161 |
Device and method for using centripetal acceleration for driving flowing movement in micro-hydraulic engineering system |
JP2002349755 |
2002-12-02 |
JP2003270252A |
2003-09-25 |
KELLOGG GREGORY; KIEFFER HIGGINS STEPHEN G; CARVALHO BRUCE L; DAVIS GENE A; WILLIS JOHN P; MINIOR TED; CHAPMAN LAURA L; KOB MIKAYLA; OELTJEN SARAH D; OMMERT SHARI; MIAN ALEC |
<P>PROBLEM TO BE SOLVED: To provide a method and a device for performing microanalysis, micro-synthesized analysis, and procedures. <P>SOLUTION: A micro-system platform having a micro-hydraulic engineering constitutional element, counter heating element, temperature sensing element, mixing structure, capillary, and disposable valve and a method of using the micro-system platform for performing biological, enzymatic, immunological, and chemical assays, are provided. <P>COPYRIGHT: (C)2003,JPO |
162 |
Apparatus and method for using centripetal acceleration for driving streaming movement in micro fluid engineering system |
JP2002107192 |
2002-04-09 |
JP2003028883A |
2003-01-29 |
KELLOGG GREGORY; KIEFFER HIGGINS STEPHEN G; CARVALHO BRUCE L; DAVIS GENE A; WILLIS JOHN P; MINIOR TED; CHAPMAN LAURA L; KOB MIKAYLA; OELTJEN SARAH D; OMMERT SHARI; MIAN ALEC |
PROBLEM TO BE SOLVED: To provide a method and an apparatus for performing microanalysis and micro synthesis analysis and procedure. SOLUTION: A method is provided, where the method uses the micro systemplatform having a micro fluid engineering component, a resistive heating element, a temperature-sensing element, mixed structure, capillary, and disposable valve, and uses the microsystem platform of these for performing biological, immunological, immunologic, and chemical assay. |
163 |
Remote modular connector with a rotary electric connector |
JP5059892 |
1992-03-09 |
JP3268650B2 |
2002-03-25 |
ディツィッグ アルバート |
|
164 |
Signal transmission coupler via a rotational interface |
JP54962398 |
1998-05-15 |
JP2001525992A |
2001-12-11 |
アルペリン,アルフレッド,エム.; スミス,ウィリアム,ヴイ |
(57)【要約】 回転インターフェース(22)を介して信号を送信するカプラ(20)。 カプラ(20)は、第1の部分(24)と、第1の部分(24)に対する軸を中心として回転するように設けられた第2の部分(26)とを具える。 第1の部分(24)は、第1の磁気コイル(30)と、第1の光学信号送信装置(32)とを具える。 第2の部分は、第1の磁気コイル(30)に誘導結合された第2の磁気コイル(34)と、第2の光学信号送信装置(36)とを具える。 第1及び第2の磁気コイル(30及び34)は、回転インターフェース(22)を介して電力を送信するために誘導結合されている。 第1及び第2の光学信号送信装置(32及び36)は、その間で光学信号を送信するために光学結合されている。 第1及び第2の光学信号送信装置(32及び36)の一方は、光学−電気信号変換装置(46)を具え、第1及び第2の光学信号送信装置の他方は、電気−光学信号変換装置(48)を具える。 第1及び第2の光学信号送信装置(32及び36)は、光学ファイバを具えることが好ましい。 カプラは、パン・ティルト機構を有するビデオカメラに配設可能であり、電源、ビデオ、制御信号が回転インターフェース(22)を介して送信される。 |
165 |
Computer tomography |
JP90679393 |
1993-03-05 |
JP2606941Y2 |
2001-02-19 |
シュティルノル ジークフリート |
|
166 |
Slip ring device |
JP2507591 |
1991-01-28 |
JP3100643B2 |
2000-10-16 |
耕二 名取; 芳樹 平尾; 幸喜 菊地 |
|
167 |
Connector |
JP18483498 |
1998-06-30 |
JP2000022785A |
2000-01-21 |
KUROSAWA TOSHIAKI; ADACHI SHIZUO; ROKUHARA TAKAHISA; HASEGAWA SHINJI |
PROBLEM TO BE SOLVED: To provide the inexpensive connector suitable for mass-productivity with a simple configuration.
SOLUTION: A front side of the connector is provided with a coupling section to which a modular connector or a modular plug is removably connected, the rear side is provided with 1st and 2nd modular sockets 2 where slide contact sections 21d-24d electrically connected with respective modular terminals in the coupling section are exposed at different radial positions, and a connection body that supports plural terminal boards placed concentrically while being exposed to one and the other faces, connects the rear side of the modular socket 2 and the one face nearly coaxially, connects the respective slide contact sections of the 1st modular socket 2 and the respective terminal boards individually to be freely turnable, connects the rear side of the 2nd modular socket 2 and the other side nearly coaxially and connects the slide contact sections of the 2nd modular socket 2 and the respective terminal boards in the contact state.
COPYRIGHT: (C)2000,JPO |
168 |
Grounding and contacting device |
JP12778897 |
1997-05-02 |
JPH1051902A |
1998-02-20 |
MENZ BERTRAM DIPL ING |
PROBLEM TO BE SOLVED: To reduce the overall size and weight of a grounding and contacting device and to decrease maintenance and inspection operations by simplifying its structure of the device used for current transmission between the fixed car part of a track car and a rotating axle. SOLUTION: This grounding and contacting device is provided with at least a contacting member, on which pressure acts to the direction of a car. In a structure in which the contacting member 12 extends from an axle directly or indirectly and contacts a carbon material in particular or a contact surface including this material, the contacting member 12 is arranged so as to contact the contact surface always flatly. To reduce the weight, the device is also structured in such a way that pressure is applied on to at least a contacting member via a fluid or a means filled with a fluid material. |
169 |
Rotary electric connector |
JP32047395 |
1995-12-08 |
JPH08236238A |
1996-09-13 |
MOHI SOBAANI |
PROBLEM TO BE SOLVED: To provide an economical connector for performing the operation having high reliability over a long period by turning one of disc-shaped connector members provided with a plurality of connecting members to be brought in contact with each other and applying axial bias to the other connector not to be turned. SOLUTION: A plurality of projecting connecting members 56 are concentrically ring shapedly provided on the surface 36 perpendicular to a rotary shaft of a disk-shaped connector member 38 to be turned. While, recessed connecting members 50 are provided on the surface 32 similar to the surface 36, of the disk-shaped connector member 30 not to be turned so as to face the member 56. Pressure for bias is applied to the member 30 through a spring, the members 30, 32 are relatively rotated while the facing members 50, 56 are brought in contact with each other, and the members 50, 56 restrain contact failures by self-adjustment in relation to abrasion. A rotary electric connector having high reliability over a long period can be provided by an economical structure in which a spring and a brush are not needed. |
170 |
Rotatable electrical connector and the main shaft and components, as well as methods of making the spindle therefor |
JP5248188 |
1988-03-05 |
JPH0634361B2 |
1994-05-02 |
ARUUBAATO DEITSUITSUGU |
|
171 |
JPH0251093B2 - |
JP21981683 |
1983-11-22 |
JPH0251093B2 |
1990-11-06 |
GOBI AKIRA; MASUBUCHI TOSHIO |
|
172 |
Kaitenshikidenkikonekutasochi |
JP30110786 |
1986-12-16 |
JPH0241151B2 |
1990-09-14 |
ARUPAATO DEITSUIGU |
|
173 |
Denkidotaikumitatetai |
JP4157581 |
1981-03-20 |
JPH0234154B2 |
1990-08-01 |
TERII ESU ARAN; PIITAA AARU JEIKOBUSON |
|
174 |
Rotary electric connector device |
JP30110786 |
1986-12-16 |
JPS62154483A |
1987-07-09 |
ARUPAATO DEITSUIGU |
|
175 |
JPS6237414U - |
JP12646686 |
1986-08-19 |
JPS6237414U |
1987-03-05 |
|
|
176 |
Rotary high power transmitter |
JP15496486 |
1986-07-01 |
JPS6217969A |
1987-01-26 |
PIITAA AARU JIEIKOBUSUN; RAIAN SUCHIYUAATO POOTA |
|
177 |
High-frequency heating device |
JP11696384 |
1984-06-07 |
JPS60263032A |
1985-12-26 |
GOBI AKIRA; MASUBUCHI TOSHIO |
PURPOSE:To obtain the highly reliable high-frequency heating device without causing any malfunction which may be caused in case the device is used without employing a temperature probe by forming a ventilating path, communicated with the outside of an oven, in the rotary support mechanism of the temperature probe. CONSTITUTION:A jack 11 for the rotary support of the temperature probe is formed with a ventilating path 27 equipped with a ventilating hole 26, opposing to the penetrating hole 20 of temperature probe and being communicated with the outside of the oven, and a dewing plate 28, having an outer diameter larger than the jack, is provided on the ventilating hole 26. When an electronic range is used without utilizing the temperature probe, water vapor, generated from the substance 6 to be heated, passes the chamber of oven from the penetrating hole 20 through the ventilating path 27 and the ventilating hole 26 to the outside of the oven. Accordingly, the water vapor will never dew in the jack, therefore, water drop will never be adhered to contact pieces 24A, 24B having contact pieces 23A, 23B equipped with electricity outputting sections 22A, 22B and the contact pieces 24A, 24B will never be conducted. The water vapor, which passes through the ventilating hole 26, dews on the dewing plate 28 and the water drop flows along the rim of a cone and drops on the ceiling plate 1A of the oven, therefore, it will never drop into the jack 11. |
178 |
Rotatable electric joint |
JP5971484 |
1984-03-29 |
JPS59191278A |
1984-10-30 |
YAN BUARENTEINUSU MARIYA HEURU |
|
179 |
Device for supporting and holding body |
JP9388783 |
1983-05-27 |
JPS5926080A |
1984-02-10 |
AAHAATO II DEMANDO |
|
180 |
JPS5853477B2 - |
JP8492976 |
1976-07-16 |
JPS5853477B2 |
1983-11-29 |
HENRI SUMARU |
|