JPS6294715A - Garbage processing machine - Google Patents

Abstract

PURPOSE:To enable a quality of raw garbage to be completely changed into ashes in an efficient manner, enable it to be stabilized without any toxic substance therein and reduce an amount of raw garbage by a method wherein the raw garbage is processed with a microwave and burnt in a heating container to reduce its weight. CONSTITUTION:Raw garbage 8 is fed into a heating container 7 at a feeding inlet port 9 and then a microwave is generated by energizing a magnetron device 2. A part of the microwave may act on the heating container 7. The heating container 7 is composed of a baked body of silicon carbide and a barium titanate acting as a strong dielectric substance. Therefore, the microwave may generate a heat corresponding to a dielectric loss by a barium titanate and an entire heating container 7 is heated by the silicon carbide which shows a quite superior thermal conductivity as a ceramics. At a bottom part of the heating container 7 is formed a quite hot temperature part 12 with a heat from the heating container 7 and a heat of inner heating of the raw garbage 8 and thus the raw garbage 8 is completely burnt. Since the heating container 7 is used, this shows a lower limit of a load and no dry combustion is generated. Therefore, it is possible to have a small size of an exhaust cylinder and to keep a temperature of the exhaust gas itself low.

Description

【発明の詳細な説明】 産業上の利用分野 この発明は、生ゴミをマイクロ波で焼却減量処理する厨
芥処理機に関するものである。DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application This invention relates to a kitchen waste disposal machine that reduces the amount of food waste by incinerating it using microwaves.

従来の技術 従来、一般家庭で生ゴミを処理する器具は、物理的処理
機として例えばディスポーザなどの、機械的粉砕を行う
もの、また粉砕・圧縮・脱水を単独または組合せて処理
するものがある。また化学的処理を行うものとして、例
えば家庭用の焼却炉。BACKGROUND OF THE INVENTION Conventionally, there are physical processing machines such as disposers that perform mechanical pulverization, and those that perform pulverization, compression, and dehydration alone or in combination. Another example of a device that performs chemical treatment is a household incinerator.

またガスバーナなどで焼却を行う厨芥処理機があり、生
物的処理として発酵技術をペースとしたコンポスト容器
などがある。There are also kitchen waste processing machines that incinerate waste using gas burners, and there are compost containers that use fermentation technology as biological processing.

発明が解決しようとする問題点 しかしながら、生ゴミをどのように処理するかについて
、（Ｉ）生ゴミの質を変える（無害安定化する）　、（
ＩＩ）量を変える（減量する）、（２）台所内でも処理
できる、という見方から考察すると、前記の処理器具は
いづれも問題があった。以下その問題点を説明する。Problems to be Solved by the Invention However, regarding how to dispose of food waste, there are two issues: (I) changing the quality of food waste (making it harmless and stable);
When considered from the viewpoints of II) changing the amount (reducing the amount) and (2) being able to process in the kitchen, all of the above-mentioned processing devices had problems. The problems will be explained below.

ディスポーザなどの物理的処理機は、処理後においても
分子構造の変化をともなわないため、直に腐敗が進行し
、臭気の問題も発生する。また質の変化が前提でないた
め、更に処理が必要となり、ディスポーザの例で言えば
、家庭内に粉砕された生ゴミ処理用の浄化槽を備えるか
、地域社会として大規模な処理施設が前提となり、この
事が自治体からのディスポーザ使用禁止の要請を生じさ
せており、物理的処理機普及のネックとなっている。Physical processing machines such as disposers do not cause changes in the molecular structure even after processing, so decomposition progresses immediately and odor problems occur. Furthermore, since quality change is not a prerequisite, further processing is required, and in the case of disposers, it is a prerequisite that households have a septic tank for disposing of crushed food waste, or that the local community has a large-scale treatment facility. This has led to requests from local governments to ban the use of disposers, and has become a bottleneck in the spread of physical disposal machines.

また減量の点でも、粉砕するだけでは減量は期待できず
、圧縮・脱水を十分行なってもせいぜい強程度である。Also, in terms of weight loss, it is not possible to expect weight loss just by pulverizing, and even if sufficient compression and dehydration are performed, the weight loss will be only strong at best.

更に機械的に粉砕・圧縮・脱水などを行う場合は、騒音
の問題も生じる。Furthermore, when grinding, compressing, dewatering, etc. are performed mechanically, noise problems also occur.

生物的処理のコンポスト化容器は、処理として質を変え
るものであるが嫌気性にしろ好気性にしろバクテリアな
どの作用を利用するもので、処理に時間がかかる他、臭
気の問題もあり、減量率もやはり強程度である。また地
面が必要であったり、季節の温度差に処理が影響される
など処理機としては不安定なものである。またこの種の
ものとして、生ゴミのメタン発酵であるが、多量の生ゴ
ミの投入が必要で個別の家庭では間尺に合わない。Biological composting containers change the quality of the process, but whether it is anaerobic or aerobic, they utilize the effects of bacteria, etc., and the process takes time, and there is an odor problem, which reduces weight loss. The rate is still very strong. Furthermore, it is unstable as a processing machine, as it requires ground and processing is affected by seasonal temperature differences. Another example of this type of process is methane fermentation of food waste, but it requires the input of a large amount of food waste and cannot be scaled up for individual households.

化学的処理の焼却器は、質を変える点では焼却して灰と
するため、無害安定化できる。また減量の点でも灰とな
るため重量で１／１０〜１／２０程度に減量できる。し
かしながら生ゴミは水分が多く非常に燃えにくいため、
一般的な家庭用焼却器で生ゴミだけを燃やすことはむず
かしい。このため、ガスバーナなど燃料を用いて強制的
に燃焼する処理器が考案されているが、焼却に時間がか
かる他、ガスの燃焼による多量の高温な排気ガスをとも
ない、太い排気筒が必要となり台所内で使いづらい点が
ある。Chemical treatment incinerators change the quality of the waste by incinerating it into ash, making it harmless and stable. Also, in terms of weight loss, since it becomes ash, the weight can be reduced to about 1/10 to 1/20. However, raw garbage contains a lot of moisture and is extremely difficult to burn.
It is difficult to burn only raw garbage in a typical household incinerator. For this reason, processing devices such as gas burners that force combustion using fuel have been devised, but in addition to taking time to incinerate, the combustion of gas generates a large amount of high-temperature exhaust gas, and a thick exhaust pipe is required. There are some things that are difficult to use inside.

本発明はこのような問題点を解決するもので、生ゴミを
効率よく灰として無害安定化するとともに大巾に減量し
台所内でも使用できる厨芥処理機を提供することを目的
とするものである。The present invention is intended to solve these problems, and aims to provide a kitchen waste disposal machine that efficiently turns kitchen waste into ash and stabilizes it in a harmless manner, reduces the amount of waste to a large extent, and can be used in the kitchen. .

問題点を解決するための手段 この問題点を解決するために本発明は、マイクロ波共振
体とした本体と、この本体にマイクロ波を導入する供給
口と、マイクロ波を発生させるマグネトロン装置と、前
記本体へ空気を供給する吸気口と、前記本体内の空気を
排気する排気口と、前記本体内に置かれたマイクロ波に
より発熱する発熱容器と、この発熱容器内へ厨芥を投入
する投入口とで厨芥処理機を構成したものである。Means for Solving the Problems In order to solve this problem, the present invention provides a main body as a microwave resonator, a supply port for introducing microwaves into the main body, and a magnetron device for generating microwaves. An intake port for supplying air to the main body, an exhaust port for exhausting the air inside the main body, a heat generating container placed in the main body that generates heat by microwaves, and an input port for introducing kitchen waste into the heat generating container. This constitutes a kitchen waste processing machine.

作　　用 この構成により、生ゴミはマイクロ波により直接内部加
熱されるとともにマイクロ波で発熱する発熱容器内で容
器からの外部加熱により２重に加熱され脱水後発火し自
己燃焼して灰となり無害安定化するとともに大巾減量す
ることとなる。Function: With this configuration, food waste is heated internally directly by microwaves, and heated twice by external heating from the container inside the heat-generating container that generates heat by microwaves. After dehydration, it ignites and self-combusts to become ash, which is harmless and stable. As the weight increases, the weight will be reduced by a large amount.

実施例 以下本発明の一実施例を第１図、第２図にもとづき説明
する。図において１はマイクロ波共振体とした本体であ
る。２はマイクロ波を発生するマグネトロン装置で、マ
イクロ波は導波管３内を通って本体１に設けられた供給
口４より本体１内へ導入される。５は送風機で、送風の
一部はマグネトロン装置２を冷却し一部は本体１に設け
られた吸気口６より内部へ供給される。７はマイクロ波
により発熱する発熱容器で天面を開口した有底円筒状で
、円筒部の高さを底部の径の少くとも１／３以上である
。素材は炭化けい素とチタン酸バリウムの焼結体で、１
０００℃以上の耐熱性を有する。EXAMPLE An example of the present invention will be described below with reference to FIGS. 1 and 2. In the figure, 1 is a main body which is a microwave resonator. Reference numeral 2 denotes a magnetron device that generates microwaves, and the microwaves are introduced into the main body 1 through a supply port 4 provided in the main body 1 through a waveguide 3. Reference numeral 5 designates an air blower, in which part of the air is used to cool the magnetron device 2, and the other part is supplied into the interior through an air intake port 6 provided in the main body 1. Reference numeral 7 denotes a heat-generating container that generates heat by microwaves, and has a cylindrical shape with an open top and a bottom, and the height of the cylindrical portion is at least 1/3 or more of the diameter of the bottom. The material is a sintered body of silicon carbide and barium titanate.
It has heat resistance of 000℃ or higher.

８は本体１に設けられた投入口９より発熱容器７内へ投
入された生ゴミである。１０は本体１に設けられた排気
口で、排ガスは排気口１０より排気ファン１１により排
気される。なお本体１の各開口部にはマイクロ波の供給
口４を除いて電波漏れ防止の手段が構しである。Reference numeral 8 denotes food waste thrown into the heat-generating container 7 through an inlet 9 provided in the main body 1. 10 is an exhaust port provided in the main body 1, and exhaust gas is exhausted from the exhaust port 10 by an exhaust fan 11. It should be noted that each opening of the main body 1 is provided with means for preventing radio wave leakage, except for the microwave supply port 4.

上記構成において、生ゴミ８は本体１の投入口９より発
熱容器７内へ投入される。そしてマグネトロン装置２へ
通電するとマイクロ波が発生する。In the above configuration, the garbage 8 is charged into the heat generating container 7 through the input port 9 of the main body 1. When the magnetron device 2 is energized, microwaves are generated.

マイクロ波は導波管３内を通って供給口４よシ本体１内
へ導入され、その一部は直接生ゴミ８へ作用し、生ゴミ
８を内部加熱する。一般に生ゴミは含水性が高く、熱伝
導率が低く、生ゴミと生ゴミとの間に空間が多く介在し
、外部加熱の対象としては非常に加熱しにくいものであ
る。このためガスバーナーあるいは電熱式のヒータの輻
射により周りから加熱焼却しようとしても多くのエネル
ギ−が必要で効率的でない。これに対し、マイクロ波に
よる内部加熱では、瞬時に生ゴミの内部まで加熱するた
め外部加熱で問題となる熱伝導率の悪さ、空間が多いな
どは問題とならず、２４５０ＭＨ２のマイクロ波ではむ
しろ水分の多い方が効率よく加熱できる。したがって効
率よく生ゴミ８の加熱が行なわれる。The microwave is introduced into the main body 1 through the supply port 4 through the waveguide 3, and a portion of the microwave acts directly on the garbage 8 to internally heat the garbage 8. In general, food waste has high water content and low thermal conductivity, and there are many spaces between the food waste, making it extremely difficult to heat externally. For this reason, even if an attempt is made to heat and incinerate the surrounding area using radiation from a gas burner or an electric heater, a large amount of energy is required and this is not efficient. On the other hand, internal heating using microwaves instantaneously heats the inside of food waste, so the problems of external heating such as poor thermal conductivity and large spaces are not a problem. The larger the amount, the more efficient the heating. Therefore, the food waste 8 can be heated efficiently.

またマイクロ波の一部は発熱容器７へ作用する。Further, a part of the microwave acts on the heat generating container 7.

発熱容器７は炭化けい素と強誘電体であるチタン酸バリ
ウムの焼結体で構成されている。したがってマイクロ波
はチタン酸バリウムにより誘電損相当分の熱を生じさせ
、セラミックとしては極めて熱伝導率のよい炭化けい素
により発熱容器７全体が発熱する。この発熱容器７から
の熱も生ゴミ８へ作用し内部加熱に加え更に加熱させる
ものである。一方発熱容器７は有底円筒状で円筒部の高
さが底部の径の■以上の高さで構成されている。この結
果第２図に示すように発熱容器７の底の方では、生ゴミ
８の内部加熱による熱と、発熱容器７からの熱により極
めて温度の高い高温部１２が形成され生ゴミ８をほぼ完
全に焼ききることができる。この結果実験例では、野菜
類を焼却した場合、重量比で投入量の＋７１００以下に
減量することができ、後にわずかに白い灰が残るだけと
なった。なお発熱容器７を用いず、マイクロ波の直接加
熱のみでも加熱焼却は可能であるがこの場合は焼却が進
行するにつれてマイクロ波負荷が０に近づきいわゆる空
だき状態が生じ反射波によりマグネトロン装置２が損傷
する。しかし本発明では発熱容器７を用いているためこ
れが負荷の下限となり、空だき状態は発生せずマグネト
ロン装置２が損傷することはない。しかも生ゴミ８は完
全に焼ききることができるため、投入毎に焼却減量処理
を完結させることができる。一方燃焼に必要な空気は送
風機５により吸気口６を通って供給される。送風の一部
はマグネトロン装置２の冷却用に用いられる。また焼却
の終了した後は、機器全体の冷却に用いられる。また燃
焼により発生した排ガスは、排気口１ｏよシ排気ファン
１１により外へ排気される。ここでマイクロ波と発熱容
器７による生ゴミの内部加熱法を用いているため、例え
ばガスバーナによる燃焼加熱方式と較べ、排ガス量を大
巾に減少させることができる。これは本実施例の場合は
生ゴミ自体の自己燃焼による排ガスしか出ないのに対し
、ガスバーナ方式ではガスの燃焼排ガス量がプラスされ
るためである。したがって本発明の場合は排気筒の太さ
も大巾に細めることができるし、排ガス自体の温度も非
常に低くすることができその結果台所への設置も容易に
なるという効果もある。The heating container 7 is made of a sintered body of silicon carbide and barium titanate, which is a ferroelectric material. Therefore, the microwave generates heat equivalent to the dielectric loss due to barium titanate, and the entire heat generating container 7 generates heat due to silicon carbide, which has extremely high thermal conductivity as a ceramic. The heat from the heat generating container 7 also acts on the garbage 8 to further heat it in addition to internal heating. On the other hand, the heat-generating container 7 has a cylindrical shape with a bottom, and the height of the cylindrical portion is larger than the diameter of the bottom. As a result, as shown in FIG. 2, at the bottom of the heat-generating container 7, the heat generated by the internal heating of the garbage 8 and the heat from the heat-generating container 7 form an extremely high-temperature area 12, which almost completely removes the garbage 8. It can be completely baked. As a result, in the experimental example, when vegetables were incinerated, the weight ratio could be reduced to 7100 or less of the input amount, and only a small amount of white ash remained afterwards. Incidentally, it is possible to heat and incinerate by using only direct microwave heating without using the heat-generating container 7, but in this case, as the incineration progresses, the microwave load approaches 0 and a so-called empty state occurs, and the magnetron device 2 is activated by the reflected waves. damage. However, in the present invention, since the heat-generating container 7 is used, this is the lower limit of the load, and an empty state does not occur and the magnetron device 2 is not damaged. Furthermore, since the raw garbage 8 can be completely burned, the amount of waste reduced by incineration can be completed each time it is input. On the other hand, air necessary for combustion is supplied through an intake port 6 by a blower 5. A part of the air is used for cooling the magnetron device 2. After the incineration is complete, it is used to cool the entire device. Further, exhaust gas generated by combustion is exhausted to the outside by an exhaust fan 11 through an exhaust port 1o. Here, since the method of internally heating the garbage using microwaves and the heating container 7 is used, the amount of exhaust gas can be greatly reduced compared to, for example, a combustion heating method using a gas burner. This is because in the case of this embodiment, only exhaust gas is emitted due to self-combustion of the garbage itself, whereas in the gas burner method, the amount of combustion exhaust gas is added. Therefore, in the case of the present invention, the thickness of the exhaust pipe can be greatly reduced, and the temperature of the exhaust gas itself can be made very low, which also has the effect of making it easier to install it in the kitchen.

また本発明では、粉砕・圧縮など機械的な操作を用いな
いため騒音の発生はなく、せいぜい送風ファンの音程度
であるため、静かな機器とすることができる。Further, in the present invention, since mechanical operations such as crushing and compression are not used, no noise is generated, and the noise is at most the same as that of a blower fan, so the device can be made quiet.

なお発熱容器の材質は炭化けい素とチタン酸バリウムの
焼結体としたが、チタン酸バリウムは耐熱性を有する強
誘電体材料でよく、炭化けい素は、熱伝導性の良い耐熱
性セラミックであればよい。The material for the heating container was a sintered body of silicon carbide and barium titanate, but barium titanate may be a heat-resistant ferroelectric material, and silicon carbide is a heat-resistant ceramic with good thermal conductivity. Good to have.

また発熱容器形状を有底円筒状としたが、円筒状でなく
角筒状であってもよく要は筒部の高さが底部長径の１／
３以上あればよい。In addition, although the shape of the heat generating container is cylindrical with a bottom, it may be a rectangular tube instead of a cylindrical shape.
3 or more is sufficient.

発明の効果 以上のように本発明によれば、生ゴミをマイクロ波と発
熱容器で焼却減量処理するものであるよら、効率よく生
ゴミの質を完全に変え灰として無害安定化することがで
き、生ゴミの量も大巾に減量できる。また静かに処理す
ることができ、排ガス量も少なく容易に温度が低くでき
るため、極めて細い排気筒でよく台所内にも設置できる
ものである。さらに本発明では、生ゴミを大巾減量して
無害安定化できるため、処理後に残るわずかな灰をため
置くことができ、生ゴミを収集へ出す回数を１０日に１
回あるいは月１回ですませることも可能と々す、社会的
有用性も高い。Effects of the Invention As described above, according to the present invention, since food waste is incinerated and reduced in size using microwaves and a heat-generating container, it is possible to efficiently completely change the quality of food waste and make it harmless and stable as ash. , the amount of food waste can be greatly reduced. In addition, it can be processed quietly, the amount of exhaust gas is small, and the temperature can be easily lowered, so it can be installed even in the kitchen with an extremely thin exhaust pipe. Furthermore, with the present invention, the amount of food waste can be significantly reduced and made harmless and stabilized, so the small amount of ash that remains after processing can be stored, reducing the number of times food waste is sent out for collection to one every 10 days.
It is possible to do it only once or once a month, and it is highly socially useful.

【図面の簡単な説明】[Brief explanation of drawings]

第１図は本発明の一実施例の厨芥処理機の縦断面図、第
２図は同厨芥処理機の発熱容器の処理状態を示す縦断面
図である。 １・・・・・・本体、２・・・・・・マグネトロン装置
、４・・・・・・供給口、６・・・・・・吸気口、７・
・・・・・発熱容器、９・・・・・・投入口、１ｏ・・
・・・・排気口。 代理人の氏名　弁理士　中　尾　敏　男　ほか１名ず−
・−も１本 ２・−−フッ“朴０ン袋１ ４−−−１蒼診口 Ｇ−一一坂′！ＬｒＪ 第１図　　　　　７−光幡急Δ ９−−↑女入口 （ｏ−Ｊ臂気口FIG. 1 is a longitudinal sectional view of a kitchen waste processing machine according to an embodiment of the present invention, and FIG. 2 is a longitudinal sectional view showing the processing state of a heat generating container of the same kitchen waste processing machine. 1... Main body, 2... Magnetron device, 4... Supply port, 6... Intake port, 7...
...Heat generating container, 9...Inlet, 1o...
····exhaust port. Name of agent: Patent attorney Toshio Nakao and one other person
・-also 1 piece 2・--Fu "Pak 0n bag 1 4---1 Blue examination entrance G-ichiichizaka'! LrJ Figure 1 7-Mitsubatakyu Δ 9--↑Female entrance (o- J armpit

Claims (3)

【特許請求の範囲】[Claims] （１）マイクロ波共振体とした本体と、この本体にマイ
クロ波を導入する供給口と、マイクロ波を発生させるマ
グネトロン装置と、前記本体へ空気を供給する吸気口と
、前記本体内の空気を排気する排気口と、前記本体内に
置かれたマイクロ波により発熱する発熱容器と、この発
熱容器内へ厨芥を投入する投入口とを備えた厨芥処理機
。(1) A main body that is a microwave resonator, a supply port that introduces microwaves into the main body, a magnetron device that generates microwaves, an intake port that supplies air to the main body, and a supply port that introduces microwaves into the main body, a suction port that supplies air to the main body, and A kitchen waste disposal machine comprising an exhaust port for exhausting air, a heat generating container placed in the main body that generates heat by microwaves, and an input port for introducing kitchen waste into the heat generating container. （２）マイクロ波により発熱する発熱容器をチタン酸バ
リウムと炭化けい素の焼結体で構成した特許請求の範囲
第１項記載の厨芥処理機。(2) The kitchen waste processing machine according to claim 1, wherein the heating container that generates heat by microwaves is constructed of a sintered body of barium titanate and silicon carbide. （３）マイクロ波により発熱する発熱容器を天面が開口
した有底円筒状とし、円筒部の高さを底部の径の少くと
も１／３以上に構成した特許請求の範囲第２項記載の厨
芥処理機。(3) The heat-generating container that generates heat by microwaves has a cylindrical shape with an open top and a bottom, and the height of the cylindrical portion is at least ⅓ or more of the diameter of the bottom. Kitchen waste processing machine.