JPH0129315B2 - - Google Patents
Info
- Publication number
- JPH0129315B2 JPH0129315B2 JP58063956A JP6395683A JPH0129315B2 JP H0129315 B2 JPH0129315 B2 JP H0129315B2 JP 58063956 A JP58063956 A JP 58063956A JP 6395683 A JP6395683 A JP 6395683A JP H0129315 B2 JPH0129315 B2 JP H0129315B2
- Authority
- JP
- Japan
- Prior art keywords
- frequency
- heating chamber
- waveguide
- dimension
- heating
- 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
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- Constitution Of High-Frequency Heating (AREA)
Description
【発明の詳細な説明】
本発明は高周波加熱装置の均一加熱に関するも
のである。DETAILED DESCRIPTION OF THE INVENTION The present invention relates to uniform heating in a high frequency heating device.
高周波加熱装置の均一加熱手段として、高周波
エネルギーを乱反射させるスターラ、高周波エネ
ルギーを回転しながら放射する回転アンテナ、被
加熱物を回転移動させるターンテーブル、更に加
熱室周壁に多数の高周波供給口を設けるようにし
たものなどが知られている。しかしこれらのいず
れのものも、多くの人手と多大の検討期間を費や
すカツトアンドトライによらなければ実用に供せ
られる品物にならないという欠点があつた。 The uniform heating means of the high-frequency heating device includes a stirrer that diffusely reflects high-frequency energy, a rotating antenna that radiates high-frequency energy while rotating, a turntable that rotates the object to be heated, and a large number of high-frequency supply ports on the peripheral wall of the heating chamber. It is known that it was made into However, all of these products had the drawback that they could not be put into practical use unless they were cut and tried, which required a lot of manpower and a long period of study.
本発明は上述の欠点を解消するためになされた
もので、簡単な手段で均一加熱の得られる高周波
加熱装置を提供することを目的とする。 The present invention has been made in order to eliminate the above-mentioned drawbacks, and an object of the present invention is to provide a high-frequency heating device that can achieve uniform heating using simple means.
以下本発明の一実施例を第1図、第2図に従つ
て説明する。 An embodiment of the present invention will be described below with reference to FIGS. 1 and 2.
第1図は本発明の高周波加熱装置の一実施例を
示す要部断面略図で、第2図は第1図のXY方向
から見た上面図である。図面において、1は高周
波エネルギーを発生する高周波発振器で、2はそ
の高周波発振器1を加熱室3に連結する導波管で
ある。加熱室3は金属板により直方体状に作られ
ている。導波管2も金属板により直方体状に作ら
れ、加熱室3の天井壁外側に天井壁に平行して取
付けられている。加熱室3内の下部には食品など
の被加熱物4を載置して回転移動させるターンテ
ーブル5を設けている。導波管2の一側の加熱室
3に結合する部分には2個所の高周波放射口6,
7を設け、このうち一方の高周波放射口6を導波
管2の先端部に開口させ、もう一方の高周波放射
口7を加熱室3の端部近傍に開口させている。導
波管の他側は加熱室天井の外縁をこえて延出し、
その端部に前述の高周波発振器1が取付けられて
いる。また、導波管2の軸方向に対する上述2個
所の高周波放射口6,7の寸法B,Dと上述2個
所の高周波放射口6,7の間を隔てる仕切部8の
寸法Cとを合計した寸法B+C+Dを使用波長λ
に対してλ/2〜λ+λ/4とするとともに、仕
切部8の寸法Cをλ/8以上としている。9は導
波管2の下板と加熱室3の上壁端部とを接合する
ためのねじである。ねじ9の取付寸法Eは製作の
容易さの点から15mm以上は必要である。 FIG. 1 is a schematic cross-sectional view of a main part showing an embodiment of the high-frequency heating device of the present invention, and FIG. 2 is a top view as seen from the XY direction of FIG. 1. In the drawing, 1 is a high frequency oscillator that generates high frequency energy, and 2 is a waveguide that connects the high frequency oscillator 1 to a heating chamber 3. The heating chamber 3 is made of a metal plate in the shape of a rectangular parallelepiped. The waveguide 2 is also made of a metal plate in the shape of a rectangular parallelepiped, and is attached to the outside of the ceiling wall of the heating chamber 3 in parallel to the ceiling wall. A turntable 5 is provided at the lower part of the heating chamber 3 on which a heated object 4 such as food is placed and rotated. There are two high-frequency radiation ports 6 on one side of the waveguide 2 in the part that connects to the heating chamber 3.
7, one high frequency radiation port 6 is opened at the tip of the waveguide 2, and the other high frequency radiation port 7 is opened near the end of the heating chamber 3. The other side of the waveguide extends beyond the outer edge of the heating chamber ceiling;
The above-mentioned high frequency oscillator 1 is attached to the end thereof. In addition, the dimensions B and D of the above-mentioned two high-frequency radiation ports 6 and 7 in the axial direction of the waveguide 2 and the dimension C of the partition portion 8 that separates the above-mentioned two high-frequency radiation ports 6 and 7 are summed. Use dimensions B + C + D. Wavelength λ
λ/2 to λ+λ/4, and the dimension C of the partition portion 8 is set to λ/8 or more. Reference numeral 9 denotes a screw for joining the lower plate of the waveguide 2 and the upper wall end of the heating chamber 3. The mounting dimension E of the screw 9 needs to be 15 mm or more from the viewpoint of ease of manufacture.
高周波放射口6,7の寸法B,Dと仕切部の寸
法Cとの合計寸法B+C+Dをλ/2〜λ+λ/
4にしている理由を説明する。導波管2内の管内
波長λgは使用波長(自由空間波長)λより大き
く、長辺寸法aを狭くするほど大きくなるという
性質があるが、実用寸法の導波管ではλ/2〜λ
+λ/4の範囲内に少なくともλg/2が含まれ
ている。具体的に述べると、家庭用の高周波加熱
装置いわゆる電子レンジにおいては、λ=122mm
(周波数2450MHzに対応)で、λ/2〜λ+λ/
4は61〜153mmであり、a寸法は96、80、70mmが
一般的である。a=96mmに対してはλg/2=79
mmで、61<B+C+D<153mmの範囲内では、磁
界最大位置が導波管軸方向に対して先端と79mmの
2個所であり、磁界最小位置は39.5mmと118.5mm
の2個所である。磁界最大位置では磁界と直行す
る導波管軸方向の壁面電流も最大となる。この壁
面電流を切るように高周波放射口6,7を設ける
ことにより、高周波放射口6,7から能率よく高
周波エネルギーを加熱室3内に向けて放射でき
る。そこで、a=96mmの場合は、高周波放射口
6,7をそれぞれ磁界最大位置である導波管の先
端部と79mm付近に配設する。仕切部8は高周波放
射率の悪い磁界最小位置39.5mm付近に配設する。
実用上、a=96mmでは、B+C+Dの最小寸法は
λg/2に対応する79mmである。 The total dimension B+C+D of the dimensions B and D of the high-frequency radiation ports 6 and 7 and the dimension C of the partition part is λ/2 to λ+λ/
I will explain why I chose 4. The internal wavelength λg in the waveguide 2 is larger than the used wavelength (free space wavelength) λ, and increases as the long side dimension a becomes narrower, but in a waveguide of practical size, it is between λ/2 and λ.
At least λg/2 is included within the range of +λ/4. Specifically, in a household high-frequency heating device called a microwave oven, λ = 122 mm.
(corresponds to frequency 2450MHz), λ/2 to λ+λ/
4 is 61 to 153 mm, and the a dimension is generally 96, 80, and 70 mm. For a=96mm, λg/2=79
mm, within the range of 61<B+C+D<153mm, the maximum magnetic field positions are at the tip and 79mm in the waveguide axis direction, and the minimum magnetic field positions are 39.5mm and 118.5mm.
There are two locations. At the position of the maximum magnetic field, the wall current in the waveguide axis direction perpendicular to the magnetic field also reaches its maximum. By providing the high-frequency radiation ports 6 and 7 to cut off this wall current, high-frequency energy can be efficiently radiated into the heating chamber 3 from the high-frequency radiation ports 6 and 7. Therefore, when a=96 mm, the high frequency radiation ports 6 and 7 are arranged near the tip of the waveguide and 79 mm, respectively, where the magnetic field is maximum. The partition part 8 is arranged near the minimum position of 39.5 mm in the magnetic field with poor high frequency emissivity.
In practice, when a=96 mm, the minimum dimension of B+C+D is 79 mm, which corresponds to λg/2.
同様にa=80mmの場合は、61<B+C+D<
153mmの範囲内に磁界最大位置が2個所、最小位
置が2個所あるが、高周波放射口6,7をそれぞ
れ磁界最大位置である導波管先端部と95mm付近に
配設し、仕切部8は磁界最小位置の47.5mm付近に
配設する。実用上、a=80mmではB+C+Dの最
小寸法はλg/2に対応する95mmである。 Similarly, if a=80mm, 61<B+C+D<
There are two maximum magnetic field positions and two minimum magnetic field positions within a range of 153 mm, but the high-frequency radiation ports 6 and 7 are located at the tip of the waveguide, which is the maximum magnetic field position, and near 95 mm, respectively, and the partition part 8 is Place it near the minimum magnetic field position of 47.5mm. In practice, when a=80 mm, the minimum dimension of B+C+D is 95 mm, which corresponds to λg/2.
また、a=70mmの場合は、61<B+C+D<
153mmの範囲内に磁界最大位置が2個所、最小位
置が1個所あるが、高周波放射口6,7をそれぞ
れ磁界最大位置である導波管先端部と126mm付近
に配設し、仕切部8は磁界最小位置の63mm付近に
配設する。実用上、a=70mmではB+C+Dの最
小寸法はλg/2に対応する126mmである。 Also, if a=70mm, 61<B+C+D<
There are two maximum magnetic field positions and one minimum magnetic field position within the range of 153 mm, but the high frequency radiation ports 6 and 7 are placed at the tip of the waveguide, which is the maximum magnetic field position, and near 126 mm, respectively, and the partition part 8 is Place it near the minimum magnetic field position of 63mm. In practice, when a=70 mm, the minimum dimension of B+C+D is 126 mm, which corresponds to λg/2.
家庭用電子レンジでは、加熱室の幅は270mm〜
400mm程度である。前述のように、a=96mmでは、
B+C+Dの最小寸法が79mmであり、これにEの
最小寸法15mmを加えた寸法が94mmである。この94
mmがA(=B+C+D+E)寸法の最小であり、
上記電子レンジの最小幅270mmの1/2である135mm
よりも短く実施可能である。同様に、a=70mmで
はA寸法の最小は141mmとなる。このように、a
=96、80、70mmいずれの場合も導波管2の先端と
加熱室3の側壁との距離Aは、実際の電子レンジ
の加熱室3の導波管軸方向の幅のほぼ1/2以内と
短くでき、スペース的、コスト的に有利である。 For household microwave ovens, the width of the heating chamber is 270 mm ~
It is about 400mm. As mentioned above, when a=96mm,
The minimum dimension of B+C+D is 79 mm, and the dimension obtained by adding the minimum dimension of E, 15 mm, is 94 mm. This 94
mm is the minimum dimension of A (=B+C+D+E),
135mm, which is 1/2 of the minimum width of 270mm for the above microwave oven.
It can be implemented in a shorter time than Similarly, when a=70mm, the minimum A dimension is 141mm. In this way, a
=96, 80, and 70 mm, the distance A between the tip of the waveguide 2 and the side wall of the heating chamber 3 is within approximately 1/2 of the width of the waveguide axis of the heating chamber 3 of the actual microwave oven. It can be shortened, which is advantageous in terms of space and cost.
なお、A寸法が加熱室3のほぼ1/2以内であつ
ても、ターンテーブル5で被加熱物4を回転移動
させるので、被加熱物4の前面に均一に高周波エ
ネルギーを照射することができる。 Note that even if dimension A is within approximately 1/2 of the heating chamber 3, the object to be heated 4 is rotated and moved by the turntable 5, so that the front surface of the object to be heated 4 can be uniformly irradiated with high-frequency energy. .
仕切部8の寸法Cをλ/8以上としている理由
を説明する。高周波加熱装置の使用波長λを122
mm(周波数2.450MHzに対応)とした場合、λ/
8は約15mmとなる。この15mmは、家庭用の高周波
加熱装置いわゆる電子レンジにおいて、仕切部8
を塗装した鉄板あるいはステンレススチールで製
作したとき、500W〜700Wの高周波エネルギーを
供給している加熱室3内に被加熱物4を入れ忘れ
た状態即ち空焼状態で、高周波磁界によつて誘起
される仕切部8の表面を流れる高周波電流による
損失に起因する異常加熱で仕切部8に変色や変形
などの不都合が生じないために必要なもので、仕
切部8の導波管軸方向の寸法Cを15mm以上にすれ
ば、実用上差し支えないことが実験的に確認され
ている。 The reason why the dimension C of the partition portion 8 is set to λ/8 or more will be explained. The wavelength λ used by the high-frequency heating device is 122
mm (corresponding to frequency 2.450MHz), λ/
8 is approximately 15mm. This 15mm is the partition part 8 in a household high-frequency heating device called a microwave oven.
When manufactured from painted iron plate or stainless steel, it is induced by a high-frequency magnetic field when the object to be heated 4 is forgotten to be placed in the heating chamber 3, which supplies high-frequency energy of 500W to 700W, that is, in an empty firing state. This is necessary to prevent problems such as discoloration and deformation of the partition 8 due to abnormal heating caused by loss due to high-frequency current flowing on the surface of the partition 8, and the dimension C of the partition 8 in the waveguide axis direction is It has been experimentally confirmed that there is no problem in practical use if the thickness is 15 mm or more.
つぎに本発明の高周波加熱装置の作用、効果を
説明する。高周波発振器1から加熱室3に向かう
高周波エネルギーは、まず加熱室3端部付近の高
周波放射口7から加熱室3内に放射され、続いて
残りの高周波エネルギーが導波管2の先端部の高
周波放射口6から加熱室3内に放射される。仕切
部8の寸法Cや位置を調節することにより、高周
波放射口7と6との高周波エネルギーの放射比率
が調節でき、ターンテーブル5の半径方向の加熱
むらを少なくできることはいうまでもない。 Next, the functions and effects of the high frequency heating device of the present invention will be explained. The high-frequency energy directed from the high-frequency oscillator 1 toward the heating chamber 3 is first radiated into the heating chamber 3 from the high-frequency radiation port 7 near the end of the heating chamber 3, and then the remaining high-frequency energy is transmitted to the high-frequency energy at the tip of the waveguide 2. The radiation is emitted from the radiation port 6 into the heating chamber 3 . It goes without saying that by adjusting the dimension C and position of the partition portion 8, the radiation ratio of high frequency energy between the high frequency radiation ports 7 and 6 can be adjusted, and uneven heating of the turntable 5 in the radial direction can be reduced.
以上のように、本発明によると高周波放射口の
寸法範囲、どこを調節すればよいかが明確である
ので、加熱むら改善に要する人手や期間を低減で
き、ターンテーブル上の半径方向、円周方向の加
熱むらが少なく、仕切部の空焼時の異常加熱がな
く、かつ二つの放射効率のよい放射口を設けた導
波管の先端とその導波管の真下の加熱室側壁との
距離が実際の電子レンジの加熱室の幅のほぼ1/2
以内と短くて済み、スペース的、コスト的に有利
な高周波加熱装置が提供でき、実施する効果は大
なるものがある。 As described above, according to the present invention, the dimensional range of the high-frequency radiation opening and where to adjust it are clear, so it is possible to reduce the manpower and time required to improve uneven heating. There is little heating unevenness, there is no abnormal heating during dry firing of the partition, and the distance between the tip of the waveguide and the side wall of the heating chamber directly below the waveguide, which has two radiation ports with high radiation efficiency, is Approximately 1/2 the width of the heating chamber of an actual microwave oven
It is possible to provide a high-frequency heating device that can be shortened to within 10 minutes, is advantageous in terms of space and cost, and has great effects when implemented.
第1図は本発明の高周波加熱装置の一実施例を
示す要部断面図で、第2図は第1図のXY方向か
ら見た上面図である。
1……高周波発振器、2……導波管、3……加
熱室、4……被加熱物、5……ターンテーブル、
6,7……高周波放射口、8……仕切部、B,
C,D……各高周波放射口および仕切部の寸法。
FIG. 1 is a sectional view of a main part of an embodiment of the high-frequency heating device of the present invention, and FIG. 2 is a top view of FIG. 1 viewed from the XY direction. 1... High frequency oscillator, 2... Waveguide, 3... Heating chamber, 4... Heated object, 5... Turntable,
6, 7... High frequency radiation port, 8... Partition part, B,
C, D...Dimensions of each high frequency radiation port and partition.
Claims (1)
器を前記加熱室に連結して高周波エネルギーを前
記加熱室に供給する導波管と、前記加熱室内にて
被加熱物を載置して回転移動させるターンテーブ
ルとを備えた高周波加熱装置において、前記導波
管2を前記加熱室3の天井の外側にしかも天井壁
に沿つて配置するとともにその一端を前記天井壁
にて2個の高周波放射口6,7を以て加熱室と結
合させ他端を天井壁の外縁をこえて延出させてそ
の端部に前記高周波発振器を取付け、前記天井壁
の2個の高周波放射口のうち一方の高周波放射口
6の位置を前記導波管の先端部とし、もう一方の
高周波放射口7の位置を前記高周波発振器の取付
けられた側の加熱室側壁近傍とし、前記導波管の
管軸方向に対する前記高周波放射口6,7の寸法
B,Dと前記高周波放射口6,7の間を隔てる仕
切部8の寸法Cとを合計した寸法B+C+Dを使
用波長の1/2〜5/4にし、かつ前記仕切部8の寸法
Cを使用波長の1/8以上としたことを特徴とする
高周波加熱装置。1: a high-frequency oscillator, a heating chamber, a waveguide that connects the high-frequency oscillator to the heating chamber and supplies high-frequency energy to the heating chamber, and places an object to be heated in the heating chamber and rotates it. In a high-frequency heating device equipped with a turntable, the waveguide 2 is arranged outside the ceiling of the heating chamber 3 and along the ceiling wall, and one end thereof is connected to two high-frequency radiation ports 6 in the ceiling wall. , 7 to the heating chamber, the other end of which extends beyond the outer edge of the ceiling wall, and the high-frequency oscillator is attached to that end, and one of the two high-frequency radiation ports 6 of the ceiling wall is connected to the heating chamber. is the tip of the waveguide, and the other high-frequency radiation port 7 is located near the side wall of the heating chamber on the side where the high-frequency oscillator is installed, and the high-frequency radiation port 7 is located at the tip of the waveguide in the direction of the tube axis of the waveguide. The dimension B+C+D, which is the sum of the dimensions B and D of 6 and 7 and the dimension C of the partition 8 that separates the high-frequency radiation ports 6 and 7, is 1/2 to 5/4 of the wavelength used, and the partition 8 A high-frequency heating device characterized in that the dimension C is 1/8 or more of the wavelength used.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP6395683A JPS59189589A (en) | 1983-04-12 | 1983-04-12 | High frequency heater |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP6395683A JPS59189589A (en) | 1983-04-12 | 1983-04-12 | High frequency heater |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPS59189589A JPS59189589A (en) | 1984-10-27 |
| JPH0129315B2 true JPH0129315B2 (en) | 1989-06-09 |
Family
ID=13244273
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP6395683A Granted JPS59189589A (en) | 1983-04-12 | 1983-04-12 | High frequency heater |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPS59189589A (en) |
Family Cites Families (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPS6025874B2 (en) * | 1980-09-18 | 1985-06-20 | 株式会社東芝 | High frequency heating device |
-
1983
- 1983-04-12 JP JP6395683A patent/JPS59189589A/en active Granted
Also Published As
| Publication number | Publication date |
|---|---|
| JPS59189589A (en) | 1984-10-27 |
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