JP2994052B2 - Garbage disposal method and apparatus - Google Patents
Garbage disposal method and apparatusInfo
- Publication number
- JP2994052B2 JP2994052B2 JP3010013A JP1001391A JP2994052B2 JP 2994052 B2 JP2994052 B2 JP 2994052B2 JP 3010013 A JP3010013 A JP 3010013A JP 1001391 A JP1001391 A JP 1001391A JP 2994052 B2 JP2994052 B2 JP 2994052B2
- Authority
- JP
- Japan
- Prior art keywords
- receiver tank
- garbage
- pipe
- vacuum pump
- exhaust
- 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
Links
Landscapes
- Refuse Collection And Transfer (AREA)
- Air Transport Of Granular Materials (AREA)
Description
【0001】[0001]
【産業上の利用分野】本発明は、ホテル、レストラン、
病院、給食センター等の厨房から出る厨芥の処理方法及
び装置に関するものである。The present invention relates to a hotel, a restaurant,
The present invention relates to a method and an apparatus for treating garbage discharged from kitchens such as hospitals and lunch centers.
【0002】[0002]
【従来の技術】従来、ホテル等の厨房から出る厨芥は、
ポリバケツ、ドラム缶などに積み込まれ、エレベーター
や階段を使って人力で搬送処理が行われており、作業性
が悪く非衛生的でもある。2. Description of the Related Art Conventionally, garbage discharged from kitchens such as hotels,
It is loaded in a plastic bucket, drum, etc., and is manually transported using an elevator or stairs.
【0003】また、複数箇所に亘って厨房のあるビル等
では、厨芥を粉砕スラリーとして渦巻ポンプ等で輸送す
る方法も採用されてはいるが、放流水質が極度に悪化
し、特にスラリー排水のBOD濃度に問題を有してい
る。In a building having a kitchen in a plurality of locations, a method of transporting kitchen waste as a crushed slurry by a vortex pump or the like has been adopted, but the quality of discharged water is extremely deteriorated, and particularly, the BOD of slurry drainage is reduced. There is a problem with the concentration.
【0004】[0004]
【発明が解決しようとする課題】本発明の目的は、上記
従来の欠点を解消し、厨芥処理における省力化と作業性
の向上、衛生的で快適な作業環境、放流水質の悪化防
止、水処理設備への負荷軽減を実現させることである。SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned conventional drawbacks and to save labor and improve workability in the treatment of kitchen waste, a sanitary and comfortable working environment, prevention of deterioration of discharged water quality, and water treatment. The goal is to reduce the load on equipment.
【0005】[0005]
【問題を解決するための手段】本発明に係る厨芥処理方
法においては、固液の搬送管路を介してレシーバータン
ク内へ導通された厨芥投入ホッパー内へ厨芥の投入と水
の注入を行い、上方部へ真空ポンプの吸込口を導通させ
てその吸気作用により負圧としたレシーバータンク内へ
上記厨芥及び注入水を吸引させ、その吸引量が所定値に
達したとき厨芥投入ホッパーからレシーバータンクへ至
る搬送管路を閉止すると共に、レシーバータンク内の下
方部へ真空ポンプの吐出口を導通させてその排気作用に
より下方に沈んだ固分と上方に溜った液分との混合対流
を起こさせたのち、真空ポンプの吸込口とレシーバータ
ンク内上方部との前記導通状態を閉止してレシーバータ
ンク内下方部から固液分離装置内に至る排出管路を導通
させ、レシーバータンク内の上方部へ真空ポンプの吐出
口を導通させてその排気作用によるレシーバータンク内
上方からの吐出圧によってレシーバータンク内の固液混
合体を排出する。SUMMARY OF THE INVENTION In a method for treating garbage according to the present invention, garbage is charged and water is injected into a garbage charging hopper which is conducted into a receiver tank through a solid-liquid conveying pipe. The suction port of the vacuum pump is conducted to the upper part, and the garbage and the injection water are sucked into the receiver tank which has been set to a negative pressure by the suction action, and when the suction amount reaches a predetermined value, the garbage charging hopper to the receiver tank. In addition to closing the transport pipeline, the discharge port of the vacuum pump was conducted to the lower part in the receiver tank, and the exhaust function caused mixed convection between the solid component that had settled downward and the liquid component that had accumulated above. Thereafter, the conduction state between the suction port of the vacuum pump and the upper part in the receiver tank is closed, and a discharge pipe from the lower part in the receiver tank to the inside of the solid-liquid separation device is made conductive. Upward portion of the tank by conducting the discharge port of the vacuum pump to discharge the solid-liquid mixture of the receiver tank by the discharge pressure from above the receiver tank according to the exhaust action.
【0006】また、本発明に係る厨芥処理装置において
は、内周部に注水ノズルを配設した厨芥投入ホッパーの
下方部から開閉バブルを介して導延された搬送管路の導
延終端部をレシーバータンク内の上方部に開口させ、レ
シーバータンクの下方部には排出導管の始端部を開口さ
せ、これら搬送管路及び排出導管にはそれぞれ開閉バル
ブを附設し、レシーバータンクに外設された真空ポンプ
の吸気口からは大気中に開口される吸気管と、導延端部
がレシーバータンク内の上方部に開口される通気管とを
分岐状に導出させ、これら吸気管及び通気管にそれぞれ
開閉バルブを附設し、真空ポンプの排気口より2条の排
気管を導延し、一方の排気管には開閉バルブを附設して
その導延端部をレシーバータンク内の上方部へ向けて開
口させると共に、他方の排気管の導延端部は排出導管内
へ開口させる。Further, in the garbage disposal apparatus according to the present invention, the extension end of the transfer conduit extended from the lower part of the garbage charging hopper having a water injection nozzle disposed on the inner peripheral part through an opening / closing bubble is provided. An opening is formed in the upper part of the receiver tank, a starting end of the discharge conduit is opened in a lower part of the receiver tank, and an opening / closing valve is attached to each of the transport conduit and the discharge conduit, and a vacuum is provided outside the receiver tank. The intake pipe of the pump is opened to the atmosphere and the ventilation pipe whose upper end is open to the upper part of the receiver tank is branched out to open and close. A valve is attached, two exhaust pipes are extended from the exhaust port of the vacuum pump, and an open / close valve is attached to one of the exhaust pipes so that the extended end is opened toward the upper part in the receiver tank. Along with Shirubenobe end of the exhaust pipe of the square is to open into the exhaust conduit.
【0007】[0007]
【実施例】以下実施例の図面により説明をする。DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The embodiments will be described below with reference to the drawings.
【0008】1は上縁内周に沿って注水ノズル2‥‥2
を配設した厨芥投入ホッパー、3は厨芥投入ホッパー1
の下方部から導延された搬送管路であって、その導延終
端部3bはレシーバータンク4内の上方部に開口されて
いる。5は搬送管路3の始端開口部3aに附設された開
閉バルブ、6は厨芥投入ホッパー1の下方部に附設され
た開閉バルブ、7は搬送管路3の導延終端部3b附近に
附設された開閉バルブである。8は始端部8aをレシー
バータンク4の下方部に開口させた排出導管であって、
その導延終端部8bは固液分離装置9内へ開口されてい
る。10は排出導管8の始端部8a附近に附設された開
閉バルブであって、これを開くことによってレシーバー
タンク4内の下方部から固液分離装置9内に至る排出管
路が導通される。11はレシーバータンク4に外設され
た真空ポンプ、11aはその吸気口、11bは排気口で
ある。真空ポンプ11の吸気口11aからは、大気中に
開口される吸気管12と、導延端部13bがレシーバー
タンク4内の上方部に開口される通気管13とが分岐状
に導出されている。14は吸気管12に附設された開閉
バルブ、15は通気管13に附設された開閉バルブ、1
6は吸気口11aと開閉バルブ15との間に介在させた
フィルタータンクである。真空ポンプ11の排気口11
bからは、気液分離タンク17を介して2条の排気管1
8,19が導出せられ、一方の排気管18には開閉バル
ブ20を附設してその導延端部18bをレシーバータン
ク4内の上方部へ向けて開口させるのであるが、該排気
管18は他方の排気管19の途中から導出させてもよ
い。また、他方の排気管19の導延端部19bは排出導
管8内へ挿通せられるため、その開口径は当然排出導管
8の口径よりも小径となり、ここを通過するエアーによ
って排出導管8内にはジェット作用が生じるが、導延端
部19bをノズル状に形成して排出導管8内へ開口させ
れば更にその効果を高めることができる。このようにし
て排気管19と合流する排出導管8の終端部8bは固液
分離装置9内への原液供給口となる。21は固液分離装
置9内に抽出された液分の取出口、22は液分が抽出さ
れた残余の固分の排出口、23は排出口22から排出さ
れた固分を一時貯溜するための貯溜タンクである。な
お、24は気液分離タンク17に附設された開閉バルブ
である。1 is a water injection nozzle 2 # 2 along the inner periphery of the upper edge.
Garbage input hopper with 3 garbage input hoppers 1
, Which extends from a lower portion of the receiver tank 4, and has a spreading end portion 3 b which is open to an upper portion in the receiver tank 4. Reference numeral 5 denotes an opening / closing valve attached to the starting end opening 3a of the conveying pipeline 3, reference numeral 6 denotes an opening / closing valve attached to the lower portion of the garbage charging hopper 1, and reference numeral 7 denotes an opening / closing valve near the extending end portion 3b of the conveying pipeline 3. Open / close valve. Reference numeral 8 denotes a discharge pipe having a start end 8a opened to a lower part of the receiver tank 4,
The extension end portion 8b is opened into the solid-liquid separation device 9. Reference numeral 10 denotes an opening / closing valve provided near the start end 8a of the discharge conduit 8, and when this valve is opened, the discharge conduit from the lower part in the receiver tank 4 to the solid-liquid separator 9 is conducted. Reference numeral 11 denotes a vacuum pump provided outside the receiver tank 4, 11a denotes an intake port thereof, and 11b denotes an exhaust port. From an intake port 11a of the vacuum pump 11, an intake pipe 12 opened to the atmosphere and a ventilation pipe 13 whose extension end 13b is opened to an upper part in the receiver tank 4 are branched out. . 14 is an open / close valve attached to the intake pipe 12, 15 is an open / close valve attached to the ventilation pipe 13, 1
Reference numeral 6 denotes a filter tank interposed between the intake port 11a and the opening / closing valve 15. Exhaust port 11 of vacuum pump 11
b from the two exhaust pipes 1 through the gas-liquid separation tank 17.
The opening and closing valve 20 is attached to one of the exhaust pipes 18 so that the extending end 18b of the exhaust pipe 18 is opened toward the upper part of the receiver tank 4. It may be led out from the middle of the other exhaust pipe 19. Further, since the extension end portion 19b of the other exhaust pipe 19 is inserted into the discharge conduit 8, its opening diameter is naturally smaller than the diameter of the discharge conduit 8, and the air passing therethrough causes the discharge conduit 8 to enter the discharge conduit 8. Produces a jet effect, but the effect can be further enhanced by forming the extending end portion 19b into a nozzle shape and opening it into the discharge conduit 8. In this way, the end portion 8b of the discharge conduit 8, which joins with the exhaust pipe 19, serves as a stock solution supply port into the solid-liquid separation device 9. Reference numeral 21 denotes an outlet for the liquid extracted in the solid-liquid separator 9, reference numeral 22 denotes an outlet for the remaining solid from which the liquid has been extracted, and reference numeral 23 denotes a port for temporarily storing the solid discharged from the outlet 22. Storage tank. Reference numeral 24 denotes an opening / closing valve attached to the gas-liquid separation tank 17.
【0009】本発明の実施に際しては、先ず準備工程と
して厨芥投入ホッパー1の直下の開閉バルブ6、レシー
バータンク4の直下の開閉バルブ10、通気管13の開
閉バルブ15、排気管18の開閉バルブ20を閉じ、吸
気管12のバルブ14を開いた状態で真空ポンプ11を
起動させ、吸気管12から大気を吸引し気液分離タンク
17内を経て排気管19及び排出導管8へ通気させたの
ち、吸気管12の開閉バルブ14を閉じ、搬送管路3の
始端開口部3aに附設された開閉バルブ5、搬送管路3
の開閉バルブ7及び通気管13の開閉バルブ15を開
き、始端開口部3aから吸い込まれた空気を搬送管路3
を経由してレシーバータンク4内に吸引させる。In carrying out the present invention, first, as a preparatory step, an opening / closing valve 6 immediately below the garbage charging hopper 1, an opening / closing valve 10 immediately below the receiver tank 4, an opening / closing valve 15 for the ventilation pipe 13, and an opening / closing valve 20 for the exhaust pipe 18. Is closed, the vacuum pump 11 is started in a state where the valve 14 of the intake pipe 12 is opened, and the air is sucked from the intake pipe 12 and is passed through the gas-liquid separation tank 17 to the exhaust pipe 19 and the discharge conduit 8. The opening / closing valve 14 of the intake pipe 12 is closed, and the opening / closing valve 5 attached to the start end opening 3a of the transport pipe 3 and the transport pipe 3
The opening and closing valve 7 of the ventilation pipe 13 and the opening and closing valve 15 of the ventilation pipe 13 are opened, and the air sucked from the starting end opening 3 a
Through the receiver tank 4.
【0010】次に厨芥の吸い込み工程として、開閉バル
ブ6を開き、開閉バルブ5を閉じた状態で厨芥投入ホッ
パー1内へ厨芥の投入を行い、同時に注水ノズル2‥‥
2によるシャウリングを開始する。厨芥投入ホッパー1
内へ投入された厨芥は注入水と共に搬送管路3を通って
レシーバータンク4内へ送り込まれる。注入水と共に厨
芥がレシーバータンク4内の所定レベルまで貯溜される
と、排出の前段工程として、開閉バルブ7を閉じて真空
ポンプ11の駆動を続けながら開閉バルブ10を開くこ
とにより、レシーバータンク4内が負圧となるため、下
方に沈んだ固分と上方に溜まった液分との混合対流が行
われて固液混合体の排出し易い状態が形成される。Next, as a process of sucking the garbage, the open / close valve 6 is opened and the garbage is charged into the garbage input hopper 1 with the open / close valve 5 closed, and at the same time, the water injection nozzle 2 ‥‥ is used.
2 and the shouting is started. Garbage input hopper 1
The garbage introduced into the inside is sent into the receiver tank 4 through the conveying pipe 3 together with the injection water. When the garbage is stored to a predetermined level in the receiver tank 4 together with the injection water, the opening / closing valve 10 is opened while the opening / closing valve 7 is closed and the vacuum pump 11 is continuously driven, as a precedent step of discharge. Is negative pressure, so that mixed convection between the solid component that has settled downward and the liquid component that has accumulated above is performed, and a state where the solid-liquid mixture can be easily discharged is formed.
【0011】この状態から次段の排出工程へ移るについ
ては、厨芥投入ホッパー1の開閉バルブ6、搬送管路3
の開閉バルブ7、通気管13の開閉バルブ15及び気液
分離タンク17の開閉バルブ24を閉じ、レシーバータ
ンク4の直下の開閉バルブ10、吸気管12の開閉バル
ブ14及び排気管18の開閉バルブ20を開いた状態と
なし、排出導管8内には排気管19の導延先端部19b
からのエアーによるジェット作用が生じると共に、排気
管18によって真空ポンプ11の吐出圧がレシーバータ
ンク4内に作用し、これらジェット作用による排出導管
8からの吸引力と、排気管18からの押圧作用とが相ま
って強力な固液排出作用を生じ、レシーバータンク4内
の固液混合体は排出導管8内を通って固液分離装置9内
へ移送され、該固液分離装置9により分離抽出された液
分は液分取出口21から排出され、回分式間欠曝気法等
による水処理を施されたのち放流される。また、残余の
固分は固分排出口22から排出されて貯溜タンク23内
へ一時貯溜される。この貯溜された固分は適時運搬車に
積載されて搬出されることになる。From this state, the process proceeds to the next discharging step.
The on-off valve 7, the on-off valve 15 on the ventilation pipe 13 and the on-off valve 24 on the gas-liquid separation tank 17 are closed, the on-off valve 10 directly below the receiver tank 4, the on-off valve 14 on the intake pipe 12, and the on-off valve 20 on the exhaust pipe 18. Is opened, and the leading end portion 19b of the exhaust pipe 19 is provided in the discharge conduit 8.
As a result, the discharge pressure of the vacuum pump 11 acts in the receiver tank 4 by the exhaust pipe 18, and the suction force from the discharge pipe 8 by the jet action and the pressing action from the exhaust pipe 18 are generated. Causes a strong solid-liquid discharge action, and the solid-liquid mixture in the receiver tank 4 is transferred into the solid-liquid separation device 9 through the discharge conduit 8, and the liquid separated and extracted by the solid-liquid separation device 9 The liquid is discharged from the liquid outlet 21 and subjected to water treatment by a batch intermittent aeration method or the like, and then discharged. The remaining solid is discharged from the solid discharge port 22 and temporarily stored in the storage tank 23. The stored solids are loaded and carried out on a transport vehicle in a timely manner.
【0012】[0012]
【発明の効果】本発明によれば、投入された厨芥をシャ
ワー水と共に風圧で吸引するため、厨芥投入ホッパー及
び搬送管路内への付着を防止でき、また、厨芥の形を崩
さずに搬送できて常に負圧であるため、厨房内へ悪臭を
発生させることもない。また、搬送管路内に可動部が存
在しないので、絡み付きや詰まりを生ずることなく円滑
な搬送が行われる。そして厨芥及びシャワー水の吸引後
は、レシーバータンク内で下方に沈んだ固分と上方に溜
まった液分との混合対流を行わせてから排出させるので
あるから、タンク内下底面に堆積した厨芥によって排出
口が塞がれるというおそれはなく、円滑な固液排出が行
われ、極めて作業性に優れている。また、一般に実施さ
れているスラリーポンプ圧送方式と異なり、厨芥を破砕
機などで破砕することを要しないため、従来のように放
流水質を極度に悪化させるというおそれがなく、BOD
濃度を低く抑えることができ水処理設備への負荷軽減に
も役立つという利点がある。According to the present invention, the introduced garbage is sucked by the wind pressure together with the shower water, so that it can be prevented from adhering to the garbage charging hopper and the transport pipe, and the garbage can be transported without breaking its shape. Because it is always under negative pressure, it does not generate odor in the kitchen. In addition, since there is no movable portion in the transport pipeline, smooth transport can be performed without entanglement or clogging. After the garbage and shower water are sucked, the solids that have settled downward and the liquid that has accumulated above in the receiver tank are mixed and convected, and then discharged. There is no danger that the discharge port will be blocked by this, and the solid-liquid discharge is performed smoothly, and the workability is extremely excellent. Also, unlike the slurry pumping method generally used, kitchen garbage does not need to be crushed by a crusher or the like.
There is an advantage that the concentration can be kept low and the load on the water treatment facility can be reduced.
図面は本発明装置における管路構成図である。 The drawing is a schematic diagram of a pipeline in the apparatus of the present invention.
1 厨芥投入ホッパー 2 注水ノズル 3 搬送管路 3b 導延終端部 4 レシーバータンク 6 開閉バルブ 7 開閉バルブ 8 排出導管 8a 始端部 8b 導延端部 10 開閉バルブ 11 真空ポンプ 11a 吸気口 11b 排気口 12 吸気管 13 通気管 13b 導延端部 14 開閉バルブ 15 開閉バルブ 18 排気管 18b 導延端部 19 排気管 19b 導延端部 20 開閉バルブ REFERENCE SIGNS LIST 1 kitchen waste hopper 2 water injection nozzle 3 transfer pipe 3 b spreading terminal 4 receiver tank 6 opening / closing valve 7 opening / closing valve 8 discharge conduit 8 a starting end 8 b spreading end 10 opening / closing valve 11 vacuum pump 11 a suction port 11 b exhaust port 12 suction Pipe 13 Ventilation pipe 13b Extension end 14 Open / close valve 15 Open / close valve 18 Exhaust pipe 18b Extension end 19 Exhaust pipe 19b Extension end 20 Open / close valve
───────────────────────────────────────────────────── フロントページの続き (56)参考文献 特開 平2−52805(JP,A) 特開 昭53−80767(JP,A) 特開 昭53−31374(JP,A) 特開 昭60−242104(JP,A) 特開 昭52−62981(JP,A) 特開 昭58−63622(JP,A) 実開 昭47−1889(JP,U) 実開 昭55−167903(JP,U) 実開 平2−83806(JP,U) 実開 昭64−29307(JP,U) (58)調査した分野(Int.Cl.6,DB名) B65F 5/00 - 9/00 ──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-2-52805 (JP, A) JP-A-53-80767 (JP, A) JP-A-53-31374 (JP, A) JP-A-60-1985 242104 (JP, A) JP-A-52-62981 (JP, A) JP-A-58-63622 (JP, A) JP-A 47-1889 (JP, U) JP-A 55-167903 (JP, U) Japanese Utility Model Application Hei 2-83806 (JP, U) Japanese Utility Model Application Showa 64-29307 (JP, U) (58) Field surveyed (Int. Cl. 6 , DB name) B65F 5/00-9/00
Claims (2)
ンク内へ導通された厨芥投入ホッパー内へ厨芥の投入と
水の注入を行い、上方部へ真空ポンプの吸込口を導通さ
せてその吸気作用により負圧としたレシーバータンク内
へ上記厨芥及び注入水を吸引させ、その吸引量が所定値
に達したとき厨芥投入ホッパーからレシーバータンクへ
至る搬送管路を閉止すると共に、レシーバータンク内の
下方部へ真空ポンプの吐出口を導通させてその排気作用
により下方に沈んだ固分と上方に溜まった液分との混合
対流を起こさせたのち、真空ポンプの吸込口とレシーバ
ータンク内上方部との前記導通状態を閉止してレシーバ
ータンク内下方部から固液分離装置内に至る排出管路を
導通させ、レシーバータンク内の上方部へ真空ポンプの
吐出口を導通させてその排気作用によるレシーバータン
ク内上方からの吐出圧によってレシーバータンク内の固
液混合体を排出させることを特徴とする厨芥処理方法。 1. A garbage is charged and water is injected into a garbage charging hopper which has been conducted into a receiver tank through a solid-liquid conveying pipe, and a suction port of a vacuum pump is conducted to an upper portion to suction the garbage. The above-mentioned garbage and infused water are sucked into the receiver tank which has been set to a negative pressure by the action, and when the suction amount reaches a predetermined value, the transfer pipeline from the garbage charging hopper to the receiver tank is closed, and the lower part of the receiver tank is lowered. After the discharge port of the vacuum pump is conducted to the section and the exhaust action causes mixed convection between the solid component that has settled down and the liquid component that has accumulated above, the suction port of the vacuum pump and the upper part in the receiver tank The above-mentioned conduction state is closed, the discharge pipe from the lower part in the receiver tank to the solid-liquid separator is made conductive, and the discharge port of the vacuum pump is made conductive to the upper part in the receiver tank. Garbage treatment method characterized in that the discharge pressure from above the receiver tank by the exhaust action of discharging the solid-liquid mixture in the receiver tank.
した厨芥投入ホッパー(1)の下方部から開閉バルブ
(6)を介して導延された搬送管路(3)の導延終端部
(3b)をレシーバータンク(4)内の上方部に開口さ
せ、レシーバータンク(4)の下方部には排出導管
(8)の始端部(8a)を開口させ、これら搬送管路
(3)及び排出導管(8)にはそれぞれ開閉バルブ
(7,10)を附設し、レシーバータンク(4)に外設
された真空ポンプ(11)の吸気口(11a)からは大
気中に開口される吸気管(12)と、導延端部(13
b)がレシーバータンク(4)内の上方部に開口される
通気管(13)とを分岐状に導出させ、これら吸気管
(12)及び通気管(13)にそれぞれ開閉バルブ(1
4,15)を附設し、真空ポンプ(11)の排気口(1
1b)より2条の排気管(18,19)を導延し、一方
の排気管(18)には開閉バルブ(20)を附設してそ
の導延端部(18b)をレシーバータンク(4)内の上
方部へ向けて開口させると共に、他方の排気管(19)
の導延端部(19b)は排出導管(8)内へ開口させた
ことを特徴とする厨芥処理装置。2. A transfer pipe (3) extended from a lower part of a garbage charging hopper (1) having a water injection nozzle (2 ‥‥ 2) disposed on an inner peripheral part thereof through an opening / closing valve (6). The extension end (3b) is opened at the upper part in the receiver tank (4), and the lower end of the receiver tank (4) is opened at the start end (8a) of the discharge conduit (8). Opening / closing valves (7, 10) are attached to (3) and the discharge conduit (8), respectively, and are opened to the atmosphere from the suction port (11a) of a vacuum pump (11) provided outside the receiver tank (4). Suction pipe (12) and the extension end (13
b) branches out the ventilation pipe (13) opened at the upper part in the receiver tank (4), and opens and closes the open / close valve (1) to the intake pipe (12) and the ventilation pipe (13), respectively.
4, 15), and the exhaust port (1) of the vacuum pump (11)
1b), two exhaust pipes (18, 19) are extended, and one exhaust pipe (18) is provided with an open / close valve (20), and the extended end (18b) is connected to the receiver tank (4). And the other exhaust pipe (19)
The garbage disposal device characterized in that the extending end portion (19b) of the refuse is opened into the discharge conduit (8).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP3010013A JP2994052B2 (en) | 1991-01-01 | 1991-01-01 | Garbage disposal method and apparatus |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP3010013A JP2994052B2 (en) | 1991-01-01 | 1991-01-01 | Garbage disposal method and apparatus |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPH04251005A JPH04251005A (en) | 1992-09-07 |
| JP2994052B2 true JP2994052B2 (en) | 1999-12-27 |
Family
ID=11738513
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP3010013A Expired - Fee Related JP2994052B2 (en) | 1991-01-01 | 1991-01-01 | Garbage disposal method and apparatus |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JP2994052B2 (en) |
-
1991
- 1991-01-01 JP JP3010013A patent/JP2994052B2/en not_active Expired - Fee Related
Also Published As
| Publication number | Publication date |
|---|---|
| JPH04251005A (en) | 1992-09-07 |
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| Date | Code | Title | Description |
|---|---|---|---|
| LAPS | Cancellation because of no payment of annual fees |