Deprecated: The each() function is deprecated. This message will be suppressed on further calls in /home/zhenxiangba/zhenxiangba.com/public_html/phproxy-improved-master/index.php on line 456
JP4899658B2 - Induction heating cooker - Google Patents
[go: Go Back, main page]

JP4899658B2 - Induction heating cooker - Google Patents

Induction heating cooker Download PDF

Info

Publication number
JP4899658B2
JP4899658B2 JP2006172136A JP2006172136A JP4899658B2 JP 4899658 B2 JP4899658 B2 JP 4899658B2 JP 2006172136 A JP2006172136 A JP 2006172136A JP 2006172136 A JP2006172136 A JP 2006172136A JP 4899658 B2 JP4899658 B2 JP 4899658B2
Authority
JP
Japan
Prior art keywords
temperature
induction heating
cooking container
detected
heated
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
JP2006172136A
Other languages
Japanese (ja)
Other versions
JP2008004354A (en
Inventor
明美 福本
郁子 田中
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Panasonic Corp
Panasonic Holdings Corp
Original Assignee
Panasonic Corp
Matsushita Electric Industrial Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Panasonic Corp, Matsushita Electric Industrial Co Ltd filed Critical Panasonic Corp
Priority to JP2006172136A priority Critical patent/JP4899658B2/en
Publication of JP2008004354A publication Critical patent/JP2008004354A/en
Application granted granted Critical
Publication of JP4899658B2 publication Critical patent/JP4899658B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

Links

Images

Landscapes

  • Induction Heating Cooking Devices (AREA)

Description

本発明は、誘導加熱コイルを有する誘導加熱手段を用いて、被加熱物の入った調理容器を加熱する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 heats a cooking container containing an object to be heated using induction heating means having an induction heating coil.

従来、この種の誘導加熱調理器は、調理容器である鍋の種類や鍋温度の判定方法には、温度検出手段の検出温度が所定値(150℃)になった時点で加熱出力3kW(または2kW)から1.6kWに低下させ、その時の検出温度の変化率が所定値以下(90秒間に3℃以上の低下)であることを判断し、多層構造の調理容器か否かを判定する方法(例えば、特許文献1参照)や、複数の温度検出部を内部加熱コイルの中心部と外部加熱コイルと内部加熱コイルの間に設置し、検出温度のうち最高温度に基づき鍋温度を判定する方法(例えば、特許文献2参照)が知られている。
特開2003−272823号公報 特開2006−12606号公報
Conventionally, this type of induction heating cooker uses a cooking output of 3 kW (or when the temperature detected by the temperature detection means reaches a predetermined value (150 ° C.) as a method for determining the type of pan serving as a cooking container and the pan temperature. 2 kW) to 1.6 kW, and it is determined that the rate of change of the detected temperature at that time is a predetermined value or less (a decrease of 3 ° C. or more in 90 seconds), and whether or not the cooking container has a multilayer structure (For example, refer to Patent Document 1) and a method in which a plurality of temperature detection units are installed between the center of the internal heating coil, the external heating coil, and the internal heating coil, and the pan temperature is determined based on the maximum temperature among the detected temperatures. (See, for example, Patent Document 2).
JP 2003-272823 A JP 2006-12606 A

しかしながら、前記特許文献1に記載の従来の構成では、鍋の置かれ方、鍋の形状あるいは鍋内に入れた被加熱物の量や種類の影響を受け、変化率3%の基準では誤検知を生じる場合がある。また、前記特許文献2に記載の前記従来の構成では、最高温度信号のみで鍋温度の検知は鍋の置かれ方による誤検知を解消できないし、調理容器内の被加熱物の温度を推定することは難しいという課題を有していた。   However, the conventional configuration described in Patent Document 1 is affected by the way the pan is placed, the shape of the pan, or the amount and type of the object to be heated. May occur. Further, in the conventional configuration described in Patent Document 2, detection of the pan temperature with only the maximum temperature signal cannot eliminate erroneous detection due to how the pan is placed, and estimates the temperature of the object to be heated in the cooking vessel. It had the problem that it was difficult.

本発明は、前記従来の課題を解決するもので、容器載置部または調理容器の複数の検知温度に基づいて調理容器に入った被加熱物の温度を推定し、被加熱物に適した加熱を行うことを目的とする。   The present invention solves the above-described conventional problems, and estimates the temperature of an object to be heated that has entered the cooking container based on a plurality of detected temperatures of the container mounting portion or the cooking container, and is suitable for the object to be heated. The purpose is to do.

前記従来の課題を解決するために、本発明の誘電加熱調理器は、容器載置部の下側に位置し調理容器を加熱する多重巻き構成の誘導加熱コイルを有する誘導加熱手段と、誘導加熱手段の加熱出力を制御する制御手段と多重巻きコイルの外コイルおよび内コイルの間に配設された第1の温度検知手段と、誘導加熱コイルの略中央に配設された第2の温度検知
手段とを備え、制御手段は、第1の温度検知手段が検知した温度と第2の温度検知手段が検知した温度との差に基づいて調理容器の発熱特性および調理容器内の被加熱物の温度を推定し、誘導加熱手段を制御する誘導加熱調理器において、制御手段は、第1の温度検知手段が検知した温度と第2の温度検知手段が検知した温度との差が所定値より大きいときは、第2の温度検知手段が検知した温度を調理容器内の被加熱物の温度として誘導加熱手段への通電電力あるいは通電時間を制御し、第1の温度検知手段が検知した温度と第2の温度検知手段が検知した温度との差が所定値以下のときは、第1の温度検知手段と第2の温度検知手段が検知した温度に所定の係数をかけて被加熱物の温度を推定して誘導加熱手段への通電電力あるいは通電時間を制御するものである。
In order to solve the above-mentioned conventional problems, an induction heating cooker according to the present invention includes an induction heating means having an induction heating coil of a multi-winding configuration that is positioned below the container mounting portion and heats the cooking container, and induction heating. Control means for controlling the heating output of the means , first temperature detecting means arranged between the outer coil and the inner coil of the multi-turn coil, and a second temperature arranged substantially at the center of the induction heating coil Detecting means , and the control means is based on the difference between the temperature detected by the first temperature detecting means and the temperature detected by the second temperature detecting means, and the heating characteristics of the cooking container and the object to be heated in the cooking container. In the induction heating cooker for estimating the temperature of the induction heating unit and controlling the induction heating unit, the control unit is configured such that the difference between the temperature detected by the first temperature detection unit and the temperature detected by the second temperature detection unit is greater than a predetermined value. when large, the second temperature sensing means test Temperatures were controlled energization power or energization time of the induction heating means as the temperature of the object to be heated in the cooking vessel, the temperature of the first temperature detection unit detects the temperature and the detected second temperature sensing means When the difference is less than or equal to a predetermined value, the temperature of the object to be heated is estimated by multiplying the temperature detected by the first temperature detection means and the second temperature detection means by a predetermined coefficient, or the energization power to the induction heating means or It controls the energization time .

これによって、調理容器の発熱特性から調理容器の種類を判定するとともに、調理容器に入った被加熱物の温度を推定し、被加熱物に適した加熱を行うこととなる。   Accordingly, the type of the cooking container is determined from the heat generation characteristics of the cooking container, the temperature of the heated object that has entered the cooking container is estimated, and heating suitable for the heated object is performed.

本発明の誘導加熱調理器は、調理容器の発熱特性から調理容器の種類を判定するとともに、調理容器に入った被加熱物の温度を推定し、被加熱物に適した加熱を行うことができる。   The induction cooking device of the present invention can determine the type of the cooking container from the heat generation characteristics of the cooking container, estimate the temperature of the heated object that has entered the cooking container, and perform heating suitable for the heated object. .

第1の発明は、容器載置部の下側に位置し調理容器を加熱する多重巻き構成の誘導加熱コイルを有する誘導加熱手段と、誘導加熱手段の加熱出力を制御する制御手段と多重巻きコイルの外コイルおよび内コイルの間に配設された第1の温度検知手段と、誘導加熱コイルの略中央に配設された第2の温度検知手段とを備え、制御手段は、第1の温度検知手段が検知した温度と第2の温度検知手段が検知した温度との差に基づいて調理容器の発熱特性および調理容器内の被加熱物の温度を推定し、誘導加熱手段を制御する誘導加熱調理器において、制御手段は、第1の温度検知手段が検知した温度と第2の温度検知手段が検知した温度との差が所定値より大きいときは、第2の温度検知手段が検知した温度を調理容器内の被加熱物の温度として誘導加熱手段への通電電力あるいは通電時間を制御し、第1の温度検知手段が検知した温度と第2の温度検知手段が検知した温度との差が所定値以下のときは、第1の温度検知手段と第2の温度検知手段が検知した温度に所定の係数をかけて被加熱物の温度を推定して誘導加熱手段への通電電力あるいは通電時間を制御するものである。 A first aspect of the present invention is an induction heating means having an induction heating coil of the multi-turn arrangement for heating the positioned below the container platform cooking vessel, and control means for controlling the heating output of the induction heating means, multi-turn comprising a first temperature sensing means disposed between the outer coil and the inner coil of the coil, and a second temperature sensing means is disposed at the approximate center of the induction heating coil, the control means, first Induction for controlling the induction heating means by estimating the heat generation characteristics of the cooking container and the temperature of the object to be heated in the cooking container based on the difference between the temperature detected by the temperature detection means and the temperature detected by the second temperature detection means. In the heating cooker, when the difference between the temperature detected by the first temperature detection means and the temperature detected by the second temperature detection means is greater than a predetermined value, the control means detects the second temperature detection means. the temperature as the temperature of the object to be heated in the cooking vessel Controlling the energization power or energization time of the electric heating means, when the difference between the first temperature and second temperatures sensing means temperature detecting means detects detects is equal to or less than a predetermined value, the first temperature The temperature of the object to be heated is estimated by multiplying the temperature detected by the detection means and the second temperature detection means by a predetermined coefficient to control the energization power or the energization time to the induction heating means .

これにより、調理容器に入った被加熱物の温度を推定し、被加熱物に適した加熱を行うことができる。
また、制御手段は、第1の温度検知手段が検知した温度と第2の温度検知手段が検知した温度との差が所定値より大きいときは、第2の温度検知手段が検知した温度を調理容器内の被加熱物の温度とし、被加熱物の温度に基づいて誘導加熱手段への通電電力を制御するものである。
さらに、制御手段は、第1の温度検知手段が検知した温度と第2の温度検知手段が検知した温度との差が所定値以下のときは、第1の温度検知手段と第2の温度検知手段が検知した温度に所定の係数をかけて被加熱物の温度を推定して誘導加熱手段への通電電力あるいは通電時間を制御する。
これにより、加熱容器の中の被加熱物の温度を高い精度で推定でき、被加熱物に適した加熱を行うことができる。
さらに、第1の温度検知手段が検知した温度と第2の温度検知手段が検知した温度との差が所定値より大きいときは、最低温度を調理容器内の被加熱物の温度とし、被加熱物の温度に基づいて前記誘導加熱手段への通電時間を制御するものである。
これにより、誘導加熱コイルの加熱特性に影響されずに被加熱物の温度を上昇させ、被加
熱物に適した加熱を行うことができる。
Thereby, the temperature of the to-be-heated material which entered the cooking container can be estimated, and the heating suitable for the to-be-heated material can be performed.
The control means cooks the temperature detected by the second temperature detecting means when the difference between the temperature detected by the first temperature detecting means and the temperature detected by the second temperature detecting means is larger than a predetermined value. The temperature of the object to be heated in the container is used, and the energization power to the induction heating means is controlled based on the temperature of the object to be heated.
Further, the control means, when the difference between the temperature detected by the first temperature detection means and the temperature detected by the second temperature detection means is equal to or less than a predetermined value, the first temperature detection means and the second temperature detection The temperature detected by the means is multiplied by a predetermined coefficient to estimate the temperature of the object to be heated, and the energization power or the energization time for the induction heating means is controlled.
Thereby, the temperature of the to-be-heated object in a heating container can be estimated with high precision, and the heating suitable for a to-be-heated object can be performed.
Furthermore, when the difference between the temperature detected by the first temperature detecting means and the temperature detected by the second temperature detecting means is larger than a predetermined value, the lowest temperature is set as the temperature of the object to be heated in the cooking container, The energization time to the induction heating means is controlled based on the temperature of the object.
Thereby, the temperature of a to-be-heated object can be raised without being influenced by the heating characteristic of an induction heating coil, and the heating suitable for a to-be-heated object can be performed.

また、誘導加熱コイルによる発熱部分とは異なる低温領域の温度を確実に測定することができ、被加熱物の温度を高い精度で推定することができる。 Moreover, the temperature of the low temperature region different from the heat generation part by the induction heating coil can be reliably measured, and the temperature of the object to be heated can be estimated with high accuracy.

また、誘導加熱コイルにより発熱した調理容器または容器載置部の高温領域の温度を確実に測定することができ、被加熱物の温度を高い精度で推定することができる。 Moreover, the temperature of the high temperature area | region of the cooking container or container mounting part which heat | fever-generated by the induction heating coil can be measured reliably, and the temperature of a to-be-heated object can be estimated with high precision.

の発明は、特に第1の発明の制御手段は、第1の温度検知手段が検知した温度と前記第2の温度検知手段が検知した温度との差が所定値より大きいときは、調理容器の温度ムラを緩和するために誘導加熱手段への通電を減少させるか断続的に通電するものである。 In the second invention, particularly when the control means of the first invention is such that the difference between the temperature detected by the first temperature detecting means and the temperature detected by the second temperature detecting means is greater than a predetermined value, In order to alleviate the temperature unevenness of the container, the energization to the induction heating means is reduced or energized intermittently.

これにより、誘導加熱コイルの加熱特性に影響されずに被加熱物の温度を上昇させ、被加熱物に適した加熱を行うことができる。   Thereby, the temperature of a to-be-heated object can be raised without being influenced by the heating characteristic of an induction heating coil, and the heating suitable for a to-be-heated object can be performed.

以下、本発明の実施の形態について、図面を参照しながら説明する。なお、この実施の形態によって本発明が限定されるものではない。   Hereinafter, embodiments of the present invention will be described with reference to the drawings. Note that the present invention is not limited to the embodiments.

(実施の形態1)
図1は、本発明の第1の実施の形態における誘導加熱調理器の概略図、図2は同誘導加熱調理器の要部拡大図を示すものである。
(Embodiment 1)
FIG. 1 is a schematic view of an induction heating cooker according to the first embodiment of the present invention, and FIG. 2 is an enlarged view of a main part of the induction heating cooker.

図1、2において、誘導加熱調理器には、被加熱物1の入った調理容器2が容器載置部3に載置され、加熱調理が行われる。容器載置部3の下側には調理容器2を加熱する誘導加熱コイル4が配設される。誘導加熱コイル4は、同心円の誘導加熱コイル(外)4a、誘導加熱コイル(内)4bから構成される。インバーター回路5は誘導加熱コイル4に高周波電流を供給する。誘導加熱コイル4のすきまに対面する位置に設けられた第1の温度検知手段6および誘導加熱コイル4に対面しない位置に設けられた第2の温度検知手段7は、それぞれ調理容器2または容器載置部3の温度を測定する。本実施の形態では、第1の温度検知手段6は誘導加熱コイル(外)4aと誘導加熱コイル(内)4bの間に配設し、第2の温度検知手段7は誘導加熱コイル(内)4b中心部に配設した。第1の温度検知手段6、第2の温度検知手段7は、サーミスタや各種金属抵抗体、熱電対あるいは調理容器の温度を測定する赤外線センサや光センサなどから構成される。   1 and 2, in the induction heating cooker, the cooking container 2 containing the article to be heated 1 is placed on the container placing portion 3 and cooking is performed. An induction heating coil 4 for heating the cooking container 2 is disposed below the container placement unit 3. The induction heating coil 4 includes a concentric induction heating coil (outer) 4a and an induction heating coil (inner) 4b. The inverter circuit 5 supplies a high frequency current to the induction heating coil 4. The first temperature detecting means 6 provided at a position facing the clearance of the induction heating coil 4 and the second temperature detecting means 7 provided at a position not facing the induction heating coil 4 are respectively the cooking container 2 and the container mounting. The temperature of the placement unit 3 is measured. In the present embodiment, the first temperature detection means 6 is disposed between the induction heating coil (outside) 4a and the induction heating coil (inside) 4b, and the second temperature detection means 7 is the induction heating coil (inside). Arranged in the center of 4b. The first temperature detection means 6 and the second temperature detection means 7 are composed of a thermistor, various metal resistors, a thermocouple, or an infrared sensor or an optical sensor that measures the temperature of the cooking vessel.

第1の温度検知手段6と第2の温度検知手段7の検知信号は、制御手段8に送られる。制御手段8は、第1の温度検知手段6と第2の温度検知手段7の検知信号の差に基づき、インバーター回路5から誘導加熱コイル4への入力電力を制御する。   Detection signals from the first temperature detection means 6 and the second temperature detection means 7 are sent to the control means 8. The control means 8 controls the input power from the inverter circuit 5 to the induction heating coil 4 based on the difference between the detection signals of the first temperature detection means 6 and the second temperature detection means 7.

演算手段9は、被加熱物1の温度や量、各種条件に適した加熱条件を記憶したり、第1の温度検知手段6、第2の温度検知手段7の検知信号から、被加熱物1や調理容器2の温度を推定する。また、誘導加熱コイル4への入力電力や、通電時間を計測する。   The calculation means 9 stores the temperature and amount of the object to be heated 1 and heating conditions suitable for various conditions, or from the detection signals of the first temperature detection means 6 and the second temperature detection means 7, the object to be heated 1. And the temperature of the cooking container 2 is estimated. Further, the input power to the induction heating coil 4 and the energization time are measured.

以上のように構成された誘導加熱調理器について、以下その動作、作用を説明する。   About the induction heating cooking appliance comprised as mentioned above, the operation | movement and an effect | action are demonstrated below.

まず、操作部(図示していない)などから加熱開始の信号が制御手段8に送られると、制御手段8は誘導加熱コイル4への通電を開始する。演算手段9は、誘導加熱コイル4への通電開始と同時に、誘導加熱コイル4への入力電力および通電時間の計測を開始する。誘導加熱コイル4に高周波電流が流れると、磁力線が発生し、その磁力線によって調理容器2の底にうず電流が発生する。そのうず電流によって調理容器4底自体が発熱する。   First, when a heating start signal is sent to the control means 8 from an operation unit (not shown) or the like, the control means 8 starts energizing the induction heating coil 4. The calculation means 9 starts measuring the input power and the energization time to the induction heating coil 4 simultaneously with the start of energization to the induction heating coil 4. When a high-frequency current flows through the induction heating coil 4, a magnetic line is generated, and an eddy current is generated at the bottom of the cooking vessel 2 by the magnetic line. The bottom of the cooking container 4 itself generates heat due to the eddy current.

第1の温度検知手段6、第2の温度検知手段7は、通電開始から調理容器2底あるいは容器載置部3の温度を検知する。調理容器2の底面において、誘導加熱コイル4のすきまに対面した部分は発熱が大きく、誘導加熱コイル4の略中央に対面する部分は発熱が小さい。このため、調理容器2底面には温度ムラが生じるので、検出温度情報から被加熱物温度を単純に推定することは難しいが、これを解決したのが本発明である。   The 1st temperature detection means 6 and the 2nd temperature detection means 7 detect the temperature of the cooking container 2 bottom or the container mounting part 3 from an energization start. On the bottom surface of the cooking container 2, the portion facing the clearance of the induction heating coil 4 generates a large amount of heat, and the portion facing the substantially center of the induction heating coil 4 generates a small amount of heat. For this reason, since temperature unevenness occurs on the bottom surface of the cooking container 2, it is difficult to simply estimate the temperature of the object to be heated from the detected temperature information, but the present invention solves this.

このことより、調理容器2の底面あるいは容器載置部3は、誘導加熱コイル(内)4bの中心部に接した部分は最低温度となり、誘導加熱コイル(外)4aと誘導加熱コイル(内)4bの間に接した部分は最高温度となる。   Accordingly, the bottom surface of the cooking container 2 or the container mounting portion 3 has a minimum temperature at the portion in contact with the center of the induction heating coil (inside) 4b, and the induction heating coil (outside) 4a and the induction heating coil (inside). The part which touched between 4b becomes the maximum temperature.

次に、誘導加熱コイル4と調理容器2との発熱特性の関係について説明する。一般に、複数の金属を張り合わせた多層金属を使用した調理容器(以後、多層調理容器とする)は、一種類の金属を使用した調理容器(以後、単層調理容器とする)よりも調理容器2の底厚さ方向への熱伝導が悪い。多層金属の一例としては、誘導加熱しやすいが熱伝導の悪い金属(例えば、ステンレスなど)と誘導加熱しにくいが熱伝導の良い金属(例えば、アルミニウムなど)を張り合わせる例がある。熱伝導の良い金属を張り合わせることで、調理容器2の平面方向の熱伝導が良くなり、結果的に調理容器2の底面の温度ムラは低減する。   Next, the relationship between the heat generation characteristics of the induction heating coil 4 and the cooking vessel 2 will be described. In general, a cooking container using a multi-layer metal laminated with a plurality of metals (hereinafter referred to as a multi-layer cooking container) is a cooking container 2 than a cooking container using a single type of metal (hereinafter referred to as a single-layer cooking container). The heat conduction in the bottom thickness direction is poor. As an example of a multilayer metal, there is an example in which a metal (for example, stainless steel) that is easy to induction heat but poor in heat conduction is bonded to a metal (for example, aluminum) that is difficult to inductively heat but has good heat conductivity (for example, aluminum). By laminating a metal having good heat conduction, the heat conduction in the planar direction of the cooking vessel 2 is improved, and as a result, temperature unevenness on the bottom surface of the cooking vessel 2 is reduced.

一方、誘導加熱しやすい金属のみを用いた単層調理容器を誘導加熱した場合は、調理容器2の平面的な熱伝導が悪く、誘導加熱コイル4への通電を継続すると調理容器2の底面の温度ムラが増大することがある。   On the other hand, when a single-layer cooking container using only a metal that is easily induction-heated is induction-heated, the planar heat conduction of the cooking container 2 is poor, and if energization to the induction heating coil 4 is continued, Temperature unevenness may increase.

このことより、第1の温度検知手段6は、誘導加熱コイル4に対面した調理容器2あるいは容器載置部3の最高温度を検知し、第2の温度検知手段7は誘導加熱コイル4に対面しない調理容器2あるいは容器載置部3の最低温度の温度を検知する。   Thus, the first temperature detecting means 6 detects the maximum temperature of the cooking container 2 or the container placing portion 3 facing the induction heating coil 4, and the second temperature detecting means 7 faces the induction heating coil 4. The temperature of the minimum temperature of the cooking container 2 or the container placing part 3 that is not to be detected is detected.

演算手段9は、所定時間が経過すると第1の温度検知手段6と第2の温度検知手段7で検知された調理容器2底の温度差を演算する。温度差を演算するタイミング(所定時間)は、誘導加熱コイル4への入力電力に応じて可変する。   The calculating means 9 calculates the temperature difference at the bottom of the cooking container 2 detected by the first temperature detecting means 6 and the second temperature detecting means 7 when a predetermined time has elapsed. The timing for calculating the temperature difference (predetermined time) varies according to the input power to the induction heating coil 4.

第1の温度検知手段6と第2の温度検知手段7の温度差が所定値より大きい場合は、制御手段8は、調理容器2の材質は底面に温度ムラのできやすい単層調理容器と判断する。一方、第1の温度検知手段6と第2の温度検知手段7の温度差が所定値以下の場合は、制御手段8は、調理容器2の材質は熱伝導が良く底面に温度ムラができにくい多層調理容器と判断する。   When the temperature difference between the first temperature detection means 6 and the second temperature detection means 7 is larger than a predetermined value, the control means 8 determines that the material of the cooking container 2 is a single-layer cooking container that is susceptible to temperature unevenness on the bottom surface. To do. On the other hand, when the temperature difference between the first temperature detection means 6 and the second temperature detection means 7 is equal to or less than a predetermined value, the control means 8 is such that the material of the cooking vessel 2 is good in heat conduction and hardly causes temperature unevenness on the bottom surface. Judged as a multi-layer cooking container.

単層調理容器では、底面の温度ムラができやすいため調理容器2あるいは容器載置部3の最低温度、つまり第2の温度検知手段7の温度を調理容器2内の被加熱物の温度として取り扱うことができる。一方、多層調理容器では、底面の温度ムラができにくいため調理容器2あるいは容器載置部3の温度をそのまま被加熱物の温度として取り扱うことができない。そのため、第1の温度検知手段6と第2の温度検知手段7の温度に所定の係数をかけて被加熱物の温度を推定する。   In the single-layer cooking container, the temperature unevenness of the bottom surface is likely to be generated, so that the minimum temperature of the cooking container 2 or the container placing unit 3, that is, the temperature of the second temperature detecting means 7 is handled as the temperature of the heated object in the cooking container 2. be able to. On the other hand, in a multi-layered cooking container, since the temperature unevenness of the bottom surface is difficult to be produced, the temperature of the cooking container 2 or the container placing part 3 cannot be directly handled as the temperature of the object to be heated. Therefore, the temperature of the object to be heated is estimated by multiplying the temperature of the first temperature detection means 6 and the second temperature detection means 7 by a predetermined coefficient.

調理容器2が単層調理容器であると判断した場合は、制御手段8は調理容器2の温度ムラを解消するために、誘導加熱コイル4への通電を減少させるか一旦停止する。操作部から事前に入力した設定温度より第1の温度検知手段6の検知温度(最高温度)が低温の場合は、調理容器2内の温度はさらに低温の状態にあると判断できる。そのため、制御手段8は再度誘導加熱コイル4への通電を開始し、断続的に通電しながら設定温度を維持する。   When it is determined that the cooking container 2 is a single-layer cooking container, the control means 8 reduces or temporarily stops energization to the induction heating coil 4 in order to eliminate the temperature unevenness of the cooking container 2. When the detected temperature (maximum temperature) of the first temperature detecting means 6 is lower than the preset temperature input in advance from the operation unit, it can be determined that the temperature in the cooking container 2 is still lower. Therefore, the control means 8 starts energizing the induction heating coil 4 again, and maintains the set temperature while energizing intermittently.

また、制御手段8は調理容器2が単層調理容器の場合は、温度ムラを抑えながら加熱を維持するために、誘導加熱コイル4への通電時間や入力電力を多層調理容器よりも短くする、または減少させる。   Further, when the cooking container 2 is a single layer cooking container, the control means 8 shortens the energization time and input power to the induction heating coil 4 to be shorter than the multilayer cooking container in order to maintain heating while suppressing temperature unevenness. Or reduce.

一方、調理容器2が多層調理容器であると判断した場合は、制御手段8は、調理容器2が温度ムラが生じにくいと判断し、誘導加熱コイル4への通電電力を加熱初期よりも低下させつつ通電を継続するか、断続的に通電する。このとき、通電時間は単層調理容器の場合よりも長くすることができる。   On the other hand, when it is determined that the cooking container 2 is a multi-layer cooking container, the control means 8 determines that the cooking container 2 is less likely to cause temperature unevenness, and lowers the electric power supplied to the induction heating coil 4 from the initial stage of heating. While energizing, continue energizing or intermittently energizing. At this time, the energization time can be made longer than in the case of a single-layer cooking container.

演算手段9は、設定温度を維持しながら所定時間が経過したことを演算すると、制御手段8へ信号を送る。制御手段8は、演算手段9からの信号を受信後、誘導加熱コイル4への通電を停止し加熱を終了する。なお、使用者が途中で加熱を終了することも可能である。   When the calculation means 9 calculates that a predetermined time has elapsed while maintaining the set temperature, the calculation means 9 sends a signal to the control means 8. After receiving the signal from the calculating means 9, the control means 8 stops energizing the induction heating coil 4 and ends the heating. It is also possible for the user to finish heating halfway.

以上のように本実施の形態によれば、誘導加熱コイル4に対面する容器載置部または調理容器の複数の温度を検知し、温度検知手段が検知した最高温度と最低温度との差に基づいて調理容器の発熱特性を推定し、誘導加熱コイルの通電を制御するので被加熱物に適した加熱を行うことができる。   As described above, according to the present embodiment, a plurality of temperatures of the container mounting portion or the cooking container facing the induction heating coil 4 are detected, and based on the difference between the maximum temperature and the minimum temperature detected by the temperature detection means. Thus, the heat generation characteristics of the cooking container are estimated and the energization of the induction heating coil is controlled, so that heating suitable for the object to be heated can be performed.

なお、本実施の形態では、被加熱物は液状に近い状態、例えば油やシチューなどの温度を高精度に検出できるので、揚げ物調理や煮込みなどには高い利便性を提供できる。   In the present embodiment, the object to be heated is in a liquid state, for example, the temperature of oil, stew or the like can be detected with high accuracy, so that it is possible to provide high convenience for fried food cooking and stewing.

また、本実施の形態では誘導加熱コイルは2重としたが、それ以上の多重巻き構成としてもかまわない。また、第1の温度検知手段6は、誘導加熱コイル(外)4a、誘導加熱コイル(内)4bの間であれば、2つ以上設置してもかまわない。ただし、この場合も複数の温度検知手段が検知した最高温度と最低温度とに基づいて調理容器ならびに調理容器内の被加熱物温度を推定する。同心円上に複数の温度検知手段を設けることで調理容器の置かれ方の影響を解消できる。   Further, although the induction heating coil is doubled in the present embodiment, it may have a multiple winding configuration. Two or more first temperature detection means 6 may be installed as long as they are between the induction heating coil (outside) 4a and the induction heating coil (inside) 4b. In this case, however, the cooking container and the temperature of the object to be heated in the cooking container are estimated based on the maximum temperature and the minimum temperature detected by the plurality of temperature detection means. By providing a plurality of temperature detecting means on the concentric circles, the influence of how the cooking container is placed can be eliminated.

以上のように、本発明に係わる誘導加熱調理器は、複数の温度検知手段の配設位置と温度検知手段の検知信号に基づいて誘導加熱コイルを制御することができるので、ビルトイン型、あるいは据置型、卓上型の誘導加熱調理器や電磁調理器に有効である。   As described above, the induction heating cooker according to the present invention can control the induction heating coil based on the arrangement position of the plurality of temperature detection means and the detection signal of the temperature detection means. It is effective for induction heating cookers and electromagnetic cookers.

本発明の実施の形態1における誘導加熱調理器の概略図Schematic of the induction heating cooker in Embodiment 1 of the present invention. 同誘導加熱調理器の要部拡大図Enlarged view of the main part of the induction heating cooker

符号の説明Explanation of symbols

1 被加熱物
2 加熱容器
3 容器載置部
4 誘導加熱コイル
4a 誘導加熱コイル(外)
4b 誘導加熱コイル(内)
6 第1の温度検知手段
7 第2の温度検知手段
8 制御手段
DESCRIPTION OF SYMBOLS 1 To-be-heated object 2 Heating container 3 Container mounting part 4 Induction heating coil 4a Induction heating coil (outside)
4b Induction heating coil (inside)
6 First temperature detection means 7 Second temperature detection means 8 Control means

Claims (2)

被加熱物を入れた調理容器と、前記調理容器を載置する容器載置部と、前記容器載置部の下側に位置し前記調理容器を加熱する多重巻き構成の誘導加熱コイルを有する誘導加熱手段と、前記誘導加熱手段の加熱出力を制御する制御手段と前記多重巻きコイルの外コイルおよび内コイルの間に配設された第1の温度検知手段と、前記誘導加熱コイルの略中央に配設された第2の温度検知手段とを備え、前記制御手段は、前記第1の温度検知手段が検知した温度と前記第2の温度検知手段が検知した温度との差に基づいて前記調理容器の発熱特性および前記調理容器内の前記被加熱物の温度を推定し、前記誘導加熱手段を制御する誘導加熱調理器において、前記制御手段は、前記第1の温度検知手段が検知した温度と第2の温度検知手段が検知した温度との差が所定値より大きいときは、前記第2の温度検知手段が検知した温度を前記調理容器内の前記被加熱物の温度として前記誘導加熱手段への通電電力あるいは通電時間を制御し、前記第1の温度検知手段が検知した温度と第2の温度検知手段が検知した温度との差が所定値以下のときは、前記第1の温度検知手段と第2の温度検知手段が検知した温度に所定の係数をかけて被加熱物の温度を推定して前記誘導加熱手段への通電電力あるいは通電時間を制御する誘導加熱調理器。 Induction having a cooking container containing an object to be heated, a container placing part for placing the cooking container, and an induction heating coil having a multi-winding structure that is located below the container placing part and heats the cooking container and heating means, and control means for controlling the heating output of the induction heating means, a first temperature sensing means disposed between the outer coil and the inner coil of the multi-turn coil, substantially in the center of the induction heating coil and a second temperature sensing means disposed in said control means, said first temperature and said second temperature detecting means detects the temperature sensing means based on a difference between the detected temperature In the induction heating cooker that estimates the heat generation characteristics of the cooking container and the temperature of the object to be heated in the cooking container and controls the induction heating means, the control means detects the temperature detected by the first temperature detection means. And second temperature detection means And when the difference between the temperature is greater than a predetermined value, control the energization power or energization time of the temperature of the second temperature detection unit detects the said induction heating means as the temperature of the object to be heated in the cooking vessel When the difference between the temperature detected by the first temperature detecting means and the temperature detected by the second temperature detecting means is less than a predetermined value, the first temperature detecting means and the second temperature detecting means are An induction heating cooker that applies a predetermined coefficient to the detected temperature to estimate the temperature of an object to be heated and controls the energization power or energization time to the induction heating means . 前記制御手段は、前記第1の温度検知手段が検知した温度と前記第2の温度検知手段が検知した温度との差が所定値より大きいときは、前記調理容器の温度ムラを緩和するために前記誘導加熱手段への通電を減少させるか断続的に通電する請求項1に記載の誘導加熱調理器。 When the difference between the temperature detected by the first temperature detection means and the temperature detected by the second temperature detection means is greater than a predetermined value, the control means is for reducing the temperature unevenness of the cooking container. The induction heating cooker according to claim 1, wherein energization to the induction heating means is reduced or energized intermittently.
JP2006172136A 2006-06-22 2006-06-22 Induction heating cooker Expired - Fee Related JP4899658B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP2006172136A JP4899658B2 (en) 2006-06-22 2006-06-22 Induction heating cooker

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2006172136A JP4899658B2 (en) 2006-06-22 2006-06-22 Induction heating cooker

Publications (2)

Publication Number Publication Date
JP2008004354A JP2008004354A (en) 2008-01-10
JP4899658B2 true JP4899658B2 (en) 2012-03-21

Family

ID=39008573

Family Applications (1)

Application Number Title Priority Date Filing Date
JP2006172136A Expired - Fee Related JP4899658B2 (en) 2006-06-22 2006-06-22 Induction heating cooker

Country Status (1)

Country Link
JP (1) JP4899658B2 (en)

Families Citing this family (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP5062013B2 (en) * 2008-04-17 2012-10-31 パナソニック株式会社 Induction heating cooker
CN114680626B (en) * 2020-12-29 2025-08-12 珠海优特智厨科技有限公司 Cooking system, cooking control method, storage medium, and computer device

Family Cites Families (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2004022251A (en) * 2002-06-14 2004-01-22 Hitachi Hometec Ltd Induction heating cooker
JP3928602B2 (en) * 2003-07-28 2007-06-13 松下電器産業株式会社 Induction heating cooker

Also Published As

Publication number Publication date
JP2008004354A (en) 2008-01-10

Similar Documents

Publication Publication Date Title
JP4892872B2 (en) Induction heating cooker
JP5272612B2 (en) Induction heating cooker
JP2013109940A (en) Induction heating cooker and method of controlling the same
JP4899658B2 (en) Induction heating cooker
JP4839682B2 (en) Induction heating cooker
JP2008052960A (en) Induction heating cooker
JP4311413B2 (en) Induction heating device
JP5857236B2 (en) Induction heating cooker
JP4952214B2 (en) Induction heating cooker
JP4996289B2 (en) Induction heating cooker
JP5050791B2 (en) Induction heating cooker
JP4270075B2 (en) Cooker
JP2008262722A (en) Induction heating cooker
JP5258593B2 (en) Induction heating cooker
JP5047225B2 (en) Induction heating cooker
JP2008135201A5 (en)
JP2008060088A (en) Induction-heating cooking oven
JP2004111091A (en) Induction heating cooker and pot for induction heating cooker
JP5889092B2 (en) Induction heating cooker
JP5082877B2 (en) Induction heating cooker
JP4923536B2 (en) Induction heating cooker
JP2012014839A (en) Heating cooker
JP4301203B2 (en) Cooker
JP6983058B2 (en) Induction heating cooker
JP2009140638A (en) Cooker

Legal Events

Date Code Title Description
A621 Written request for application examination

Free format text: JAPANESE INTERMEDIATE CODE: A621

Effective date: 20081114

RD01 Notification of change of attorney

Free format text: JAPANESE INTERMEDIATE CODE: A7421

Effective date: 20091127

A977 Report on retrieval

Free format text: JAPANESE INTERMEDIATE CODE: A971007

Effective date: 20110322

A131 Notification of reasons for refusal

Free format text: JAPANESE INTERMEDIATE CODE: A131

Effective date: 20110510

A521 Written amendment

Free format text: JAPANESE INTERMEDIATE CODE: A523

Effective date: 20110530

A131 Notification of reasons for refusal

Free format text: JAPANESE INTERMEDIATE CODE: A131

Effective date: 20110906

A521 Written amendment

Free format text: JAPANESE INTERMEDIATE CODE: A523

Effective date: 20111031

TRDD Decision of grant or rejection written
A01 Written decision to grant a patent or to grant a registration (utility model)

Free format text: JAPANESE INTERMEDIATE CODE: A01

Effective date: 20111206

A01 Written decision to grant a patent or to grant a registration (utility model)

Free format text: JAPANESE INTERMEDIATE CODE: A01

A61 First payment of annual fees (during grant procedure)

Free format text: JAPANESE INTERMEDIATE CODE: A61

Effective date: 20111219

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20150113

Year of fee payment: 3

LAPS Cancellation because of no payment of annual fees