| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 161 | Fluidless interface for fluid analyzer | JP2012012657 | 2012-01-25 | JP2012112969A | 2012-06-14 | ARVIND PADMANABHAN; TOM REZNICEK; RON L BARDELL; DOUGLAS BIRD |
| PROBLEM TO BE SOLVED: To provide a fluid analyzer including one or a plurality of instruments and a cartridge interface.SOLUTION: This fluid analyzer is a flow cytometer, a blood analyzer or the like that includes a leakproof interface between a device and a disposable cartridge 61. For example, or in an exemplary embodiment, the instrument may include a needle that is configured to penetrate in a diaphragm on a detachable cartridge. In another exemplary embodiment, the instrument may include a plunger 70 that is configured to deform a deformable membrane 78 on the detachable cartridge. In still another exemplary embodiment, the instrument may include a nozzle that is configured to be fitted in and seal a channel 64 on the detachable cartridge. A technique for detecting a flow rate in the channel on the detachable cartridge and detecting a position of the fluid in the channel of the detachable cartridge is also disclosed. | ||||||
| 162 | Fluid without interface for fluid analyzer | JP2008548531 | 2006-12-07 | JP2009521699A | 2009-06-04 | バーデル,ロン・エル; バード,ダグラス; パドマナハン,アラヴィンド; レザチェク,トム |
| 機器および取り外し可能カートリッジを有する流体分析装置用の機器−カートリッジインタフェースが開示される。 たとえば、また、1つの例証的な実施形態では、機器は、取り外し可能カートリッジ上の隔壁に貫入するようになっている針を含んでもよい。 別の例証的な実施形態では、機器は、取り外し可能カートリッジ上で変形可能膜を変形させるようになっているプランジャを含んでもよい。 なお別の例証的な実施形態では、機器は、取り外し可能カートリッジ上で流路に嵌りかつシールするようになっているノズルを含んでもよい。 取り外し可能カートリッジ上で流路内の流量ならびに取り外し可能カートリッジの流路内の流体の位置を検出する技法も開示される。
【選択図】図10 |
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| 163 | Method of cleaning a rotary pump and a rotary pump | JP2001157747 | 2001-05-25 | JP4242085B2 | 2009-03-18 | 和宏 渡辺 |
| 164 | Pump, in particular slurry pump | JP2007538347 | 2005-10-29 | JP2008518148A | 2008-05-29 | ユング、ヘルバルト |
| 本発明の目的は、ハウジング(2)内部で回転する従動ロータ(4)を備える、単純で平滑に作動するポンプ、特に好ましくはコンクリートのためのスラリーポンプを提供することである。 本発明によれば、ロータ(4)が多角形の角柱状本体として構成され、そこでは、少なくとも基部のコーナの接続線が等辺多角形を形成する。 ロータは、軌道においてその中心軸を中心に回転移動を実施し、角柱状本体(4')の長手方向縁は、ハウジング(2)の長手方向内壁面(2')に接触する。 | ||||||
| 165 | Method for determining the calcification of the dialysis machine and dialyzer | JP24265397 | 1997-09-08 | JP3954166B2 | 2007-08-08 | シュピッカーマン ライナー |
| The dialysis unit removes toxic substances from biological fluids, and has a device for removing limescale from a dialysis fluid circuit. A device is provided by which, on observation of a predetermined degree of scale accumulation, the removal process proceeds automatically. Also claimed is the process for determining the degree of scaling. | ||||||
| 166 | Gear pump for rubber extrusion | JP2001040476 | 2001-02-16 | JP2002242851A | 2002-08-28 | ISHIWATARI TAKASHI |
| PROBLEM TO BE SOLVED: To provide a gear pump capable of freely controlling rubber ullage. SOLUTION: The gear pump for rubber extrusion is constituted by forming a plural number of recessed channels for rubber flow. The channels extend from each of shaft equivalent positions of each of gears to each of bottom equivalent positions of each of tooth spaces of each of the gears on at least one surface of respective both side surfaces of a pair of the gears and housing inner surfaces directly facing each of these both side surfaces. COPYRIGHT: (C)2002,JPO | ||||||
| 167 | Gear pump for carrying flowing medium | JP23812496 | 1996-09-09 | JPH09166093A | 1997-06-24 | STEHR ROGER DR ING; BLUME PETER DR SC TECHN |
| PROBLEM TO BE SOLVED: To connect a gear pump to a constituting member connected to the upper stream or the lower stream with perfect airtightness by providing collar members on intake side and/or pressure side or discharge side. SOLUTION: This gear pump has two tubular collar parts 21, 26; 31, 36 provided on the intake side and discharge side, and they are connected to connecting flanges 18, 18' through welding seams 22, 28, 32, 38 by butt welding. The collar parts 21, 31 form inside connecting parts, which are connected ot the corresponding connecting parts of a constituting part connected to the upper steam or lower stream. The collar parts 26, 36 are concentrically provided on the outside of the collar parts 21, 31 and they are connected to jacket pipe on the outside by butt welding. Thus, the danger of air penetration on the intake side is perfectly eliminated, and a carrying medium is never leaked in the connecting position on the discharge side. | ||||||
| 168 | Filling and fluid transfer pump equipment | JP52067794 | 1994-03-24 | JPH08501134A | 1996-02-06 | ゾンマー,マンフレート |
| (57)【要約】 ポンプは支承兼シールハウジング(21)と、流入室(28)と、駆動軸(23)とを有しており、この駆動軸はロータ(55)と、このロータに結合された両偏心案内板(40.2)とを駆動する。 この偏心案内板では、環状溝内にベーンリング(45.1,45.2)が支承されている。 このベーンリングはスライドベーン(46.1,46.2)を支持している。 このスライドベーンは支持シール面を介してベーン収容室に進入するか、またはこのベーン収容室から引き出される。 前記ポンプは、たとえば食品、薬品および化粧品における高い衛生要求に対して適しており、また敏感な成分、たとえば果物またはその他の食品成分をも穏やかに搬送する。 | ||||||
| 169 | Rotary delivery pump lubricating device | JP11226792 | 1992-04-03 | JPH05288164A | 1993-11-02 | NITTA KOZABURO |
| PURPOSE: To maintain the constantly smooth movement of a vane while low by separating muddy water from the slurry discharged from a pump, and performing sealing and lubrication between each guide groove and a vane with this muddy water. CONSTITUTION: A rotary discharge-feed pump lubricating device is provided with a separating means 30 for separating muddy water from slurry discharged from the discharge port 21c of a vane type rotary discharge-feed pump 20. A rotor 22 is provided with a pressure chamber 22c, and this pressure chamber 22c is connected to the inner end of each guide groove 22a. The muddy water separated by the separating means 30 is fed to the pressure chamber 22c. When the rotor 22 is rotated, the volume of an operating chamber C is expanded- contracted, and in association with this, slurry and the like are sucked from a suction port 21b and discharged to the discharge port 21c. The slurry and the like are thereby prevented from flowing into the guide groove 22a from the operating chamber C, and lubrication between the guide groove 22a and the vane 23 is performed. COPYRIGHT: (C)1993,JPO&Japio | ||||||
| 170 | Vane pump | JP4293992 | 1992-02-28 | JPH05240167A | 1993-09-17 | MAEDA KANJI |
| PURPOSE: To prevent the wear of a casing by a guide ring and keep a regularly stable operating state by mounting an auxiliary ring formed from a wear resisting material such as reinforced Teflon on the end surface of the guide ring making contact with the inner wall surface of the casing. CONSTITUTION: An auxiliary ring 2A fitted to the fitting groove 21 on the outer circumferential end surface of a guide ring 2 is formed from a wear resisting material such as reinforced Teflon or a phenol resin rubber, and the guide ring 2 is received in guide ring receiving recessed parts 3B on both sides of a rotor 3, and the auxiliary ring 2A makes contact with the port plate 12 of a casing 1 and the inner wall surface of an end plate 13, respectively. By rotating a rotor 3 at low speed, vanes 4 are rotated while being guided by the guide ring 2 and sucked through a suction hole 12 to discharge a material to be transferred blocked between the vanes 4 through a discharge hole 12B. When the guide ring 2 is pressed and moved, the auxiliary ring 2A is pressed onto the inner wall surface of the casing 1. COPYRIGHT: (C)1993,JPO&Japio | ||||||
| 171 | JPH04506845A - | JP50417490 | 1990-03-02 | JPH04506845A | 1992-11-26 | |
| PCT No. PCT/EP90/00349 Sec. 371 Date Nov. 4, 1991 Sec. 102(e) Date Nov. 4, 1991 PCT Filed Mar. 2, 1990 PCT Pub. No. WO90/10123 PCT Pub. Date Sep. 7, 1990.A vacuum drainage system for sanitary equipment such as toilets, urinals and sinks etc., comprising branching pipes connected to the sanitary equipment and ending in a collecting pipe (5), and a vacuum device (2) connected to the collecting pipe (5) producing vacuum in the pipes and transporting sewerage from the sanitary equipment to e.g. a collection tank (1) or purification plant. The vacuum device comprises one or optionally several screw pumps (2) with a mill or grinding device for grinding solid particles in the sewerage and being connected directly to the collecting pipe (5). | ||||||
| 172 | Garbage treatment machine | JP27730690 | 1990-10-15 | JPH04150956A | 1992-05-25 | IKEGUCHI MITSUNOBU |
| PURPOSE: To provide a clean apparatus by preventing the generation of the malodor of garbage by dehydrating the garbage ground in a disposer 2 by a dehydrator using a mono-pump to prevent the clogging of the dehydrator with garbage. CONSTITUTION: The garbage charged in the disposer 2 arranged under a sink 1 from the inlet provided to the sink 1 is ground in the disposer 2. The garbage ground in the disposer 2 is dehydrated by a dehydrator 4 using a Mono.pump. The garbage dehydrated by the since the clogging of the dehydrator with garbage is prevented, no malodor is generated from garbage and a clean apparatus is obtained. COPYRIGHT: (C)1992,JPO&Japio | ||||||
| 173 | Molding apparatus of rod-like material from daily dish material, fish paste product and another pasty plastic material | JP12454981 | 1981-08-07 | JPS5828250A | 1983-02-19 | TOMIKI MITSUYOSHI |
| PURPOSE: To prevent the clogging of a flowing outlet and make the output constant, by cutting a solid material in a pasty plastic material with sinew cutting rods forming wavy surfaces provided in a molding apparatus of rod-like materials from the pasty plastic material. CONSTITUTION: A pasty plastic material, e.g. a daily dish or fish paste product, is introduced from a pressure sending pump 1 into a tank 5 and then uniformly fed in the long direction of a continuous trough 7 by equal pressure extruding rollers 6. The material fed under equal pressure in the long direction of the trough 7 is further made to flow down, and sinew cutting rods 8 having wavy surfaces are rotated in contact with the circumferential wall surface 21 of an extruding part 19 to catch solid material with the tip cuts (8c) of recesses (8a). The material is discharged from plural molding holes (10a) through constituted parts 10 of the extruding part 19 while cutting the solid material to mold the pasty plastic material into a rod-like shape. COPYRIGHT: (C)1983,JPO&Japio | ||||||
| 174 | JPS553554B2 - | JP5433475 | 1975-05-08 | JPS553554B2 | 1980-01-25 | |
| A screw housing with a wearing insert for a two-shafted screw machine wherein the wearing insert has two spaced parallel bores to accommodate screw shafts located with their mutually parallel longitudinal axes in the principal plane of symmetry of the wearing insert. These shafts are spaced apart so as to form saddles at the connecting point of the bores. The insert housing has an external cross-section which is substantially constant along its axial length and is arranged in a cavity of the screw housing having the same cross-section. | ||||||
| 175 | JPS50156007A - | JP5433475 | 1975-05-08 | JPS50156007A | 1975-12-16 | |
| A screw housing with a wearing insert for a two-shafted screw machine wherein the wearing insert has two spaced parallel bores to accommodate screw shafts located with their mutually parallel longitudinal axes in the principal plane of symmetry of the wearing insert. These shafts are spaced apart so as to form saddles at the connecting point of the bores. The insert housing has an external cross-section which is substantially constant along its axial length and is arranged in a cavity of the screw housing having the same cross-section. | ||||||
| 176 | Operable implant | US14852660 | 2015-09-14 | US10149936B2 | 2018-12-11 | Peter Forsell |
| An operable implant adapted to be implanted in the body of a patient. The operable implant comprising an operation device and a body engaging portion, the operation device comprises an electrical motor comprising a static part comprising a plurality of coils and a movable part comprising a plurality of magnets, such that sequential energizing of said coils magnetically propels the magnets and thus propels the movable part. The operation device further comprises an enclosure adapted to hermetically enclose the coils of the static part, such that a seal is created between the static part and the propelled moving part with the included magnets, such that the coils of the static part are sealed from the bodily fluids, when implanted. | ||||||
| 177 | PUMP FOR CORROSIVE FLUIDS | US15607713 | 2017-05-30 | US20180347563A1 | 2018-12-06 | Thomas Michael WOLLMANN |
| The pump includes a pumping chamber within a sealed internal chamber, a pump inlet connected to the pumping chamber, a pump outlet connected to the pumping chamber, and a rotational pumping element configured to pump the corrosive fluid from the pump inlet to the pump outlet. The rotational pumping element is within the pumping chamber. The pump includes a drive shaft for driving the rotational pumping element. The drive shaft is completely within the sealed internal chamber. The drive shaft is configured for magnetically coupling to an external motor. A pump housing forms the sealed internal chamber. The rotational element, the pumping chamber, and the pump housing are formed from any one a conductive plastic, a non-conducting plastic with conducting particles, a semi-conducing ceramic, and combinations thereof. The drive shaft is formed from the semi-conducting ceramic. | ||||||
| 178 | Gear pump and printing apparatus provided with same | US15671496 | 2017-08-08 | US10112406B2 | 2018-10-30 | Masaaki Ando; Noritaka Mitsuo; Norihiro Maruyama |
| A gear pump includes a pump casing and a gear assembly. The gear assembly includes a driving gear, a driven gear, a driving gear shaft, a driven gear shaft, and a bearing frame. The bearing frame includes a frame main body, a pair of driving side bearing portions, and a pair of driven side bearing portions. The frame main body has a pair of bearing support portions, in which the driving side bearing portion and the driven side bearing portion are provided, and a connecting portion which connects the bearing support portions. The bearing support portions and the connecting portion are integrated together as a one-piece member. | ||||||
| 179 | Balance shaft module | US15333886 | 2016-10-25 | US10107287B2 | 2018-10-23 | Seongyong Kim; Sung Kwang Kim |
| A balance shaft module includes a balance shaft for receiving a driving force from a crankshaft of an engine by a driving gear and rotating inside a balance shaft housing, an oil pump gear being geared with the driving gear to rotate along with the driving gear, an oil pump shaft having the oil pump gear press-fitted therein and rotating as the oil pump gear rotates, and an oil pump assembly mounted in the oil pump shaft and pumping oil as the oil pump shaft rotates, wherein a pair of support rings is provided at both side surfaces of the oil pump gear to support both side portions of the oil pump gear in the oil pump shaft. | ||||||
| 180 | A STATOR OF A ROTARY VANE-TYPE PUMP | US15753344 | 2015-09-08 | US20180238326A1 | 2018-08-23 | Alexandr Vasilievich Mikheev |
| The present disclosure relates to hydraulic machinery engineering, more specifically to stators of rotary vane-type pumps intended for pumping-over viscous, plastic masses and other fluids and multiphase mixtures lacking unctuous properties, but rich in mechanical impurities and/or having high viscosity, particularly such as stratum fluids of oil deposits, and may be applied in food-processing, chemical, petrochemical and other branches of industry. | ||||||
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