序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
---|---|---|---|---|---|---|
21 | Dose dispensing device having a replacement mechanism for dose dispensing unit | JP2011535057 | 2009-09-16 | JP5529880B2 | 2014-06-25 | リューチンゲル,ポール |
22 | Method and device for indicating future need for product replacement of random use dispensing | JP2008291245 | 2008-11-13 | JP2009120268A | 2009-06-04 | WEGELIN JACKSON W |
<P>PROBLEM TO BE SOLVED: To provide a method for indicating whether or not a dispensable product is necessary to be refilled prior to the next scheduled service interval. <P>SOLUTION: The method includes a step of tracking a used amount over a first interval, a step of calculating a frequency based on the used amount over the first interval, and a step of comparing a remaining amount with a required amount which is equal to a product of the number of weeks in the service interval and a calculated frequency. In the case that the remaining amount is determined to be smaller than the required amount based on the used amount, a warning is issued to indicate that the dispensable product should be replaced, otherwise it may be empty before the next service interval. A dispenser incorporating the method is also described. <P>COPYRIGHT: (C)2009,JPO&INPIT | ||||||
23 | Metering device | JP2000259453 | 2000-08-29 | JP3976302B2 | 2007-09-19 | 栄 西島 |
24 | Fluid handler and method for processing a fluid | JP52210297 | 1996-12-04 | JP3633631B2 | 2005-03-30 | メリアム,リチャード |
25 | Pressurized container of the dispensing device | JP50099087 | 1987-01-29 | JPH085509B2 | 1996-01-24 | ベアード,ウォルター,シー; ヤロップ,デビッド,マイケル |
26 | JPH055047B2 - | JP24165084 | 1984-11-15 | JPH055047B2 | 1993-01-21 | DEGUCHI KYOSHI |
27 | JPH03123221U - | JP1006791 | 1991-02-28 | JPH03123221U | 1991-12-16 | |
28 | JPH0223431B2 - | JP17017880 | 1980-12-02 | JPH0223431B2 | 1990-05-24 | JON SHIGUFURIDO AMUNEUSU |
29 | Powerless apparatus for quantitatively taking out liquid | JP24165084 | 1984-11-15 | JPS61118618A | 1986-06-05 | DEGUCHI KIYOSHI |
PURPOSE:To accurately replenish a minute amount, by constantly hold pressure in a replenishing tank, a supply tank and a receiving tank and directly connecting the replenishing tank and the supply tank by a pipe while connecting the supply tank and the receiving tank by a siphon. CONSTITUTION:A replenishing tank 1, a supply tank 2 and a receiving tank 3 are successively arranged from above to below and hermetically closed and held to the same pressure by communication pipe 4. The replenishing tank 1 and the supply tank 2 are connected in an air-tight state so as to be made slidable by an up-and-down control mechanism 5 in order to regulate a replenishing amount and the outlet 1-1 of the tank 1 is contacted with the liquid level L of the tank 2 to keep the liquid level L constant. The tanks 2, 3 are communicated by a siphon pipe 6 and a guide body 7 such as sponge or fiber is sealed therein to guide the liquid of the tank 2 to the tank 3 by a capillary phenomenon to replenish the liquid corresponding to the reduced liquid amount in the tank 3. By this method, the replenishment of a minute amount over a long time is accurately and powerlessly performed. | ||||||
30 | Weighing device | JP22061683 | 1983-11-25 | JPS60113112A | 1985-06-19 | ICHIKAWA KAZUYA; KUBONAI KOUICHI |
PURPOSE:To shorten discharge time by generating a differential pressure between a side space of a liquid feeding path and a non-liquid path of a liquid weighing tank to discharge a weighed liquid in the tank. CONSTITUTION:A liquid feeding port of a liquid feeding path 4 connected to a pump 6 and an undiluted solution tank 5 is opened in the upper end part of a tank 2, and an air hole 10 of an overflow chamber 8 connected to the tank 2 by an overflow path 9 is connected to a clean room 14, and a discharge hole 15 in the bottom part of the chamber 8 is connected to the tank 5. An aspirator part 21 is inserted to an upper end folding part 19 of a liquid discharge path 18 which has a liquid discharge hole 17 in the bottom part of the tank 2, and the aspirator part 21 is connected to a clean air supply source 23 through an air feeding path 22 and a valve 24, and the terminal of the liquid discharge path 18 is connected to a mixing tank 20. The valve 24 is opened to jet air from the aspirator part 21 after the liquid is filled in the tank 2 up to the overflow path 9, and the pressure in the liquid discharge path 18 is made negative to discharge forcibly the liquid in the tank 2 to the tank 20 through the liquid discharge path 18. | ||||||
31 | JPS59502020A - | JP50361883 | 1983-11-04 | JPS59502020A | 1984-12-06 | |
32 | Quantitatively measuring apparatus | JP22009482 | 1982-12-17 | JPS59111020A | 1984-06-27 | YAMAMOTO HIROSHI |
PURPOSE:To achieve accurate measurement of a trace quantity of fluid by controlling the pressure and the temperature of an adhesive liquid at the outlet of a choking device to a fixed level to keep the viscosity, density of the adhesive liquid and the outflow speed when the liquid is sent out of a nozzle. CONSTITUTION:The output of a servo motor 6 is controlled by the output of a servo amplifier 9. On the other hand, a pressure detector 7 detects the pressure of a liquid in a fluid feed tube 3 and inputs the data thereof into a servo controller 8, in which the data is compared with a preset reference value to control the servo amplifier 9 so that the deviation therebetween zeros to always maintain the pressure in the fluid feed tube 3 at a fixed level. In addition, a temperature detector 10 detects the temperature of a liquid in the fluid feed tube 3 and the detection value is compared with a preset reference value by a comparator circuit 11 to always keep the liquid temperature of the fluid feed tube 3 constantly at a fixed reference value. This keeps the pressure and temperature of an adhesive liquid 2 constant at the inlet of a choking device 14 to uniformize physical nature such as viscosity and density thereby keeping the flow rate of a fluid flowing through the choking device 14, a changeover valve 15, a choke 21 and a fluid return tube 4 constant. | ||||||
33 | Method and device for measuring flow of liquid | JP11529082 | 1982-07-02 | JPS5810611A | 1983-01-21 | SEODOOA EDOWAADO MIRAA JIYUNIA; HAMISHIYU SUMOORU |
34 | Simplifying compounding device which is operated by pressure and fluid current | JP9365881 | 1981-06-17 | JPS5725860A | 1982-02-10 | ROBAATO EICHI KOTSUKUSU; DONARUDO BURUUSU |
35 | Liquid distributing apparatus and preparing machine of powderrliquid mixture | JP3255880 | 1980-03-14 | JPS561827A | 1981-01-10 | RUGURAN MISHIERU EME JIYOSEFU |
36 | JPS5523391B2 - | JP11380775 | 1975-09-22 | JPS5523391B2 | 1980-06-23 | |
37 | Ekitaiyoryokeisokusochi oyobi konosochinosadohoho | JP11380775 | 1975-09-22 | JPS5158373A | 1976-05-21 | HANSU RUUDORUFU FUEERUMII; HERUMAN GEEUIRERU |
38 | 粉粒体供給装置 | JP2017080820 | 2017-04-14 | JP2018179813A | 2018-11-15 | 岩▲崎▼ 友希男; 長廣 一平; 三澤 将司; 段 驍 |
【課題】簡易な構成の粉粒体供給装置を提供する。 【解決手段】粉粒体供給装置は、粉粒体を通過させる流路31mが貫通するように形成された固定板31fと、粉粒体を通過させる排出口が貫通するように形成された底部31bと、固定板31fと底部31bとの間に配置され、固定板31fと底部31bとが互いに向かい合った対向方向に沿って貫通し粉粒体を内部に収容可能な収容領域31lが形成され、収容領域31lと流路31mとが連通した位置と収容領域31lと排出口とが連通した位置とに移動可能な可動部31jとを備えている。固定板31fには、可動部31jが移動するときに、収容領域31lに収容可能な量を超えた分の粉粒体について収容領域31lから排除するように、粉粒体についてのすりきりを行うすりきり部が設けられている。 【選択図】図3 |
||||||
39 | 濃縮液体を希釈し希釈された濃縮剤を分与するためのディスペンサー | JP2015538042 | 2013-10-18 | JP2016501559A | 2016-01-21 | ニック イー チャバレッラ; ポ−ル アール メットカルフ; スコット イー アーバン |
ディスペンサーの典型的な実施例がここに示される。典型的な1つのディスペンサーは、石鹸又は消毒剤のディスペンサーである。ディスペンサーはハウジングを含む。濃縮石鹸又は消毒剤の保持のための取り外し且つ取り替え可能な容器が、ハウジング内に配置される。濃縮剤ポンプが濃縮剤容器に流体的に連通する。液体を保持するための希釈剤容器もハウジング内に配置され、希釈剤を送り出すための希釈剤ポンプも含まれる。ディスペンサーは、濃縮剤ポンプ及び希釈剤ポンプに流体的に連通する混合室を含む。ディスペンサーは出口を含む。濃縮石鹸又は消毒剤は、濃縮剤容器から送り出されると、希釈剤容器から送り出された希釈剤と混合して、希釈された混合物を生成する。希釈された混合物は、ディスペンサーの出口で分与される。【選択図】図3 | ||||||
40 | 計量デバイス並びにエネルギー生成ユニットから得られる比較的少量のエネルギーを管理及び供給する方法 | JP2015519356 | 2013-07-04 | JP2015521875A | 2015-08-03 | シュテファン クルンプ,; マルティン リュッテル,; デア リンデン, クラウス ファン |
計量デバイス(2)は、動作サイクル中に比較的少量のエネルギーを生成するためのエネルギー生成ユニット(12)、生成される量のエネルギーを緩衝するためのエネルギー貯蔵ユニット(24、26)、現在の状態情報(I)のアイテムを決定するための制御ユニット(14)、及び、現在の状態情報(I)を処理するための処理ユニット(16)、を備え、さらに、制御ユニット(14)のエネルギー要件と表示ユニット(16)のエネルギー要件とが異なり、前記制御ユニット(14)及び前記処理ユニット(16)への、限られた量のエネルギーの割当ては、前記異なるエネルギー要件にしたがって調整される。【選択図】図2 |