子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | System separating body from suspension | JP19045284 | 1984-09-11 | JPS6078688A | 1985-05-04 | SUTEFUAN ROOSON; RONARUDO KORISU |
| An aqueous solution carrying paint solids is fed through an inlet into a floatation tank. The clean liquid exits through an orifice whose size is controlled by a movable gate. The level of the liquid within the tank is sensed by an ultrasonic rangefinder and the distance signals output from this rangefinder are fed to an electronic controller. During normal operation, this controller periodically supplies power signals to an electric actuator to adjust the position of the gate whereby the level of the liquid in the tank can be maintained substantially at the a first predetermined level. The controller may also include means for causing the liquid to rise to a second predetermined level after a preset time such that the paint solids are transferred over a weir into a collecting vessel. Thereafter the liquid level is caused to rapidly drop and is again maintained at the first level. | ||||||
| 42 | 간이 유용광물 분리 장치 및 이를 이용한 유용광물 분리 방법 | KR1020130118512 | 2013-10-04 | KR101355583B1 | 2014-01-24 | 김현철 |
| Disclosed are a simple valuable mineral separating device and a valuable mineral separating method using thereof. The simple valuable mineral separating device is a device for collecting valuable mineral from detrital minerals including crushed stone powder samples, marine sand, and river sand, and includes a first storage tank (110), a second storage tank (120), a first discharging pipe (140), a second discharging pipe (150), a specific gravity assorting device (200), and a controller (300). | ||||||
| 43 | 상이한 물질들을 분류하는 공정, 시스템 및 장치 | KR1020087012274 | 2006-10-24 | KR1020080074900A | 2008-08-13 | 바레리오토마스에이. |
| An automated system for sorting dissimilar materials, and in particular for sorting plastics from other materials and for sorting different types of plastics from one another comprises, depending upon the embodiment, combinations of a sizing mechanism, a friction separation, an air separator, a magnetic separator, a dielectric sensor sortation bed, shaker screening, a ballistic separator, an inductive sensor sortation system and a float/sink tank. The dielectric sensor sortation system may be either analog or digital, depending upon the particular implementation. One or more float/sink tanks can be used, depending upon the embodiment, each with a media of a different specific gravity. The media may be water, or water plus a compound such as calcium chloride. In addition, multiples of the same general type of module can be used for particular configurations. A heavy media system or a sand float process can be used either alternatively or additionally. | ||||||
| 44 | 모래와 유기물이 섞인 폐수에서 모래를 분리하는 방법 및 그 장치 | KR1019960700729 | 1994-08-05 | KR100232761B1 | 1999-12-01 | 프란쯔찌를러 |
| PCT No. PCT/AT94/00108 Sec. 371 Date Apr. 10, 1996 Sec. 102(e) Date Apr. 10, 1996 PCT Filed Aug. 5, 1994 PCT Pub. No. WO95/05230 PCT Pub. Date Feb. 23, 1995There are described a method of and an apparatus for removing sand from waste water loaded with sand and organic substances which is set forth in circulation in a vertical container (1) in which the organic substance moves upward to an overflow (13), while the sand sinks downward toward a discharge conveyor (3) connected to the container (1) from beneath, and is discharged after a certain settling period. To achieve a substantial separation of the sand and the organic substances, the settled sand is stirred by an agitator, with simultaneous rinsing with fresh water delivered to the container bottom region, and is discharged in an amount, which insures a predetermined minimal height of the settled sand. | ||||||
| 45 | スラリからの高密度材料の流体力学的除去 | JP2018504951 | 2016-06-03 | JP2018526199A | 2018-09-13 | ローランド カーラ; パトリック フラック; トビアス ジーグラー |
| 【課題】懸濁液から高密度材料を流体力学的に除去するための装置および方法を提供する。 【解決手段】前記装置は、懸濁液を受け入れる液体サイクロン(1)と、液体サイクロンに付けられる分級管(2)と、除去された高密度材料を受け入れる貯留室(3)と、を備える。分級管(2)への洗浄水流と貯留室(3)への洗浄水流とが形成され、それぞれ、分級管への給送口に設けられた制御素子と貯留室への給送口に設けられた制御素子とにより、閉ループ式にあるいは開ループ式に制御され得る。 【選択図】図3 |
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| 46 | 簡易有用鉱物分離装置及びこれを用いた有用鉱物分離方法 | JP2014179035 | 2014-09-03 | JP5848809B2 | 2016-01-27 | ヒョンチョル キム |
| 47 | Particle separation apparatus and method | JP2009112487 | 2009-05-07 | JP2009274064A | 2009-11-26 | LEAN MENG H; SEO JEONGGI; KOLE ASHUTOSH; VOLKEL ARMIN R; HSIEH H BEN |
| <P>PROBLEM TO BE SOLVED: To intensify separation performance of the flow at the outlet of a particle separation apparatus. <P>SOLUTION: The particle separation apparatus comprises an inlet B for receiving a fluid containing particles dispersed therein, at least one curved channel C for generating a field for stream containing a first portion and a second portion, and an outlet 10 containing a mechanism 11 for dividing the stream so that the first portion flows through a first path 14 and the second portion flows through a second path 16. <P>COPYRIGHT: (C)2010,JPO&INPIT | ||||||
| 48 | Heterogeneous material classification processing systems and equipment | JP2008537939 | 2006-10-24 | JP2009512552A | 2009-03-26 | トーマス エイ. バレリオ、 |
| 他の材料から特にプラスチックを分類し、さらに異なるタイプのプラスチックを相互に分類する異種材料分類自動システムであり、実施例に依存して、サイジング機構のコンビネーションと、摩擦選別器と、エア選別器と、磁力選別器と、誘電性センサ付き仕分け台と、シェーカ式振り分け機と、バリスチック選別器と、誘導性センサ分類システムおよびフロート/シンクタンクとを備える。 誘電性センサ付き仕分けシステムは、アナログ又はデジタルのいずれかであり、個々の実装に依存する。 一つ以上のフロート/シンクタンクが、実施例に依存して、それぞれ異なる比重の媒質を伴って、用いられる。 媒質は、水又は水にカルシウム塩化物のような成分が足されたものである。 さらに、複数の同じ一般的なタイプのモジュールが特別の構成に使われる。 重い媒質システム又は砂フロート処理が代替的に又は付加的に使用される。 | ||||||
| 49 | Initial filtrate isolation, improved backwashing and improved water purification system with a bubble generation | JP50379294 | 1993-05-17 | JP3313367B2 | 2002-08-12 | クロフタ,ミロス |
| A two stage raw water clarifier with first stage flotation and second stage filtration divides at least the lower portion of a flotation tank into independent cells. A branched slotted conduit located in a filter medium in each cell collects clarified water. Valves control the flow of clarified water from each branched conduit either to a clarified water ring conduit or to a first filtrate/backwash ring conduit connected to a storage tank. The filter media is preferably a dual media, a layer of anthracite or activated carbon over a layer of sand. High cell walls and inclined baffles in each cell retain the filter media during backwashing. The baffles also slow the flotation process. A decompression valve for pressurized water with dissolved air has a very narrow annular slot in the flow path through the valve to create microscopic air bubbles of optimal size for the flotation. A movable member sets this annular slot at a proper value. A mechanical or pneumatic actuator moves the member periodically to open the slot and flush out trapped particles. | ||||||
| 50 | Sheet-type water purification apparatus and method | JP50379194 | 1993-05-17 | JPH08500282A | 1996-01-16 | クロフタ,ミロス |
| A tank receives raw water for clarification by flotation. An array of lamellae define a set of generally vertically oriented channels with solid side walls. Flotation occurs in each channel. The channels are preferably inclined. With a round tank, a frame rotates an interlocking array of radial and concentric lamellae. A stationary raw water inlet distribution box fills the channels with raw treated water. An aligned clarified water collection box withdraws clarified water. A stationary skimmer directs floating sludge to a removal conduit with a variable pitch screw conveyor. Sliding seals on the lamellae isolate individual channels or groups of channels as they move through the tank. The channels lock and move columns of water through the tank with substantially no turbulence. | ||||||
| 51 | JPH06503029A - | JP51035990 | 1990-06-04 | JPH06503029A | 1994-04-07 | |
| Water clarifying apparatus has a cylindrical tank where particulate contaminants suspended in raw water are separated using flotation techniques. A set of concentric mutually spaced, conical plates are positioned in the flotation tank. The plates rotate about the tank, preferably in unison with a (i) header that distributes equal quantities of raw water to each annular zone in the tank defined by the conical plates and (ii) a scoop for removing the contaminants which form a floated sludge layer. A screw conveyor is located in a discharge pipe of the floated sludge scoop. A infrared sludge detection array in a window in the side wall of the tank senses the sludge-water interface. Air dissolving tubes operating in parallel have common feeds and discharges coupled through three way valves operated to pressurize a closed volume of water with high pressure air in one tube while reloading and discharging the other tube. | ||||||
| 52 | Process for control of flotation system | JP8287090 | 1990-03-29 | JPH0364587A | 1991-03-19 | HERUBERUTO ORUTONAA; ROTAARU FUARUTSUAA |
| PURPOSE: To perform stable operation of a flotation system while suppressing the disturbance of the operation state with foam by measuring the amount of foam defined by the height of foam in a foam-collecting groove of a flotation cell, relative air content, content of precipitated slurry, etc., with a sensor and controlling a specific parameter by the measured data. CONSTITUTION: The generation of foam in a flotation cell or a flotation apparatus is controlled by introducing a paper fiber suspension from a supplying line 2 into a cell 1, introducing air into the supplying line 2 through a control valve 4 and a metering line 3, mixing the air into the suspension by the sucking action and turbulent action to generate fine foam and clean the suspension, measuring the quantity of the foam as the height of foam collected in the foam collection groove 5, relative air content or content of precipitated slurry with a corresponding sensor 7 attached to the foam collection groove 5 and controlling a parameter of the material or process relating to the flotation apparatus affected by the quantity of foam by a controller 8 based on the measured data. COPYRIGHT: (C)1991,JPO | ||||||
| 53 | Manufacture and equipment for finished products from gravel and sand | JP14503486 | 1986-06-23 | JPS623054A | 1987-01-09 | KURAUSU BURE |
| 54 | JPS60501446A - | JP50224684 | 1984-06-01 | JPS60501446A | 1985-09-05 | |
| PCT No. PCT/AU84/00098 Sec. 371 Date Jan. 28, 1985 Sec. 102(e) Date Jan. 28, 1985 PCT Filed Jun. 1, 1984 PCT Pub. No. WO84/04703 PCT Pub. Date Dec. 6, 1984.Liquid separating device apparatus particularly for separating oil and water components from a mixture thereof. The apparatus includes a tank (50) for the liquid and two banks (62, 64) of cyclone separators for separating oil and water from the liquid in the tank. A control circuit (102) receives input from height sensors (180, 182, 184, 186) sensitive to the height of liquid in the tank (50). Circuit (102) is responsive to the sensed liquid height to vary the flow rate of liquid through the apparatus by varying the rate of operation of a pump (60) which pumps liquid from the tank (50) to the banks (62, 64), by controlling a valve (66) to direct the liquid either to one or to both the banks (62, 64) and to constrick flow from the banks (62, 64) by varying the resistance to flow through variable chokes (68, 70) which receive outflow from the banks. | ||||||
| 55 | Separator assembly containing eddy fluid device | JP10186984 | 1984-05-22 | JPS59228958A | 1984-12-22 | PEERU GIYUNAARU KARURUSON |
| 56 | Sorter for wood chip | JP14766680 | 1980-10-23 | JPS5665643A | 1981-06-03 | UIRIAMU SHII SUMISU |
| 57 | 簡易有用鉱物分離装置及びこれを用いた有用鉱物分離方法 | JP2014179035 | 2014-09-03 | JP2015073987A | 2015-04-20 | ヒョンチョル キム |
| 【課題】砕屑性資源に含まれている有用鉱物を効果的で経済的に分離する簡易有用鉱物分離装置及びこれを用いた有用鉱物分離方法を提供する。 【解決手段】砕屑性資源から有用鉱物を回収する簡易有用鉱物分離装置であって、内部に収容した混合液の比重を測定する比重測定モジュール170を備える第1貯蔵槽110;第1貯蔵槽110内の収容限界線Aを超過する混合液を収容する第2貯蔵槽120;超過した混合液が第2貯蔵槽120内に流入するように備えられた第1排出管140;第1貯蔵槽110の一側面から混合液を排出し、混合液の流量を調節する流量調節モジュール190を備える第2排出管150;第2排出管150から排出された混合液を受ける選別容器の勾配を可変させ、その選別容器の試料から鉱物を選別する比重選別装置200;及び、流量調節モジュール190と比重選別装置200の駆動を制御する制御部300;を含む。 【選択図】図1 |
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| 58 | Particle separation system | JP2009115697 | 2009-05-12 | JP2009274066A | 2009-11-26 | LEAN MENG H; SEO JEONGGI; KOLE ASHUTOSH; VOLKEL ARMIN R |
| PROBLEM TO BE SOLVED: To improve a particle separation system. SOLUTION: The particle separation system 40 is provided with a plurality of individual bent particle separation devices 30 which are stacked in parallel, and an inlet coupler 42 which is connected to respective inlets of the plurality of individual bent particle separation devices 30 and functions so that a fluid enters all of the inlets of the plurality of individual bent particle separation devices 30, and at least two outlet couplers 44 and 46 so as to be connected to corresponding outlets of the respective plurality of individual bent particle separation devices 30. COPYRIGHT: (C)2010,JPO&INPIT | ||||||
| 59 | Apparatus for separating the inorganic material particles from a suspension containing the inorganic material particles contaminated with organic substances | JP52860895 | 1994-09-22 | JP3634374B2 | 2005-03-30 | グリーンベルガー・ヨハン |
| 60 | Separation of fine particulate material | JP2003532191 | 2002-10-03 | JP2005503918A | 2005-02-10 | キング、ピーター、ジョン; スウィフト、マイケル、ロバート; バータリー、ナスリーン |
| 本出願は、粒子が流体内で適切に振動したときに起こり得る微細粒子混合物の分離に関する。 特に、本発明は、種々の粒子タイプを含む粒子混合物を分離する方法であって、流体および上記粒子混合物を含む支持粒子床に振動を与えることであって、それによりそれぞれほぼ1つの粒子タイプが選択的に豊富な層への粒子混合物の分離を行う、振動を与えること、を含む方法を提供する。 この方法を行う装置も提供される。 | ||||||
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