101 |
Sample fluid suction supply method |
JP2007243422 |
2007-09-20 |
JP4070801B2 |
2008-04-02 |
ラメッシュ マーシー クルクンディ; エス ドーレンコット ジェフリー; イー ワイルダー スティーヴン; ヌグエン ディン |
|
102 |
Method of aspirating and dispensing sample fluid |
JP2007243422 |
2007-09-20 |
JP2007333752A |
2007-12-27 |
DORENKOTT JEFFREY S; WILDER STEVEN E; NYUGEN DINH; MURTHY KURUKUNDI RAMESH |
<P>PROBLEM TO BE SOLVED: To detect the physical contact of a sample probe with a sample fluid and also detect the presence or absence of a variety of events related to a device in a method of aspirating and dispensing the sample fluid. <P>SOLUTION: The constant flow of air through a pressure transducer and the sample probe is provided by an air source. The sample probe is lowered toward the surface of the fluid. When the tip of the sample probe reaches the surface of the fluid, the pressure transducer detects a pressure variation in an air path in which the pressure transducer is disposed. In response to the pressure variation, the transducer supplies transducer signals to a detection circuit. The detection circuit detects the supplied signals, and supplies control signals to a system controller. <P>COPYRIGHT: (C)2008,JPO&INPIT |
103 |
Plastic spring |
JP2006142312 |
2006-05-23 |
JP2006329423A |
2006-12-07 |
BURREN STEFAN; MOSER ULRICH; SCHRUL CHRISTIAN |
<P>PROBLEM TO BE SOLVED: To provide a spring formed from plastic by injection molding to be used as a compensation spring, a support spring, or a driving spring of a device for medical or pharmaceutical application. <P>SOLUTION: The plastic spring is provided with first components 1 and 2, the spring 10 formed from plastic by injection molding, and a second component 5 elastically supported with respect to the first components 1 and 2 by the spring 10. <P>COPYRIGHT: (C)2007,JPO&INPIT |
104 |
Administration volume-measuring/supplying mechanism for injector |
JP2006142309 |
2006-05-23 |
JP2006326309A |
2006-12-07 |
BURREN STEFAN; MOSER ULRICH; SCHRUL CHRISTIAN |
<P>PROBLEM TO BE SOLVED: To provide an administration volume-measuring/supplying mechanism for setting the volume to be administered. <P>SOLUTION: An administration volume-measuring/supplying mechanism for an injector 1 is equipped with a setting sleeve 2 having one or more peripheral marks 2b each indicating a different volume of administration, capable of being turned to set a volume to be administered from the injector 1, and a rotating sleeve 3 having one or more peripheral marks 3h each indicating a different volume of administration, capable of being turned outwardly from an administration measuring and supplying mechanism so that the volume of administration can be primed. As the setting sleeve is linked to the rotating sleeve, when the rotating sleeve is in a fully-turned state, the administration volume-measuring/supplying mechanism prevents the administration volume set by the setting sleeve from being displaced from the volume in relation to the indicated mark on the rotating sleeve. Thus, the mechanism enables the setting and priming of a volume to be administered from the injector. <P>COPYRIGHT: (C)2007,JPO&INPIT |
105 |
Sample fluid suction supply method and apparatus |
JP18352196 |
1996-07-12 |
JP3715034B2 |
2005-11-09 |
ラメッシュ マーシー クルクンディ; エス ドーレンコット ジェフリー; イー ワイルダー スティーヴン; ヌグエン ディン |
|
106 |
Apparatus and method for weighing the liquid |
JP2001523608 |
1999-09-10 |
JP2003509676A |
2003-03-11 |
ジャン・マルコ・ブレッサーニ |
(57)【要約】 各貯蔵器2,6に収容される1つ以上の液体を1つ以上の集液容器にそれぞれ放出して計量する装置において、各液体のために、計量される液体のためのシリンダ2を備え、シリンダは内部の液体の液面に接触する可動ピストン部材8を有しており、ピストン8に一定力を作用させる圧力手段12をさらに備え、シリンダ2から集液容器に液体を移送する手段14,16,18,20をさらに備え、移送手段はシリンダから液体を引き込むための入口開口部16と放出開口部20とを有し、移送手段は、放出流量を一定に保つために、シリンダ2内の液面高さに応じて移動可能であるとともに、シリンダ内の液体の液面高さが変化しても引き込み位置より上の液体静水頭H
2と釣り合った状態で引き込み位置と放出位置との間の幾何学的高度差H
1を保持するようになっており、移送手段内の液体の流れを制御するために移送手段につながったバルブ手段をさらに備えている。 |
107 |
Apparatus for dosing a defined amount of a flowable substance |
JP8732890 |
1990-03-30 |
JP2908506B2 |
1999-06-21 |
HENINGU IYOTSUTO KURAASEN |
|
108 |
Supply device of the analysis liquid |
JP1151793 |
1993-01-27 |
JP2846541B2 |
1999-01-13 |
HERUMUUTO SHURUMUBAAGAA |
|
109 |
valve |
JP22322687 |
1987-09-08 |
JP2612865B2 |
1997-05-21 |
ギルバート シエル チャールズ |
|
110 |
Quantity adjusting device |
JP11505896 |
1996-05-09 |
JPH08301201A |
1996-11-19 |
EAHARUTO POKURICHIYU; RORUFU HAARAA; GIYUNTAA FUEEGERE; PEETAA MIYURAA; YURUGEN BARANGE |
PROBLEM TO BE SOLVED: To ensure a high efficiency for quantity adjustment with a less required space by a method wherein products are filled into a quantity adjusting device through valve tubes each of which is movable upward and downward coaxially against a ring piston and the products are injected into a container with the ring piston.
SOLUTION: At the time of starting suction, a ring piston 40 is positioned at a lower dead point K
u and a valve tube 50 is lowered with its lateral hole 55 reaching a passage section 36. At this time, seal rings 56a, 56b seal up a discharge hole 29 and a lower section 48c of a valve cylinder 35. Then, the ring piston 40 is raised toward an upper dead point K
o, and products are sucked into the valve tube 50 and brought into a quantity adjusting chamber 41 through the lateral hole 55. As the ring piston 40 reaches the upper dead point K
o, suction is finished. Then, the valve tube 50 moves upward until the lateral hole 55 and the seal ring 56a are positioned at an area of the lower section 48c of the valve cylinder, and seals up the valve cylinder 35 and releases the discharge hole 29 with its valve front end 51. Then, the ring piston 40 is lowered to the lower dead point K
u. Therefore, the products are supplied through the discharge hole 29 to a container 12 positined at the lower side.
COPYRIGHT: (C)1996,JPO |
111 |
Distributor for viscous material |
JP28882495 |
1995-11-07 |
JPH08219848A |
1996-08-30 |
NORUBERUTO HANMAARU; HORUSUTO FURAISHIYAA |
PROBLEM TO BE SOLVED: To ensure high distribution performance without causing abrupt pressure increase by a structure wherein an electric motor having a crank drive section performs distributing operation every time when the crank drive section makes a single revolution.
SOLUTION: An electric motor 14 having a crank drive section 18 performs distributing operation every time when the crank drive section 18 makes a single revolution. The operation is performed through a pneumatic or liquid pressure piston cylinder driver and has very high level as compared with a possible level. Especially, a smooth operation is achieved and an operating rod 19 has a sinusoidal operating pattern where the feeding operation is accelerated and braked gently. Undesired abrupt pressure increase (variation) does not take place in a filling machine and facility even in case of high continuous distribution cycle.
COPYRIGHT: (C)1996,JPO |
112 |
Liquid metering dispensing device from a storage container |
JP25499090 |
1990-09-25 |
JPH07100518B2 |
1995-11-01 |
アルフレート、ラープ; アルフレド、チアフアレラ; ゲオルク、トロスカ; ゲオルゲ、プレスター; フレデリツク、デイー、シヨル |
|
113 |
JPH07507984A - |
JP50273394 |
1993-05-13 |
JPH07507984A |
1995-09-07 |
|
|
114 |
Liquid dosing system |
JP6504194 |
1994-04-01 |
JPH06307907A |
1994-11-04 |
SUTEFUAN SATSUTORAA |
PURPOSE: To provide a liquid dosing system for performing high accurate dosing by using an inexpensive and simple device. CONSTITUTION: A liquid dosing system 30 includes one or more dosing devices 32, devices 33, 34, 35, 36 for actuating a plunger 31 of the dosing system, reading equipments 38, 39 for reading out data and an electronic unit 40 for calculating dosing displacement and the liquid dosing system has peculiar data for inner diameters of respective dosing devices. |
115 |
Distance-piston for the configured respiratory sent out as a cylinder capacitor for measurement - cylinder unit |
JP16740392 |
1992-06-25 |
JPH0657257B2 |
1994-08-03 |
ダウツェンベルク ブリギッテ; ディットマン ラルフ |
|
116 |
Analytical liquid supply system |
JP1151793 |
1993-01-27 |
JPH05264412A |
1993-10-12 |
Helmut Schlumberger; シュルムバーガー ヘルムート |
PURPOSE: To supply a strictly determined quantity of analytical liquid, larger in quantity than that being obtained through 'drop on demand' method but smaller the minimum quantity obtained through a dilution unit or a mixer, to a target with extremely high accuracy.
CONSTITUTION: The analytical liquid supply system for supplying a small quantity of analytical liquid 7 in pulse system to a target 5 through a nozzle discharge port 3 and a nozzle 2 comprises a pressure chamber 1 for holding the analytical liquid under pressurized state, and a valve unit 11 having a valve port 23 and a closing element 13 movable through a positioning element 12. The valve unit 11 is assembled to sustain discharge of liquid through the movement of the closing element 13 when the valve port 23 is closed.
COPYRIGHT: (C)1993,JPO |
117 |
Metering device |
JP16547691 |
1991-07-05 |
JPH04367426A |
1992-12-18 |
GIANKARURO MONTESHISA |
PURPOSE: To enable a metering device to be used for a paste product, and further enable it to be cleaned and sterilized in a closed circuit without requiring any disassembly of the device by a method wherein a discharging flap is arranged between a metering chamber and a feeding nozzle and the metering chamber is inclined downward in a direction toward the feeding nozzle.
CONSTITUTION: A metering chamber 1 is connected to a feeding hopper 2 at its upstream side and connected to a feeding nozzle at its downstream side. There is provided a suction piston valve 6 for use in sucking the product into the chamber by a suction force and discharging the product toward the feeding nozzle. Then, there are provided a metering piston 9 opened into the chamber between a valve 6 and the feeding nozzle and a discharging flap 10 between the metering chamber 1 and the feeding nozzle. The metering chamber 1 is inclined downwardly at the feeding nozzle. With such an arrangement as above, it is possible to operate the metering device under a quite high sanitary state and further to wash and sterilize it without requiring any disassembly of it.
COPYRIGHT: (C)1992,JPO |
118 |
JPH04504466A - |
JP50176890 |
1990-01-05 |
JPH04504466A |
1992-08-06 |
HUDKOVIC ROBERT; MENGEL ERICH; TRACHEZ BRUNO |
|
119 |
JPH0489972U - |
JP2608091 |
1991-03-27 |
JPH0489972U |
1992-08-05 |
|
|
120 |
JPH0425074B2 - |
JP18159986 |
1986-07-31 |
JPH0425074B2 |
1992-04-28 |
TAGUCHI KATSUHIKO; IMAMYA YOSHI; TAKEGAWA JUJI; KURODA KYOSHI |
|