JPH06260276A - High frequency heating device - Google Patents
High frequency heating deviceInfo
- Publication number
- JPH06260276A JPH06260276A JP4355493A JP4355493A JPH06260276A JP H06260276 A JPH06260276 A JP H06260276A JP 4355493 A JP4355493 A JP 4355493A JP 4355493 A JP4355493 A JP 4355493A JP H06260276 A JPH06260276 A JP H06260276A
- Authority
- JP
- Japan
- Prior art keywords
- heating
- high frequency
- periodic structure
- food
- heating plate
- 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.)
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Links
Landscapes
- Control Of High-Frequency Heating Circuits (AREA)
- Constitution Of High-Frequency Heating (AREA)
- Electric Ovens (AREA)
Abstract
Description
【0001】[0001]
【産業上の利用分野】本発明は、食品を加熱する高周波
加熱装置に関するものである。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a high frequency heating device for heating food.
【0002】[0002]
【従来の技術】従来の高周波加熱装置は、図6に示すよ
うに加熱室1全体が金属で囲まれた閉空間の中に、商用
電源3からの電力により高周波発振源2から高周波を放
射して食品6を加熱している。従って、加熱室1内には
その加熱室壁によって生じる定在波モード22で食品6
を加熱していた。また、食品6を加熱室1内に出し入れ
し、食品の加熱状況を確認するために高周波が外部に漏
れない程度のパンチング穴を施した扉(図示せず)で構
成していた。そして、加熱室内の食品6の加熱分布をよ
くするためにターンテーブル23を施していた。このよ
うにして食品6は、高周波振動によって食品全体が内部
から加熱されるものであった。また、食品6の温めの自
動化には、食品から発生する蒸気などのガスを検出する
検出手段24などで検出し、制御手段19で発振源2等
を制御していた。2. Description of the Related Art A conventional high-frequency heating device radiates a high frequency from a high-frequency oscillation source 2 by power from a commercial power source 3 into a closed space in which a whole heating chamber 1 is surrounded by metal as shown in FIG. The food 6 is being heated. Therefore, the food 6 is placed in the heating chamber 1 in the standing wave mode 22 generated by the wall of the heating chamber.
Was heating up. Further, the food 6 is taken in and out of the heating chamber 1, and in order to confirm the heating condition of the food, the door 6 (not shown) is provided with punching holes so that high frequency does not leak outside. Then, the turntable 23 is provided in order to improve the heat distribution of the food 6 in the heating chamber. Thus, the food 6 was heated from the inside by high frequency vibration. Further, in order to automate the warming of the food 6, the gas such as vapor generated from the food is detected by the detection means 24 and the like, and the control means 19 controls the oscillation source 2 and the like.
【0003】一方、このような定在波モードの加熱方法
とは別に表面波加熱によって電界を食品の近傍付近に集
中させる加熱方式である(例えば特公昭47−3877
8号公報)。On the other hand, in addition to such a standing wave mode heating method, there is a heating method in which the electric field is concentrated near the food by surface wave heating (for example, Japanese Patent Publication No. 47-3877).
No. 8).
【0004】[0004]
【発明が解決しようとする課題】しかしながら上記図5
の従来の構成では、たとえターンテーブルで加熱室1内
の分布を改善しても加熱室1内の定在波によってむらが
生じ、出来映えに不満が生じる課題があった。例えば、
牛乳や酒のかん等の液体の温めは上の方が熱くなったり
して出来映えに問題があった。また、食品6の温めの自
動化に用いる検出手段24は食品6が沸騰する100℃
を越えた蒸気等のガスを検出するために、沸騰前で検出
する牛乳(飲みごろ温度65℃)や酒かん(40℃)な
どの自動化は適当な時間設定でおこなっており、環境条
件の違いなどで目標とする温度に正確に制御することは
不可能であった。However, the above-mentioned FIG.
However, even if the distribution in the heating chamber 1 is improved by the turntable, unevenness occurs due to the standing waves in the heating chamber 1, resulting in dissatisfaction with the finished product. For example,
The upper part of the liquid such as milk and liquor can was warmed up, and there was a problem in the workmanship. Further, the detecting means 24 used for automating the warming of the food 6 is 100 ° C. at which the food 6 boils.
In order to detect gases such as steam that exceeds the limit, the automation of milk (beverage temperature 65 ℃) and sake can (40 ℃) that are detected before boiling is performed at an appropriate time setting, and the difference in environmental conditions It was impossible to accurately control the target temperature by using such as.
【0005】また表面波を用いる方式で、食品の近傍に
電界を集中させる場合、温度上昇に限界があり、食品に
よっては加熱不足という課題や、表面波加熱の場合、周
期構造プレート側の食品の面が加熱され過ぎて、反対側
の食品の表面は、加熱不足になることがあった。Further, in the method of using the surface wave, when the electric field is concentrated in the vicinity of the food, there is a limit to the temperature rise, and depending on the food, there is a problem that heating is insufficient. Sometimes the surface was overheated and the opposite food surface was underheated.
【0006】本発明は、上記課題を解決するもので、表
面波加熱方式で、食品全体が均一に加熱され、正確な食
品の温度制御ができる高周波加熱装置を提供することを
第1の目的とし、高温度の加熱調理ができる高周波加熱
装置を提供することを第2の目的とし、食品の全表面も
均一加熱できる高周波加熱装置を提供することを第3の
目的にしているものである。SUMMARY OF THE INVENTION The first object of the present invention is to provide a high frequency heating apparatus which solves the above-mentioned problems and which can uniformly control the temperature of food by heating the whole food uniformly by the surface wave heating method. A second object is to provide a high-frequency heating device capable of high-temperature heating and cooking, and a third object is to provide a high-frequency heating device capable of uniformly heating the entire surface of food.
【0007】[0007]
【課題を解決するための手段】本発明は上記の課題を解
決するために、電源により高周波を発振する発振源と、
高周波を複数の導波管を介し上下に配した表面波伝搬モ
ードで加熱する周期構造加熱プレートと、周期構造加熱
プレートを覆う耐熱性材料と、耐熱性材料に接触し高周
波を吸収し発熱する発熱体と、発熱体を加熱室内で上下
に移動可能にする駆動体、または、上下の周期構造加熱
プレートに供給する高周波電力を切り換える切り替え手
段と、食品の種類により周期構造加熱プレートの表面波
伝搬モードの強度を変える可変機構と、周期構造加熱プ
レート上の食品の温度を検出する検出手段と、検出手段
の信号により発振源の出力を制御する制御手段で構成し
たものである。In order to solve the above problems, the present invention provides an oscillation source for oscillating a high frequency by a power source,
Periodic structure heating plate that heats high frequency in the surface wave propagation mode arranged vertically through multiple waveguides, heat-resistant material that covers the periodic structure heating plate, and heat that generates heat by contacting the heat-resistant material and absorbing high frequency Body, a driving body for moving the heating element up and down in the heating chamber, or a switching means for switching high frequency power supplied to the upper and lower periodic structure heating plates, and a surface wave propagation mode of the periodic structure heating plate depending on the type of food. It comprises a variable mechanism for changing the intensity, a detecting means for detecting the temperature of food on the periodic structure heating plate, and a control means for controlling the output of the oscillation source by the signal of the detecting means.
【0008】また、高周波を発振する発振源と、前記高
周波を複数の導波管を介し上下に配した表面波伝搬モー
ドで加熱する周期構造加熱プレートと、前記周期構造加
熱プレートを覆う耐熱性材料と、前記耐熱性材料に接触
し高周波を吸収し発熱する複数の発熱体と、前記発熱体
を前記加熱室内で上下に移動可能にする駆動体と、食品
の種類により前記周期構造加熱プレートの表面波伝搬モ
ードの強度を変える可変機構と、周期構造加熱プレート
上の食品の温度を検出する検出手段と、前記検出手段の
信号により前記発振源の出力を制御する制御手段で構成
したものである。Further, an oscillation source for oscillating a high frequency, a periodic structure heating plate for heating the high frequency in a surface wave propagating mode arranged vertically through a plurality of waveguides, and a heat-resistant material for covering the periodic structure heating plate. A plurality of heating elements that come into contact with the heat resistant material and absorb high frequency to generate heat; a driving body that allows the heating elements to move up and down in the heating chamber; and a surface of the periodic structure heating plate depending on the type of food. It comprises a variable mechanism for changing the intensity of the wave propagation mode, a detection means for detecting the temperature of the food on the periodic structure heating plate, and a control means for controlling the output of the oscillation source by the signal of the detection means.
【0009】また、高周波を発信する発振源と、前記高
周波を複数の導波管を介し上下に配した表面波伝搬モー
ドで加熱する周期構造加熱プレートと、前記周期構造加
熱プレートを覆う耐熱性材料と、前記耐熱性材料に接触
し高周波を吸収し発熱する複数の発熱体と、前記発熱体
を前記加熱室内で上下に移動可能にする駆動体と、食品
の種類により前記加熱プレートの表面波伝搬モードの強
度を変える可変機構と、前記上下の周期構造加熱プレー
トに供給する高周波電力を切り換える切り替え手段と、
前記加熱プレート上の食品の温度を検出する検出手段
と、前記検出手段の信号により前記発信源の出力を制御
する制御手段で構成したものである。Further, an oscillation source for emitting a high frequency wave, a periodic structure heating plate for heating the high frequency wave in a surface wave propagation mode arranged vertically through a plurality of waveguides, and a heat-resistant material for covering the periodic structure heating plate. A plurality of heating elements that come into contact with the heat resistant material and absorb high frequency to generate heat; a driving body that allows the heating elements to move up and down in the heating chamber; and surface wave propagation of the heating plate depending on the type of food. A variable mechanism for changing the intensity of the mode, and a switching means for switching the high frequency power supplied to the upper and lower periodic structure heating plates,
It comprises a detection means for detecting the temperature of the food on the heating plate and a control means for controlling the output of the transmission source by the signal of the detection means.
【0010】[0010]
【作用】本発明は上記構成によって、上下の周期構造加
熱プレートの高周波を吸収し発熱する発熱体が、表面波
の電界集中に伴う加熱作用で高温度になり、上下から食
品を加熱する作用を有し、また、食品もしくは発熱体へ
の電界集中を可変する可変機構により、様々な加熱温度
に制御する作用と、食品の種類により上下の周期構造加
熱プレートのどちらか一方に高周波を供給し、最適な加
熱形態ができる作用を有し、さらに周期構造加熱プレー
ト上に食品の温度を正確に検出する作用を有する。According to the present invention, with the above-described structure, the heating element that absorbs the high frequency waves of the upper and lower periodic structure heating plates and generates heat is heated to a high temperature due to the electric field concentration of the surface wave, and the food is heated from above and below. Also, by a variable mechanism that changes the electric field concentration on the food or the heating element, it controls the various heating temperatures, and supplies a high frequency to either one of the upper and lower periodic structure heating plates depending on the type of food, It has the function of forming an optimum heating mode, and further has the function of accurately detecting the temperature of food on the periodic structure heating plate.
【0011】[0011]
【実施例】以下本発明の実施例を図1を参照して説明す
る。DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to FIG.
【0012】図1において、1は加熱室で、2は高周波
発振源であるマグネトロン、3はマグネトロンに供給す
る電源、4、5はマグネトロン2からの高周波を供給す
る複数の導波管、6は食品、7は表面波加熱モードを生
じさせる周期構造体の下方の周期構造加熱プレート、8
は表面波加熱モードを生じさせる周期構造体の上方の加
熱プレート、9、10は上下の表面波加熱の強度を変え
る可変機構、11、12は周期構造加熱プレート7、8
に導波管からの高周波を励振させるためのアンテナ、1
3はマグネトロン2を冷却する冷却ファン、14、15
は周期構造体をカバーする耐熱性材料であり、16、1
7は耐熱性材料の上面に高周波を吸収し発熱する発熱体
であり、18は周期構造加熱プレート7上の食品6の温
度を検出する検出手段である温度センサーであり、19
は温度センサー18の信号をうけて、マグネトロン2、
可変機構9、10を制御する制御手段である。In FIG. 1, 1 is a heating chamber, 2 is a magnetron which is a high frequency oscillation source, 3 is a power source for supplying to the magnetron, 4 and 5 are a plurality of waveguides for supplying the high frequency from the magnetron 2, and 6 is Food, 7 is a periodic structure heating plate below the periodic structure that causes the surface wave heating mode, 8
Is a heating plate above the periodic structure for generating the surface wave heating mode, 9 and 10 are variable mechanisms for changing the intensity of the upper and lower surface wave heating, and 11 and 12 are periodic structure heating plates 7 and 8.
Antenna for exciting high frequency wave from the waveguide
3 is a cooling fan for cooling the magnetron 2, 14 and 15
Is a heat-resistant material that covers the periodic structure, 16, 1
Reference numeral 7 is a heating element that absorbs a high frequency and generates heat on the upper surface of the heat-resistant material, and 18 is a temperature sensor that is a detection unit that detects the temperature of the food 6 on the periodic structure heating plate 7.
Receives the signal from the temperature sensor 18, the magnetron 2,
It is a control means for controlling the variable mechanisms 9 and 10.
【0013】図2と図3は、表面波加熱を説明する周期
構造体の説明図である。表面波加熱は、電波の全反射を
利用するものであり、図2のような溝を有する周期構造
体をすることによって、電波を表面付近に集中させるこ
とができる。図3は、その等価回路であって、特性イン
ピーダンスを、Z0、集中インピーダンスをZ1、それぞ
れの空間の位相定数をβ0、βp、またZ方向の位相定数
をβz、その周期ピッチをpとすると、そのときの特性
方程式として、 cosβzp=cosβ0p+(Z1/2Z0)・sinβp が成立する。2 and 3 are explanatory views of a periodic structure for explaining surface wave heating. Surface wave heating utilizes total reflection of radio waves, and by forming a periodic structure having grooves as shown in FIG. 2, radio waves can be concentrated near the surface. FIG. 3 is an equivalent circuit thereof, in which the characteristic impedance is Z 0 , the lumped impedance is Z 1 , the phase constants of the respective spaces are β 0 and β p , the phase constant in the Z direction is β z , and the periodic pitch thereof. Where p is p, the characteristic equation at that time is cosβ z p = cosβ 0 p + (Z 1 / 2Z 0 ) · sinβ p .
【0014】図2に示す溝付きの構造体では、溝の深さ
aとピッチpとを使用周波数の波長λに対して適当に選
ぶと伝送方向Zに直角に進む電波は、溝のために遮断領
域にあったり、もしくは溝の表面と、自由空間との境界
面で完全反射して溝の付近に電界が集中するので結局Z
方向にしか伝搬しない。また、X方向への電波の伝搬
は、指数関数的に減少する(フロケの定理、近代科学
社、マイクロ波工学下巻P.462からP.464)。In the grooved structure shown in FIG. 2, if the groove depth a and the pitch p are properly selected with respect to the wavelength λ of the operating frequency, the radio waves traveling at right angles to the transmission direction Z are due to the grooves. Since the electric field is concentrated in the vicinity of the groove by being completely reflected by the boundary surface between the groove surface and the free space in the cutoff region, Z
Propagate only in the direction. In addition, the propagation of radio waves in the X direction decreases exponentially (Froquet's theorem, Modern Science Co., Ltd., Microwave Engineering, P.462 to P.464).
【0015】従って、周期構造加熱プレート7、8を周
期構造体にして、溝の深さを変える可変機構9、10を
備えることによって、食品に電界を集中させることも、
X方向への電波の指数関数的な減少も変えることができ
る。いいかえれば、Z方向の集中度合をゆるめ、よりX
方向への電波の強度を増加することにある。Therefore, it is possible to concentrate the electric field on the food by using the periodic structure heating plates 7 and 8 as a periodic structure and providing the variable mechanisms 9 and 10 for changing the depth of the groove.
The exponential decrease of radio waves in the X direction can also be changed. In other words, loosen the degree of concentration in the Z direction,
It is to increase the strength of radio waves in the direction.
【0016】さらに、食品の種類によっては、例えばト
ーストなどのように焦げ目や、ある時間内に温度上昇が
得たい場合や、高温度の加熱調理が必要な場合がある。
この場合、図1に示すように耐熱性材料11の上に高周
波を吸収し発熱する発熱体16、17を設けることによ
って表面波による電界エネルギーを発熱体で消費し高温
度に発熱し食品の種類に応じて、両面焼きなどの加熱調
理をすることができるものである(ステーキや、パンを
焼くことなど)。Further, depending on the type of food, there are cases where it is necessary to obtain a brown mark such as toast, a temperature rise is desired within a certain period of time, or high temperature cooking is required.
In this case, as shown in FIG. 1, by providing heating elements 16 and 17 on the heat-resistant material 11 to absorb high frequency waves and generate heat, electric field energy due to surface waves is consumed by the heating elements and heat is generated at a high temperature. Depending on the item, it is possible to cook it on both sides (eg steak or bread).
【0017】上記構成において、溝の深さを深くすると
電波は溝の表面付近での集中度が増すので、肉の焼け具
合い、温度制御の調整は、溝を深くしたり浅くしたりす
るように可変機構を調整すればよい。この時に制御手段
19は、信号手段としての温度センサー18の信号をも
とに可変機構9、10制御をするものである。In the above structure, if the depth of the groove is increased, the concentration of radio waves increases near the surface of the groove. Therefore, the adjustment of the meat burning condition and the temperature control is performed by making the groove deeper or shallower. It suffices to adjust the variable mechanism. At this time, the control means 19 controls the variable mechanisms 9 and 10 based on the signal of the temperature sensor 18 as a signal means.
【0018】この表面波加熱方式と、発熱体の構成で
は、電界を自由自在に制御でき、発熱体上、均一な温度
分布になるので、食品の加熱むらは生じない。With this surface wave heating method and the constitution of the heating element, the electric field can be freely controlled and a uniform temperature distribution is achieved on the heating element, so that heating unevenness of the food does not occur.
【0019】第4図は、本発明の他の実施例であり、発
熱体16、17が、駆動体20によって、上下に移動可
能な構成にしたものである。この構成によって、一般の
温めの場合には、発熱体を上方に移動し、高温度の加熱
された発熱体を食品に接触させたりすることができる。FIG. 4 shows another embodiment of the present invention in which the heating elements 16 and 17 are movable up and down by the driving body 20. With this configuration, in the case of general warming, the heating element can be moved upward and the heating element heated at high temperature can be brought into contact with food.
【0020】この構成によって、表面波加熱と、発熱体
12の複合加熱も可能となり、肉の焦げ目付けが短時間
でできる。With this configuration, surface wave heating and combined heating of the heating element 12 are also possible, and the meat can be browned in a short time.
【0021】第5図も、本発明の他の実施例であり、導
波管4、5内に高周波を切り換える切り替え手段21を
設けたものである。この構成によって、上下の加熱プレ
ート7、8のいずれか一方に高周波電力を供給できるも
のである。したがって、牛乳や、酒のかんの温めの場合
には、切り替え手段21を周期構造加熱プレート7に供
給するように制御手段19が制御し、下方から加熱する
方法をとるようにする。このようにすれば、下方から食
品が温められるので液体内部の対流により加熱むらは生
じない。FIG. 5 is also another embodiment of the present invention in which the switching means 21 for switching the high frequency is provided in the waveguides 4 and 5. With this configuration, high frequency power can be supplied to either one of the upper and lower heating plates 7 and 8. Therefore, in the case of warming milk or a can of sake, the control means 19 controls so that the switching means 21 is supplied to the periodic structure heating plate 7, and the method of heating from below is adopted. In this way, since the food is warmed from below, uneven heating does not occur due to convection inside the liquid.
【0022】また、本発明の構成によって、周期構造加
熱プレート7上の食品6が加熱され、食品6に周期構造
加熱プレート上で接触する形で温度センサー18が配さ
れているので、温度センサー18は周期構造加熱プレー
ト7の温度上昇を検出し、食品6の温度を検出する。そ
の温度上昇と食品の温度とは、ある時間遅れがあるもの
の相関があり、所望の温度になれば、制御手段19はマ
グネトロン2の発振を自動的に停止する。Further, according to the structure of the present invention, the food 6 on the periodic structure heating plate 7 is heated, and the temperature sensor 18 is arranged in contact with the food 6 on the periodic structure heating plate. Detects the temperature rise of the periodic structure heating plate 7 and detects the temperature of the food 6. The temperature rise and the food temperature are correlated with each other with a certain time delay, and when the temperature reaches a desired temperature, the control means 19 automatically stops the oscillation of the magnetron 2.
【0023】なお、本発明の実施例では周期構造加熱プ
レート7に接触する構成で検出手段18を配したが、伝
熱体によって周期構造加熱プレート7からはなれた位置
で検出してもよく本実施例に限定されるものではない。In the embodiment of the present invention, the detecting means 18 is arranged so as to be in contact with the periodic structure heating plate 7, but it may be detected at a position separated from the periodic structure heating plate 7 by a heat transfer body. It is not limited to the example.
【0024】[0024]
【発明の効果】以上説明したように本発明の高周波加熱
装置は、次に述べる効果がある。As described above, the high frequency heating apparatus of the present invention has the following effects.
【0025】(1)高周波を吸収して発熱する発熱体を
上下に配し、周期構造加熱プレートの表面波伝搬モード
の強度を変える可変機構により、一般の加熱、温めや、
高温度の加熱調理も、食品の加熱むらを心配する必要が
ない。(1) A heating mechanism for absorbing high frequency and generating heat is arranged above and below, and a variable mechanism for changing the intensity of the surface wave propagation mode of the periodic structure heating plate is used for general heating, warming,
Even in high-temperature cooking, there is no need to worry about uneven heating of food.
【0026】(2)食品の温度を検出する検出手段によ
り、食品の温度も正確に検出できるので、非常に使いが
ってがよく、発熱体を駆動する駆動体により、食品によ
る加熱形態の使い分け(温めと焦げ目調理)や、駆動体
の位置の調整により、発熱体と表面波加熱の複合加熱も
可能になり、短時間の食品加熱が可能となる。(2) The temperature of the food can be accurately detected by the detecting means for detecting the temperature of the food, which is very useful, and the driving unit for driving the heating element properly selects the heating mode depending on the food. By (warming and browning) and adjusting the position of the driving body, combined heating of the heating element and surface wave heating becomes possible, and food can be heated in a short time.
【0027】(3)導波管内の高周波電力の切り替え手
段により、周期構造加熱プレートのいずれか一方に集中
して電力を供給できるので、食品の種類に応じて最適な
加熱形態が自動的におこなうことができる。(3) Since the power can be concentratedly supplied to either one of the periodic structure heating plates by the switching means of the high frequency power in the waveguide, the optimum heating mode is automatically performed according to the type of food. be able to.
【図1】本発明の一実施例における高周波加熱装置の全
体構成図FIG. 1 is an overall configuration diagram of a high-frequency heating device according to an embodiment of the present invention.
【図2】同表面波加熱を説明する周期構造体の図FIG. 2 is a diagram of a periodic structure explaining the surface wave heating.
【図3】同表面波加熱を説明する周期構造体の等価回路
図FIG. 3 is an equivalent circuit diagram of a periodic structure for explaining the same surface wave heating.
【図4】本発明の他の実施例における高周波加熱装置の
全体構成図FIG. 4 is an overall configuration diagram of a high-frequency heating device according to another embodiment of the present invention.
【図5】本発明の他の実施例における高周波加熱装置の
全体構成図FIG. 5 is an overall configuration diagram of a high-frequency heating device according to another embodiment of the present invention.
【図6】従来の高周波加熱装置の構成図FIG. 6 is a block diagram of a conventional high-frequency heating device.
1 加熱加 2 (高周波)発振源 4、5 導波管 6 食品 7、8 周期構造加熱プレート 9、10 可変機構 14、15 耐熱性材料 16、17 発熱体 18 検出手段 19 制御手段 20 駆動体 21 切り替え手段 DESCRIPTION OF SYMBOLS 1 heating 2 (high frequency) oscillation source 4, 5 waveguide 6 food 7, 8 periodic structure heating plate 9, 10 variable mechanism 14, 15 heat resistant material 16, 17 heating element 18 detection means 19 control means 20 driver 21 Switching means
Claims (3)
複数の導波管を介し上下に配した表面波伝搬モードで加
熱する周期構造加熱プレートと、前記周期構造加熱プレ
ートを覆う耐熱性材料と、前記耐熱性材料に接触し高周
波を吸収し発熱する発熱体と、食品の種類により前記周
期構造加熱プレートの表面波伝搬モードの強度を変える
可変機構と、周期構造加熱プレート上の食品の温度を検
出する検出手段と、前記検出手段の信号により前記発振
源の出力を制御する制御手段とからなる高周波加熱装
置。1. An oscillation source that oscillates a high frequency, a periodic structure heating plate that heats the high frequency in a surface wave propagation mode arranged vertically through a plurality of waveguides, and a heat-resistant material that covers the periodic structure heating plate. A heating element that comes into contact with the heat resistant material and absorbs high frequency to generate heat; a variable mechanism that changes the intensity of the surface wave propagation mode of the periodic structure heating plate depending on the type of food; and the temperature of the food on the periodic structure heating plate. A high-frequency heating device comprising: a detection unit for detecting the output of the oscillation source; and a control unit for controlling the output of the oscillation source according to a signal from the detection unit.
複数の導波管を介し上下に配した表面波伝搬モードで加
熱する周期構造加熱プレートと、前記周期構造加熱プレ
ートを覆う耐熱性材料と、前記耐熱性材料に接触し高周
波を吸収し発熱する複数の発熱体と、前記発熱体を前記
加熱室内で上下に移動可能にする駆動体と、食品の種類
により前記周期構造加熱プレートの表面波伝搬モードの
強度を変える可変機構と、周期構造加熱プレート上の食
品の温度を検出する検出手段と、前記検出手段の信号に
より前記発振源の出力を制御する制御手段とからなる高
周波加熱装置。2. An oscillating source for oscillating a high frequency, a periodic structure heating plate for heating the high frequency in a surface wave propagation mode arranged vertically through a plurality of waveguides, and a heat-resistant material for covering the periodic structure heating plate. A plurality of heating elements that come into contact with the heat resistant material and absorb high frequency to generate heat; a driving body that allows the heating elements to move up and down in the heating chamber; and a surface of the periodic structure heating plate depending on the type of food. A high frequency heating device comprising a variable mechanism for changing the intensity of a wave propagation mode, a detection means for detecting the temperature of food on the periodic structure heating plate, and a control means for controlling the output of the oscillation source by a signal of the detection means.
複数の導波管を介し上下に配した表面波伝搬モードで加
熱する周期構造加熱プレートと、前記加熱プレートを覆
う耐熱性材料と、前記耐熱性材料に接触し高周波を吸収
し発熱する複数の発熱体と、前記発熱体を前記加熱室内
で上下に移動可能にする駆動体と、食品の種類により前
記加熱プレートの表面波伝搬モードの強度を変える可変
機構と、前記上下の周期構造加熱プレートに供給する高
周波電力を切り換える切り替え手段と、前記周期構造加
熱プレート上の食品の温度を検出する検出手段と、前記
検出手段の信号により前記発振源の出力を制御する制御
手段とからなる高周波加熱装置。3. An oscillation source that oscillates a high frequency, a periodic structure heating plate that heats the high frequency in a surface wave propagation mode that is arranged vertically through a plurality of waveguides, and a heat resistant material that covers the heating plate. A plurality of heating elements that come into contact with the heat-resistant material and absorb high frequency to generate heat, a driving element that allows the heating elements to move up and down in the heating chamber, and a surface wave propagation mode of the heating plate depending on the type of food. A variable mechanism for changing the intensity, a switching means for switching the high frequency power supplied to the upper and lower periodic structure heating plates, a detecting means for detecting the temperature of the food on the periodic structure heating plate, and the oscillation by the signal of the detecting means. A high frequency heating device comprising a control means for controlling the output of the source.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP4355493A JPH06260276A (en) | 1993-03-04 | 1993-03-04 | High frequency heating device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP4355493A JPH06260276A (en) | 1993-03-04 | 1993-03-04 | High frequency heating device |
Publications (1)
Publication Number | Publication Date |
---|---|
JPH06260276A true JPH06260276A (en) | 1994-09-16 |
Family
ID=12666978
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP4355493A Pending JPH06260276A (en) | 1993-03-04 | 1993-03-04 | High frequency heating device |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPH06260276A (en) |
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2015162273A (en) * | 2014-02-26 | 2015-09-07 | パナソニック株式会社 | Micro wave processor |
WO2018003588A1 (en) * | 2016-06-30 | 2018-01-04 | パナソニックIpマネジメント株式会社 | High-frequency heating device |
JP2018006103A (en) * | 2016-06-30 | 2018-01-11 | パナソニックIpマネジメント株式会社 | High-frequency heating apparatus |
JP2018006102A (en) * | 2016-06-30 | 2018-01-11 | パナソニックIpマネジメント株式会社 | High-frequency heating apparatus |
EP3481149A4 (en) * | 2016-06-30 | 2019-07-17 | Panasonic Intellectual Property Management Co., Ltd. | High-frequency heating device |
JPWO2019187457A1 (en) * | 2018-03-26 | 2021-03-11 | パナソニックIpマネジメント株式会社 | Microwave heating device |
-
1993
- 1993-03-04 JP JP4355493A patent/JPH06260276A/en active Pending
Cited By (11)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2015162273A (en) * | 2014-02-26 | 2015-09-07 | パナソニック株式会社 | Micro wave processor |
WO2018003588A1 (en) * | 2016-06-30 | 2018-01-04 | パナソニックIpマネジメント株式会社 | High-frequency heating device |
JP2018006103A (en) * | 2016-06-30 | 2018-01-11 | パナソニックIpマネジメント株式会社 | High-frequency heating apparatus |
JP2018006102A (en) * | 2016-06-30 | 2018-01-11 | パナソニックIpマネジメント株式会社 | High-frequency heating apparatus |
CN109315028A (en) * | 2016-06-30 | 2019-02-05 | 松下知识产权经营株式会社 | Thermatron |
EP3481149A4 (en) * | 2016-06-30 | 2019-07-17 | Panasonic Intellectual Property Management Co., Ltd. | High-frequency heating device |
EP3481150A4 (en) * | 2016-06-30 | 2019-07-17 | Panasonic Intellectual Property Management Co., Ltd. | High-frequency heating device |
EP3661326A1 (en) * | 2016-06-30 | 2020-06-03 | Panasonic Intellectual Property Management Co., Ltd. | High-frequency heating device |
CN109315028B (en) * | 2016-06-30 | 2021-07-02 | 松下知识产权经营株式会社 | High-frequency heating device |
JPWO2019187457A1 (en) * | 2018-03-26 | 2021-03-11 | パナソニックIpマネジメント株式会社 | Microwave heating device |
EP3772233A4 (en) * | 2018-03-26 | 2021-05-05 | Panasonic Intellectual Property Management Co., Ltd. | Microwave heating device |
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