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 | Fluid handler and method for processing a fluid | JP2001268399 | 2001-09-05 | JP3877053B2 | 2007-02-07 | リチャード・メリアム |
| 42 | Mechanical counter of the metering device | JP52401297 | 1996-12-19 | JP3474580B2 | 2003-12-08 | ヨアヒム アイヒェル; パスクヴァーレ ツィリーロ; アンドレアス フィオル |
| 43 | Process and system for determining the acceptability of a fluid dispensing | JP2002503455 | 2000-06-19 | JP2003536265A | 2003-12-02 | シユー,ジエー−フア; ピリオン,ジヨン・イー; マクローリン,ロバート・エフ |
| (57)【要約】 基板をコーティングするために使用される流体の個別容積30等の、流体分与の許容性を判断するためのプロセスおよびシステムを提供する。 流体分与がエネルギ源16、24に晒され、流体分与によって伝達されたエネルギが検出されることにより、流体分与のプロファイルが決定される。 流体分与プロファイルと、分与の開始および終了時間とは、既に形成された標準的な分与プロファイルと比較され、流体分与の形状および/またはタイミングの許容性を決定するために使用される。 センサ18、26からの出力は、基板の更なる処理を制御するために使用される。 | ||||||
| 44 | Fluid handler and method for treating fluid | JP2001268399 | 2001-09-05 | JP2002139506A | 2002-05-17 | MERRIAM RICHARD |
| PROBLEM TO BE SOLVED: To provide a fluid handler and a method capable of notifying an operator of an automatic analyzer for medical use that a sample or fluid of mistaken quantity or both of them are used in a predetermined medical test. SOLUTION: In one method, the tip of a nozzle 12 is moved below the level of the fluid to be treated. The fluid is moved into the nozzle by operating a pump 18 fluid-coupled with the nozzle. The pressure in the nozzle is monitored by operating a pressure converter 22 fluid-coupled with the nozzle. The pressure in the nozzle is monitored in a substantially continuous manner by using the pressure converter while the pump is operated. It is determined based on the pressure in the nozzle which is monitored in a substantially continuous manner whether or not the movement of the fluid into the nozzle is a predetermined one. The fluid can be moved outside the nozzle by using a similar method. | ||||||
| 45 | Measuring equipment | JP2000259453 | 2000-08-29 | JP2002071435A | 2002-03-08 | NISHIJIMA SAKAE |
| PROBLEM TO BE SOLVED: To provide a measuring equipment having a wide metric setting range free from accuracy degradation due to flow velocity change. SOLUTION: This measuring equipment opens a major bore valve 13 and a minor bore valve 14 to send out liquid 11 in a stock tank 10 toward a preparation tank 15. Then, a digital filter 21 processes a flow velocity signal Vf from a flowmeter 12 to lowpass it and uses this flow velocity signal to compute a preset value Vpr. A preset value calculating section 22 calculates the preset value Vpr by multiplying an operating dead time T by the flow velocity value. A flowmeter integrator 23 uses the flow velocity signal Vf from the flowmeter 12 to obtain an integrating flow rate SV. When the integrating flow rate SV has exceeded a definite value, the major bore valve 13 is closed. And when the integrating flow rate SV has exceeded a resulted value left by subtraction of the preset value Vpr from a measurement setting value A, the minor bore valve 14 is closed. Since each preset value Vpr is calculated one after another by using the flow velocity value, the preset value Vpr depending on flow velocity change can be obtained to improve the measurement accuracy. COPYRIGHT: (C)2002,JPO | ||||||
| 46 | Mechanical counter of the metering device | JP52401297 | 1996-12-19 | JP2000503113A | 2000-03-14 | ヨアヒム アイヒェル; パスクヴァーレ ツィリーロ; アンドレアス フィオル |
| (57)【要約】 例えば薬剤を計量する計量装置は、計量部分の数を表示する装置を必要とする。 しかしながら、既知の表示装置は、相対回転できる2つのハウジング部分を備えた計量装置には適していない。 本発明の計量装置用の機械式カウンタは、回転ロックを備えた少なくとも1つのスピンドルを有し、スピンドルの軸線は計量装置の軸線と平行な関係をなして延びておりかつ装置の外周面領域に配置されている。 スピンドルは、計量装置が付勢されると、トランスミッション組立体を介して自動的に駆動される。 既に放出された計量部分の数及び全体で許容される計量部分の数は、機械式カウンタにより準連続的に表示される。 トランスミッション組立体の伝達比は、広範囲をカバーするように設計できる。 表示目的で機能するカーソルはスピンドル上でリセットできる。 複数の供給容器に使用できる計量装置の許容使用期間を信頼性をもって視認できる。 | ||||||
| 47 | Fluid handler and method for processing a fluid | JP52210297 | 1996-12-04 | JPH11501399A | 1999-02-02 | メリアム,リチャード |
| (57)【要約】 流体処理方法を開示する。 一方法によれば、処理する流体の表面の下方へノズルの先端を移動する。 ノズルと流体結合されたポンプを作動させ流体をノズル内へ移動する。 ノズルと流体結合された圧力変換装置を作動させノズル内の圧力を監視する。 ポンプの動作中に圧力変換装置を用いてノズル内の圧力をほぼ連続的に監視する。 ほぼ連続的に監視されるノズル内の圧力に基づいて、流体のノズル内への移動が所期の移動かどうかを判定する。 同様な方法を使用して流体をノズル外へ移動することができる。 | ||||||
| 48 | Ekitaibunpaihonpusochi | JP5674683 | 1983-03-31 | JPH0230303B2 | 1990-07-05 | DAGURASU EFU KOOSETSUTO |
| 49 | JPH0145855B2 - | JP40782 | 1982-01-06 | JPH0145855B2 | 1989-10-05 | ANDO TOMOHISA; KATAYAMA ISAO |
| 50 | JPS63502267A - | JP50099087 | 1987-01-29 | JPS63502267A | 1988-09-01 | |
| 51 | Liquid metering apparatus | JP17572184 | 1984-08-23 | JPS6153519A | 1986-03-17 | FUJIKAWA SHIGETAKA; MUTO YASUSHI; SAKUTA MINORU; NINOMIYA KAZUO |
| PURPOSE:To reduce maintenance by facilitating washing after metering, by stopping a pump when the liquid level of the liquid supplied to a metering cylinder reached a level higher than the leading the port of a supply pipe and naturally refluxing the excessive liquid in the metering cylinder to a storage tank. CONSTITUTION:A liquid metering apparatus is constituted so that a liquid level detector 3 is operated when the liquid level in a metering cylinder 4 exceeds the leading end port 1a of a supply pipe 1 to reach the liquid level detector 3 and the supply of a liquid is stopped by the signal of said detector 3. In this case, The excessively supplied liquid is overflowed from the upwardly directed leading end part 1a of the supply pipe 1 and naturally refluxed to a storage tank 6 through the gap in a pump 2 to complete metering. By this invention, the number of valves can be reduced as compared with a conventional apparatus and the structure is simple and, therefore, washing after metering is made easy and, at the same time, maintenance can be reduced markedly. | ||||||
| 52 | Device for dispensing and discharging liquid | JP4919485 | 1985-03-12 | JPS61716A | 1986-01-06 | MANFUREETO KURIYUUGAA |
| 53 | JPS59501979A - | JP50361983 | 1983-11-04 | JPS59501979A | 1984-11-29 | |
| 54 | Microflowmeter injector | JP6404583 | 1983-04-12 | JPS59188523A | 1984-10-25 | TAKADA AKIRA |
| PURPOSE:To inject an extremely small quantity of flow accurately by controlling the pressure difference from an injection liquid source as the condition of liquid dripping regardless of the pressure of liquid to be injected. CONSTITUTION:A drop pipe 12 communicating with the injection liquid source 5, a detector 21 which detects a drop from the drop pipe 12, and an injection pipe 20 which injects a detected and metered injection liquid into the liquid 1 to be injected are provided. The pressure difference between the injection liquid source 5 and injected liquid 1 is held constant regardless of the pressure of the injected liquid 1 so that the injection liquid flowing out of the drop pipe 12 forms liquid drops all the time, and the number of drops is counted to calculates the quantity of injection liquid. | ||||||
| 55 | Apparatus for supplying constant quantity of powder body | JP20994781 | 1981-12-28 | JPS58113817A | 1983-07-06 | SAKAMOTO KOUICHI; SAKATA MASARU; FUJITA HIROTOSHI |
| PURPOSE:To improve accuracy, by controlling aerating air at a constant quantity supply part by the opening degree of a regulating valve provided between the constant quantity supplying part and a measuring part and the flow rate signal of the powder body, and supplying pulse air when a blocking phenomenon occurs. CONSTITUTION:The powder body is inputted into a powder body supply tank 2 by a coarse supply machine 1. A lower core 7 is formed at the lower part of the tank 2, and aerating air is supplied through a valve 8. Then the powder is supplied to the measuring part 10 through the regulating valve 9, and the flow rate signal is sent to a flow rate setter 11 in a feedback control part 4. Then the opening degree of the valve is adjusted. The valve opening degree signal is always sent to a comparator 13 from the regulating valve 9. The valve opening degree signal 14 and the flow rate signal 15 are compared, and a valve opening and closing signal is sent to the valve 8. Thus the increase and decrease in the aerating air is controlled. In the meanstime, when the blocking occurs at the part between the powder body supplying tank 2 and the regulating valve 9, the pulse air is supplied to the front stage of the regulating valve 9, and the blocked state is relieved. | ||||||
| 56 | Automatic display system for flow rate of pump | JP14233881 | 1981-09-11 | JPS5845514A | 1983-03-16 | KAWARABAYASHI TATSUO |
| PURPOSE:To detedt the change in strokes and periods immediately as a change in discharging flow rate without using any conversion table or the like by connecting the actuator of a variable flow rate type constant feed pump to a sensor for detecing stroke speeds. CONSTITUTION:In a system having a device 5 for changing setting for either one of strokes or periods of a constant feed pump of variable flow rate type and a displaying device for flow rate, the actuator 4 of the pump 1 is connected to a sensor 10 for detecting the stroke speed of the actuator. The detected stroke speed from the sensor 10 is inputted to an operator 12, and a flow rate is operated by the operator with respect to the prestored data on flow raes versus stroke speeds. The actual flow rate is displayed in a digital display device 15. Thus the change in periods and strokes is detected directly as a change in the discharge flow rate without using any conversion table or the like. | ||||||
| 57 | Count meter | JP13844281 | 1981-09-04 | JPS5841320A | 1983-03-10 | YAMADA KAZUYUKI |
| PURPOSE:To perform the measuring operation which is performed repeatedly with high measuring accuracy, by integrating the measured value for every time, and computing the required preset measuring value based on the integrated measured value, a specified total transfer quantity, and the maximum preset measuring value for one time. CONSTITUTION:In a transfer quantity setting device 12, the total transfer quantity preset value SV0 of fluid and the like, a predetermination quantity value DELTASV for issuing a preliminary notice signal, and the maximum measuring preset signal SVmax which can be measured at one time are preset. A preset value computing part 10 performs computation based on the values SV0 and SVmax and the integrated measured value PVS from an integrating operation part 9, and measuring times N are obtained. A measuring preset value SV2 is computed by the times N, and preliminary notice value SV1 is obtained from the values SV2 and DELTASV. When the measured value PV of the flow rate signal at a counting part 7 agrees with the value SV1, the preliminary notice signal is outputted through the output part 11. When the value PV has reached SV2,the achieved signal is outputted. In this way, the measurement is automatically repeated. | ||||||
| 58 | JPS4943692B1 - | JP608668 | 1968-02-02 | JPS4943692B1 | 1974-11-22 | |
| 59 | PUMPING TYPE OF COSMETICS CONTAINER EQUIPPED WITH SIDE BUTTON | EP15873456.6 | 2015-10-15 | EP3238564A1 | 2017-11-01 | KIM, Hak-Chan; JUNG, Seo-Hui |
The present invention disclosed herein relates to a pumping type of cosmetics container equipped with a side button, wherein the container is configured such that a pumping action occurs and contents are discharged when the user pressurizes a button part and the button part elastically deforms due to own elastic force of the button part, thereby making it possible to easily discharge the contents by means of a simple structure even without the presence of a separate pumping member, and thus making it possible to not only shorten the assembly time but also to reduce manufacturing costs. |
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| 60 | DINSPENSERS FOR DILUTING A CONCENTRATED LIQUID AND DISPENSING THE DILUTED CONCENTRATE | EP13785741.3 | 2013-10-18 | EP2908956B1 | 2017-05-31 | CIAVARELLA, Nick, E.; METCALFE, Paul, R.; URBAN, Scott, E. |
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