81 |
DINSPENSERS FOR DILUTING A CONCENTRATED LIQUID AND DISPENSING THE DILUTED CONCENTRATE |
PCT/US2013065565 |
2013-10-18 |
WO2014062990A3 |
2014-07-24 |
CIAVARELLA NICK E; METCALFE PAUL R; URBAN SCOTT E |
Exemplary embodiments of dispensers are disclosed herein. One exemplary dispenser is a soap or sanitizer dispenser. The dispenser includes a housing (102). A removable and replaceable concentrate container (302, 902) for holding concentrated soap or sanitizer is located within the housing (102). A concentrate pump (316) is in fluid communication with the concentrate container (302, 902). A diluent container for holding a liquid is also located within the housing (102) and a diluent pump (382, 901) for pumping the diluent is also included. The dispenser includes a mixing chamber (338) in fluid communication with the concentrate pump (316) and the diluent pump (382, 901). The dispenser includes an outlet. When concentrated soap or sanitizer is pumped from the concentrate container (302, 902), it mixes with diluent pumped from the diluent container to form a diluted mixture. The diluted mixture is dispensed at the outlet (350) of the dispenser. |
82 |
POWERED DISPENSING TOOL |
PCT/US2011060766 |
2011-11-15 |
WO2012068092A3 |
2012-11-08 |
NAUGHTON MICHAEL; THORSON TROY C; VERBRUGGE BRANDON L; CHECK WILLIAM E; SIMEONE THOMAS G; EISENHARDT SCOTT D; SCHNEIDER SCOTT |
A powered dispensing tool includes a housing, a motor positioned within the housing, a rack coupled to the motor for powered translation in at least one of a forward direction and a reverse direction, and a transmission selectively coupling the motor and the rack. The transmission includes an input ring rotatable in response to rotation of the motor in a first direction corresponding with powered translation of the rack in the forward direction, a first clutch member engaged with the rack through an intermediate gear, and a second clutch member that receives torque from the input ring and that is movable in response to rotation of the motor in the first direction toward a first position engaging the first clutch member. The second clutch member is also movable in response to rotation of the motor in an opposite, second direction toward a second position disengaged from the first clutch member. |
83 |
サイドボタンを具備したポンピング式化粧品容器 |
JP2017534220 |
2015-10-15 |
JP2018500116A |
2018-01-11 |
キム ハクチャン; ユン セオフイ |
本発明は、サイドボタンを具備したポンピング式化粧品容器に関し、ユーザーがボタン部を加圧の時に、ボタン部自体の弾性力によってボタン部が弾性変形することによってポンピング作動が行われ、内容物が吐出するように構成される。このことにより、別途のポンピング部材が存在しなくても、簡単な構造を介して内容物を容易く吐出することができるので、組立時間の短縮はもちろん、製造コストを節減することができる。【選択図面】図1 |
84 |
1ミリリットル未満の容量での流体の注入 |
JP2017504063 |
2015-07-23 |
JP2017521190A |
2017-08-03 |
ミヒャエル アドラー,; カロリーネ ベヒトールト−ペーテルス,; アドリーヌ ブイヨン,; アンケ ドルン,; イェルク ルーエムケマン,; デニス リュートリンガー,; ハンス−クリスチャン マーラー,; アレクサンダー マイアー, |
1ミリリットル未満の容量で流体の注入量を提供するためのぜん動型注入デバイス(1)は、可撓管(13)、対向圧力要素(12)、複数の作用部(11)及び駆動部(17)を備える。可撓管(13)は、対向圧力要素(12)に沿ってほぼ直線的に配置されることにより、長手方向軸を形成する。作用部(11)は、長手方向軸に沿って互いに平行に配置される。作用部は駆動部(17)により可撓管(13)に対して移動可能である。可撓管(13)は、作用部(11)を移動させることにより、作用部(11)と対向圧力要素(12)の間で圧縮可能である。作用部(11)の各々は独立して、可撓管(13)の長手方向軸にほぼ垂直な作動軸に沿って、可撓管(13)の圧縮度が最も小さい定位置から、可撓管(13)が対応する作用部と対向圧力要素(12)の間で圧縮されてシールされる端位置まで、駆動部(17)により直線的に移動可能である。本発明によるぜん動型注入デバイスは、滅菌環境において、正確にかつ反復して比較的低容量で注入量を提供することを可能にする。【選択図】図1 |
85 |
Dose dispensing device having a replacement mechanism for dose dispensing unit |
JP2011535057 |
2009-09-16 |
JP2012508369A |
2012-04-05 |
リューチンゲル,ポール |
The apparatus (100) has a radio frequency identification (RFID) tag, and an accommodating device (104) horizontally moved relative to a base frame (101) by a changing device (110). A dosing unit (140)/functional unit is removed from a holding plate (121) and accommodated in the accommodating device and/or is removed from the accommodating device and accommodated in the plate by the horizontal movement. The accommodating device is vertically moved together with a drive device (103) to a feed opening of a target container (132) and/or from the opening to the plate by the changing device. The functional unit is a titrator unit, a pump unit, a pipette unit, a unit with pipelines and armatures, a unit with stirring unit, a sensor unit, a heating- and/or cooling unit or an adapter. |
86 |
How to handle the liquid handler and liquid |
JP55054098 |
1998-05-19 |
JP3414758B2 |
2003-06-09 |
ウオーンケ,ケビン・シー; コルターマン,ジエイムズ・シー; ドナホー,テレサ・エム; フオード,グレゴリイ・オー; メリアム,リチヤード |
|
87 |
How to handle the liquid |
JP55060498 |
1998-05-19 |
JP2000513109A |
2000-10-03 |
メリアム,リチヤード |
(57)【要約】 液体を処理する方法が開示される。 1つの方法においては、ノズルが、液体のための容器の近くに動かされる。 液体をノズルに関して移動させるために、ノズルに流体結合されたポンプが作動される。 ノズルに流体結合された過渡的な圧力を監視するために、ノズルに流体結合された圧力変換器が作動される。 ノズルに流体結合された過渡的な圧力は、少なくともポンプが動作している間は、圧力変換器によってほぼ連続的に監視される。 ほぼ連続的に監視された、ノズルに流体結合された圧力に基づいて、ノズルに対する液体の移動が意図したようなものかあるいは意図しないようなものかが判定される。 |
88 |
How to handle the liquid handler and liquid |
JP55054098 |
1998-05-19 |
JP2000513108A |
2000-10-03 |
ウオーンケ,ケビン・シー; コルターマン,ジエイムズ・シー; ドナホー,テレサ・エム; フオード,グレゴリイ・オー; メリアム,リチヤード |
(57)【要約】 液体を処理する方法が開示される。 1つの方法においては、第1の液体をノズルに対して移動させるために、ノズルに流体結合されたポンプが作動される。 ノズルに流体結合された圧力が、ノズルに流体結合された圧力変換器によって、第1の液体が移動する間、ほぼ連続的に監視される。 ほぼ連続的に監視された圧力の平均値が計算される。 計算された平均値は、しきい値を決定するのに使用される。 第2の液体をノズルに対して移動させるために、ノズルに流体結合されたポンプが作動させられる。 ノズルに流体結合された圧力が、ノズルに流体結合された圧力変換器によって、第2の液体が移動する間、ほぼ連続的に監視される。 ほぼ連続的に監視された圧力が積分される。 しきい値が、積分された圧力と比較され、第2の液体の移動が意図したようなものであったかあるいは意図しないようなものであったかが判定される。 |
89 |
Measuring method and measuring device for liquid material |
JP21690293 |
1993-08-10 |
JPH06207844A |
1994-07-26 |
DEIITAA DEYURU |
PURPOSE: To form a liquid drop having an uniform density and a constant particle size and improve the precision of volume measurement by generating an electric field in the outflow port of a liquid material supplying member to regulate the particle size of the liquid drop.
CONSTITUTION: An outflow port 3 for a liquid maternal 13 formed into a nozzle having a diameter of about 1.5mm by use of an electric conductive material, so that a specified number of liquid drops are guided into a vessel situated under the outflow port 3 according to a desired liquid quantity. A nozzle 2 having the outflow port 3 is electrically connected to the first electrode 5 of a high voltage source 7, the second electrode 6 of the power source 7 is connected to a metal grid electrode 4 provided opposite to the outflow port 3 to generate a strong electric field within the range of the outflow port 3, and the particle size and mass of a liquid drop 8 is controlled by the high voltage applied to the outflow port 3 and the electrode 4. According to such a structure, when the voltage is enhanced to about 10kV' per 1cm distance between the outflow port 3 and the electrode 4, the liquid drop diameter can be reduced less than 1mm.
COPYRIGHT: (C)1994,JPO |
90 |
JPH0441288B2 - |
JP6404583 |
1983-04-12 |
JPH0441288B2 |
1992-07-07 |
TAKADA AKIRA |
|
91 |
JPH0341773B2 - |
JP4919485 |
1985-03-12 |
JPH0341773B2 |
1991-06-25 |
|
|
92 |
JPH0340328B2 - |
JP11529082 |
1982-07-02 |
JPH0340328B2 |
1991-06-18 |
|
|
93 |
JPS6349167B2 - |
JP22009482 |
1982-12-17 |
JPS6349167B2 |
1988-10-03 |
YAMAMOTO HIROSHI |
|
94 |
JPS6248241B2 - |
JP20994781 |
1981-12-28 |
JPS6248241B2 |
1987-10-13 |
SAKAMOTO KOICHI; SAKATA MASARU; FUJITA HIROTOSHI |
|
95 |
Measuring method of quantity of injection |
JP15926084 |
1984-07-31 |
JPS6138523A |
1986-02-24 |
MORIYAMA AKINOBU; MURASE ISAO |
PURPOSE:To measure the one-time quantity of injection accurately by parting atomization liquid admitted into a measurement pipe into parts of each injection of an injection valve with filler gas, and measuring the parted liquid columns. CONSTITUTION:Liquefied fuel F is charged in the flow passage 4a of the measurement pipe 4 through an injection valve 1 up to the downstream side of a gas exhaust nozzle 5. Then, a control valve 6 is operated to open a needle valve 6a and gas G flows in the flow passage 4a from the exhaust nozzle 5b because of the differential pressure between the pressure of gas sent forcibly to a gas intake 5a and the pressure in the flow passage 4a; and the operation of the valve 6 ends and a specific among of gas G is charged in the flow passage 4a. When fuel injection is started through the valve 1, fuel F of one injection moves and the charged air G is pressed to move, forming an air column G'. Thus, the fuel injection and air charging are repeated to form parted liquid columns F' and air columns G' alternately in the flow passage 4a. The air column F' corresponds to fuel for one injection of the injection valve 1 and the length of the liquid column F' is measured, calculated 11, and displayed 12. |
96 |
JPS6058804B2 - |
JP6290080 |
1980-05-14 |
JPS6058804B2 |
1985-12-21 |
AREKUSANDAA KYUKENSU |
|
97 |
Automatic measuring and discharging device for ultrafiltration liquid utilizing negative pressure type bed side console |
JP5754884 |
1984-03-26 |
JPS60201215A |
1985-10-11 |
SATOU KIMIHIKO |
PURPOSE:To improve operability by allowing a motor to make one turn every time a specific amount of ultrafiltration liquid is stored in a cylinder part and discharging the ultrafiltration liquid automatically, and displaying the discharge of the ultrafiltration liquid digitally. CONSTITUTION:A water level measuring sensor 19 is fitted to the lower end of the hollow part 10 of a hollow piston 9 inserted into the cylinder part 16 of a liquid storage container 8, and this water level measuring sensor 19 is arranged below a liquid port 13 formed in the side wall of the cylinder part 16. Every time a specific amount of the ultrafiltration liquid 19 is stored in the cylinder part 16, an electric circuit 23 among the ultrafiltration liquid 18, water level measuring sensor 19, and motor 20 is closed and the motor 20 makes one turn. Consequently, the ultrafiltration liquid 18 in the cylinder part 16 is discharged automatically and the discharge of the ultrafiltration liquid during ultrafiltration is calculated from the discharge of the ultrafiltration liquid 18 and the rotating speed of the motor 20 and displayed digitally. |
98 |
Quantity regulator for device for batching and filling liquid |
JP9891884 |
1984-05-18 |
JPS60120220A |
1985-06-27 |
RUUDORUFU BUIRUTO |
|
99 |
Measuring device for minute flow rate |
JP4560383 |
1983-03-18 |
JPS59171816A |
1984-09-28 |
YAMAMOTO HIROSHI; NOZAKI KAZUO; TSUCHIYA HIROYA; UMEDA NOBUYOSHI |
PURPOSE:To measure accurately a minute flow rate from the number of droplets which forms a discontinuous flow, by using a dripping device so as to maintain the volume of a dripped liquid at a prescribed amount in a wide range of a dripping speed. CONSTITUTION:A storing vessel 1 for a liquid to be measured is provided, by insertion, with an inlet pipe 2 communicating with the outside air through filter 3, and an outlet pipe 4 communicating in the lower part with a dripping pipe 6. The inlet pipe 2 is provided for introducing the outside air corresponding to the liquid to be measured which flows out from the outlet pipe 4, and the other opening thereof is positioned at the top of the vessel 1. To the contrary, the other end of the outlet pipe 4 is opened in the bottom part of the vessel 1. The dripping pipe 6 is joined to the lower end of the outlet pipe 4 and opened in a measuring vessel 7, and drips a droplet 11. In the vessel 7, electrodes 8 are disposed at a distance from the lower part of the dripping pipe 6 at which the droplet is separated from the pipe 6, and with a gap smaller than the droplet between them. If the droplet is a conductive liquid, a circuit between an integrator 13 and a power source 14 is closed when the droplet passes the gap between the electrodes 8, and this passage of the droplet is integrated. |
100 |
Liquid distribution pump apparatus |
JP5674683 |
1983-03-31 |
JPS58183959A |
1983-10-27 |
DAGURASU EFU KOOSETSUTO |
|