JP3148486B2 - Organic material processing equipment - Google Patents

Organic material processing equipment

Info

Publication number
JP3148486B2
JP3148486B2 JP33661693A JP33661693A JP3148486B2 JP 3148486 B2 JP3148486 B2 JP 3148486B2 JP 33661693 A JP33661693 A JP 33661693A JP 33661693 A JP33661693 A JP 33661693A JP 3148486 B2 JP3148486 B2 JP 3148486B2
Authority
JP
Japan
Prior art keywords
processing tank
blower
main body
body case
air
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
JP33661693A
Other languages
Japanese (ja)
Other versions
JPH07187308A (en
Inventor
泰啓 石田
規明 木村
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.)
Sanyo Electric Co Ltd
Original Assignee
Sanyo Electric 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 Sanyo Electric Co Ltd filed Critical Sanyo Electric Co Ltd
Priority to JP33661693A priority Critical patent/JP3148486B2/en
Publication of JPH07187308A publication Critical patent/JPH07187308A/en
Priority to JP10243771A priority patent/JPH11128887A/en
Application granted granted Critical
Publication of JP3148486B2 publication Critical patent/JP3148486B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

Links

Classifications

    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02WCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
    • Y02W30/00Technologies for solid waste management
    • Y02W30/50Reuse, recycling or recovery technologies
    • Y02W30/78Recycling of wood or furniture waste

Landscapes

  • Refuse Receptacles (AREA)
  • Processing Of Solid Wastes (AREA)

Description

【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION

【0001】[0001]

【産業上の利用分野】本発明は、厨芥などの有機物を微
生物等により分解処理する有機物処理装置に関する。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an organic substance processing apparatus for decomposing organic substances such as kitchen waste by using microorganisms or the like.

【0002】[0002]

【従来の技術】従来、微生物等により有機物を発酵処理
する処理装置が、実開平2-125942号公報(C09F 9/02)及
び実開平2-1291号公報(B09B 3/00)等にて知られてい
る。これらの如く、微生物等により有機物を処理する装
置においては、微生物等の活動にとって最適な環境を整
える必要性から、有機物を適正な範囲の水分状態及び温
度状態に維持し、処理に必要な酸素を供給する必要があ
る。
2. Description of the Related Art Conventionally, treatment apparatuses for fermenting organic substances by microorganisms are known from Japanese Utility Model Application Laid-Open No. 2-125942 (C09F 9/02) and Japanese Utility Model Application Laid-Open No. 2-1291 (B09B 3/00). Have been. As described above, in an apparatus for treating organic substances by microorganisms or the like, since it is necessary to prepare an optimal environment for the activities of microorganisms and the like, the organic substances are maintained in a proper range of moisture and temperature, and oxygen necessary for the treatment is reduced. Need to supply.

【0003】このため、前述の先行技術にみられるよう
に、有機物全体の水分状態や酸素の供給状態を均一化す
るための攪拌手段、酸素供給とともに余剰水分を排出す
るための排気手段、冬季においても安定した処理を行う
ための加熱手段等を設け、有機物の処理効率を促進する
構成となっている。
[0003] For this reason, as seen in the above-mentioned prior art, a stirring means for making the water state of the whole organic matter and the supply state of oxygen uniform, an exhaust means for discharging excess water together with the supply of oxygen, In addition, a heating means or the like for performing stable processing is provided to promote the processing efficiency of organic substances.

【0004】しかしながら、前述の先行技術において
は、排気手段により酸素供給を行うと共に、余剰水分の
除去を行っているが、その排気量は一定であるため、有
機物の量が少ない場合には、水分除去量が多すぎて乾燥
状態となって、微生物等の活動が妨げられ、有機物の所
定が停止してしまう問題がある。また、逆に多量の有機
物を処理する場合には、排気量が少なすぎて処理槽内面
に結露し、それが水滴となって有機物に滴下し、特に有
機物上部の水分量が過剰となってしまう問題があった。
However, in the above-mentioned prior art, oxygen is supplied by the exhaust means and excess water is removed. However, since the amount of exhaust is constant, when the amount of organic matter is small, the amount of water is reduced. There is a problem that the amount of removal is too large to be in a dry state, the activity of microorganisms and the like is hindered, and the predetermined amount of organic substances is stopped. On the other hand, when processing a large amount of organic matter, the amount of exhaust is too small and condensed on the inner surface of the processing tank, which becomes a water droplet and drops on the organic matter, and particularly, the amount of water in the upper part of the organic matter becomes excessive. There was a problem.

【0005】[0005]

【発明が解決しようとする課題】本発明は上記欠点に鑑
みなされたもので、常時安定した処理を維持することの
できる有機物処理装置を提供することを課題とする。
SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned drawbacks, and has as its object to provide an organic material processing apparatus capable of maintaining a stable processing at all times.

【0006】[0006]

【課題を解決するための手段】本発明の第1の手段は、
有機物廃棄用開口を有する処理槽と、該処理槽下部に形
成された排水部と、前記処理槽内の空気を排気する送風
機と、前記処理槽内面上部の結露を検出する結露検出手
段と、該結露検出手段の出力に基づいて送風機を駆動さ
せる制御回路とを備えたことを特徴とする。
A first means of the present invention is as follows.
A processing tank having an organic waste disposal opening, a drainage section formed at the lower part of the processing tank, a blower that exhausts air in the processing tank, and a dew condensation detecting unit that detects dew condensation on an upper part of the inner surface of the processing tank, And a control circuit for driving the blower based on the output of the condensation detecting means.

【0007】本発明の第2の手段は、有機物廃棄用開口
を有する処理槽と、該処理槽下部に形成された排水部
と、前記処理槽内に空気を供給する空気供給手段と、前
記処理槽内の空気を排気する送風機と、前記処理槽内面
上部の結露を検出する結露検出手段と、該結露検出手段
の出力に基づいて送風機及び空気供給手段を駆動させる
制御回路とを備えたことを特徴とする。
[0007] A second means of the present invention comprises a treatment tank having an opening for disposing of organic matter, a drain formed at a lower portion of the treatment tank, an air supply means for supplying air into the treatment tank, A blower that exhausts the air in the tank, a dew detection unit that detects dew condensation on the upper surface of the inner surface of the processing tank, and a control circuit that drives the blower and the air supply unit based on an output of the dew detection unit. It is characterized by.

【0008】本発明の第3の手段は、処理槽を収納する
本体ケースと、該本体ケースに、処理槽の有機物廃棄用
開口に臨ませて設けられた廃棄口を有する廃棄路と、前
記処理槽内の空気を本体ケース外部に排気する送風機
と、前記廃棄路の処理槽に臨む面の結露を検出する結露
検出手段と、該結露検出手段の出力に基づいて送風機を
駆動させる制御回路とを備えたことを特徴とする。
[0008] A third means of the present invention comprises a main body case for accommodating a processing tank, a disposal passage having a disposal port provided in the main body case so as to face an organic material disposal opening of the processing tank, A blower that exhausts the air in the tank to the outside of the main body case, a dew detection unit that detects dew condensation on a surface of the waste path facing the processing tank, and a control circuit that drives the blower based on an output of the dew detection unit. It is characterized by having.

【0009】本発明の第4の手段は、処理槽を収納する
本体ケースと、該本体ケースに、処理槽の有機物廃棄用
開口に臨ませて設けられた廃棄口を有する廃棄路と、前
記処理槽内の空気を本体ケース外部に排気する送風機
と、前記処理槽内に空気を供給する空気供給手段と、前
記廃棄路の処理槽に臨む面の結露を検出する結露検出手
段と、該結露検出手段の出力に基づいて送風機及び空気
供給手段を駆動させる制御回路とを備えたことを特徴と
する。
A fourth means of the present invention comprises a main body case for accommodating a processing tank, a disposal path having a disposal port provided in the main body case so as to face an organic substance disposal opening of the processing tank, A blower for exhausting air in the tank to the outside of the main body case; an air supply unit for supplying air into the processing tank; a condensation detecting unit for detecting dew condensation on a surface of the waste path facing the processing tank; A control circuit for driving the blower and the air supply means based on the output of the means.

【0010】本発明の第5の手段は、処理槽を収納する
本体ケースと、該本体ケースに、処理槽の有機物廃棄用
開口に臨ませて設けられた廃棄口と、前記本体ケースに
回動自在に形成され、前記廃棄口を開閉自在に閉塞する
蓋体と、前記処理槽内の空気を本体ケース外部に排気す
る送風機と、前記蓋体の処理槽に臨む面の結露を検出す
る結露検出手段と、該結露検出手段の出力に基づいて送
風機を駆動させる制御回路とを備えたことを特徴とす
る。
According to a fifth aspect of the present invention, there is provided a main body case for accommodating a processing tank, a disposal port provided in the main body case so as to face an organic material disposal opening of the processing tank, A lid that is freely formed and closes the disposal port so that it can be opened and closed, a blower that exhausts air in the processing tank to the outside of the main body case, and condensation detection that detects dew condensation on a surface of the lid facing the processing tank. Means, and a control circuit for driving the blower based on the output of the condensation detecting means.

【0011】[0011]

【作用】本発明の第1の手段によれば、有機物廃棄用開
口から処理槽内に廃棄された有機物は、微生物等により
分解される。厨芥などの有機物はその大部分が水であ
り、分解により生じる水は排水部を介して排水されると
共に、気化する。水の気化により処理槽内の湿度が上昇
し、処理槽内面に結露すると、結露検出手段の出力に基
づいて制御回路が送風機を駆動させ、処理槽内の空気を
排気すると共に、有機物等に含まれる余分な水分を気化
して排気し、処理槽内湿度を低下させる。また、処理槽
内面の結露がなくなると、送風機を停止させ、有機物が
乾燥状態となったり、水分量過剰状態となるのを防止す
る。
According to the first means of the present invention, the organic matter discarded into the treatment tank through the organic matter disposal opening is decomposed by microorganisms or the like. Most of organic matter such as kitchen garbage is water, and water generated by decomposition is drained through a drain part and is vaporized. When the humidity in the processing tank rises due to the vaporization of water and dew forms on the inner surface of the processing tank, the control circuit drives the blower based on the output of the dew detection means, exhausts the air in the processing tank, and removes air from the processing tank to organic substances. Excess moisture contained therein is vaporized and exhausted to lower the humidity in the processing tank. Further, when the dew condensation on the inner surface of the processing tank disappears, the blower is stopped to prevent the organic matter from being in a dry state or being in an excessive water content state.

【0012】本発明の第2の手段によれば、有機物廃棄
用開口から処理槽内に廃棄された有機物は、微生物等に
より分解される。有機物の分解により生じる水は排水部
を介して排水されると共に、気化する。水の気化により
処理槽内の湿度が上昇し、処理槽内面に結露すると、結
露検出手段の出力に基づいて制御回路が空気供給手段を
駆動させて、有機物等に含まれる余分な水分を気化さ
せ、送風機を駆動させて、処理槽内の空気を排気すると
共に、有機物等の上部に含まれる余分な水分を気化して
排気し、処理槽内湿度を低下させる。また、処理槽内面
の結露がなくなると、送風機及び空気供給手段を停止さ
せて、有機物が乾燥状態となったり、水分量過剰状態と
なるのを防止する。
According to the second means of the present invention, the organic matter discarded into the treatment tank through the organic matter disposal opening is decomposed by microorganisms or the like. The water generated by the decomposition of the organic matter is drained through the drain part and is vaporized. When the humidity in the processing tank rises due to the vaporization of water and dew forms on the inner surface of the processing tank, the control circuit drives the air supply means based on the output of the dew detection means to vaporize excess water contained in organic substances and the like. Then, the blower is driven to exhaust the air in the processing tank and to vaporize and exhaust the excess water contained in the upper part of the organic matter and the like, thereby lowering the humidity in the processing tank. Further, when the dew condensation on the inner surface of the processing tank disappears, the blower and the air supply means are stopped to prevent the organic matter from being in a dry state or being in an excessive water content state.

【0013】本発明の第3の手段によれば、廃棄路から
有機物廃棄用開口を介して処理槽内に廃棄された有機物
は、微生物等により分解される。有機物の分解により生
じる水は排水部を介して排水されると共に、気化する。
水の気化により処理槽内の湿度が上昇し、廃棄路の処理
槽に臨む面に結露すると、結露検出手段の出力に基づい
て制御回路が送風機を駆動させ、処理槽内の空気を排気
すると共に、有機物等に含まれる余分な水分を気化して
排気し、処理槽内湿度を低下させる。また、処理槽内面
の結露がなくなると、送風機を停止させ、有機物が乾燥
状態となったり、水分量過剰状態となるのを防止する。
According to the third aspect of the present invention, the organic matter discarded into the treatment tank from the disposal path through the organic substance disposal opening is decomposed by microorganisms or the like. The water generated by the decomposition of the organic matter is drained through the drain part and is vaporized.
When the humidity in the processing tank rises due to the vaporization of water and dew forms on the surface of the waste path facing the processing tank, the control circuit drives the blower based on the output of the dew condensation detecting means to exhaust the air in the processing tank. In addition, excess moisture contained in organic substances and the like is vaporized and exhausted, thereby lowering the humidity in the processing tank. Further, when the dew condensation on the inner surface of the processing tank disappears, the blower is stopped to prevent the organic matter from being in a dry state or being in an excessive water content state.

【0014】本発明の第4の手段によれば、廃棄路から
有機物廃棄用開口を介して処理槽内に廃棄された有機物
は、微生物等により分解される。有機物の分解により生
じる水は排水部を介して排水されると共に、気化する。
水の気化により処理槽内の湿度が上昇し、廃棄路の処理
槽に臨む面に結露すると、結露検出手段の出力に基づい
て制御回路が空気供給手段を駆動させて有機物等に含ま
れる余分な水分を気化させ、送風機を駆動させて処理槽
内の空気を排気すると共に、有機物等の上部に含まれる
余分な水分を気化して排気し、処理槽内湿度を低下させ
る。また、処理槽内面の結露がなくなると、送風機及び
空気供給手段を停止させて、有機物が乾燥状態となった
り、水分量過剰状態となるのを防止する。
According to the fourth aspect of the present invention, the organic matter discarded into the treatment tank from the waste path through the organic matter disposal opening is decomposed by microorganisms or the like. The water generated by the decomposition of the organic matter is drained through the drain part and is vaporized.
When the humidity in the processing tank rises due to the vaporization of water and dew forms on the surface of the disposal path facing the processing tank, the control circuit drives the air supply means based on the output of the dew detection means, and the excess contained in the organic matter etc. Moisture is vaporized, a blower is driven to exhaust air in the processing tank, and excess moisture contained in the upper part of the organic matter is vaporized and exhausted to lower the humidity in the processing tank. Further, when the dew condensation on the inner surface of the processing tank disappears, the blower and the air supply means are stopped to prevent the organic matter from being in a dry state or being in an excessive water content state.

【0015】本発明の第5の手段によれば、蓋体を開放
して有機物廃棄用開口から処理槽内に廃棄された有機物
は、微生物等により分解される。有機物の分解により生
じる水は排水部を介して排水されると共に、気化する。
水の気化により処理槽内の湿度が上昇し、蓋体の処理槽
に臨む面に結露すると、結露検出手段の出力に基づいて
制御回路が送風機を駆動させ、処理槽内の空気を排気す
ると共に、有機物等に含まれる余分な水分を気化して排
気し、処理槽内湿度を低下させる。また、処理槽内面の
結露がなくなると、送風機を停止させ、有機物が乾燥状
態となったり、水分量過剰状態となるのを防止する。
According to the fifth means of the present invention, the organic matter discarded into the treatment tank through the organic matter disposal opening by opening the lid is decomposed by microorganisms or the like. The water generated by the decomposition of the organic matter is drained through the drain part and is vaporized.
When the humidity in the processing tank rises due to the vaporization of water and dew forms on the surface of the lid facing the processing tank, the control circuit drives the blower based on the output of the condensation detecting means to exhaust the air in the processing tank. In addition, excess moisture contained in organic substances and the like is vaporized and exhausted, thereby lowering the humidity in the processing tank. Further, when the dew condensation on the inner surface of the processing tank disappears, the blower is stopped to prevent the organic matter from being in a dry state or being in an excessive water content state.

【0016】[0016]

【実施例】本発明の一実施例を図1乃至図6に基づいて
以下に詳述する。
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described below in detail with reference to FIGS.

【0017】1は本体ケースで、基部2、前面と背面と
両側面を構成する側板3及び天板4から構成されてい
る。前記本体ケース1の側板3はブロー成形にて形成さ
れ、各側板3内部に断熱空間を設けて外気温の変化によ
る本体ケース1内部の温度の変化を抑制している。
Reference numeral 1 denotes a main body case, which comprises a base 2, a side plate 3 and a top plate 4 forming front and rear surfaces and both side surfaces. The side plates 3 of the main body case 1 are formed by blow molding, and a heat insulating space is provided inside each side plate 3 to suppress a change in the temperature inside the main body case 1 due to a change in the outside air temperature.

【0018】5は前記本体ケース1内に収納される処理
槽で、内部に担体6を収納している。前記担体6は、お
が屑等の木質細片、もみがら、米糠、土等からなり、本
実施例では特公平2-34679号公報(C02F 11/02)「木質細
片による汚泥微生物処理方法」に示される担体が収納さ
れている。この担体6は、多孔質に形成され、高い通気
性、通水性を有すると共に、袋形動物や微生物の繁殖に
好適な水分と空気を保つ性質を有し、担体6に厨芥等の
有機物(以下厨芥という)を混合すると、厨芥に付着した
輪虫類や線虫類などの袋形動物、原虫や細菌などの微生
物が繁殖し、それらの袋形動物や微生物が厨芥を最終的
に水と炭酸ガスに分解して、厨芥を堆肥化することなく
消滅させる。
Reference numeral 5 denotes a processing tank accommodated in the main body case 1, and a carrier 6 is accommodated therein. The carrier 6 is made of wood chips such as sawdust, rice husk, rice bran, soil and the like. In this embodiment, Japanese Patent Publication No. 2-34679 (C02F 11/02) "Method for treating sludge microorganisms by wood chips" The carrier shown is housed. The carrier 6 is porous, has high air permeability and water permeability, and has a property of keeping moisture and air suitable for propagation of bag-shaped animals and microorganisms. When garbage is mixed, bag-shaped animals such as worms and nematodes attached to the garbage, and microorganisms such as protozoa and bacteria proliferate, and the bag-shaped animals and microorganisms eventually divide the garbage into water and carbon dioxide. Decomposes the garbage into gas and eliminates it without composting.

【0019】7は前記処理槽5下部に凹設された収納
部、8は前記収納部7に収納される正逆転可能な電動機
で、前記処理槽5側面に固定される第1補強板9に固定
されている。10は前記処理槽5の第1補強板9が固定さ
れた一側面と対向する他側面に固定される第2補強板
で、第1補強板9及び第2補強板10には夫々後述する攪
拌翼11に軸支する軸受を固定している。
Reference numeral 7 denotes a housing recessed at the lower portion of the processing tank 5, and 8 denotes a forward / reverse motor that is housed in the housing 7, and is provided on a first reinforcing plate 9 fixed to the side surface of the processing tank 5. Fixed. Reference numeral 10 denotes a second reinforcing plate fixed to the other side of the processing tank 5 opposite to the one side to which the first reinforcing plate 9 is fixed. The first reinforcing plate 9 and the second reinforcing plate 10 are respectively agitated as described later. A bearing that supports the wing 11 is fixed.

【0020】11は前記処理槽5内に配置される攪拌翼
で、第1補強板9及び第2補強板10に固定される軸受に
回転自在に軸支される回転軸12と、回転軸12に固定され
る複数の攪拌羽根13とから構成されており、回転軸12及
び攪拌羽根13は高耐食性を有する材料、例えば、ステン
レスにて形成されている。14は前記回転軸12に回り止め
固定されるスプロケットで、前記電動機8の駆動軸に回
り止め固定されるスプロケット15との間にチェーン16を
架設し、電動機8の駆動により攪拌翼11を回転させるよ
うになっている。
Numeral 11 denotes a stirring blade disposed in the processing tank 5, and a rotating shaft 12 rotatably supported by bearings fixed to the first reinforcing plate 9 and the second reinforcing plate 10, and a rotating shaft 12. The rotating shaft 12 and the stirring blade 13 are made of a material having high corrosion resistance, for example, stainless steel. Reference numeral 14 denotes a sprocket fixed to the rotation shaft 12 to prevent rotation. A chain 16 is installed between the sprocket 15 and the sprocket 15 fixed to the drive shaft of the electric motor 8, and the stirring blade 11 is rotated by driving the electric motor 8. It has become.

【0021】17は前記処理槽5内に上下2段に配設され
る第1加熱手段で、攪拌翼11と略直行する方向に断熱材
18を介して処理槽5側面に固定されるステンレス等の高
耐食性材料からなるパイプ19と、パイプ19内に配設され
るヒータ20とから構成されている。21は前記第1補強板
9及び第2補強板10に装着される第2加熱手段で、面状
のヒータから構成され、本体ケース1の内部空間を加熱
して処理槽5内部の温度変化を抑制すると共に、第1補
強板9及び第2補強板10を介して電動機8や攪拌翼11な
どの可動部品を加熱し、結露などによる可動部品の回転
不良を防止するようになっている。前記第1加熱手段17
及び第2加熱手段21は、担体6全体を約摂氏25度から
40度に維持するようになっている。
Reference numeral 17 denotes a first heating means which is disposed in the processing tank 5 in two upper and lower stages, and is provided with a heat insulating material in a direction substantially perpendicular to the stirring blade 11.
It comprises a pipe 19 made of a highly corrosion-resistant material such as stainless steel fixed to the side of the processing tank 5 via 18, and a heater 20 arranged in the pipe 19. Reference numeral 21 denotes a second heating means mounted on the first reinforcing plate 9 and the second reinforcing plate 10, which is constituted by a planar heater and heats the internal space of the main body case 1 to reduce the temperature change inside the processing tank 5. In addition to the suppression, the movable parts such as the electric motor 8 and the stirring blade 11 are heated via the first reinforcing plate 9 and the second reinforcing plate 10 to prevent the rotation of the movable parts due to dew condensation or the like. The first heating means 17
And the second heating means 21 is adapted to maintain the entire carrier 6 at about 25 to 40 degrees Celsius.

【0022】22は下方に位置する前記第1加熱手段17の
断熱材18に支持され、第1加熱手段17の下方に近接して
配置される給気パイプ、23は前記本体ケース1の基台2
上に固定され、接続パイプ24を介して給気パイプ22に接
続され、外気を給気パイプ22を介して処理槽5内に供給
するポンプで、電動機8、スプロケット14、15、チェー
ン16を配置した一側面に配置されている。
Reference numeral 22 denotes an air supply pipe which is supported by the heat insulating material 18 of the first heating means 17 positioned below, and is disposed below and close to the first heating means 17. Reference numeral 23 denotes a base of the main body case 1. 2
A pump that is fixed above and is connected to an air supply pipe 22 through a connection pipe 24 and supplies outside air into the processing tank 5 through the air supply pipe 22. The electric motor 8, the sprockets 14, 15, and the chain 16 are arranged. It is located on one side.

【0023】25は前記処理槽5上部に固定される送風機
で、処理槽5側面に形成した連通孔26を介して吸引した
処理槽6内の空気を、本体ケース1側板3に形成した排
気口27から排気するようになっている。
Reference numeral 25 denotes a blower fixed to the upper portion of the processing tank 5, and an exhaust port formed in the side plate 3 of the main body case 1 by sucking air in the processing tank 6 through a communication hole 26 formed in a side surface of the processing tank 5. Exhaust from 27.

【0024】28は前記処理槽5下部に、担体6が漏れな
い程度の多数の小孔を形成した金属製の区画板29により
区画される排水部で、排水筒30を有している。31は前記
排水筒30に螺合して着脱自在に装着されるキャップで、
図示しない排水ホースが接続される排水口32を有してい
る。
Reference numeral 28 denotes a drainage section defined by a metal partitioning plate 29 having a large number of small holes formed so that the carrier 6 does not leak below the treatment tank 5, and has a drainage cylinder 30. Reference numeral 31 denotes a cap that is detachably mounted by being screwed into the drainage cylinder 30,
It has a drain port 32 to which a drain hose (not shown) is connected.

【0025】33は前記本体ケース1の天板4に形成され
た開口に着脱自在に装着される廃棄路となるシューター
で、底面を下方に向けて傾斜させ、その下端に廃棄口34
を形成してその廃棄口34を処理槽5上部の厨芥廃棄用開
口に臨ませている。35は前記廃棄口34を閉塞するシャッ
ターで、図示しないバネにより常時廃棄口34を閉塞する
方向に付勢され、シューター33を滑り落ちる厨芥の重量
により揺動して廃棄口34を開放するようになっている。
Reference numeral 33 denotes a shooter serving as a disposal path which is detachably attached to an opening formed in the top plate 4 of the main body case 1. The shooter 33 has a bottom surface inclined downward, and a disposal port 34 at its lower end.
And the disposal port 34 faces the kitchen waste disposal opening above the treatment tank 5. Reference numeral 35 denotes a shutter for closing the disposal port 34, which is constantly urged by a spring (not shown) in a direction to close the disposal port 34, swings by the weight of the garbage sliding down the shooter 33, and opens the disposal port 34. ing.

【0026】36は前記本体ケース1天板4の開口を開閉
自在に閉塞する蓋体で、本体ケース1の天板4には蓋体
36の開放を検出する図示しない検出センサが設けられ、
検出センサの出力により蓋体36の開放時電動機8、第1
加熱手段17、第2加熱手段21及びポンプ23への通電を停
止するようになっている。
Reference numeral 36 denotes a lid for opening and closing the opening of the top plate 4 of the main body case 1.
A detection sensor (not shown) for detecting the opening of 36 is provided,
The motor 8 when the lid 36 is opened by the output of the detection sensor,
The power supply to the heating means 17, the second heating means 21, and the pump 23 is stopped.

【0027】37は結露を検出する結露センサで、処理槽
5内面上部、シューター33の処理槽5に臨む面、即ち、
シューター33裏面及び蓋体36の処理槽5に臨む面、即
ち、蓋体36裏面に適数個ずつ配設されている。
Reference numeral 37 denotes a dew condensation sensor for detecting dew condensation, a surface of the shooter 33 facing the processing tank 5 above the inner surface of the processing tank 5, ie,
A suitable number of the shooters 33 and the surface of the lid 36 facing the processing tank 5, that is, an appropriate number of them are disposed on the rear surface of the lid 36.

【0028】次に、図6に基づいて回路を説明する。Next, the circuit will be described with reference to FIG.

【0029】38は前記本体ケース1天板4に設けられ、
電動機8を起動させる操作スイッチ、39は前記蓋体36の
開閉を検出する検出センサ、40は前記担体6内部の温度
を検出する温度センサ、41は前記第1加熱手段17の温度
を検出する第1サーミスタ、42は前記第2加熱手段21の
温度を検出する第2サーミスタで、前記第1サーミスタ
41及び第2サーミスタ42は、処理槽5外部に配置され、
外気温変化による処理槽5内温度の変化も検出するよう
になっている。
38 is provided on the top plate 4 of the main body case 1,
An operation switch for activating the electric motor 8, a detection sensor 39 for detecting the opening and closing of the cover 36, a temperature sensor 40 for detecting the temperature inside the carrier 6, and a 41 for detecting the temperature of the first heating means 17 The first thermistor 42 is a second thermistor for detecting the temperature of the second heating means 21.
41 and the second thermistor 42 are disposed outside the processing tank 5,
A change in the temperature inside the processing tank 5 due to a change in the outside air temperature is also detected.

【0030】43は前記結露センサ37、操作スイッチ38、
検出センサ39、温度センサ40、第1サーミスタ41及び第
2サーミスタ42からの信号を入力する制御回路で、検出
センサ39が一定時間蓋体36の開放を検出しない場合、及
び操作スイッチ38が一定時間操作されない場合には、電
動機8、第1加熱手段17、第2加熱手段21、ポンプ23及
び送風機25への通電を停止するようになっている。
Reference numeral 43 denotes the condensation sensor 37, the operation switch 38,
A control circuit for inputting signals from the detection sensor 39, the temperature sensor 40, the first thermistor 41, and the second thermistor 42. When the detection sensor 39 does not detect the opening of the cover 36 for a certain time, and when the operation switch 38 When not operated, the power supply to the electric motor 8, the first heating means 17, the second heating means 21, the pump 23 and the blower 25 is stopped.

【0031】44は前記操作スイッチ38及び検出センサ39
の出力に基づいて蓋体36の閉塞状態で操作スイッチ38が
操作された際、制御回路43の出力に基づいて電動機8を
駆動制御する電動機駆動部、45は前記検出センサ39、温
度センサ40及び第1サーミスタ45の出力に基づく制御回
路43の出力によって第1加熱手段17を制御する第1ヒー
タ制御部で、蓋体36の閉塞状態で担体6内部温度が摂氏
25度以下になった際に第1加熱手段17に通電し、第1
サーミスタ41の出力に基づいて第1加熱手段17への通電
量を制御するようになっている。46は前記検出センサ3
9、温度センサ40及び第2サーミスタ42の出力に基づく
制御回路43の出力によって第2加熱手段21を制御する第
2ヒータ制御部で、蓋体36の閉塞状態で担体6内部温度
が摂氏25度以下になった際に第2加熱手段21に通電
し、第2サーミスタ42の出力に基づいて第2加熱手段21
への通電量を制御するようになっている。47は前記検出
センサ39及び結露センサ37の出力に基づく制御回路43の
出力によってポンプ23を制御するポンプ制御部で、蓋体
36の閉塞状態で所定時間毎にポンプ23を駆動させると共
に、結露が生じた際、ポンプ23を駆動するようになって
いる。48は前記検出センサ39及び結露センサ37の出力に
基づく制御回路43の出力によって送風機25を制御する送
風機制御部で、蓋体36開放時に送風機25を駆動させると
共に、蓋体36閉塞状態で所定時間毎に送風機25を駆動さ
せると共に、結露が生じた際、送風機25を駆動させるよ
うになっている。
Reference numeral 44 denotes the operation switch 38 and the detection sensor 39.
When the operation switch 38 is operated in the closed state of the lid 36 based on the output of the control circuit 43, the motor drive unit 45 that controls the driving of the motor 8 based on the output of the control circuit 43 is the detection sensor 39, the temperature sensor 40 and A first heater control unit that controls the first heating means 17 based on the output of the control circuit 43 based on the output of the first thermistor 45. When the temperature inside the carrier 6 becomes 25 degrees Celsius or less with the lid 36 closed. When the first heating means 17 is energized,
The amount of power to the first heating means 17 is controlled based on the output of the thermistor 41. 46 is the detection sensor 3
9. A second heater control unit for controlling the second heating means 21 by the output of the control circuit 43 based on the outputs of the temperature sensor 40 and the second thermistor 42. When the lid 36 is closed, the temperature inside the carrier 6 is 25 degrees Celsius. When the following occurs, the second heating means 21 is energized, and based on the output of the second thermistor 42, the second heating means 21
The amount of power supplied to the power supply is controlled. Reference numeral 47 denotes a pump control unit that controls the pump 23 based on the output of the control circuit 43 based on the outputs of the detection sensor 39 and the condensation sensor 37.
The pump 23 is driven every predetermined time in the closed state of the pump 36, and the pump 23 is driven when dew condensation occurs. Reference numeral 48 denotes a blower control unit that controls the blower 25 based on the output of the control circuit 43 based on the outputs of the detection sensor 39 and the dew condensation sensor 37. Each time the blower 25 is driven, the blower 25 is driven when dew condensation occurs.

【0032】而して、蓋体36を開放して厨芥を廃棄口34
から廃棄すると、厨芥はその重量によりシャッター35を
開放して処理槽5内に廃棄される。
Then, the lid 36 is opened and the kitchen waste is discarded.
When the kitchen waste is discarded, the kitchen waste is released into the processing tank 5 by opening the shutter 35 due to its weight.

【0033】この蓋体36の開放状態では、検出センサ39
の出力に基づいて攪拌翼11駆動用電動機8、第1加熱手
段17、第2加熱手段21及びポンプ23が停止する。ポンプ
23を停止し、送風機25を駆動させることにより、処理槽
5内の悪臭が廃棄口34から漏れるのを防止し、使用者に
不快感を与えるのを防止する。
In the open state of the lid 36, the detection sensor 39
, The motor 8 for driving the stirring blade 11, the first heating means 17, the second heating means 21 and the pump 23 are stopped. pump
By stopping 23 and driving the blower 25, the odor in the processing tank 5 is prevented from leaking from the waste port 34, thereby preventing the user from feeling uncomfortable.

【0034】蓋体36を閉成し、操作スイッチ38を操作す
ると、電動機8が約1分間駆動し、攪拌翼11の回転によ
り、厨芥が担体6に混合されると共に、攪拌により担体
6中に空気を供給する。また、検出センサ39の出力に基
づいてポンプ23が作動して空気を処理槽5内に供給する
と共に、担体6に含まれる余分な水分を蒸発させ、担体
6に繁殖する袋形動物や微生物を活性化させる。給気パ
イプ22の小孔は下向きに形成されているため、小孔から
給気パイプ22内に水が侵入することはない。
When the lid 36 is closed and the operation switch 38 is operated, the electric motor 8 is driven for about 1 minute, and the garbage is mixed with the carrier 6 by the rotation of the stirring blade 11, and is stirred into the carrier 6 by stirring. Supply air. Further, based on the output of the detection sensor 39, the pump 23 operates to supply air into the processing tank 5 and evaporate excess water contained in the carrier 6, thereby removing bag-shaped animals and microorganisms that propagate on the carrier 6. Activate. Since the small hole of the air supply pipe 22 is formed downward, water does not enter the air supply pipe 22 from the small hole.

【0035】また、攪拌翼11は制御回路43の出力に基づ
いて所定時間毎、本実施例では4時間毎に駆動し、担体
6中に空気を供給して袋形動物や微生物を活性化させ
る。
In addition, the stirring blade 11 is driven at predetermined time intervals, in this embodiment, every 4 hours, based on the output of the control circuit 43, and supplies air into the carrier 6 to activate bag-shaped animals and microorganisms. .

【0036】処理槽5内は、袋形動物や微生物の活性化
に最適な約摂氏25度〜40度に維持されているため、
担体6中に含まれる水分が蒸発して本体ケース1内の湿
度が高くなり、担体6上部が過湿状態となって、処理槽
5内面、シューター33裏面及び蓋体36裏面に結露し、そ
れが水滴となって処理槽5内に滴下して担体6の含有水
分が増大し、袋形動物や微生物の活動を阻害する。本実
施例では、結露センサ37が処理槽5内面、シューター33
裏面及び蓋体36裏面に結露が生じたことを検出すると、
制御回路43の出力に基づいてポンプ23を駆動して担体6
中の余分な水分を水蒸気として放出させると共に、送風
機25を駆動して本体ケース1内の空気を排気し、本体ケ
ース1内を適湿に維持し、袋形動物や微生物の活性化を
維持することができる。
The inside of the treatment tank 5 is maintained at about 25 to 40 degrees Celsius, which is optimal for the activation of bag-shaped animals and microorganisms.
The moisture contained in the carrier 6 evaporates and the humidity in the main body case 1 increases, and the upper portion of the carrier 6 becomes over-humidified, and dew forms on the inner surface of the processing tank 5, the back surface of the shooter 33 and the back surface of the lid 36. Becomes water droplets and drops into the treatment tank 5 to increase the water content of the carrier 6 and inhibit the activities of bag-shaped animals and microorganisms. In the present embodiment, the condensation sensor 37 is connected to the inner surface of the processing tank 5 and the shooter 33.
When detecting that dew condensation has occurred on the back surface and the back surface of the lid 36,
The pump 23 is driven based on the output of the control
In addition to discharging excess water therein as water vapor, the blower 25 is driven to exhaust the air in the main body case 1 to maintain the inside of the main body case 1 at an appropriate humidity and maintain the activation of bag-shaped animals and microorganisms. be able to.

【0037】担体6には、厨芥の処理槽5内への廃棄に
より厨芥に付着した輪虫類や線虫類などの袋形動物、原
虫や細菌などの微生物が繁殖し、主に輪虫類や線虫類な
どの袋形動物及び原虫が厨芥を食べて消滅させる。処理
槽5内には、ポンプ23と送風機25により袋形動物や微生
物の繁殖に最適な空気が供給され、最適な湿度に維持さ
れているため、処理槽5内に廃棄される厨芥は比較的短
時間で分解消滅する。また、処理槽5内は、第1加熱手
段18及び第2加熱手段21により輪虫類や微生物の活動に
最適な温度に維持されているため、袋形動物及び微生物
が活性化し、厨芥の分解処理効率が一層向上する。
On the carrier 6, bag-shaped animals such as worms and nematodes attached to the garbage and microorganisms such as protozoa and bacteria propagate on the garbage due to the disposal of the garbage into the treatment tank 5. Bag-shaped animals and protozoa such as worms and nematodes eat and destroy kitchen garbage. The processing tank 5 is supplied with air optimal for propagation of bag-shaped animals and microorganisms by a pump 23 and a blower 25, and is maintained at an optimum humidity. Therefore, kitchen waste discarded in the processing tank 5 is relatively small. Dissolves in a short time. In addition, since the inside of the treatment tank 5 is maintained at an optimum temperature for the activities of the worms and the microorganisms by the first heating means 18 and the second heating means 21, the bag-shaped animals and the microorganisms are activated, and Processing efficiency is further improved.

【0038】厨芥を分解することにより生じた水には、
厨芥が完全に水と炭酸ガスに分解されるまでの過程で生
じる成分、即ち、糖類、アミノ酸、有機酸等が含有され
ているが、この成分を担体6に繁殖する微生物、特に細
菌により分解し、浄化して排水する。また、袋形動物や
微生物の廃棄物及び死骸も細菌により分解される。上述
した袋形動物及び微生物の食物連鎖により悪臭及び残渣
をほとんど生じさせることなく、ほぼ完全に分解処理す
ることができる。
[0038] The water generated by disassembling the kitchen garbage includes:
The garbage contains components generated in the process until it is completely decomposed into water and carbon dioxide gas, that is, sugars, amino acids, organic acids, and the like. This component is decomposed by microorganisms, especially bacteria, that propagate on the carrier 6. Purify and drain. In addition, waste and dead bodies of bag-shaped animals and microorganisms are also decomposed by bacteria. It can be almost completely decomposed with almost no odor and residue due to the food chain of the bag-shaped animal and the microorganism.

【0039】旅行などにより長期間使用されない場合、
即ち、検出センサ39が蓋体36の開閉を一定時間検出しな
い場合、或いは操作スイッチ38が一定時間操作されない
場合には、制御回路43は、電動機8、第1加熱手段17、
第2加熱手段21、ポンプ23及び送風機25への通電を遮断
し、担体6の乾燥による袋形動物や微生物の活動低下を
防止する。
When not used for a long time due to travel, etc.
That is, when the detection sensor 39 does not detect the opening / closing of the lid 36 for a certain period of time, or when the operation switch 38 is not operated for a certain period of time, the control circuit 43 controls the electric motor 8, the first heating means 17,
The power supply to the second heating means 21, the pump 23 and the blower 25 is cut off to prevent the activity of bag-shaped animals and microorganisms from lowering due to drying of the carrier 6.

【0040】次に、第2実施例を図7乃至図10に基づ
いて詳述する。尚、第1実施例と同一部品は同一符号を
付して説明を省略する。
Next, a second embodiment will be described in detail with reference to FIGS. The same components as those in the first embodiment are denoted by the same reference numerals, and description thereof will be omitted.

【0041】50は担体6が通過しない程度の大きさの多
数の小孔を全周に有する給気パイプで、両端を支持部材
51により加熱部材17の下方位置処理槽5両側壁に支持さ
れている。前記支持部材51は、図10に示す拡大断面図
の如く、給気パイプ50内周が嵌合される嵌合部から内径
方向に延設される鍔部52を有し、給気パイプ50内に入っ
た水や蠅などの幼虫が処理槽5の外部に出るのを防止す
るようになっている。また、支持部材51は、延設部53に
て本体ケース1側壁3に形成された吸気口54に連通さ
れ、送風機25の排気に伴って吸気口54から給気パイプ50
を介して処理槽5内に外気を供給するようになってい
る。
Reference numeral 50 denotes an air supply pipe having a large number of small holes on the entire circumference, the size of which is such that the carrier 6 does not pass through.
The heating member 17 is supported by the side walls of the processing tank 5 at a position below the heating member 17. As shown in an enlarged sectional view of FIG. 10, the support member 51 has a flange portion 52 extending in an inner diameter direction from a fitting portion into which the inner periphery of the air supply pipe 50 is fitted. The larva such as water or fly entering the tank is prevented from going out of the processing tank 5. The support member 51 communicates with an intake port 54 formed in the side wall 3 of the main body case 1 at the extension 53, and the air supply pipe 50 extends from the intake port 54 with the exhaust of the blower 25.
The outside air is supplied to the inside of the processing tank 5 through the interface.

【0042】而して、結露センサ37が処理槽5内面、シ
ューター33裏面及び蓋体36裏面に結露が生じたことを検
出すると、制御回路43の出力に基づいて送風機25を駆動
して本体ケース1内の空気を排気し、本体ケース1内を
適湿に維持すると共に、その送風により担体6表面を乾
燥させ、送風機25の駆動に伴って給気パイプ50を介して
処理槽5内に外気を供給し、担体6に含まれる余分な水
分を蒸発させ、袋形動物や微生物の活性化を維持する。
When the dew condensation sensor 37 detects that dew has formed on the inner surface of the processing tank 5, the back of the shooter 33 and the back of the lid 36, the blower 25 is driven based on the output of the control circuit 43, and The inside of the case 1 is exhausted, the inside of the main body case 1 is maintained at an appropriate humidity, and the surface of the carrier 6 is dried by the air blow, and the outside air is introduced into the processing tank 5 through the air supply pipe 50 with the driving of the blower 25. To evaporate excess water contained in the carrier 6 and maintain the activation of bag-shaped animals and microorganisms.

【0043】[0043]

【発明の効果】以上の如く、本発明によれば、有機物の
量に応じて排気量を制御することができ、常時安定した
有機物処理能力を維持することができる等の効果を奏す
る。
As described above, according to the present invention, it is possible to control the amount of exhaust gas in accordance with the amount of organic substances, and to maintain the stable organic substance processing ability at all times.

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

【図1】本発明の第1実施例を示す断面図である。FIG. 1 is a sectional view showing a first embodiment of the present invention.

【図2】同他の方向から見た断面図である。FIG. 2 is a cross-sectional view as viewed from another direction.

【図3】同上断面図である。FIG. 3 is a sectional view of the same.

【図4】同側板を取り外した状態を示す側面図である。FIG. 4 is a side view showing a state where the side plate is removed.

【図5】同断面図である。FIG. 5 is a sectional view of the same.

【図6】同回路図である。FIG. 6 is a circuit diagram of the same.

【図7】本発明の第2実施例を示す断面図である。FIG. 7 is a sectional view showing a second embodiment of the present invention.

【図8】同他の方向から見た断面図である。FIG. 8 is a cross-sectional view as seen from the other direction.

【図9】同断面図である。FIG. 9 is a sectional view of the same.

【図10】同要部拡大断面図である。FIG. 10 is an enlarged sectional view of the main part.

【符号の説明】[Explanation of symbols]

5 処理槽 6 担体 8 電動機 23 ポンプ 25 送風機 33 シューター 34 廃棄口 36 蓋体 37 結露センサ 43 制御回路 5 Treatment tank 6 Carrier 8 Electric motor 23 Pump 25 Blower 33 Shooter 34 Waste port 36 Lid 37 Dew sensor 43 Control circuit

───────────────────────────────────────────────────── フロントページの続き (56)参考文献 特開 昭61−236675(JP,A) 特開 平6−345575(JP,A) 特開 昭61−164700(JP,A) 特開 平7−96269(JP,A) 特開 平7−136620(JP,A) 特開 平7−185508(JP,A) 実開 昭59−145543(JP,U) (58)調査した分野(Int.Cl.7,DB名) B09B 3/00 C05F 9/00 C02F 11/00 B65F 1/14 ──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-61-236675 (JP, A) JP-A-6-345575 (JP, A) JP-A-61-164700 (JP, A) JP-A-7- 96269 (JP, A) JP-A-7-136620 (JP, A) JP-A-7-185508 (JP, A) JP-A-59-145543 (JP, U) (58) Fields investigated (Int. Cl. 7 , DB name) B09B 3/00 C05F 9/00 C02F 11/00 B65F 1/14

Claims (5)

(57)【特許請求の範囲】(57) [Claims] 【請求項1】 有機物廃棄用開口を有する処理槽と、該
処理槽下部に形成された排水部と、前記処理槽内の空気
を排気する送風機と、前記処理槽内面上部の結露を検出
する結露検出手段と、該結露検出手段の出力に基づいて
送風機を駆動させる制御回路とを備えたことを特徴とす
る有機物処理装置。
1. A processing tank having an opening for disposing of organic matter, a drain formed in a lower part of the processing tank, a blower for exhausting air in the processing tank, and detecting dew condensation on an upper part of the inner surface of the processing tank. An organic substance processing apparatus comprising: dew condensation detecting means; and a control circuit for driving a blower based on an output of the dew condensation detecting means.
【請求項2】 有機物廃棄用開口を有する処理槽と、該
処理槽下部に形成された排水部と、前記処理槽内に空気
を供給する空気供給手段と、前記処理槽内の空気を排気
する送風機と、前記処理槽内面上部の結露を検出する結
露検出手段と、該結露検出手段の出力に基づいて送風機
及び空気供給手段を駆動させる制御回路とを備えたこと
を特徴とする有機物処理装置。
2. A processing tank having an opening for disposing of organic matter, a drainage section formed below the processing tank, an air supply means for supplying air into the processing tank, and exhausting air from the processing tank. An organic matter processing apparatus comprising: a blower; a dew detecting unit configured to detect dew condensation on an upper portion of the inner surface of the processing tank; and a control circuit configured to drive the blower and the air supply unit based on an output of the dew detecting unit. .
【請求項3】 処理槽を収納する本体ケースと、該本体
ケースに、処理槽の有機物廃棄用開口に臨ませて設けら
れた廃棄口を有する廃棄路と、前記処理槽内の空気を本
体ケース外部に排気する送風機と、前記廃棄路の処理槽
に臨む面の結露を検出する結露検出手段と、該結露検出
手段の出力に基づいて送風機を駆動させる制御回路とを
備えたことを特徴とする有機物処理装置。
3. A main body case for accommodating a processing tank, a disposal path having a disposal port provided in the main body case so as to face an organic substance disposal opening of the processing tank, and air in the processing tank being filled in the main body case. A blower that exhausts air to the outside, a dew detection unit that detects dew condensation on a surface facing the treatment tank of the waste path, and a control circuit that drives the blower based on an output of the dew detection unit. Organic material processing equipment.
【請求項4】 処理槽を収納する本体ケースと、該本体
ケースに、処理槽の有機物廃棄用開口に臨ませて設けら
れた廃棄口を有する廃棄路と、前記処理槽内の空気を本
体ケース外部に排気する送風機と、前記処理槽内に空気
を供給する空気供給手段と、前記廃棄路の処理槽に臨む
面の結露を検出する結露検出手段と、該結露検出手段の
出力に基づいて送風機及び空気供給手段を駆動させる制
御回路とを備えたことを特徴とする有機物処理装置。
4. A main body case for accommodating a processing tank, a disposal passage having a disposal port provided in the main body case so as to face an organic material disposal opening of the processing tank, and air in the processing tank to the main body case. A blower that exhausts air, an air supply unit that supplies air into the processing tank, a dew detection unit that detects dew condensation on a surface of the waste path facing the processing tank, and a blower based on an output of the dew detection unit. And a control circuit for driving the air supply means.
【請求項5】 処理槽を収納する本体ケースと、該本体
ケースに、処理槽の有機物廃棄用開口に臨ませて設けら
れた廃棄口と、前記本体ケースに回動自在に形成され、
前記廃棄口を開閉自在に閉塞する蓋体と、前記処理槽内
の空気を本体ケース外部に排気する送風機と、前記蓋体
の処理槽に臨む面の結露を検出する結露検出手段と、該
結露検出手段の出力に基づいて送風機を駆動させる制御
回路とを備えたことを特徴とする有機物処理装置。
5. A main body case for accommodating a processing tank, a disposal port provided in the main body case so as to face an organic material disposal opening of the processing tank, and a rotatable formed in the main body case,
A lid for opening and closing the disposal port, a blower for exhausting air in the processing tank to the outside of the main body case, a dew condensation detecting unit for detecting dew condensation on a surface of the lid facing the processing tank; A control circuit for driving the blower based on an output of the detection means.
JP33661693A 1993-12-28 1993-12-28 Organic material processing equipment Expired - Fee Related JP3148486B2 (en)

Priority Applications (2)

Application Number Priority Date Filing Date Title
JP33661693A JP3148486B2 (en) 1993-12-28 1993-12-28 Organic material processing equipment
JP10243771A JPH11128887A (en) 1993-12-28 1998-08-28 Organic matter treating apparatus

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP33661693A JP3148486B2 (en) 1993-12-28 1993-12-28 Organic material processing equipment

Related Child Applications (2)

Application Number Title Priority Date Filing Date
JP24377098A Division JP3316454B2 (en) 1993-12-28 1998-08-28 Organic material processing equipment
JP10243771A Division JPH11128887A (en) 1993-12-28 1998-08-28 Organic matter treating apparatus

Publications (2)

Publication Number Publication Date
JPH07187308A JPH07187308A (en) 1995-07-25
JP3148486B2 true JP3148486B2 (en) 2001-03-19

Family

ID=18301003

Family Applications (2)

Application Number Title Priority Date Filing Date
JP33661693A Expired - Fee Related JP3148486B2 (en) 1993-12-28 1993-12-28 Organic material processing equipment
JP10243771A Pending JPH11128887A (en) 1993-12-28 1998-08-28 Organic matter treating apparatus

Family Applications After (1)

Application Number Title Priority Date Filing Date
JP10243771A Pending JPH11128887A (en) 1993-12-28 1998-08-28 Organic matter treating apparatus

Country Status (1)

Country Link
JP (2) JP3148486B2 (en)

Also Published As

Publication number Publication date
JPH11128887A (en) 1999-05-18
JPH07187308A (en) 1995-07-25

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