JP5214048B2 - Induction heating cooker - Google Patents

Induction heating cooker Download PDF

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JP5214048B2
JP5214048B2 JP2012184048A JP2012184048A JP5214048B2 JP 5214048 B2 JP5214048 B2 JP 5214048B2 JP 2012184048 A JP2012184048 A JP 2012184048A JP 2012184048 A JP2012184048 A JP 2012184048A JP 5214048 B2 JP5214048 B2 JP 5214048B2
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heating
heating coil
infrared sensor
top plate
cooking container
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JP2012253037A (en
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広康 私市
博史 山崎
滋之 永田
健一郎 西
彰 森井
治夫 櫻井
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Mitsubishi Electric Corp
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    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B6/00Heating by electric, magnetic or electromagnetic fields
    • H05B6/02Induction heating
    • H05B6/06Control, e.g. of temperature, of power
    • H05B6/062Control, e.g. of temperature, of power for cooking plates or the like
    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B2213/00Aspects relating both to resistive heating and to induction heating, covered by H05B3/00 and H05B6/00
    • H05B2213/07Heating plates with temperature control means

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  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • Induction Heating Cooking Devices (AREA)

Description

この発明は、赤外線センサで調理容器から放射される赤外線を検出し、赤外線量に基づき調理容器の温度を求め、温度制御を行う誘導加熱調理器に関するものである。   The present invention relates to an induction heating cooker that detects infrared rays emitted from a cooking vessel with an infrared sensor, obtains the temperature of the cooking vessel based on the amount of infrared rays, and performs temperature control.

従来の誘導加熱装置においては、以下の構成のものがある。
調理物を加熱する調理容器を載置するトッププレートと、トッププレートを介して調理容器から放射された赤外線を検出する赤外線センサと、赤外線センサの受光したエネルギより調理容器の温度を換算する温度検出手段と、調理容器を加熱するために誘導磁界を発生させる加熱コイルと、温度検出手段の温度情報により前記加熱コイルの高周波電流を制御して調理容器の加熱電力量を制御する加熱制御手段と、加熱制御手段に加熱を行うための条件を入力する入力手段とを備え、赤外線センサは加熱コイルの中心から入力手段側の加熱コイル近傍に配した誘導加熱装置(例えば、特許文献1参照)。
Conventional induction heating devices include the following configurations.
A top plate on which a cooking vessel for heating the food is placed, an infrared sensor for detecting infrared rays emitted from the cooking vessel through the top plate, and temperature detection for converting the temperature of the cooking vessel from the energy received by the infrared sensor Heating means for generating an induction magnetic field to heat the cooking container, heating control means for controlling the heating power amount of the cooking container by controlling the high-frequency current of the heating coil according to temperature information of the temperature detection means, The heating control means is provided with an input means for inputting conditions for heating, and the infrared sensor is an induction heating device disposed in the vicinity of the heating coil on the input means side from the center of the heating coil (see, for example, Patent Document 1).

特開2008−262719号公報(第14頁、第6図)JP 2008-262719 A (page 14, FIG. 6)

従来の技術は、加熱コイルの中心から入力手段側の加熱コイル近傍、または、加熱コイルの中心からトッププレートの中心方向の加熱コイル近傍が、太陽光などの外光の影響を受けにくい為、赤外線センサを配置するために最も適した位置と述べている。
しかしながら、調理容器がトッププレートに積載されている状態では、調理容器により外光が遮断されるため、赤外線センサに外光は到達しない。むしろ、片手鍋の場合は、取っ手が誘導加熱調理器からはみだして邪魔にならないようにするため、加熱コイル中心に対して奥側に置かれる場合が多い、この場合、加熱コイルの中心から入力手段側の加熱コイル近傍に赤外線センサを配置すると、赤外線センサの直上に鍋がない場合もあり、正しく温度を計測できない欠点がある。
また、加熱コイルの中心からトッププレートの中心方向の加熱コイル近傍に赤外線センサを配置した場合、隣り合う加熱コイルからの熱により、トッププレートが加熱され、加熱されたトッププレートからの赤外線を受けて正しく温度を計測できない欠点がある。
In the conventional technology, the vicinity of the heating coil on the input means side from the center of the heating coil or the vicinity of the heating coil in the center direction of the top plate from the center of the heating coil is not easily affected by external light such as sunlight. It is said to be the most suitable position for placing the sensor.
However, in a state where the cooking container is mounted on the top plate, the outside light does not reach the infrared sensor because the outside light is blocked by the cooking container. Rather, in the case of a one-handed pan, in order to prevent the handle from sticking out of the induction heating cooker, it is often placed behind the center of the heating coil. In this case, the input means starts from the center of the heating coil. If an infrared sensor is arranged in the vicinity of the heating coil on the side, there may be no pan directly above the infrared sensor, and there is a disadvantage that the temperature cannot be measured correctly.
In addition, when an infrared sensor is arranged near the heating coil in the center direction of the top plate from the center of the heating coil, the top plate is heated by the heat from the adjacent heating coil, and receives infrared rays from the heated top plate. There is a drawback that the temperature cannot be measured correctly.

この発明は、上述のような課題を解決するためになされたものであり、調理容器の温度を正しく計測でき、適した調理を行うことができる誘導加熱調理器を得るものである。   This invention is made in order to solve the above subjects, and obtains the induction heating cooking appliance which can measure the temperature of a cooking container correctly and can perform suitable cooking.

この発明に係る誘導加熱調理器は、調理物を加熱する調理容器を載置するトッププレートと、前記トッププレートの手前左右及び前記トッププレート中央奥側に設けられ、前記調理容器を加熱するために誘導磁界を発生させる複数の加熱コイルと、各々の前記加熱コイルに対して設けられ、この加熱コイルにより加熱される前記調理容器から放射された赤外線を検出する赤外線センサと、を備え、前記トッププレート中央奥側の前記加熱コイルに対して設けられた前記赤外線センサを、前記加熱コイルの配置領域内のうち前記加熱コイル中心よりも奥側の前記トッププレートの端部側の赤外線センサ搭載エリア内にのみ設けたものである。   An induction heating cooker according to the present invention is provided on a top plate on which a cooking container for heating a cooked product is placed, on the left and right sides of the top plate, and on the central back side of the top plate, and for heating the cooking container A plurality of heating coils that generate an induction magnetic field; and an infrared sensor that is provided for each of the heating coils and that detects infrared rays emitted from the cooking vessel heated by the heating coils, and the top plate The infrared sensor provided for the heating coil on the back side in the center is placed in the infrared sensor mounting area on the end side of the top plate on the back side from the center of the heating coil in the arrangement area of the heating coil. Only provided.

この発明は、トッププレート中央奥側の加熱コイルに対して設けられた赤外線センサを、加熱コイルの配置領域内のうち加熱コイル中心よりも奥側のトッププレートの端部側の赤外線センサ搭載エリア内にのみ設けたので、複数の加熱コイルを同時に動作させた場合でも、隣接する加熱コイルが動作することで、隣接加熱コイル自身から放射される赤外線、隣接する加熱コイルの直上に置かれた調理容器からの熱で加熱されたトッププレートから放射される赤外線の影響を受けずに、かつ、片手鍋がずれて置かれた場合でも、赤外線センサの直上には必ず調理容器が存在するため、正しく温度検知を行うことができる。   In this invention, the infrared sensor provided for the heating coil on the back side of the center of the top plate is placed in the infrared sensor mounting area on the end side of the top plate on the back side of the heating coil center in the heating coil arrangement region. Even when a plurality of heating coils are operated at the same time, the adjacent heating coil operates, so that the infrared rays radiated from the adjacent heating coil itself, the cooking container placed immediately above the adjacent heating coil Even if the one-handed pan is placed without being affected by the infrared rays radiated from the top plate heated by the heat from, the cooking container always exists immediately above the infrared sensor. Detection can be performed.

この発明の実施の形態1を示す誘導加熱調理器の上面図である。It is a top view of the induction heating cooking appliance which shows Embodiment 1 of this invention. この発明の実施の形態1を示す誘導加熱調理器の側面図である。It is a side view of the induction heating cooking appliance which shows Embodiment 1 of this invention. この発明の実施の形態1を示す誘導加熱調理器の赤外センサ設置位置を示す図である。It is a figure which shows the infrared sensor installation position of the induction heating cooking appliance which shows Embodiment 1 of this invention. この発明の実施の形態2を示す誘導加熱調理器の上面図である。It is a top view of the induction heating cooking appliance which shows Embodiment 2 of this invention. この発明の実施の形態2を示す誘導加熱調理器の側面図である。It is a side view of the induction heating cooking appliance which shows Embodiment 2 of this invention.

実施の形態1.
図1はこの発明を実施するための実施の形態1における誘導加熱調理器の上面図を示すものであり、加熱コイルを3個搭載した誘導加熱調理器を上から見た図であり、赤外線センサの搭載位置を示すものである。図において、斜線部が赤外線センサの搭載エリアを示す。操作部から見て、搭載エリアは各加熱コイル中心から外側で、かつ奥側にある。図2はこの発明を実施するための実施の形態1における誘導加熱調理器の側面図を示すものであり、複数の加熱コイルのうち、1個の加熱コイルを側面から見た場合の構成を示すもので、1は調理容器、2はトッププレート、3はトッププレート裏面に印刷された遮光手段、4は加熱コイル、5は加熱コイルに設けられたフェライト、6は導光手段、7は赤外線センサ、8は基板、9はケース、10は制御回路、11はコイル及びフェライトを搭載する加熱コイル支持台を表す。図3はこの発明を実施するための実施の形態1における誘導加熱調理器の赤外線センサ設置位置を示すものであり、上から見たときの加熱コイル4とフェライト5と赤外線センサ7の位置関係を示す。図1、2、3を用いて動作の説明を実施する。
Embodiment 1 FIG.
FIG. 1 shows a top view of an induction heating cooker according to Embodiment 1 for carrying out the present invention, and is a view of an induction heating cooker equipped with three heating coils as viewed from above, and an infrared sensor. This indicates the mounting position. In the figure, the shaded area indicates the area where the infrared sensor is mounted. As viewed from the operation unit, the mounting area is on the outer side and the rear side from the center of each heating coil. FIG. 2: shows the side view of the induction heating cooking appliance in Embodiment 1 for implementing this invention, and shows the structure at the time of seeing one heating coil from the side among several heating coils. 1 is a cooking container, 2 is a top plate, 3 is a light shielding means printed on the back surface of the top plate, 4 is a heating coil, 5 is a ferrite provided on the heating coil, 6 is a light guiding means, and 7 is an infrared sensor. , 8 is a substrate, 9 is a case, 10 is a control circuit, and 11 is a heating coil support on which a coil and ferrite are mounted. FIG. 3 shows the infrared sensor installation position of the induction heating cooker according to Embodiment 1 for carrying out the present invention. The positional relationship among the heating coil 4, the ferrite 5, and the infrared sensor 7 when viewed from above is shown. Show. The operation will be described with reference to FIGS.

図示していないが、使用者が温度を設定して加熱スタートボタンを押すと、制御回路10は加熱コイル4を所定の周波数で駆動し、このときの電力を測定する。調理容器1の有無で加熱コイルから見たインピーダンスが変化するため、電力の大小により調理容器1の有無を判定する。トッププレート2の裏には、赤外線センサ7の直上以外は、遮光の印刷3が施されている。そして、トッププレート2の上に調理容器1が載っている場合のみ、赤外線センサ7が受光した赤外線から温度に変換したデータを制御に使用する。即ち、電力の大小によって調理器が有ると判断された場合にのみ、調理容器1が赤外線センサ7の直上にあり、調理容器1により遮光されていると判断し、赤外線センサの出力を制御に使用しているため、外光の影響を排除できる。   Although not shown, when the user sets the temperature and presses the heating start button, the control circuit 10 drives the heating coil 4 at a predetermined frequency and measures the electric power at this time. Since the impedance viewed from the heating coil changes depending on the presence or absence of the cooking container 1, the presence or absence of the cooking container 1 is determined based on the magnitude of the electric power. On the back of the top plate 2, light-shielding printing 3 is applied except for the portion directly above the infrared sensor 7. And only when the cooking container 1 is mounted on the top plate 2, the data converted from the infrared rays received by the infrared sensor 7 into the temperature is used for control. That is, only when it is determined that there is a cooker due to the magnitude of electric power, it is determined that the cooking container 1 is directly above the infrared sensor 7 and is shielded from light by the cooking container 1, and the output of the infrared sensor is used for control. Therefore, the influence of external light can be eliminated.

赤外線センサ7の位置は図1に示すように各々の加熱コイル4の中心よりも外側で、かつ、奥側に設置しているので、複数の加熱コイル4を同時に動作させた場合でも、隣接する加熱コイル4が動作することで、隣接加熱コイル4自身から放射される赤外線、隣接する加熱コイル4の直上に置かれた調理容器1からの熱でトッププレート2が加熱され放射する赤外線の影響を受けずに、かつ、調理容器1が片手鍋で、柄の部分が誘導加熱調理器からはみ出して邪魔にならないように、奥側にずれて置かれた場合でも、赤外線センサ4の直上には必ず調理容器1が存在するため、正しく温度検知を行うことができる。   As shown in FIG. 1, the infrared sensor 7 is located outside and behind the center of each heating coil 4, so that it is adjacent even when a plurality of heating coils 4 are operated simultaneously. When the heating coil 4 is operated, the influence of the infrared rays radiated from the adjacent heating coils 4 themselves and the infrared rays emitted from the top plate 2 heated by the heat from the cooking container 1 placed immediately above the adjacent heating coils 4 are affected. Even if the cooking container 1 is a one-handed pan without being received, and the handle is placed on the back side so that it does not get out of the way of the induction heating cooker, it must be placed directly above the infrared sensor 4. Since the cooking container 1 exists, temperature detection can be performed correctly.

赤外線センサ4は加熱コイル2裏面に発生する磁束をコイル表面に誘導する為のフェライト5より下に設置してあり、かつ、放射状に設置してあるフェライト5の間にあるため、フェライト5により加熱コイル4からの磁束が遮断され、磁束により誤動作することがなく正しく温度を測定できる。さらに、ケース9を金属ケースにすることにより、さらに磁束の影響を排除できる。また、ケース9は加熱コイル支持台11に取り付けることによりトッププレート2に設けられた遮光印刷を施していない部分との位置関係を精度良く保つことができる。   The infrared sensor 4 is installed below the ferrite 5 for inducing the magnetic flux generated on the back surface of the heating coil 2 to the coil surface, and is located between the ferrites 5 installed in a radial manner. The magnetic flux from the coil 4 is interrupted, and the temperature can be measured correctly without malfunction due to the magnetic flux. Furthermore, the influence of magnetic flux can be further eliminated by making the case 9 a metal case. Further, the case 9 is attached to the heating coil support 11 so that the positional relationship with the portion not provided with the light-shielding printing provided on the top plate 2 can be accurately maintained.

赤外線センサ7とトッププレート2の間には、金属または樹脂による円筒形の導光手段6を設けてある。これにより、加熱コイル4やトッププレート2の裏面から放射される赤外線を遮断して、調理容器1からの赤外線のみを赤外線センサ7に誘導でき正しく温度計測ができる。   A cylindrical light guide 6 made of metal or resin is provided between the infrared sensor 7 and the top plate 2. Thereby, the infrared rays radiated from the heating coil 4 and the back surface of the top plate 2 are blocked, and only the infrared rays from the cooking container 1 can be guided to the infrared sensor 7 and the temperature can be measured correctly.

実施の形態2.
図4はこの発明を実施するための実施の形態2における誘導加熱調理器の上面図を示すものであり、加熱コイルを3個搭載した誘導加熱調理器を上から見た場合の図であり、赤外線センサの搭載位置と接触式温度センサの位置を示すものである。図4において、斜線部が赤外線センサの搭載エリア(領域)、塗りつぶし部が接触式温度センサの搭載エリア(領域)をそれぞれ示す。操作部から見て、赤外線センサの搭載エリアは各加熱コイル中心から外側で、かつ奥側にある。図5はこの発明を実施するための実施の形態2における誘導加熱調理器の側面図を示すものであり、複数の加熱コイルのうち、1個の加熱コイルを側面から見た場合の構成を示す。
1は調理容器、2はトッププレート、3はトッププレート裏面に印刷された遮光手段、4は加熱コイル、5は加熱コイル4に設けられたフェライト、6は導光手段、7は赤外線センサ、8は基板、9はケース、10は制御回路、11は加熱コイル4及びフェライト5を搭載する加熱コイル支持台、12は例えばサーミスタ等の接触式温度センサ、13はトッププレート2の手前側に設けられ、加熱コイル4に加熱を行うための各種操作を行う操作部を表す。図4、5を用いて動作の説明を実施する。
Embodiment 2. FIG.
FIG. 4 shows a top view of the induction heating cooker according to Embodiment 2 for carrying out the present invention, and is a view when an induction heating cooker equipped with three heating coils is viewed from above. It shows the mounting position of the infrared sensor and the position of the contact-type temperature sensor. In FIG. 4, the shaded area indicates the mounting area (area) of the infrared sensor, and the shaded area indicates the mounting area (area) of the contact temperature sensor. When viewed from the operation unit, the area where the infrared sensor is mounted is outside the center of each heating coil and on the back side. FIG. 5: shows the side view of the induction heating cooking appliance in Embodiment 2 for implementing this invention, and shows the structure at the time of seeing one heating coil from the side among several heating coils. .
1 is a cooking container, 2 is a top plate, 3 is a light shielding means printed on the back surface of the top plate, 4 is a heating coil, 5 is a ferrite provided on the heating coil 4, 6 is a light guiding means, 7 is an infrared sensor, 8 Is a substrate, 9 is a case, 10 is a control circuit, 11 is a heating coil support on which the heating coil 4 and ferrite 5 are mounted, 12 is a contact temperature sensor such as a thermistor, and 13 is provided on the front side of the top plate 2. The operation part which performs various operation for heating the heating coil 4 is represented. The operation will be described with reference to FIGS.

実施形態1でも述べたように、図4の斜線エリア(加熱コイル4中心よりも奥側で、かつ、トッププレート2の端部側)に赤外線センサ4を設置することで、調理容器1が片手鍋で、柄の部分が誘導加熱調理器からはみ出して邪魔にならないように、奥側にずれて置かれた場合でも、赤外線センサ4の直上には必ず調理容器1が存在するため、正しく温度検知を行うことができる。また、隣接加熱コイル4自身から放射される赤外線の影響を受けずに、誤差が少ない。一方、接触式温度センサ12は、加熱コイル4中心よりも操作部13側で、かつ、トッププレート2中心側に設けられ、トッププレート2に接触して、調理容器1の熱をトッププレート2を介して間接的に検知している。このため、必ずしも、接触式温度センサ12の直上に調理容器1が無くとも温度検知が可能である。また、隣接する加熱コイル4からの赤外線が放射されても原理的に温度検知の誤差の影響は受けない。   As described in the first embodiment, the cooking container 1 can be held in one hand by installing the infrared sensor 4 in the hatched area in FIG. 4 (the back side from the center of the heating coil 4 and the end side of the top plate 2). Even if the pan is placed on the back so that the handle does not get out of the way of the induction heating cooker, the cooking container 1 always exists immediately above the infrared sensor 4, so the temperature is detected correctly. It can be performed. Moreover, there is little error without being influenced by the infrared rays radiated from the adjacent heating coil 4 itself. On the other hand, the contact-type temperature sensor 12 is provided closer to the operation unit 13 than the center of the heating coil 4 and closer to the center of the top plate 2. It is detected indirectly via. For this reason, temperature detection is always possible even if the cooking container 1 is not directly above the contact-type temperature sensor 12. Further, even if infrared rays from adjacent heating coils 4 are emitted, they are not influenced by temperature detection errors in principle.

調理容器1の鍋底の温度分布は、図5に示すように同心円状の分布を示す。赤外線センサ7と接触式温度センサ12を同心円上に配置することで、同じ温度分布帯を測定していることになり、両者を切り換えて使用する場合、温度差を少なくできるので、使用するセンサにより調理の仕上がりが異なることを防止できる。   The temperature distribution at the bottom of the cooking vessel 1 shows a concentric distribution as shown in FIG. By arranging the infrared sensor 7 and the contact-type temperature sensor 12 on a concentric circle, the same temperature distribution band is measured. When the two are switched and used, the temperature difference can be reduced. It is possible to prevent the cooking finish from being different.

制御回路10は赤外線センサ7で検出した温度と接触式温度センサ12で検出した温度を比較して、温度の高いほうを採用し、図示していないが、加熱コイル4への電流を制御して目標温度となるようにする。   The control circuit 10 compares the temperature detected by the infrared sensor 7 with the temperature detected by the contact-type temperature sensor 12, adopts the higher one, and controls the current to the heating coil 4 although not shown. Set the target temperature.

赤外線センサ7と接触式温度センサ12の2つのセンサを備え、高いほうの温度を採用することで、安全性の高い誘導加熱調理器を提供できる。赤外線センサ7は隣接する加熱コイル4から離れた位置に設置するため、隣接する加熱コイル4からの赤外線の影響を受けずに誤差が少ない。また、調理容器1の積載位置は奥側にずれる傾向があるが、この場合でも赤外線センサ7の真上には調理容器1があり、調理容器1からの赤外線を確実に受光できる。接触式温度センサ12を赤外線センサ7と対角の位置に置くことで、調理容器1が操作部側に置かれた場合でも、接触式温度センサ12により温度検知ができる。また、検知温度の高いほうを採用するので、赤外線センサ7または接触式温度センサ12の一方の直上に調理容器1が無く、もう一方の直上に調理容器1がある場合でも、調理容器1の位置を識別する必要がなく、自動的に最適なセンサが選択される。   By including the two sensors of the infrared sensor 7 and the contact temperature sensor 12 and adopting the higher temperature, an induction heating cooker with high safety can be provided. Since the infrared sensor 7 is installed at a position away from the adjacent heating coil 4, the error is small without being affected by the infrared rays from the adjacent heating coil 4. Further, the loading position of the cooking container 1 tends to shift to the back side, but even in this case, the cooking container 1 is directly above the infrared sensor 7 and can reliably receive infrared rays from the cooking container 1. By placing the contact-type temperature sensor 12 at a position diagonal to the infrared sensor 7, the temperature can be detected by the contact-type temperature sensor 12 even when the cooking container 1 is placed on the operation unit side. In addition, since the higher detection temperature is used, the position of the cooking container 1 can be obtained even when the cooking container 1 is not directly above one of the infrared sensor 7 or the contact temperature sensor 12 and the cooking container 1 is just above the other. The optimum sensor is automatically selected.

1 調理容器、2 トッププレート、3 遮光印刷、4 加熱コイル、5 フェライト、6 導光手段、7 赤外線センサ、8 基板、9 ケース、10 制御回路、11 加熱コイル支持台、12 接触式温度センサ、13 操作部。   DESCRIPTION OF SYMBOLS 1 Cooking container, 2 Top plate, 3 Shading printing, 4 Heating coil, 5 Ferrite, 6 Light guide means, 7 Infrared sensor, 8 Substrate, 9 Case, 10 Control circuit, 11 Heating coil support stand, 12 Contact type temperature sensor, 13 Operation unit.

Claims (1)

調理物を加熱する調理容器を載置するトッププレートと、
前記トッププレートの手前左右及び前記トッププレート中央奥側に設けられ、前記調理容器を加熱するために誘導磁界を発生させる複数の加熱コイルと、
各々の前記加熱コイルに対して設けられ、この加熱コイルにより加熱される前記調理容器から放射された赤外線を検出する赤外線センサと、を備え、
前記トッププレート中央奥側の前記加熱コイルに対して設けられた前記赤外線センサを、前記加熱コイルの配置領域内のうち前記加熱コイル中心よりも奥側の前記トッププレートの端部側の赤外線センサ搭載エリア内にのみ設けたことを特徴とする誘導加熱調理器。
A top plate on which a cooking container for heating the food is placed;
A plurality of heating coils that are provided on the front left and right sides of the top plate and on the center back side of the top plate, and generate an induction magnetic field to heat the cooking container;
An infrared sensor that is provided for each of the heating coils and detects infrared rays radiated from the cooking container heated by the heating coils;
The infrared sensor provided for the heating coil at the back side of the center of the top plate is mounted with an infrared sensor on the end side of the top plate at the back side of the center of the heating coil in the arrangement area of the heating coil. An induction heating cooker characterized by being provided only in the area.
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