the onion, which is the object to be cooked S, is an object to be cooked that is likely to burn. On the other hand, coffee beverages, for example, have a small increase in gas of a predetermined component per unit time, and in this case, the heating and cooking control section 77 determines that the cooking object S is a cooking object that is difficult to burn. From the surface temperature of the object to be cooked S after the start, the increase in the surface temperature per hour, and the amount of increase in the gas of the predetermined component per time, the object to be cooked S and the seasonings contained therein are specifically determined. It may be configured to specify

After a predetermined period of time has passed, the amount of gas of a predetermined component contained in the discharged exhaust gas decreases as the surface temperature of the object to be cooked S rises. Then, in FIG. 9, the inclination of the graph _T2 of the surface temperature of the object to be cooked S stabilizes, the surface temperature of the object to be cooked S stabilizes, and at point P2 of the graph O of the amount of the gas of the predetermined component, the gas is discharged. When the amount of the gas of the predetermined component contained in the exhaust changes from a decrease to an increase, the cooking control unit 77 determines that the onion, which is the object to be cooked S, is "starting to burn", and proceeds to step S2.

In step S2, subsequent to step S1, the heat cooking control unit 77 receives the detection signal from the thermistor 25, and controls the heater driving means 72 and the hot air motor driving means 74 so that the inside of the cooking chamber 24 is heated to the set temperature. to control the power supply to the hot air heater 37 and the hot air motor 39. At the same time, a detection signal from the odor sensor 59 is received to detect gas of a predetermined component contained in the discharged exhaust gas. Monitor quantity. In FIG. 9, in the graph _T1 of the internal temperature of the cooking chamber 24, the temperature change at the set temperature is within a predetermined value, the internal temperature converges and stabilizes and reaches a saturated state, and the amount of gas of the predetermined component When the amount of the gas of the predetermined component contained in the discharged exhaust gas changes from an increase to a decrease per time at a point P3 in the graph O of FIG. The scent has changed to a good one." Then, the process proceeds to step S3.

In step S3, the heat cooking control unit 77 receives the detection signal from the thermistor 25, and controls the heater driving means 72 and the hot air motor driving means 74 so that the inside of the cooking chamber 24 converges stably at the set temperature and becomes saturated. to control the power supply to the hot air heater 37 and the hot air motor 39. At the same time, a detection signal from the odor sensor 59 is received to detect gas of a predetermined component contained in the discharged exhaust gas. Monitor quantity. Further, in the present embodiment, the cooking control unit 77 judges the susceptibility to scorching of the food item S in step S1, and from the data of the increase value of the surface temperature per time and the increase amount of the gas of the predetermined component per time, The scheduled heating time of the object to be cooked S is calculated, and the display notification control unit 78 uses a timer as a timing means to display the scheduled heating time on the display means 6 as the remaining time. The user can know how much longer it will take to complete the cooking. The present invention is not limited to this, and the scheduled heating time of the food S to be cooked may be calculated by other methods. When cooking is performed by setting a time using the operation means 7, the display notification control section 78 may be configured to display the remaining time of the set cooking time in addition to the remaining time described above. .

In FIG. 9, when the amount per unit time of the gas of the predetermined component contained in the discharged exhaust changes from a decrease to an increase at a point P4 in the graph O of the amount of the gas of the predetermined component, the heat cooking control unit 77 It is determined that the onion, which is the object S, "changed to a burnt and fragrant smell", and the process proceeds to step S4.

In step S4, the heat cooking control unit 77 receives the detection signal from the thermistor 25, and controls the heater driving means 72 and the hot air motor driving means 74 so that the inside of the cooking chamber 24 converges stably at the set temperature and becomes saturated. to control the power supply to the hot air heater 37 and the hot air motor 39. At the same time, a detection signal from the odor sensor 59 is received to detect gas of a predetermined component contained in the discharged exhaust gas. Monitor quantity. In FIG. 9, at point P5 in the graph O of the amount of gas of the predetermined component, when the amount of gas of the predetermined component rises by a predetermined value from point P4 where the amount of gas of the predetermined component begins to rise, the heat cooking control unit 77 The oven cooking of the onion, which is S, has been completed.” Then, a control signal is sent to each of the heater driving means 72 and the hot air motor driving means 74 to disconnect the hot air heater 37 and the hot air motor 39 to start hot air convection heating. terminate.

Here, the heat cooking control unit 77 of the present embodiment increases or decreases the predetermined value according to the degree of burnability of the food item S determined in step S1. is decreased to shorten the time between the points P4 and P5 so that the food S to be cooked is not scorched. On the other hand, for the object to be cooked which is determined to be difficult to burn, the predetermined value is increased to lengthen the time between the points P4 and P5 so that the heat can penetrate into the object S to be cooked. With this configuration, when the object to be cooked S contains fermented foods such as miso, soy sauce, mirin, and other fermented foods that are likely to burn easily, the point P5 at which the cooking ends is the point P4. Since the heating time is shortened, it is possible to suppress the burning of the food S to be cooked. On the other hand, if the object to be cooked S is a non-burnable object such as a coffee drink, the heating time from the point P4 to the point P5 where cooking ends is longer, so the object to be cooked S should be heated to the middle. It is possible to prevent undercooking and insufficient heating.

In this manner, for example, in the case of one-touch automatic oven cooking in which the oven start key 7B is selected and operated, the heat cooking control section 77 detects the burnt smell of the food S with the smell sensor 59 and automatically adjusts the heating time. Since the hot-air convection heating is finished in step S4, the user can cook in the oven without being near the main body 1 all the time, and anyone can easily cook in the oven. On the other hand, for example, when the cooking time is set by the operation means 7 and oven cooking is performed, the heat cooking control section 77 receives a detection signal such as the set time input from the operation means 7 and turns on. After P5, hot air convection heating is performed. In this case, the cooking control unit 77 determines that the onion, which is the object to be cooked S, is "burning more and more", and proceeds to step S5.

In step S5, the heating control unit 77 continues to receive the detection signal from the thermistor 25, and controls the heater driving means 72 and the hot air motor driving means so that the inside of the cooking chamber 24 converges stably at the set temperature and becomes saturated. 74 to control the electrical connection/disconnection of the hot air heater 37 and the hot air motor 39. In addition, upon receiving a detection signal from the odor sensor 59, gas of a predetermined component contained in the discharged exhaust gas is detected. monitor the amount of In FIG. 9, when hot air convection heating is performed after point P5 on the graph O of the gas amount of the predetermined component, the graph O of the gas amount of the predetermined component rises, and the amount of the gas of the predetermined component increases steadily. I understand. Therefore, the heat cooking control unit 77 operates a notification means (not shown) to notify the user when the amount of the gas of the predetermined component reaches the point P5 even if the set time set by the operation input has not elapsed. may be configured. Further, the cooking control section 77 judges that "it is getting more and more scorched" when reaching a point P6 which is increased by a predetermined value from the point P5. A control signal may be sent to each of the means 72 and the hot-air motor driving means 74 to disconnect the hot-air heater 37 and the hot-air motor 39 to end the hot-air convection heating. With this configuration, overheating such as smoking or scorching of the object to be cooked S can be suppressed in oven cooking even in cases other than automatic one-touch oven cooking, and even if the user is not near the main body 1 for a long time, the oven can be used. You can cook, and anyone can easily cook in the oven.

Also in steps S1 to S4, if the smell sensor 59 detects a predetermined amount or more of the gas of the predetermined component, the cooking control unit 77 determines that "the object S to be cooked is in a burnt state." Control signals are sent to the heater driving means 72 and the hot-air motor driving means 74 without proceeding to the subsequent steps, and the hot-air heater 37 and the hot-air motor 39 are de-energized to end the hot-air convection heating. may With this configuration, even if the object to be cooked S smokes or burns during steps S1 to S4 and is overheated, the oven cooking can be automatically finished.

When the grill cooking menu is selected, the heat cooking control unit 77 receives a detection signal from the infrared sensor 63A after the start, and detects from the thermistor 25 after the detection signal from the infrared sensor 63A stabilizes or saturates. Upon receiving the signal, the heater driving means 72 controls the energization and deenergization of the upper heater 28 so that the interior of the cooking chamber 24 is heated to the set temperature, and the food S to be cooked in the cooking chamber 24 is grilled from above. heated.

At this time, the heat cooking control unit 77 of the present embodiment controls the detection signal from the infrared sensor 63A of the cooking object temperature detection means 63 and the thermistor of the internal temperature detection means 64, as in the case where the oven cooking menu is selected. 25 and the detection signal from the odor sensor 59 of the odor detection means, the internal temperature of the cooking chamber 24, the surface temperature of the food to be cooked S, and the predetermined components contained in the discharged exhaust gas are detected. The amount of gas is monitored, determinations are made in the same manner as in steps S1 to S6 described above, and the ON/OFF of the upper heater 28 is controlled. With this configuration, as in the case of selecting the oven heating menu, overheating such as smoking or scorching of the food S to be cooked can be suppressed in grilling, and the user is kept away from the main body 1. Anyone can easily cook on the grill.

When the microwave cooking menu is selected, the heating control section 77 receives the detection signal from the cooking object temperature detecting means 63 and adjusts the antenna position detecting means so that the cooking object S is heated to the set temperature. Appropriate control signals are sent to the microwave heating means 71 and the antenna driving means 73, respectively, while confirming the origin position of the antenna 51 with the detection signal from 67. As a result, the magnetron of the microwave generator 29 and the antenna 51 are operated, and microwaves generated from the surface of the rotating antenna 51 are supplied into the cooking chamber 24, and the food S in the cooking chamber 24 is heated by high frequency. be done.

At this time, similarly to when the oven cooking menu or the grill cooking menu is selected, the heat cooking control unit 77 of the present embodiment detects the detection signal from the infrared sensor 63A of the cooking object temperature detection means 63, Upon receiving a detection signal from the thermistor 25 of the temperature detection means 64 and a detection signal from the odor sensor 59 of the odor detection means, the surface temperature of the object to be cooked S after the start and gas of a predetermined component contained in the discharged exhaust gas are detected. is monitored, determinations are made in the same manner as in steps S1 to S5 described above, and appropriate control signals are sent to the microwave heating means 71 and the antenna driving means 73, respectively. By configuring in this way, in microwave cooking, for example, it is possible to suppress overheating such as smoking of the cooking object S that easily emits smoke, such as hot sake, and overheating of the cooking object S by high frequency. Microwave cooking can be performed without being near the main body 1 all the time, and anyone can easily perform microwave cooking.

When a steamed dish using mist superheated steam (steam cooking) is selected, the heat cooking control unit 77 receives a detection signal from the internal temperature detection means 64 and heats the interior of the cooking chamber 24 to the set temperature. The heater driving means 72 controls the energization and energization of the upper heater 28 so that the heater 28 is turned on and off. When the cooking controller 77 determines that the internal temperature of the cooking chamber 24 has reached the set temperature, it sends a control signal to the pump driving means 75 to operate the water supply pump 57 incorporated in the mist supply device 53. to supply mist by ejecting water from the mist ejection hole 54 into the cooking chamber 24. - 特許庁At this time, the heat cooking control section 77 controls the operation of the water supply pump 57 so that the amount of water that can be vaporized at the set temperature in the cooking chamber 24 is equal to or less than the upper limit of the amount of water that can be vaporized at one time. As a result, the inside of the cooking chamber 24 is heated to the set temperature, so the mist is instantly vaporized into superheated steam, and the mist that is not vaporized at this time also contacts one of the walls 14a to 14e of the cooking chamber 24. As a result, the food S in the cooking chamber 24 is quickly and evenly heated with appropriate water molecules (superheated steam). Therefore, it is possible to reduce the wateriness of the food S to be cooked and to bake it deliciously. In addition, since the amount of water W to be used can be reduced by half, the amount of drain can be reduced and almost eliminated, and maintenance of the water receiver 9 and the cooking chamber 24 can be facilitated.

When the mist is supplied to the interior of the cooking chamber 24, the temperature inside the cooking chamber 24 decreases. The cooking control unit 77 determines whether or not the internal temperature of the cooking chamber 24 has reached the set temperature based on the detection signal from the internal temperature detecting means 64. When the cooking control unit 77 determines that the temperature has not reached A heating control section 77 controls the ON/OFF of the upper heater 28 by the heater driving means 72 so that the inside of the cooking chamber 24 is heated to the set temperature. When the cooking control unit 77 determines that the internal temperature of the cooking chamber 24 has reached the set temperature, water is jetted into the cooking chamber 24 to supply mist again as described above. As a result, the mist is instantly vaporized into superheated steam, and the object to be cooked S in the cooking chamber 24 is heated with an appropriate amount of water molecules (superheated steam). can be done. Further, by grilling the food S to be charred, the original deliciousness of the food S can be brought out.

At this time, as in the case of selecting the grill cooking menu, the heat cooking control section 77 of the present embodiment detects the detection signal from the infrared sensor 63A of the cooking object temperature detection means 63 and the internal temperature detection means 64. In response to the detection signal from the thermistor 25 and the detection signal from the odor sensor 59 of the odor detection means, the internal temperature of the cooking chamber 24, the surface temperature of the food to be cooked S, and the predetermined components contained in the discharged exhaust gas are detected. The amount of gas is monitored, and determinations are made in the same manner as in steps S1 to S5 described above, and the ON/OFF of the upper heater 28 is controlled. By configuring in this way, even when the supply amount of mist is insufficient or when the set heating time is too long, overheating such as smoking or scorching of the food S can be suppressed in steam cooking. , Steam cooking can be performed even if the user does not stay near the main body 1 all the time, and anyone can easily perform steam cooking.

As described above, the microwave oven as the heating cooker of the present embodiment includes the cooking chamber 24 for accommodating the food S to be cooked, the hot air unit 34 and the upper heater 28 as heating means for heating the food S to be cooked. Alternatively, the microwave generator 29, the internal temperature detecting means 64 for detecting the temperature in the cooking chamber 24, and the odor detecting means 68 for detecting the amount of gas of a predetermined component contained in the exhaust discharged from the food S to be cooked. and a heat cooking control unit 77 for controlling the above-described heating means so that the object S to be cooked is cooked at the set temperature, and the heat cooking control unit 77 stabilizes the inside of the cooking chamber 24 at the set temperature. After the internal temperature detection means 64 detects that the temperature of the chamber is saturated, the amount of the detected gas of the predetermined component changes from a decrease to an increase, from the point P4 to the predetermined value. When the odor detection means 68 detects that the value of P5-point P4 has been increased, the above-described heating by the heating means is terminated.

In this case, overheating such as smoking or scorching of the food S can be suppressed during heat cooking such as oven cooking, grill cooking, microwave cooking, or steam cooking. You don't have to be there, and anyone can easily heat and cook.

Further, the microwave oven of this embodiment further includes a cooking object temperature detection means 63 for detecting the surface temperature of the cooking object S, and the heat cooking control unit 77 detects the surface temperature of the cooking object S after the start of cooking. , the susceptibility to scorching of the food S to be cooked is determined from the surface temperature rise value per time and the rise amount of the gas of the predetermined component per time, and reflected in the value of the point P5-point P4 which is the predetermined value. Configured.

In this case, in the case where the object to be cooked S contains an easily evaporative component and is easily scorched, the heating time when the point P5, which is the amount of the gas of the predetermined component at which the cooking is finished, is detected is the predetermined component. Since the heating time after detecting point P4 at which the amount of gas in (1) turns from a decrease to an increase is shortened, it is possible to suppress scorching of the food S to be cooked. On the other hand, in the case of the object to be cooked which is difficult to burn, the heating time when the point P5 where the cooking ends is detected is longer than the heating time after the point P4 is detected. It can be heated, preventing undercooking and underheating.

Further, the microwave oven of the present embodiment further includes a display means 6 for displaying setting details and progress of cooking, and the heat cooking control section 77 determines the degree of burnability of the object S to be cooked from the data. is calculated, and the estimated heating time is displayed on the display means 6 using the display notification control unit 78, so that the user can know how long it will take to complete the cooking. We are making it possible.

It should be noted that the present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the scope of the present invention. For example, in the deodorizing work of heating the cooking chamber 24 with nothing in the cooking chamber 24 by heating with the upper heater 28 in the maintenance of the main body 1 after cooking the food with a strong smell such as fish dishes. The control unit 77 receives the detection signal from the odor sensor 59 and monitors the amount of the gas of the predetermined component contained in the discharged exhaust gas, and continues the deodorizing operation until the amount of the gas of the predetermined component becomes equal to or less than the predetermined amount. It may be configured as Also, the odor sensor 59 serving as the odor detection means 68 may be installed inside the exhaust path 58 or inside the cooking chamber 24 . Then, the cooking control unit 77 judges the easiness of burning of the object S to be cooked, and reflects not only the value of the point P5-point P4, which is a predetermined value, but also the set temperature for heat cooking to set the set temperature. It may be configured to increase or decrease. Furthermore, the configuration and shape of each part of this embodiment are not limited to those shown in the drawings, and can be changed as appropriate.

1 Microwave oven body (heating cooker)
6 display means 24 cooking chamber 28 upper heater (heating means)
29 microwave generator (heating means)
34 hot air unit (heating means)
63 object temperature detection means 64 internal temperature detection means 68 odor detection means 77 heat cooking control section S object to be cooked

Claims (3)

a cooking chamber in which the food to be cooked is accommodated;
a heating means for heating the object to be cooked;
internal temperature detection means for detecting the temperature in the cooking chamber;
an odor detecting means for detecting the amount of gas of a predetermined component contained in the exhaust gas discharged from the food to be cooked;
a cooking control unit that controls the heating means so as to cook the object to be cooked at a set temperature;
After the internal temperature detection means detects that the interior of the cooking chamber has converged and stabilized at the set temperature and has reached a saturated state, the amount of the detected gas of the predetermined component increases from a decrease. A heating cooker characterized in that the heating by said heating means is terminated when said odor detecting means detects that said odor detecting means has increased from a value when said odor is turned to , to a predetermined value or more. Further comprising cooking object temperature detection means for detecting the surface temperature of the cooking object,
The heat cooking control unit detects the surface temperature of the object to be cooked, the increase value of the surface temperature per time, and the amount of increase per time of the gas of the predetermined component detected after the start of cooking. 2. The heating cooker according to claim 1, wherein the heat cooker is configured to determine the degree of heat and reflect it in the predetermined value. Further equipped with a display means for displaying the setting contents and progress of cooking,
The cooking control unit is configured to calculate a scheduled heating time of the food item S from data for determining the easiness of burning of the food item, and display the scheduled heating time on the display means. The heating cooker according to claim 2, characterized in that:

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