JP2009082761A - Spring water type filtering and purifying apparatus and material compounded and applied filter medium by joining material carbon sand having deodorizing and purifying action - Google Patents
Spring water type filtering and purifying apparatus and material compounded and applied filter medium by joining material carbon sand having deodorizing and purifying action Download PDFInfo
- Publication number
- JP2009082761A JP2009082761A JP2007166949A JP2007166949A JP2009082761A JP 2009082761 A JP2009082761 A JP 2009082761A JP 2007166949 A JP2007166949 A JP 2007166949A JP 2007166949 A JP2007166949 A JP 2007166949A JP 2009082761 A JP2009082761 A JP 2009082761A
- Authority
- JP
- Japan
- Prior art keywords
- tank
- funnel
- water
- partition
- shaped
- 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.)
- Withdrawn
Links
Images
Classifications
-
- Y—GENERAL 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02W—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
- Y02W10/00—Technologies for wastewater treatment
- Y02W10/10—Biological treatment of water, waste water, or sewage
Abstract
Description
本発明は水質浄化に分離方式を用いたタンク機構の沈殿物分離から消臭浄化に必要な接合材炭砂配合の濾過剤を詰め込む対面同士による交互噛み合わせの濾過浄化槽より構成された湧水式と消臭浄化作用を有する接合材炭砂による素材配合応用濾過剤に関する。 The present invention is a spring water type constituted by a filtration septic tank of alternately meshing face to face that is packed with a filter medium containing a coal sand mixing material necessary for deodorization purification from sediment separation of a tank mechanism using a separation method for water purification. The present invention relates to a material-mixed application filter agent made of a bonding material charcoal sand having a deodorizing and purifying action.
技術の進歩とともに生活水準が向上する現代において様々な要因を含みもつ環境の変化対応に近年企業努力がなされているなか水資源に取り組む業界では水質改善に濾過器,濾過剤の方向から技術開発が進められこうした時代の背景から地球環境の変化を意識するようになった今日濾過フィルタ−,濾過剤の進歩にめざましいものがある。 In recent years when the standard of living has improved with the advance of technology, the industry has been making efforts to respond to changes in the environment, including various factors. In the industry that tackles water resources, technology development has started from the direction of filter and filter agent to improve water quality. There is a remarkable progress in filtration filters and filter media that have been advanced and have become aware of changes in the global environment from the background of these times.
上記より家庭や工業等様々な環境から排出される排水を下水処理機関で浄化され河川へ流す仕組みより現代における浄化技術の進歩と言えるが窒素,リン化合物等の完全分解は容易ではなく残留物が本流支流を流れて湖水へまじりやがて残留物質が要因となって赤潮が発生したり汚染の元となりこうした水質の正常化を近年ではたんそ繊維で構成の汚水漉しフィルタ−を採用した濾過浄化装置が主流とされている。
そして,これら水質の濾過浄化を一貫して上方から下方へ流れるようになっている。
また,こうした装置に使用される砂剤やプラスチック素材の螺旋状巻き剤等と上記する従来装置の濾過効果は見られるも装置システムより流れが上下方向の速流からたんそ繊維,砂剤等濾過部の沈殿物による目詰まりや螺旋状巻き剤の粗め隙より脱臭浄化に疑問を覚えるものである。From the above, it can be said that the modern purification technology is more advanced than the mechanism in which wastewater discharged from various environments such as home and industry is purified by a sewage treatment engine and sent to a river, but complete decomposition of nitrogen, phosphorus compounds, etc. is not easy In recent years, there has been a filtration and purification device that uses a sewage filter composed of syrup fibers to normalize the water quality, which is caused by residual substances that cause a red tide due to residual matter flowing through the main stream and eventually causing residual substances. It is considered mainstream.
And the filtration and purification of these water qualities flow from the upper side to the lower side consistently.
In addition, although the filtration effect of the above-mentioned conventional device and the sanding agent used in such devices and the spiral wound of plastic material can be seen, the flow from the device system starts from the vertical flow, so that the fibers such as fiber and sand are filtered. Deodorizing and purifying is questionable because of clogging due to deposits and rough gaps in the spiral wound agent.
上記の実情から本発明は従来の上下方向へ流れる流水システムを一変するより自然に近い湧水方式を用いてタンク内部の分離機構と脱臭浄化作用の炭素材配合濾過剤の組合せで湧水による浮力と沈殿物の分離から水を適度に浸透する濾過剤同士の隙間より目詰まりもなく自然に濾過浄化されるこの方式を以て従来の課題から問題を解決しようとするものである。 Based on the above situation, the present invention uses a spring system that is more natural than the conventional flowing water system that flows up and down, and uses a combination of a separation mechanism inside the tank and a carbon material-containing filter agent for deodorizing and purifying the buoyancy due to spring water. From the conventional problem, the problem is solved by this system that is naturally filtered and purified without clogging from the gap between the filtering agents that permeate water appropriately from the separation of the precipitate.
そこで,本発明は水質浄化に従来の方式とは異なる分離方式から循環型の湧水式濾過浄化装置とこれら装置と連携の消臭濾過浄化剤を提供するものである。 Therefore, the present invention provides a circulating spring water filtration and purification device and a deodorizing filtration and purification agent in cooperation with these devices from a separation method different from conventional methods for water purification.
即ち,本発明は,(1),下方が漏斗状となった円筒形タンクの内部に濾過浄化設備や濾過剤入出を上蓋より上部開放とし漏斗状の沈殿室排出物を下部に設置のバルブで調整されこうして形成されるタンク内部のシステムを上層の湧水槽,中層の濾過浄化槽,下層の漏斗状沈殿室に分けた分離方式を用い,二分する上下設備の交互の噛み合わせで一体となる濾過浄化槽内部の縦中心線を軸に全体を構成されこうした機能仕組みの対面式から上部下部両部よりドッキング方で説明をおこなう。
上方より,タンク上部の口周囲に設ける棚状縁取りへU形出水口に合致するようタンクと同形状となった円筒形内容器をタンク内部よりセットし漏水防止のパッキンを挟めて上段へ上蓋を載せる格好でその縁取りからボルトによって固定する。
この時内容器のセット状況は固定部分での吊り状態である。
こうした円筒形内容器の仕組みは底面中央に空洞を設けた貫通穴へ汚水送管を通しその周囲下方が浄化水路となって容器内部の湧水槽へ湧き出すようになっている。
そして,湧水槽へ溜まる水は上部に設ける内部が水路となった直方状の出水口より流れるようになっている。
一方,下方は濾過浄化槽を形成する対面との一方面となる円筒形内容器の底裏面へ筒丈を均等に下部ぐるりに水路孔を設け輪状となった二つの円筒を中心よりタンク内面方向へ小,大と設定し小円筒は湧水槽表面へ抜ける底裏面の穴周囲へ設置され大円筒の配置は対面との互い違い噛み合わせで隔位置への設置となる。
そして,これら仕切り円筒は平面となった底裏面へ溶接で固定される。That is, the present invention is (1) with a valve installed in the bottom of the cylindrical tank with a funnel-shaped filter purification equipment and filter medium in and out of the upper lid, and a funnel-shaped sedimentation chamber discharge at the bottom. The system inside the tank thus adjusted is divided into an upper spring tank, middle filtration septic tank, and lower funnel settling chamber, and the filtration septic tank is integrated by alternating meshing of the upper and lower equipment divided in two. The whole structure is built around the internal vertical center line, and from the face-to-face system of these functional mechanisms, we will explain how to dock from both upper and lower parts.
From above, set a cylindrical inner container that is the same shape as the tank to fit the U-shaped water outlet to the shelf-shaped rim that is provided around the mouth of the upper part of the tank. Fix it with bolts from its edging.
At this time, the setting state of the inner container is a suspended state at the fixed portion.
The mechanism of such a cylindrical inner container is such that a sewage pipe is passed through a through hole provided with a cavity at the center of the bottom surface, and the lower part of the circumference becomes a purification water channel and flows out to a spring tank inside the container.
And the water which accumulates in a spring tank flows from the rectangular water outlet which the inside provided in the upper part became a channel.
On the other hand, the bottom is the bottom back surface of the cylindrical inner container that is one side of the opposite face that forms the filtration septic tank. The small and large cylinders are set around the hole on the bottom rear surface that goes out to the surface of the spring tank, and the large cylinders are placed in separate positions by meshing with each other.
And these partition cylinders are fixed to the bottom bottom surface which became a plane by welding.
このように構成され上部円形仕切り盤の対面となる下方は上部との関係より逆方位となったタンク同形の下部円形仕切り盤へ上部同様つつ丈を均等に上部ぐるりに水路孔を設け輪状となった二つの円筒を中心よりタンク内面方向へ中,特大と設定し中円筒は上部円形仕切り盤に設ける小円筒大円筒の間位置で設置され特大円筒はタンク内面と上部円形仕切り盤に設ける大円筒の間位置で設置される。
こうした配置で設置された下部円形仕切り盤の中央に貫通穴を設けたその周囲へ上部へ垂直に伸びる汚水送管を濾過浄化槽への汚水侵入防止に溶接により接合されている。
そして,表裏両面を平面とする下部円形仕切り盤の円周周囲には梁幅の等角度四方それぞれの平面間へ第一槽範囲に沈殿室から汚水を引き込むための網状の汚水昇流孔を設けてある。
また,中,特大仕切り円筒は下部円形仕切り盤の表面へ上部同様溶接で固定される。
このように構成された下部円形仕切り盤と上部円形仕切り盤との合致に漏斗状沈殿室の室内上部の等角度四方平均位置に設置された各独立体の梁受けへ突出部が汚水送管と嵌め合わせとなる輪状パイプの下部へ表面に脱臭を主とするセメント,炭,砂配合のド−ナツ
カットされたこうした同形サイズの四本梁をその下部端から上方へ等角度四方平均位置に溶接で固定され放射状に伸びる先端部仕切り間まわりを輪状に縁取りされたタンク内面と同形の土台梁を梁受けへボルトで固定されてくぼみ隆起が消臭浄化剤セットで平面となったこうした土台梁表面に下部円形仕切り盤を上から載せるかっこうでセットされて円周周囲に設ける等角度四方の平面地で梁表面の隆起両部へビス留めで固定されこのように設定された向かい合った上部と下部両盤の交互位置に設置の仕切り円筒を軸にその間を空間とする五つの槽が並列に設けられている。The lower part facing the upper circular partitioning board constructed in this way is shaped like a ring with a uniform water channel hole around the upper part of the lower circular partitioning board with the same shape as the tank in the opposite direction from the relationship with the upper part. Two cylinders from the center to the tank inner surface are set as extra large, and the middle cylinder is installed between the small cylinder and large cylinder provided in the upper circular partition, and the extra large cylinder is provided in the tank inner surface and upper circular divider. It is installed at a position between.
A sewage pipe extending vertically upward to the periphery of a through hole provided in the center of the lower circular partition installed in such an arrangement is joined by welding to prevent sewage from entering the filtration septic tank.
Around the circumference of the lower circular partition with both front and back sides as planes, a net-like sewage upflow hole for drawing sewage from the sedimentation chamber is provided in the first tank area between the planes of equiangular sides of the beam width. It is.
The middle and extra large partition cylinders are fixed to the surface of the lower circular partition board by welding as in the upper part.
The protrusions are connected to the sewage pipes to the beam receivers of each independent body installed at the equiangular four-way average position of the upper part of the funnel-shaped sedimentation chamber in the match between the lower circular partition and the upper circular partition configured in this way. Donut containing cement, charcoal and sand mainly deodorizing on the surface of the ring-shaped pipe to be fitted
The cut four beams of the same size are fixed from the lower end to the equiangular square average position by welding, and the base beam that is the same shape as the inner surface of the tank that is rimmed around the tip partition that extends radially is beamed. On the surface of the base beam, the lower circular partition board is set from above on the surface of the foundation beam, which is fixed with bolts to the receiver and the indentations are flattened with the deodorant purifier set. Five tanks are installed in parallel with the partition cylinder installed at the alternating positions of the upper and lower panels facing each other and fixed at the raised parts of the beam surface with screws. Yes.
そして,これら核槽をタンク内部の円周より中心部へ第一槽をタンク内部の内面と下部円形仕切り盤から突出の特大仕切り円筒間,第二槽を特大仕切り円筒と上部円形仕切り盤から突出の大仕切り円筒間,第三槽を大仕切り円筒と下部円形仕切り盤から突出の中仕切り円筒間,第四槽を中仕切り円筒と上部円形仕切り盤から突出の小仕切り円筒間,そして第五槽を小仕切り円筒と下部円形仕切り盤中央部に接合の汚水送管の間とし,各槽のこうした配置構成を上部と下部両盤の互いの噛み合せにより一体となり濾過浄化槽を形成し装置を確立される。
そして,これら設備の各槽へ接合材,炭,砂を球体に練り固め乾燥させた粒玉を各槽の形状と同形に水に浸し冷凍で詰め固めた輪状の円筒ブロック消臭濾過浄化剤を土台へ設置された下部円形仕切り盤の全槽へ上方より各槽と同形の個々ブロックを詰め込みこうして個々ブロック間の隙間で上部円形仕切り盤との噛み合わせとなる。
そして,こうした機構の流水を汚水送管から流れ込む満水状態の沈殿室より下部仕切り盤に設ける昇流孔を通り第一槽より汚水を濾過しながら上昇し上部盤仕切りへ達して仕切り円筒上部ぐるりの水路孔を通って第二槽へ入り流れは汚水を濾過しながら下降し下部盤仕切に達して仕切円筒下部ぐるりの水路孔を通って第三槽へ入り流れは浄化しながら上昇し上部盤仕切に達して仕切円筒上部ぐるりの水路孔を通って第四槽へ入り流れは浄化しながら下降し下部盤仕切りに達して仕切り円筒下部ぐるりの水路孔を通って第五槽へ入り流れは浄水となって上昇し湧水槽へ湧き出すようになる。
このように,上下上下と交互対照方位に流れる各槽への送水を沈殿物溜めとされる下方の漏斗状沈殿室では室内上部の四方梁受けで支えられた土台梁のド−ム状仕切りより逆円錐状に中空となったその中心下部に沈殿物を取り出す下方外部へ突出する円筒の排出口をまたその下部には排出物調整バルブが設けられこうして形成された沈殿室への汚水入を土台梁中央のパイプより流れ込むようになっていてこうした汚水送りをパイプの突出部分へ下部円形仕切り盤中央に接合された上方へ垂直に伸びる汚水送管を嵌め合わせ連結状態で内容器から上蓋表面へ突き抜け先端部は接続された上方へ直角に屈曲する段差配管となっている。Then, these nuclear tanks protrude from the circumference inside the tank to the center, the first tank protrudes from the inner surface of the tank and the extra large partition cylinder protruding from the lower circular partition, and the second tank projects from the extra large partition cylinder and upper circular partition. Between the large partitioning cylinders, between the large partitioning cylinder and the middle partitioning cylinder protruding from the lower circular partition, the fourth tank between the middle partitioning cylinder and the small partitioning cylinder protruding from the upper circular partitioning board, and the fifth tank Between the sewage pipes joined to the center of the small partition cylinder and the lower circular partition, and the arrangement of each tank is integrated by meshing the upper and lower panels together to form a filtration septic tank, and the device is established. .
Then, a ring-shaped cylindrical block deodorizing filter cleaner, which is made by immersing the jointing material, charcoal, and sand into spheres in each tank of these facilities and then drying them after immersing them in water in the same shape as each tank and stuffing them by freezing. The individual blocks of the same shape as the respective tanks are packed from above into all the tanks of the lower circular partition installed on the base, and thus mesh with the upper circular partition through the gaps between the individual blocks.
Then, from the full sedimentation chamber where the flowing water of such a mechanism flows from the sewage pipe, it passes through the ascending hole provided in the lower partition plate, rises while filtering the sewage from the first tank, reaches the upper plate partition and reaches the upper part of the partition cylinder. The flow entering the second tank through the water channel hole descends while filtering sewage, reaches the lower panel partition, enters the third tank through the water channel hole around the lower part of the partition cylinder, and rises while purifying the upper panel partition. The flow enters the fourth tank through the water channel hole around the upper part of the partition cylinder and the flow descends while purifying, reaches the lower panel partition, and enters the fifth tank through the water hole in the lower part of the partition cylinder. It rises and begins to spring into the spring tank.
In this way, in the lower funnel-shaped sedimentation chamber in which the water is fed to each tank flowing in the up and down and up and down and alternating control directions, the domed partition of the base beam supported by the four-way beam receiver at the upper part of the chamber is used. A cylindrical discharge port that protrudes downward from the lower part of the center, which is hollow in an inverted conical shape, and a discharge adjustment valve is provided at the lower part. The sewage feed that flows from the pipe in the center of the beam is fitted into the projecting part of the pipe and joined to the center of the lower circular partition board, and the sewage feed pipe extending vertically upward is connected to the upper lid surface from the inner container in a connected state. The penetrating tip is a stepped pipe that bends at a right angle to the connected top.
そして,これら汚水送管外部ぐるりにはタンク内部設備の浮力と圧力おさえに湧水孔を設けたド−ナツ形円盤を汚水送管へ通した両端部螺子式パイプの付設め螺子で内容器内部底面と上蓋裏面のそれぞれの密接する位置に固定されて上蓋表面より突出の汚水送管と直角管を接続するめ螺子固定で内部設備全体を支えるようになっている。
そして,これら直角管内部仕切りより表面へ抜ける貫通穴周囲へ下方沈殿室内の沈殿物満杯から汚水の逆流防止に一端ぐるりを鍔状に縁取りされたパイプ螺子へ球体ウキの心棒を下方より通しパイプ螺子下部の筒状から縁取りを包む状態で漏水防止に伸縮性を持った素材カバ−でとじられたパイプ螺子を直角管外部表面でポンプの作動停止回路を内蔵する電源切替え装置ボックスを抱き合わせでめ螺子で密着固定される。
そして,これら逆流防止装置の仕組みは沈殿室内の沈殿物満杯から汚水送管内部の水位上昇をともない浮力によるウキの浮上でポンプの作動を停止するようになる。
また,これら作動停止スイッチは通常の配線回路となる。These sewage pipes are surrounded by a donut-shaped disk with spring holes in the tank's internal buoyancy and pressure, and threaded pipes attached to both ends of the inner pipe. It is fixed at the close contact position on the bottom surface and the back surface of the upper lid, and the entire internal equipment is supported by screw fixing that connects the sewage water pipe and the right angle tube protruding from the upper cover surface.
In order to prevent backflow of sewage from the full sediment in the lower sedimentation chamber to the periphery of the through hole that passes through the surface from the internal partition of the right-angle pipe, the spherical rod mandrel is passed from below to the pipe screw. A pipe screw, which is wrapped with a material cover that stretches to prevent water leakage while wrapping the rim from the bottom cylindrical shape, ties together a power supply switching device box that contains a pump stop circuit on the outer surface of the right-angle tube. It is fixed tightly with.
And the mechanism of these backflow prevention devices comes to stop the operation of the pump from the fullness of the sediment in the sedimentation chamber to the rising of the ground by buoyancy as the water level rises inside the sewage pipe.
Moreover, these operation stop switches become a normal wiring circuit.
上記のこのように構成された内部設備と連結する外部では,タンク上部の縁取りからハット状上蓋周囲の縁棚へ貫通する等角度八方の螺子穴よりボルトで固定されたその上蓋表面へ出水口方向に汚水送管を固定する台脚を設けてその対照縁位置には上蓋へコンセントフ−ドカバ−その密接するタンク上部へはプラグカバ−を設けられたこうした装備に電気配線カバ−の螺子パイプを上蓋の表面中央に設ける電源切替え装置ボックスとコンセント間プラグと台座ボックス間へそれぞれ接続されている。
そして台脚で固定される汚水送管は下方の台座ボックスに設置のポンプへ接続される。
そしてまた,上記のこのような構成で一体形成されたタンク本体の設置を台座ボックスに設けた中段から下部面をカットされたタンク外部と同形の漏斗状受け孔へ本体下方を嵌め合わせて台座表面と密接するタンク外部ぐるりの円形鍔表面から台座裏面へ貫通する等角度六方の螺子穴よりボルトによって固定される。At the outside connected to the internal equipment constructed as described above, the direction of the outlet is directed to the surface of the upper lid fixed with bolts from an equiangular screw hole that penetrates from the rim of the upper part of the tank to the edge shelf around the hat-shaped upper lid. A base for fixing the sewage pipe is provided, and at the contrast edge position, the outlet cover is connected to the upper cover. The plug pipe is provided to the upper part of the tank close to the upper cover, and the screw pipe of the electric wiring cover is attached to the upper cover. Are connected to the power supply switching device box, the plug between the outlets, and the pedestal box provided at the center of the surface of the power supply.
The sewage pipe fixed by the pedestal is connected to the pump installed in the lower pedestal box.
In addition, the tank body integrally formed in the above-described configuration is fitted into the funnel-shaped receiving hole having the same shape as the outside of the tank whose lower surface is cut from the middle stage provided in the pedestal box, and the pedestal surface. It is fixed with bolts from equiangular hexagonal screw holes penetrating from the circular saddle surface around the outside of the tank in close contact with the back of the pedestal.
このようにセットされ空間となった台座ボックスの内部状況は内部側面にポンプ並びに電源配線回路器を設置されボックスの表面中央から内部中間地点へ本体の漏斗状下部が入る状態でその下方に下部設置バルブより排出の沈殿物回収容器が配置される
そして,これら装置設置の平均値を台座ボックスの四方角底辺に設けるバランス螺子で調整される。
上記のこのように構成されたタンクシステムから対面式仕切り機構の交互噛み合わせによる湧水式濾過浄化装置及び消臭浄化作用を有する接合材炭砂による素材配合応用濾過剤に存する。The internal state of the pedestal box set in this way is that the pump and power wiring circuit are installed on the inner side, and the lower part is installed below the funnel-shaped lower part of the main unit from the center of the box to the middle of the box The sediment collection container discharged from the valve is arranged. And the average value of the installation of these devices is adjusted by the balance screw provided at the bottom of the square in the pedestal box.
From the tank system configured as described above, there is a spring water type filtration purification device by alternating meshing of a face-to-face partition mechanism, and a material blend applied filter agent with bonding material charcoal sand having a deodorizing purification action.
そして,(2),下方が漏斗状となった円筒形タンクの内部に濾過浄化設備や濾過剤入出を上蓋より上部開放とし漏斗状の沈殿室排出物を下部に設置のバルブで調整されこうして形成されるタンク内部のシステムを上層の湧水槽,中層の濾過浄化槽,下層の漏斗状沈殿室に分けた分離方式より二分する対面同士の仕切り盤噛み合わせで濾過浄化各槽を一体に形成された湧水式濾過浄化装置に存する。 And (2), the inside of the cylindrical tank with a funnel-shaped lower part is formed by adjusting the filtration and purification equipment and the filtering agent in the upper part from the upper lid and adjusting the funnel-shaped sedimentation chamber discharge with the valve installed at the lower part. The filtration and purification tanks are formed as a single unit by meshing the partitioning plates facing each other, which is divided into two parts by the separation system divided into the upper layer spring tank, middle layer filtration clarification tank, and lower layer funnel-shaped sedimentation chamber. It exists in a water type filtration purification device.
そしてまた,(3),下方が漏斗状となった円筒形タンクの内部に濾過浄化設備や濾過剤入出を上蓋より上部開放とし漏斗状の沈殿室排出物を下部に設置のバルブで調整されこうして形成されるタンク内部のシステムを上層の湧水槽,中層の濾過浄化槽,下層の漏斗状沈殿室に分けた分離方式より沈殿室に留積する汚水物質の反応から発生するガスを抜き取る抽出管とその内部に上部接続の直角菅仕切りを貫通する汚水送菅のそれぞれをポンプとガス貯蔵タンクへ接続されてタンク内部の流気水路両管が端辺接合の二重構造となった湧水式濾過浄化装置に存する。 Also, (3) the inside of the cylindrical tank with a funnel-shaped lower part is adjusted by a valve installed in the upper part of the filtration purification equipment and filter medium and the funnel-shaped sedimentation chamber discharge at the lower part. An extraction pipe that extracts gas generated from the reaction of sewage substances collected in the sedimentation chamber by a separation system in which the system inside the tank is divided into an upper spring bath, middle filtration clarification tank, and lower funnel sedimentation chamber, and its Spring water filtration and purification, in which each of the sewage feeds that penetrates the right-angled partition of the upper connection inside is connected to the pump and the gas storage tank, and both the pipes in the tank are connected to each other at the ends. Exists in the device.
そしてまた,(4),下方が漏斗状となった円筒形タンクの内部に濾過浄化設備や濾過剤入出を上蓋より上部開放とし漏斗状の沈殿室排出物を下部に設置のバルブで調整されこうして形成されるタンク内部のシステムを上層の湧水槽,中層の濾過浄化槽,下層の漏斗状沈殿室に分けた分離方式より内容器の抜け底からぐるり底面を棚状に縁取りされたこうした縁取り仕切り間へ漏水防止にパッキンを挟めて双方共通のねじ穴よりボルトで固定されたこれら上部仕切り盤が端部ぐるりに水路孔を有する隔壁機構の独立体となった湧水式濾過浄化装置に存する。 And (4) the inside of the cylindrical tank with a funnel-shaped lower part is adjusted with a valve installed in the lower part of the filtration purification equipment and filter medium in and out of the upper lid, and the funnel-shaped sedimentation chamber discharge in the lower part. The system inside the formed tank is divided into the upper spring water tank, the middle filtration clarification tank, and the lower funnel-shaped sedimentation chamber. These spring partitioning and purifying apparatuses, in which the upper partition plate, which is fixed by bolts from both common screw holes with a packing for preventing water leakage, is an independent body of a partition wall mechanism having a water passage hole around the end portion.
そしてまた,(5),下方が漏斗状となった円筒形タンクの内部に濾過浄化設備や濾過剤入出を上蓋より上部開放とし漏斗状の沈殿室排出物を下部に設置のバルブで調整されこうして形成されるタンク内部のシステムを上層の湧水槽,中層の濾過浄化槽,下層の漏斗状沈殿室に分けた分離方式よりタンク上部に位置するU型に切り抜かれた出水口のまわり表面に螺子止めの受け穴を有する囲い段を設けたそのU形出水口に嵌め収める内容器の上部外面より外方向へ突出するタンク出水口と同形の直方状の出水口補助に下部が湾状に曲線となって全体を覆い包むビス止め固定のカバ−体となった湧水式濾過浄化装置に存する And, (5), the inside of the cylindrical tank with a funnel-shaped lower part is adjusted by a valve installed in the upper part of the filtration purification equipment and filter medium and the funnel-shaped sedimentation chamber discharge at the lower part. The system inside the tank formed is divided into an upper spring tank, middle filtration clarification tank, and lower funnel-shaped settling chamber, and screwed to the surface around the water outlet cut out in a U shape located at the top of the tank A rectangular outlet that is the same shape as the tank outlet that protrudes outward from the upper outer surface of the inner container that fits in the U-shaped outlet provided with an enclosure step having a receiving hole, and the lower part is curved in a bay shape A spring-water filtration and purification device that has a screw-fixed cover that covers the entire surface.
そしてまた,(6),下方が漏斗状となった円筒形タンクの内部に濾過浄化設備や濾過剤入出を上蓋より上部開放とし漏斗状の沈殿室排出物を下部に設置のバブルで調整されこうして形成されるタンク内部のシステムを上層の湧水槽,中層の濾過浄化槽,下層の漏斗状沈殿室に分けた分離方式より外部から内部へ送る出水助成の空気孔を出水口より反側の上蓋あるいは外部配設の汚水送管表面へ設けた湧水式濾過浄化装置に存する。 And (6), the inside of the cylindrical tank with a funnel-shaped lower part is adjusted with the bubble installed in the lower part of the filtration purification equipment and the filter medium and the funnel-shaped sedimentation chamber discharge at the upper part from the upper lid. The system inside the formed tank is divided into an upper spring water tank, a middle filtration clarification tank, and a lower funnel-shaped settling chamber. It resides in the spring filtration and purification device provided on the surface of the disposed sewage pipe.
そしてまた,(7),下方が漏斗状となった円筒形タンクの内部に濾過浄化設備や濾過剤入出を上蓋より上部開放とし漏斗状の沈殿室排出物を下部に設置のバルブで調整されこうして形成されるタンク内部のシステムを上層の湧水槽,中層の濾過浄化槽,下層の漏斗状沈殿室に分けた分離方式より海水や淡水の濾過浄化に船体の甲板中央設置の台座に上記の分離式大型タンクをセットされた,これら移動式操業船と台座そばに設けた貫通穴へ台座内部のポンプより引く吸水管を,甲板表面から船底水中へ通されたその下方の深度対応に吸上押出から段階方式をもちいたつなぎポンプとより構成された湧水式濾過浄化装置に存する。 And (7) the inside of the cylindrical tank with a funnel-shaped lower part is adjusted by a valve installed at the bottom of the filter purification equipment and filter medium, and the funnel-shaped sedimentation chamber discharge at the bottom. The separation system is divided into the upper spring water tank, the middle filtration clarification tank, and the lower funnel-shaped sedimentation chamber. From the suction extrusion to the bottom of the tank, the water absorption pipe drawn from the pump inside the pedestal to the through hole provided near the pedestal and the mobile operation ship, which was passed from the deck surface to the bottom water. It resides in a spring water filtration and purification device that is composed of a tethered pump and a method.
そしてまた,(8),下方が漏斗状となった円筒形タンクの内部に濾過浄化設備や濾過剤入出を上蓋より上部開放とし漏斗状の沈殿室排出物を下部に設置のバルブで調整されこうして形成されるタンク内部のシステムを上層の湧水槽,中層の濾過浄化槽,下層の漏斗状沈殿室に分けた分離方式より仕切り壁から構成された対面する両仕切り盤の交互噛み合わせから交互対照方位の流れを基本原理とする湧水式濾過浄化装置に存する。 And (8) the inside of the cylindrical tank with a funnel-shaped lower part is adjusted by a valve installed at the bottom of the filtration purification equipment and filter medium, and the funnel-shaped sedimentation chamber discharge is set at the bottom. The system inside the formed tank is divided into an upper spring bath, middle filtration clarification tank, and lower funnel-shaped sedimentation chamber. It exists in the spring water filtration and purification device based on the flow principle.
そしてまた,(9),脱臭から水質浄化の炭と凝固乾燥状態で水を適度に浸透するセメント並びに凝固体強度に砂を混ぜ合わせた三者配合の消臭浄化作用を有する接合材炭砂による素材配合応用濾過剤に存する。 And (9) a deodorizing and water purification charcoal, a cement that appropriately permeates water in a coagulated and dry state, and a cement charcoal sand that has a deodorizing and purifying action that combines sand with solidified body strength. It exists in the material combination application filter agent.
そしてまた,(10),脱臭から水質浄化の炭と凝固乾燥状態で水を適度に浸透するセメント並びに凝固体強度に砂を混ぜ合わせた三者配合より三素材を水で混練り固めた乾燥材を焼きあげて焼炭跡の複雑な孔道が微生物繁殖の巣となった消臭浄化作用を有する接合材炭砂による素材配合応用濾過剤に存する。 Also, (10) a desiccant that kneads and solidifies three materials with water from a combination of three components, which is a combination of deodorized and water-purified charcoal and a cement that suitably permeates water in a coagulated and dried state, and sand that is mixed with solidified strength. This is a filter material mixed with applied material, which has a deodorizing and purifying action, in which the complex pores of the charcoal mark have become the nest of microbial growth.
そしてまた,(11),脱臭から水質浄化の炭と凝固乾燥状態で水を適度に浸透するセメント並びに凝固体強度に砂を混ぜ合わせた三者配合より形成された球体の貫通穴へ線状物を通し帯状に編み並ぶつなぎ玉を水底に沈めて水質含有の窒素,リン化合物分解に炭,微生物による自然浄化の消臭浄化作用を有する接合材炭砂による素材配合応用濾過剤に存する。 And (11), linear material to the through-hole of the sphere formed from a combination of deodorized to water purification charcoal and cement that properly permeates water in the solidified and dried state and sand combined with solidified strength. It is a material-mixed application filtering agent that uses a bonding material charcoal sand that has a deodorizing and purifying action of natural purification by microorganisms by decomposing water-containing nitrogen and phosphorus compounds by submerging tie-balls that are knitted in a belt-like shape through water.
そしてまた,(12),脱臭から水質浄化の炭と凝固乾燥状態で水を適度に浸透するセメント並びに凝固体強度に砂を混ぜ合わせた三者配合より球体に形成された粒玉の使用時点検にタンク設備の濾過浄化槽より粒玉を容易に取り出せる網目帯袋に詰め包まれた球体の冷凍ブロック濾過浄化剤の消臭浄化作用を有する接合材炭砂による素材配合応用濾過剤に存する。 Also, (12), in-use inspection of spheres formed into spheres from a three-part combination of deodorized to water-purified charcoal and cement that properly permeates water in a solidified and dry state, and sand combined with solidified strength. In addition, there is a material-mixed application filter agent with coal sand that has a deodorizing and purifying action of a spherical frozen block filter cleaner packed in a mesh belt bag that can easily take out the balls from the filter tank of the tank facility.
上記のこのように構成された濾過浄化機構と濾過浄化剤Yの連携する水質浄化の仕組みは汚れた水の正常化にポンプ54と接続の汚水送管12を通して沈殿物と水を分離溜める沈殿室25の満水状態から対面同士の交互噛み合わせで一体となる濾過浄化各槽の上下上下と対照方位の流れから湧水浮力による球体濾過剤X同士間の適度の隙間より残留沈殿物が目詰まり無く漉されセメントL炭M砂W配合の水を適度に浸透する濾過浄化剤Yと窒素リン化合物を分解し消臭浄化作用を有する炭M素材並びに濾過浄化機構のこれらの働きにより浄水化された湧水を内容器上部の直方状出水口27より元の汚水源へ還流される循環型濾過浄化システムである。 The water purification system in which the filtration purification mechanism and the filtration purification agent Y configured as described above cooperate with each other in the normalization of dirty water through the
沈殿物と水を分離溜める漏斗状沈殿室25から湧水方式を得た。
そして,対面する両仕切り盤の交互噛み合わせで横に並列する各槽より上下対照方位の流水を見出す。
上記のこうした濾過浄化機構に適正のセメントL,炭M,砂W素材配合の適度の水の浸透から消臭浄化作用を有する濾過剤Yを見出す。
また,これら濾過剤Y応用の焼炭跡Zから浄化に必要な微生物繁殖の孔道Vを得た。A spring water system was obtained from the funnel-shaped
And the flowing water of the up-and-down contrast direction is found from each tank arranged side by side by alternately meshing the partition boards facing each other.
A filter agent Y having a deodorizing and purifying action is found from the permeation of appropriate water containing a suitable cement L, charcoal M, and sand W material in the above filtration purification mechanism.
Moreover, the microbial propagation hole V required for purification was obtained from the charcoal trace Z applied with the filter agent Y.
〔第1の実施の形態〕
本発明は,従来とは異なる逆転の発想からより自然に近い濾過浄化システムを実現したもので湧水式とそれらに順ずる濾過浄化剤Yの連携組合せを最大限に生かすために内部機構の核部分を対面としたこれらの交互噛み合わせからより高い機能より自然に濾過浄化を追求されたもので図1(A)はそのシステム全体を示されていて,まず,上部上蓋2は端辺ぐるりの縁棚63と中央部にタンク内部設置の下部円形仕切り盤5中央から垂直に伸びる汚水送管11を通す表裏貫通穴が設けられたその間のポンプ押し出し口と接続の汚水送管固定の台脚48並びに反側面縁棚の部分カット面77に電気コンセントフ−ドカバ−45を取り付けられている。また,上蓋2中央部の貫通穴75表面で接続の直角管上部仕切りに設けた貫通穴36へ一端が円板状突出のパイプ螺子37を内部から外部方向へ球体ウキ39をセットして軟質の漏水防止カバ−を包んで嵌め通し直角管上部表面にポンプ作動停止回路をセットされた電源切り替え装置ボックス42を抱き合わせでめ螺子で固定されこうしてポンプの作動停止を球体ウキ39の水位による上がり下がりとされる。
そして,こうした直角管と上方へ屈曲する上部が二段式パイプとなったそれらの本管部を接続し上段を通気孔33とされたその下段パイプへポンプ54からの汚水送管12が接続されている。
このように形成された,上蓋2の縁棚63裏面と内容器3内部から上蓋縁棚裏面と平行に外部へ突出の直方状出水口27を設けられた内容器3の縁棚64表面間へパッキンGを挟めその内容器縁棚64裏面には最も重要とされる部位箇所から出水口26と同形カットで内容器3外側の上半部全体を覆うかっこうでタンク1上部の縁棚65表面間へ内部パッキンHを挟めてそれぞれ共通するねじ穴47の等角度八方からボルト締めにより上部を密閉される。
そして,タンク内部と内容器3間のパッキンHでは外部への漏水防止にいくぶん窮屈に設計されている。[First Embodiment]
The present invention realizes a filtration purification system that is closer to nature from the idea of reversal that is different from the conventional one, and in order to make the best use of the combined combination of the spring type and the filtration purification agent Y that follows them, the core of the internal mechanism From these alternate meshing with the parts facing each other, the purifying process is naturally pursued with a higher function. FIG. 1 (A) shows the entire system. First, the
Then, the
Between the surface of the
The packing H between the tank interior and the
こうした装置の外回りでは上蓋2へ設置のコンセント差し込みプラグ44を本体に設置されて雨水等の侵入防止にフ−ドカバ−45で保護され電気を結ぶ配線はカバ−パイプSで保護されている。
また,タンクのU形出水口26周りに設ける囲い段32には直方状出水口27の補助カバ−28取りつけとその反側面縁棚にはタンク1,上蓋2,内容器3に共通の部分カット77がなされてる。
タンク1下方には漏斗状からすこし上段へ台座ボックス50への設置に台座と共通の螺子穴47を有する円形鍔49が設けられている。Outside the device, an outlet plug 44 installed on the
Further, an
A
〔第2の実施の形態〕
ここでは内部機構の設備と消臭濾過浄化剤のセット手順を説明する。
はじめに,図3(D)に示された沈殿室内25上部に設けた四方の土台梁受け23へ図2(A)で示す土台梁20を上方から載せる格好で先端部に設けるくぼみ22螺子穴へ土台梁受け23の受け穴よりボルトで固定されたこうした土台梁20表面に設けたくぼみ棚24へド−ナツ形消臭浄化剤1を嵌め込んで四方梁を結ぶ上下部貫通の突出パイプ38へ図1(B)に示す上部ぐるりが水路孔13となった中円筒仕切り8と特大円筒仕切り10を有する下部円形仕切り盤5の中央から垂直に伸びる汚水送管11を嵌め合わせで裏面5と土台梁20表面が合致し双方共通の螺子穴よりビス留めで固定されている。
そして,このようにセットされた下部円形仕切り盤5の中央に位置する汚水送管11と中円筒8並びに特大円筒10間が隔間仕切りとなって全体を五槽に区切られたこれら各槽へそれぞれ適正の図7(A)に示す網目帯袋Nに粒玉Xを詰め込み図6(C)に示される冷凍された円筒の個々ブロック濾過剤Uをセットしたその濾過剤U同士間隙間へ対面する図1(B)に示す内容器3底裏面に設けた上部円形仕切り盤4より突出の対面との噛み合わせで隔位置に設けられた小円筒7,大円筒9の挿入を上部より内容器3全体を押し下げてU形出水口26と直方状出水口27の合致と同じく両盤の噛み合いで一体の濾過浄化槽が形成される。
そして,こうして確立された内部設備の強度補強に内部配設の汚水送管11へ図3(A)に示された湧水孔78を設けたド−ナツ形円盤Pを通して付設め螺子74を有する両端部螺子式パイプ73と上段のド−ナツ形円盤31を嵌め入れ内容器底面の中央部周囲と上蓋裏面の中央部周囲へあてた両円盤を逆締めとなった双方の付設め螺子で固定されてこうしてタンク内部設備全体を補強とされる。
そして,このように形成されたタンク本体1を台座ボックス50の漏斗状受け孔51へ設置してここに濾過浄化システムの完成となる。[Second Embodiment]
Here, the installation procedure of the equipment of the internal mechanism and the deodorizing filter cleaner will be described.
First, to the hollow 22 screw hole provided at the front end of the
Then, the
Further, in order to reinforce the strength of the internal equipment thus established, the internally disposed
And the tank
上記より装置と連携の消臭濾過浄化剤Yでは凝固乾燥状態で水を適度に浸透する石灰岩粘土等で構成された接合材のセメントを用いて消臭と水質浄化に優れた炭素材と強度を高める砂素材のこれら三者配合をベ−スに用途形状にあった練り加工が容易なことと炭の優れた作用の持続保持に強度を高める砂Wと凝固に優れたセメントLの組合せで炭Mの持つ特性を最大限に引き出す素材から図6(A)図6(B)に示した消臭濾過浄化剤Yを形成されている,そしてこれら素材を通じて自然浄化の原点は活性菌であると考え身近な自然にマリモを想定して三素材の性質特性を応用する浄化菌の繁殖にもっとも適した形態を球体に置き換えて自然浄化を追求された図6(A)に示す消臭濾過浄化剤Xである。
また,上記する球体Xを焼きあげて浄化菌繁殖の巣を形成する図6(B)に示す焼炭跡Zではその複雑な孔道Vが良性の水生植物藻等の繁殖源ともされた生物による焼炭跡濾過浄化剤Zである。
そしてまた,自然界で菌を繁殖させた焼炭跡Zを菌の生体を損わない低温保存や培養が可能である。From the above, the deodorizing filtration purification agent Y in cooperation with the device uses a cement material made of limestone clay and the like that penetrates water in a solidified and dried state, and has a carbon material and strength excellent in deodorization and water purification. Based on these three combinations of sand materials to be raised, charcoal is a combination of sand W that increases strength and cement L that is excellent in solidification for easy kneading processing suitable for the shape of use and sustained maintenance of the excellent action of charcoal. The deodorizing filtration purification agent Y shown in Fig. 6 (A) and Fig. 6 (B) is formed from the material that maximizes the characteristics of M, and the origin of natural purification is active bacteria through these materials Deodorizing and filtering purification agent shown in Fig. 6 (A) in which the most suitable form for breeding of purified bacteria that apply the properties of the three materials is assumed to be natural, and the natural form is replaced with a sphere. X.
In addition, in the burnt charcoal mark Z shown in FIG. 6 (B) where the above-mentioned sphere X is baked to form a nest for purifying bacteria, the complex pores V are caused by living organisms such as benign aquatic plant algae. It is a charcoal scar filtration purification agent Z.
In addition, it is possible to perform low-temperature storage and culture of the charcoal trace Z in which bacteria are propagated in nature without damaging the organisms of the bacteria.
これまで述べた第1の実施の形態並びに第2の実施の形態より装置システムの要である交互噛み合わせの濾過浄化槽と消臭濾過浄化剤(冷凍ブロック濾過剤U)Yによる水質の向上に連携を基本として本発明から逸脱しない範囲で変形変則を可能とする。
例えば,交互噛み合わせの濾過浄化各槽は装置規模に応じた区切りとされ五槽に限定されない。
タンク1形状では,漏水防止の密閉が完全であれば円筒に限らず他形を可能とされる。
下部円形仕切り盤5の円周周囲に設けた昇流孔14の穴サイズ調整に,状況に応じた網下敷きの付設を可能とする。(又,タンク上部ぐるりを出水口とすることも可能である)
そして,消臭濾過浄化剤(球体濾過剤X焼炭跡Z)Yは用途に応じた形状サイズとなる
また,球体濾過剤Xを入れる網目帯袋Nの箱型も可能である。Cooperation with the improvement of water quality by the alternately meshing filtration purification tank and the deodorizing filtration purification agent (refrigeration block filtration agent U) Y which are the key points of the apparatus system from the first embodiment and the second embodiment described so far. Based on the above, deformation anomalies can be made without departing from the present invention.
For example, each of the meshing and purifying tanks alternately meshed is divided according to the scale of the apparatus and is not limited to five tanks.
In the
In order to adjust the hole size of the ascending
And the deodorizing filter purification agent (spherical filter agent X charcoal trace Z) Y becomes a shape size according to a use. Moreover, the box shape of the mesh belt N which puts the spherical filter agent X is also possible.
本発明においては上下水はもとより空調設備等でも多少手を加える程度で現状の装置利用を可能とされ図7Cに示す生鮮品保存容器F等も濾過剤Yとセット利用で可能となる。
そして,水質浄化の利用では,浴場の湯垢人毛等の除去や養殖場,溜め池等の窒素,燐化合物分解に好適で,粉砕された生ゴミ処理も可能である。
また,湖や海洋には水上での操業を可能とした移動式の図5(A)に示した濾過浄化システム船82が適当で,帯状に繋げた焼炭跡濾過剤Zを湖底あるいは海底へ沈めて繁殖菌の浄化方法も利用可能である。
消臭濾過浄化剤Yの他用途利用では臭い除去の脱臭剤,植物(生花等)あるいは飲料用の活性水や建築資材寝具等があげられる。
以上,これまで述べた本発明に関する素材は消臭濾過浄化剤Yについては本記載そのもので内部機構から湧水式濾過浄化装置E全般をプラスチックまたは金属としパッキンはゴムあるいは軟質の合成樹脂を採用し帯袋線状物には合成樹脂金属繊維をもちいて保存容器Fでは金属,合成樹脂,木を主とされる。ここで,本発明の中で上記記述のポンプ,電気関連係,バルブ,配管,ボルトについては既存あるいは通常の方法から差し控えとする。In the present invention, it is possible to use the current apparatus to some extent even with air conditioning equipment as well as water and sewage, and the fresh product storage container F shown in FIG.
In the use of water purification, it is suitable for removing scale human hair and the like in bathhouses and decomposing nitrogen and phosphorous compounds in aquaculture farms, reservoirs, etc., and it is possible to treat crushed garbage.
In addition, a mobile filtration and purification system ship 82 shown in FIG. 5 (A) that can be operated on the water is suitable for lakes and oceans. A method for purifying submerged bacteria is also available.
Other uses of the deodorizing filter purification agent Y include deodorizers for removing odors, activated water for plants (fresh flowers, etc.) or beverages, bedding materials for building materials, and the like.
As mentioned above, the materials related to the present invention described above are the description itself for the deodorizing filter purification agent Y, and the entire structure is made of plastic or metal from the spring water filtration and purification device E, and the packing is made of rubber or soft synthetic resin. A synthetic resin metal fiber is used for the obi-bag, and the storage container F is mainly made of metal, synthetic resin, and wood. Here, in the present invention, the pumps, electrical relations, valves, pipes, and bolts described above are refrained from existing or ordinary methods.
1 タンク本体
2 上蓋
3 内容器
4 上部円形仕切り盤
5 下部円形仕切り盤
6 湧水槽
7 小円筒(上部円形仕切り盤接合)
8 中円筒(下部円形仕切り盤接合)
9 大円筒(上部円形仕切り盤接合)
10 特大円筒(下部円形仕切り盤接合)
11 汚水送管(内部配管)
12 汚水送管(外部配管)
13 水路孔
14 昇流孔
15 第一槽(タンク内面〜特大円筒間)
16 第二槽(特大円筒〜大円筒間)
17 第三槽(大円筒〜中円筒間)
18 第四槽(中円筒〜小円筒間)
19 第五槽(小円筒〜汚水送管間)
20 土台梁
21 隆起部
22 くぼみ
23 土台梁受け
24 くぼみ棚
25 沈殿室(外形は漏斗状)
26 U形出水口(又はU形カット)
27 直方状出水口
28 出水口補助カバ−
29 排出口
30 バルブ
31 ド−ナツ形円盤(上段)
P ド−ナツ形円盤(下段)
32 囲い段
33 通気孔(送風管)
R 上蓋空気孔
34 吸水管
35 貫通穴
36 直角管仕切り貫通穴
37 円板突出パイプ螺子
38 突出パイプ
39 球体ウキ
40 心棒
41 雨水侵入防止カバ−
42 電源切り替え装置ボックス
43 コンセント
44 プラグ
45 コンセントフ−ドカバ−
46 プラグカバ−
47 螺子穴
48 台脚
49 タンク円形鍔
50 台座ボックス
51 漏斗状受け孔
52 台座内部空間
53 台座内部底面
54 ポンプ
55 配電盤
56 伝導板
57 電源スイッチ
58 電源引き込みコンセント
59 ポンプ配線
60 バランス螺子
61 観音開き
62 取っ手
S 配線カバ−(カバ−パイプ)
G 上段部パッキン
H 内部パッキン
K 直方部パッキン
63 上蓋縁棚
64 内容器縁棚
65 タンク本体縁棚
66 換気孔
67 抜け底内容器
68 内部底縁棚
69 上部縁棚(抜け底)
70 抜け底部
71 内部底縁棚パッキン
72 独立体の上部円形仕切り盤(単独)
73 両端部螺子式パイプ
74 付設め螺子
75 上蓋中央貫通穴
76 上部円形仕切り盤貫通穴
77 反側面部分カット
78 湧水孔
79 汚水送管配管孔
80 吸水管配管孔
81 配線用螺子パイプ固定穴
82 濾過浄化システム船
L セメント
M 炭
W 砂
Y 濾過剤(消臭濾過浄化剤)
Z 焼炭跡濾過剤
X 球体濾過剤(消臭濾過浄化剤)
Q 球体貫通穴
T 繋ぎ玉
U 冷凍円筒ブロック消臭濾過浄化剤
I ド−ナツ形消臭濾過浄化剤
N 網目帯袋
V 孔道
E 濾過浄化装置
F 生鮮品保存容器
83 本体
84 蓋
85 通気口
86 通気路(内部底面の通気路は水切り兼用)
87 通気穴
88 輪環
89 タンク口
90 漏水防止カバ−
91 直角管
92 濾過剤棚
93 コンセントプラグボックス
94 水中ポンプ
95 出水管
96 濾過剤中仕切り板1
8 Middle cylinder (lower circular partition board joint)
9 Large cylinder (joining the upper circular partition)
10 Oversized cylinder (lower circular partition board joint)
11 Sewage pipe (internal piping)
12 Sewage pipe (external piping)
13
16 Second tank (between extra large cylinder and large cylinder)
17 Third tank (between large cylinder and middle cylinder)
18 4th tank (between middle cylinder and small cylinder)
19 Fifth tank (between small cylinder and sewage pipe)
20
26 U-shaped water outlet (or U-shaped cut)
27
29
P Donut shaped disk (lower)
32 Enclosure step 33 Ventilation hole (air blow pipe)
R Upper cover air hole 34
42 Power
46 Plug cover
47 screw hole 48
G Upper stage packing H Internal packing K Rectangular packing 63 Upper
70 Outgoing bottom 71 Inner bottom edge shelf packing 72 Independent upper circular partition (single)
73 Threaded
Z Charcoal trace filter agent X Sphere filter agent (deodorant filter cleaner)
Q Sphere through-hole T Connecting ball U Frozen cylindrical block deodorant filtration purification agent I Donut-shaped deodorization filtration purification agent N Mesh belt V Hole E Filtration purification device F Fresh product storage container 83
87
91 Right angle pipe 92
Claims (12)
上方より,タンク上部の口周囲に設ける棚状縁取りへU形出水口に合致するようタンクと同形状となった円筒形内容器をタンク内部よりセットし漏水防止のパッキンを挟めて上段へ上蓋を載せる格好でその縁取りからボルトによって固定する。
この時内容器のセット状況は固定部分での吊り状態である。
こうした円筒形内容器の仕組みは底面中央に空洞を設けた貫通穴へ汚水送管を通しその周囲下方が浄化水路となって容器内部の湧水槽へ湧き出すようになっている。
そして,湧水槽へ溜まる水は上部に設ける内部が水路となった直方状の出水口より流れるようになっている。
一方,下方は濾過浄化槽を形成する対面との一方面となる円筒形内容器の底裏面へ筒丈を均等に下部ぐるりに水路孔を設け輪状となった二つの円筒を中心よりタンク内面方向へ小,大と設定し小円筒は湧水槽表面へ抜ける底裏面の穴周囲へ設置され大円筒の配置は対面との互い違い噛み合わせで隔位置への設置となる。
そして,これら仕切り円筒は平面となった底裏面へ溶接で固定される。
このように構成され上部円形仕切り盤の対面となる下方は上部との関係より逆方位となったタンク同形の下部円形仕切り盤へ上部同様つつ丈を均等に上部ぐるりに水路孔を設け輪状となった二つの円筒を中心よりタンク内面方向へ中,特大と設定し中円筒は上部円形仕切り盤に設ける小円筒大円筒の間位置で設置され特大円筒はタンク内面と上部円形仕切り盤に設ける大円筒の間位置で設置される。
こうした配置で設置された下部円形仕切り盤の中央に貫通穴を設けたその周囲へ上部へ垂直に伸びる汚水送管を濾過浄化槽への汚水侵入防止に溶接により接合されている。
そして,表裏両面を平面とする下部円形仕切り盤の円周周囲には梁幅の等角度四方それぞれの平面間へ第一槽範囲に沈殿室から汚水を引き込むための網状の汚水昇流孔を設けてある。
また,中,特大仕切り円筒は下部円形仕切り盤の表面へ上部同様溶接で固定される。
このように構成された下部円形仕切り盤と上部円形仕切り盤との合致に漏斗状沈殿室の室内上部の等角度四方平均位置に設置された各独立体の梁受けへ突出部が汚水送管と嵌め合わせとなる輪状パイプの下部へ表面に脱臭を主とするセメント,炭,砂配合のド−ナツ
カットされたこうした同形サイズの四本梁をその下部端から上方へ等角度四方平均位置に溶接で固定され放射状に伸びる先端部仕切り間まわりを輪状に縁取りされたタンク内面と同形の土台梁を梁受けへボルトで固定されてくぼみ隆起が消臭浄化剤セットで平面となったこうした土台梁表面に下部円形仕切り盤を上から載せるかっこうでセットされて円周周囲に設ける等角度四方の平面地で梁表面の隆起両部へビス留めで固定されこのように設定された向かい合った上部と下部両盤の交互位置に設置の仕切り円筒を軸にその間を空間とする五つの槽が並列に設けられている。
そして,これら核槽をタンク内部の円周より中心部へ第一槽をタンク内部の内面と下部円形仕切り盤から突出の特大仕切り円筒間,第二槽を特大仕切り円筒と上部円形仕切り盤から突出の大仕切り円筒間,第三槽を大仕切り円筒と下部円形仕切り盤から突出の中仕切り円筒間,第四槽を中仕切り円筒と上部円形仕切り盤から突出の小仕切り円筒間,そして第五槽を小仕切り円筒と下部円形仕切り盤中央部に接合の汚水送管の間とし,各槽のこうした配置構成を上部と下部両盤の互いの噛み合せにより一体となり濾過浄化槽を形成し装置を確立される。
そして,これら設備の各槽へ接合材,炭,砂を球体に練り固め乾燥させた粒玉を各槽の形状と同形に水に浸し冷凍で詰め固めた輪状の円筒ブロック消臭濾過浄化剤を土台へ設置された下部円形仕切り盤の全槽へ上方より各槽と同形の個々ブロックを詰め込みこうして個々ブロック間の隙間で上部円形仕切り盤との噛み合わせとなる。
そして,こうした機構の流水を汚水送管から流れ込む満水状態の沈殿室より下部仕切り盤に設ける昇流孔を通り第一槽より汚水を濾過しながら上昇し上部盤仕切りへ達して仕切り円筒上部ぐるりの水路孔を通って第二槽へ入り流れは汚水を濾過しながら下降し下部盤仕切に達して仕切円筒下部ぐるりの水路孔を通って第三槽へ入り流れは浄化しながら上昇し上部盤仕切に達して仕切円筒上部ぐるりの水路孔を通って第四槽へ入り流れは浄化しながら下降し下部盤仕切りに達して仕切り円筒下部ぐるりの水路孔を通って第五槽へ入り流れは浄水となって上昇し湧水槽へ湧き出すようになる。
このように,上下上下と交互対照方位に流れる各槽への送水を沈殿物溜めとされる下方の漏斗状沈殿室では室内上部の四方梁受けで支えられた土台梁のド−ム状仕切りより逆円錐状に中空となったその中心下部に沈殿物を取り出す下方外部へ突出する円筒の排出口をまたその下部には排出物調整バルブが設けられこうして形成された沈殿室への汚水入を土台梁中央のパイプより流れ込むようになっていてこうした汚水送りをパイプの突出部分へ下部円形仕切り盤中央に接合された上方へ垂直に伸びる汚水送管を嵌め合わせ連結状態で内容器から上蓋表面へ突き抜け先端部は接続された上方へ直角に屈曲する段差配管となっている。
そして,これら汚水送管外部ぐるりにはタンク内部設備の浮力と圧力おさえに湧水孔を設けたド−ナツ形円盤を汚水送管へ通した両端部螺子式パイプの付設め螺子で内容器内部底面と上蓋裏面のそれぞれの密接する位置に固定されて上蓋表面より突出の汚水送管と直角管を接続するめ螺子固定で内部設備全体を支えるようになっている。
そして,これら直角管内部仕切りより表面へ抜ける貫通穴周囲へ下方沈殿室内の沈殿物満杯から汚水の逆流防止に一端ぐるりを鍔状に縁取りされたパイプ螺子へ球体ウキの心棒を下方より通しパイプ螺子下部の筒状から縁取りを包む状態で漏水防止に伸縮性を持った素材カバ−でとじられたパイプ螺子を直角管外部表面でポンプの作動停止回路を内蔵する電源切替え装置ボックスを抱き合わせでめ螺子で密着固定される。
そして,これら逆流防止装置の仕組みは沈殿室内の沈殿物満杯から汚水送管内部の水位上昇をともない浮力によるウキの浮上でポンプの作動を停止するようになる。
また,これら作動停止スイッチは通常の配線回路となる。
上記のこのように構成された内部設備と連結する外部では,タンク上部の縁取りからハット状上蓋周囲の縁棚へ貫通する等角度八方の螺子穴よりボルトで固定されたその上蓋表面へ出水口方向に汚水送管を固定する台脚を設けてその対照縁位置には上蓋へコンセントフ−ドカバ−その密接するタンク上部へはプラグカバ−を設けられたこうした装備に電気配線カバ−の螺子パイプを上蓋の表面中央に設ける電源切替え装置ボックスとコンセント間プラグと台座ボックス間へそれぞれ接続されている。
そして台脚で固定される汚水送管は下方の台座ボックスに設置のポンプへ接続される。
そしてまた,上記のこのような構成で一体形成されたタンク本体の設置を台座ボックスに設けた中段から下部面をカットされたタンク外部と同形の漏斗状受け孔へ本体下方を嵌め合わせて台座表面と密接するタンク外部ぐるりの円形鍔表面から台座裏面へ貫通する等角度六方の螺子穴よりボルトによって固定される。
このようにセットされ空間となった台座ボックスの内部状況は内部側面にポンプ並びに電源配線回路器を設置されボックスの表面中央から内部中間地点へ本体の漏斗状下部が入る状態でその下方に下部設置バルブより排出の沈殿物回収容器が配置される
そして,これら装置設置の平均値を台座ボックスの四方角底辺に設けるバランス螺子で調整される。
上記のこのように構成されたタンクシステムから対面式仕切り機構の交互噛み合わせを特徴とする湧水式濾過浄化装置及び消臭浄化作用を有する接合材炭砂による素材配合応用濾過剤。A system inside the tank formed by adjusting the funnel-shaped sedimentation chamber discharge in the lower part of the cylindrical tank that has a funnel-shaped lower part and the filtration and purification equipment and filter medium in and out of the upper lid, and the funnel-shaped sedimentation chamber discharge at the bottom. Is divided into an upper spring tank, a middle filtration septic tank, and a lower funnel-shaped sedimentation chamber. It will be explained in terms of docking from both upper and lower parts from the face-to-face configuration of these functional mechanisms.
From above, set a cylindrical inner container that is the same shape as the tank to fit the U-shaped water outlet to the shelf-shaped rim that is provided around the mouth of the upper part of the tank. Fix it with bolts from its edging.
At this time, the setting state of the inner container is a suspended state at the fixed portion.
The mechanism of such a cylindrical inner container is such that a sewage pipe is passed through a through hole provided with a cavity at the center of the bottom surface, and the lower part of the circumference becomes a purification water channel and flows out to a spring tank inside the container.
And the water which accumulates in a spring tank flows from the rectangular water outlet which the inside provided in the upper part became a channel.
On the other hand, the bottom is the bottom back surface of the cylindrical inner container that is one side of the opposite face that forms the filtration septic tank. The small and large cylinders are set around the hole on the bottom rear surface that goes out to the surface of the spring tank, and the large cylinders are placed in separate positions by meshing with each other.
And these partition cylinders are fixed to the bottom bottom surface which became a plane by welding.
The lower part facing the upper circular partitioning board constructed in this way is shaped like a ring with a uniform water channel hole around the upper part of the lower circular partitioning board with the same shape as the tank in the opposite direction from the relationship with the upper part. Two cylinders from the center to the tank inner surface are set as extra large, and the middle cylinder is installed between the small cylinder and large cylinder provided in the upper circular partition, and the extra large cylinder is provided in the tank inner surface and upper circular divider. It is installed at a position between.
A sewage pipe extending vertically upward to the periphery of a through hole provided in the center of the lower circular partition installed in such an arrangement is joined by welding to prevent sewage from entering the filtration septic tank.
Around the circumference of the lower circular partition with both front and back sides as planes, a net-like sewage upflow hole for drawing sewage from the sedimentation chamber is provided in the first tank area between the planes of equiangular sides of the beam width. It is.
The middle and extra large partition cylinders are fixed to the surface of the lower circular partition board by welding as in the upper part.
The protrusions are connected to the sewage pipes to the beam receivers of each independent body installed at the equiangular four-way average position of the upper part of the funnel-shaped sedimentation chamber in the match between the lower circular partition and the upper circular partition configured in this way. Donut containing cement, charcoal and sand mainly deodorizing on the surface of the ring-shaped pipe to be fitted
The cut four beams of the same size are fixed from the lower end to the equiangular square average position by welding, and the base beam that is the same shape as the inner surface of the tank that is rimmed around the tip partition that extends radially is beamed. On the surface of the base beam, the lower circular partition board is set from above on the surface of the foundation beam, which is fixed with bolts to the receiver and the indentations are flattened with the deodorant purifier set. Five tanks are installed in parallel with the partition cylinder installed at the alternating positions of the upper and lower panels facing each other and fixed at the raised parts of the beam surface with screws. Yes.
Then, these nuclear tanks protrude from the circumference inside the tank to the center, the first tank protrudes from the inner surface of the tank and the extra large partition cylinder protruding from the lower circular partition, and the second tank projects from the extra large partition cylinder and upper circular partition. Between the large partitioning cylinders, between the large partitioning cylinder and the middle partitioning cylinder protruding from the lower circular partition, the fourth tank between the middle partitioning cylinder and the small partitioning cylinder protruding from the upper circular partitioning board, and the fifth tank Between the sewage pipes joined to the center of the small partition cylinder and the lower circular partition, and the arrangement of each tank is integrated by meshing the upper and lower panels together to form a filtration septic tank, and the device is established. .
Then, a ring-shaped cylindrical block deodorizing filter cleaner, which is made by immersing the jointing material, charcoal, and sand into spheres in each tank of these facilities and then drying them after immersing them in water in the same shape as each tank and stuffing them by freezing. The individual blocks of the same shape as the respective tanks are packed from above into all the tanks of the lower circular partition installed on the base, and thus mesh with the upper circular partition through the gaps between the individual blocks.
Then, from the full sedimentation chamber where the flowing water of such a mechanism flows from the sewage pipe, it passes through the ascending hole provided in the lower partition plate, rises while filtering the sewage from the first tank, reaches the upper plate partition and reaches the upper part of the partition cylinder. The flow entering the second tank through the water channel hole descends while filtering sewage, reaches the lower panel partition, enters the third tank through the water channel hole around the lower part of the partition cylinder, and rises while purifying the upper panel partition. The flow enters the fourth tank through the water channel hole around the upper part of the partition cylinder and the flow descends while purifying, reaches the lower panel partition, and enters the fifth tank through the water hole in the lower part of the partition cylinder. It rises and begins to spring into the spring tank.
In this way, in the lower funnel-shaped sedimentation chamber in which the water is fed to each tank flowing in the up and down and up and down and alternating control directions, the domed partition of the base beam supported by the four-way beam receiver at the upper part of the chamber is used. A cylindrical discharge port that protrudes downward from the lower part of the center, which is hollow in an inverted conical shape, and a discharge adjustment valve is provided at the lower part. The sewage feed that flows from the pipe in the center of the beam is fitted into the projecting part of the pipe and joined to the center of the lower circular partition board, and the sewage feed pipe extending vertically upward is connected to the upper lid surface from the inner container in a connected state. The penetrating tip is a stepped pipe that bends at a right angle to the connected top.
These sewage pipes are surrounded by a donut-shaped disk with spring holes in the tank's internal buoyancy and pressure, and threaded pipes attached to both ends of the inner pipe. It is fixed at close positions on the bottom surface and the back surface of the upper lid, and the whole internal equipment is supported by screw fixing that connects the sewage water pipe and the right angle tube protruding from the upper cover surface.
In order to prevent backflow of sewage from the full sediment in the lower sedimentation chamber to the periphery of the through hole that passes through the surface from the internal partition of the right-angle pipe, the spherical rod mandrel is passed from below to the pipe screw. A pipe screw, which is wrapped with a material cover that stretches to prevent water leakage while wrapping the rim from the bottom cylindrical shape, ties together a power supply switching device box that contains a pump stop circuit on the outer surface of the right-angle tube. It is fixed tightly with.
And the mechanism of these backflow prevention devices comes to stop the operation of the pump from the fullness of the sediment in the sedimentation chamber to the rising of the ground by buoyancy as the water level rises inside the sewage pipe.
Moreover, these operation stop switches become a normal wiring circuit.
At the outside connected to the internal equipment constructed as described above, the direction of the outlet is directed to the surface of the upper lid fixed with bolts from an equiangular screw hole that penetrates from the rim of the upper part of the tank to the edge shelf around the hat-shaped upper lid. A base for fixing the sewage pipe is provided, and at the contrast edge position, the outlet cover is connected to the upper cover. The plug pipe is provided to the upper part of the tank close to the upper cover, and the screw pipe of the electric wiring cover is attached to the upper cover. Are connected to the power supply switching device box, the plug between the outlets, and the pedestal box provided at the center of the surface of the power supply.
And the sewage pipe fixed with a base is connected to the pump installed in a lower pedestal box.
In addition, the tank body integrally formed in the above-described configuration is fitted into the funnel-shaped receiving hole having the same shape as the outside of the tank whose lower surface is cut from the middle stage provided in the pedestal box, and the pedestal surface. It is fixed with bolts from equiangular hexagonal screw holes penetrating from the circular saddle surface around the outside of the tank in close contact with the back of the pedestal.
The internal state of the pedestal box set in this way is that the pump and power wiring circuit are installed on the inner side, and the lower part is installed below the funnel-shaped lower part of the main unit from the center of the box to the middle of the box The sediment collection container discharged from the valve is arranged. And the average value of the installation of these devices is adjusted by the balance screw provided at the bottom of the square in the pedestal box.
A spring-water type filtration purification device characterized by alternating meshing of a face-to-face partition mechanism from the tank system configured as described above, and a material-mixed application filter agent with bonding material charcoal sand having a deodorizing and purifying action.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2007166949A JP2009082761A (en) | 2007-05-29 | 2007-05-29 | Spring water type filtering and purifying apparatus and material compounded and applied filter medium by joining material carbon sand having deodorizing and purifying action |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2007166949A JP2009082761A (en) | 2007-05-29 | 2007-05-29 | Spring water type filtering and purifying apparatus and material compounded and applied filter medium by joining material carbon sand having deodorizing and purifying action |
Publications (1)
Publication Number | Publication Date |
---|---|
JP2009082761A true JP2009082761A (en) | 2009-04-23 |
Family
ID=40656947
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP2007166949A Withdrawn JP2009082761A (en) | 2007-05-29 | 2007-05-29 | Spring water type filtering and purifying apparatus and material compounded and applied filter medium by joining material carbon sand having deodorizing and purifying action |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP2009082761A (en) |
Cited By (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB2505393A (en) * | 2012-05-23 | 2014-03-05 | Veolia Water Solutions & Tech | Filtration apparatus |
CN105952509A (en) * | 2016-06-24 | 2016-09-21 | 王增荣 | Combined type automobile engine tail gas treatment system |
CN108164073A (en) * | 2018-01-24 | 2018-06-15 | 朱思成 | A kind of multi-functional unconventional water resource comprehensive utilization device |
CN110143722A (en) * | 2019-05-24 | 2019-08-20 | 中国地质大学(武汉) | A kind of geology mineral filter chamber and filter method handling micro-polluted water |
CN113078738A (en) * | 2021-03-29 | 2021-07-06 | 淮阴工学院 | Step water power generation energy-saving energy storage device |
CN115650531A (en) * | 2022-12-26 | 2023-01-31 | 山东和创智云环保装备有限公司 | Water plant water treatment degassing unit |
CN116819030A (en) * | 2023-08-28 | 2023-09-29 | 天津天元信息技术有限公司 | Tap water pipeline water quality purifying and monitoring device |
CN116856506A (en) * | 2023-08-11 | 2023-10-10 | 绍兴博美佳厨卫科技有限公司 | Intelligent anti-blocking water tank |
CN117298744A (en) * | 2023-11-29 | 2023-12-29 | 泰州市江洲数控机床制造有限公司 | Mortar reflux device for sand line cutting machine |
-
2007
- 2007-05-29 JP JP2007166949A patent/JP2009082761A/en not_active Withdrawn
Cited By (16)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB2505393A (en) * | 2012-05-23 | 2014-03-05 | Veolia Water Solutions & Tech | Filtration apparatus |
US10773213B2 (en) | 2012-05-23 | 2020-09-15 | Veolia Water Solutions & Technologies Support | Filtration apparatus |
CN105952509A (en) * | 2016-06-24 | 2016-09-21 | 王增荣 | Combined type automobile engine tail gas treatment system |
CN105952509B (en) * | 2016-06-24 | 2018-06-15 | 王增荣 | Combined type automobile engine exhaust treatment system |
CN108164073A (en) * | 2018-01-24 | 2018-06-15 | 朱思成 | A kind of multi-functional unconventional water resource comprehensive utilization device |
CN108164073B (en) * | 2018-01-24 | 2019-05-07 | 秦皇岛拙诚鸿运环境科技有限公司 | A kind of multi-functional unconventional water resource comprehensive utilization device |
CN110143722A (en) * | 2019-05-24 | 2019-08-20 | 中国地质大学(武汉) | A kind of geology mineral filter chamber and filter method handling micro-polluted water |
CN113078738A (en) * | 2021-03-29 | 2021-07-06 | 淮阴工学院 | Step water power generation energy-saving energy storage device |
CN115650531A (en) * | 2022-12-26 | 2023-01-31 | 山东和创智云环保装备有限公司 | Water plant water treatment degassing unit |
CN115650531B (en) * | 2022-12-26 | 2023-03-21 | 山东和创智云环保装备有限公司 | Water plant water treatment degassing unit |
CN116856506A (en) * | 2023-08-11 | 2023-10-10 | 绍兴博美佳厨卫科技有限公司 | Intelligent anti-blocking water tank |
CN116856506B (en) * | 2023-08-11 | 2024-01-09 | 绍兴博美佳厨卫科技有限公司 | Intelligent anti-blocking water tank |
CN116819030A (en) * | 2023-08-28 | 2023-09-29 | 天津天元信息技术有限公司 | Tap water pipeline water quality purifying and monitoring device |
CN116819030B (en) * | 2023-08-28 | 2023-10-31 | 天津天元信息技术有限公司 | Tap water pipeline water quality purifying and monitoring device |
CN117298744A (en) * | 2023-11-29 | 2023-12-29 | 泰州市江洲数控机床制造有限公司 | Mortar reflux device for sand line cutting machine |
CN117298744B (en) * | 2023-11-29 | 2024-01-26 | 泰州市江洲数控机床制造有限公司 | Mortar reflux device for sand line cutting machine |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
JP2009082761A (en) | Spring water type filtering and purifying apparatus and material compounded and applied filter medium by joining material carbon sand having deodorizing and purifying action | |
CN103285661B (en) | The equipment for separating liquid from solid of waste water suspension | |
CN104098231A (en) | Immobilized microorganism constructed wetland system | |
CN201534813U (en) | Composite filler biofilter | |
CN205045946U (en) | Modular biochemical treatment equipment | |
CN101323484A (en) | Nesting type multidimensional membrane assembly dynamic membrane bioreactor | |
KR101638519B1 (en) | Convergence floating type water management system and operating method thereof | |
RU2005108427A (en) | METHOD FOR PREPARING DRINKING WATER AND INSTALLATION FOR ITS IMPLEMENTATION | |
US20060283795A1 (en) | System And Method For Treating Wastewater Using Coir Filter | |
CN104556485A (en) | High-efficiency oil removal and turbidity removal device and oil-containing and turbidity-containing wastewater treatment process | |
CN208532527U (en) | A kind of sewage treatment unit rich in particulate matter | |
KR101844819B1 (en) | Convergence floating type water management system | |
CN205367995U (en) | Underground water purification device | |
CN204968994U (en) | Marine park circulating filter apparatus | |
CN104118941A (en) | Efficient nitrogen and phosphorus removal artificial wetland device | |
CN210711084U (en) | Agricultural sewage treatment environmental protection equipment | |
JP3779634B2 (en) | Long fiber filtration device | |
JP2005131455A (en) | Hollow purification medium and purification apparatus | |
US7160460B2 (en) | System and method for treating wastewater using coir filter | |
CN205241323U (en) | Automatic wash biological filter reactor | |
CN204400738U (en) | Efficient degreasing separator for removing dirt | |
KR20160042333A (en) | Clean water device for aquarium | |
CN104086058A (en) | Aerobiotic/anaerobic artificial wetland system | |
CN208182808U (en) | A kind of split type sewage treatment unit of built-in embrane method peculiar to vessel | |
CN203819101U (en) | Novel movable sewage treatment vehicle |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
A621 | Written request for application examination |
Free format text: JAPANESE INTERMEDIATE CODE: A621 Effective date: 20100518 |
|
A621 | Written request for application examination |
Free format text: JAPANESE INTERMEDIATE CODE: A621 Effective date: 20100524 |
|
A072 | Dismissal of procedure [no reply to invitation to correct request for examination] |
Free format text: JAPANESE INTERMEDIATE CODE: A073 Effective date: 20120619 |
|
A300 | Application deemed to be withdrawn because no request for examination was validly filed |
Free format text: JAPANESE INTERMEDIATE CODE: A300 Effective date: 20120703 |