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 |
|---|---|---|---|---|---|---|
| 81 | Manufacturing methods and mems device of Mems device | JP2010048008 | 2010-03-04 | JP5463961B2 | 2014-04-09 | 隆史 勝木; 岳明 島内; 雅彦 今井; 治 豊田; 知史 上田 |
| 82 | Wire harness | JP2010253825 | 2010-11-12 | JP2012105502A | 2012-05-31 | NAKAYAMA MASAYUKI |
| PROBLEM TO BE SOLVED: To provide a wire harness capable of easily adding a communication function without increasing the number of components.SOLUTION: The wire harness comprises: relay boxes 2a,2b in which an outer shape is defined by a frame to which a mechanical relay cassette or a relay cassette having a communication function can be mounted replaceably; junction connectors 3a,3b having a preliminarily provided installation space for a communication module; and junction boxes 4a,4b mounting a microcomputer capable of adding a communication function. | ||||||
| 83 | Metallized elastomer probe structure | JP2007546647 | 2005-09-30 | JP2008524583A | 2008-07-10 | アフザリ、アリ; コーデス、スティーブン、アレン; コートイス、ポール、ダブリュー; ゴーマ、シェリフ、エー; ファリネリ、マシュー、ジェイ; ホーハム、ガレス、ジェフリー; モリス、ダニエル、ピーター; ヨハンナン、ニシャ; ランゼッタ、アルフォンソ、ピー; ロスナー、ジョアンナ |
| 【課題】 メタライズ・エラストマ・プローブ構造体を提供する。
【解決手段】 電子デバイスのためのプローブ構造体が提供される。 一つの態様において、プローブ構造体は、その平面を横切る1つ又は複数のコンタクト構造体を有する電気絶縁性キャリアを含む。 各々のコンタクト構造体は、キャリアの平面を貫通して少なくとも1表面に沿い連続的に延びる導電層を有するエラストマ材を含む。 プローブ構造体は、試験装置に接続するように適合させた1つ又は複数の他のコンタクト構造体を含む。 【選択図】 図2 |
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| 84 | Highway cable connector | JP19325582 | 1982-11-02 | JPS58135582A | 1983-08-12 | ANSONII GURAHAMU GOOMAN; JIYON RICHIYAADO PIIKOTSUKU |
| A connector which can make electrical connection to the wires in a highway cable without cutting the cable is formed with two hinged members which can be closed together to make the connection. On closing, conducting needles penetrate the insulation of the cable to contact the wire core. For a co-axial cable, the needle for the central core is insulated except at the tip. | ||||||
| 85 | Feedthrough terminal plate | JP4114778 | 1978-04-07 | JPS53126180A | 1978-11-04 | CHIYAARUZU FURANSHISU MATSUTSU; UIRIAMU TOOMASU WADEINTON |
| A dual orientation feed-through terminal block capable of being mounted selectively in either one of two orientations and including an electrical terminal member affixed in the block and having a contact extending through a slot in the block, the contact being permanently deformable into remains affixed in the block, to provide a feed-through in a direction appropriate to the selected mounting orientation. | ||||||
| 86 | JPS50149991A - | JP4986175 | 1975-04-25 | JPS50149991A | 1975-12-01 | |
| 87 | JPS50112786A - | JP14551374 | 1974-12-18 | JPS50112786A | 1975-09-04 | |
| 88 | セルコネクタユニット | JP2017030685 | 2017-02-22 | JP2018137126A | 2018-08-30 | 今西 雅弘; 堀田 大二 |
| 【課題】複数のセルコネクタユニットの中から特定のセルコネクタユニットを容易に探し出すことが可能なセルコネクタユニットを実現する。 【解決手段】本発明の一形態に係るセルコネクタユニット1は、燃料電池4のセル積層体5に接続されるセルコネクタユニットである。セルコネクタユニット1は、セル積層体5のセル6に接続されるセルコネクタ10を複数有し、セル積層体5に接続された状態で複数のセルコネクタ10がセル6の積層方向で並ぶように連結されている。セル6の積層方向で両端に配置されるセルコネクタ10のうち、一方のセルコネクタ10にユニット判別用の突起部11fが設けられ、他方のセルコネクタ10に突起部11fが設けられておらず、両端に配置されるセルコネクタ10の間のセルコネクタ10の全てには、突起部11fが設けられている、又は突起部11fが設けられていない。 【選択図】図3 |
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| 89 | 接続構造及び接続部保護部材 | JP2015079055 | 2015-10-14 | JPWO2017064773A1 | 2018-08-02 | 岡 太一 |
| 【課題】接続部をタッチプロテクト構造とすることが可能な接続構造及び接続部保護部材を提供する。 【解決手段】端子台2に設けられた第1電極3と、ケーブル4の端部に設けられた第2電極5とをねじ止め固定する接続部6を有する接続構造100であって、ねじ止め用のねじ7と、端子台2に固定され、接続部6を覆うように設けられる絶縁体からなるハウジング8と、を有する接続部保護部材1を備え、ハウジング8は、ねじ7を通す中空円筒状のガイド部10を有し、ガイド部10は、ねじ止め固定を解除したときに、ねじ7を第1電極3から離間させた状態でガイド部10内に保持するねじ保持機構13を有する。 |
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| 90 | 接続部保護部材及びワイヤハーネス | JP2017524218 | 2015-06-17 | JPWO2016203590A1 | 2018-04-05 | 岡 太一 |
| 端子台(2)に設けられた板状の第1電極(3)と、ケーブル(4)の端部に設けられた板状の第2電極(5)とをねじ止め固定する接続部(6)に設けられる接続部保護部材であって、第2電極(5)または端子台(2)に固定され、接続部(6)を覆うように設けられる絶縁体からなるハウジング(8)と、ハウジング(8)に形成されたねじ止め用のねじ(7)を通すためのねじ穴(10)と、ねじ穴(10)を塞ぐ閉塞部材(9)と、を備えたものである。 | ||||||
| 91 | 電源端子箱構造及びこれを用いた圧縮機 | JP2013090865 | 2013-04-24 | JP2014216396A | 2014-11-17 | OHASHI KATSUYA; NAKAMURA SATOSHI |
| 【課題】小型で衝撃などにより電源端子箱蓋が外れにくい電源端子箱構造および圧縮機を得る。【解決手段】電源端子箱構造において、3箇所の接続部は、電源線9入口部に対して最も近い位置に配置される第1接続部と、電源線入口部に対して第1の接続部よりも遠い位置に配置される第2接続部及び第3接続部とから構成されるとともに、第1接続部は電源線の挿入方向に対して最も近い位置に配置され、第2接続部は電源線の挿入方向に対して第1接続部よりも遠い位置に配置され、第3接続部は電源線の挿入方向に対して第1接続部よりも遠い位置に配置されるとともに電源線の挿入方向に対して第2接続部と反対側に配置され、2箇所の締結部は、第2接続部及び第3接続部よりも電源線入口部に近い位置に配置されるとともに電源線の挿入方向に対して第1接続部を挟むようにそれぞれ反対側に配置される。【選択図】図1 | ||||||
| 92 | Electric connector | JP2012154902 | 2012-07-10 | JP2014017166A | 2014-01-30 | ENDO RYUKICHI; YAGI SAKAI; TAKEDA TAKUYA |
| PROBLEM TO BE SOLVED: To provide an electric connector which can enhance connectivity, because a terminal can be fitted reliably to a printed circuit board.SOLUTION: An electric connector 10 includes terminal pins 20 having terminals 21, being fitted in the through holes of two printed circuit boards P1, P2, formed at both ends thereof, and a support 31 provided with an arrangement part 32 on the printed circuit board P1 side for arranging the terminal pins 21 while restraining in a fixed state in a row, and an arrangement part 32 on the printed circuit board P2 side for arranging the terminal pins 21 while restraining in a non-fixed state. A protrusion 22 for regulating the movement in the axial direction by hooking to the support 31 is formed, as a locking portion, in the terminal pin 20. Furthermore, a buffer portion 23 which deforms depending on the deviation of the axes of a terminal 21 at one end and a terminal 21 at the other end is formed in the terminal pin 20. Since the buffer portion 23 is formed of a plurality of elastic pieces, application of an excessive stress can be relaxed even if the axes are deviated. | ||||||
| 93 | Electric connector | JP2011269331 | 2011-12-08 | JP2013120733A | 2013-06-17 | ENDO RYUKICHI; YAGI SAKAI; KURAKI ATSUSHI; TONO SHUJI |
| PROBLEM TO BE SOLVED: To provide an electric connector in which the amount of photo-curable resin used for fixing a conductive terminal can be reduced while ensuring waterproofness of a clearance between the conductive terminal and a housing, without causing complication of the manufacturing process and decrease in manufacturing efficiency.SOLUTION: An electric connector 100 comprises: a box-like housing 10 having an opening 11; and a plurality conductive terminals 13 arranged while penetrating the bottom 12 of the housing 10. The plurality of conductive terminals 13 are arranged while projecting to the bottom face 15 of a fitting recess 14 formed in the housing 10. On the bottom face 15 around the plurality of conductive terminals 13, a recess 16 to be filled with resin is provided while being recessed from the bottom face 15. Waterproofness of a clearance between the plurality conductive terminals 13 and the bottom 12 is ensured by curing a UV-curable resin 17 filling the recess 16 to be filled with resin. | ||||||
| 94 | High-frequency detection device and coaxial tube provided with high-frequency detection device | JP2010163667 | 2010-07-21 | JP2012026780A | 2012-02-09 | TABUCHI ISAO |
| PROBLEM TO BE SOLVED: To provide a high-frequency detection device of which the capacitance of a capacitor formed in between a power transmission conductor and an inner conductor of a coaxial tube is not limited by a thickness of a substrate.SOLUTION: In the high-frequency detection device 1 for detecting a high-frequency voltage signal according to the high-frequency voltage which is generated on the inner conductor 8 of the coaxial tube, a ring-shaped conductor 23 is prepared on a printed substrate 2 and the capacitors are connected thereto in series. The ring-shaped conductor 23 is fixed on the printed substrate 2 so that an axial direction of the inner conductor 8 penetrated with a cylindrical part 23a and the printed substrate 2 almost become orthogonal. The high-frequency voltage signal is output based on a voltage generated in the ring-shaped conductor 23 penetrated with the inner conductor 8. A height of the cylindrical part 23a of the ring-shaped conductor 23 (length of printed substrate 2 in the thickness direction) can be arranged larger than the thickness of the printed substrate 2. The capacitance of the capacitor formed in between the power transmission conductor and the inner conductor 8 is not limited by the thickness of the printed substrate 2 accordingly. | ||||||
| 95 | Method of fabricating mems device and mems device | JP2010048008 | 2010-03-04 | JP2011183469A | 2011-09-22 | KATSUKI TAKASHI; SHIMAUCHI TAKEAKI; IMAI MASAHIKO; TOYODA OSAMU; UEDA TOMOSHI |
| PROBLEM TO BE SOLVED: To provide a method which properly forms a second electrode such as a movable beam formed on a sacrificial layer, by maximally flattening the surface of the sacrificial layer even when using Si as a material. SOLUTION: This method includes a process of forming a base electrode 14a having a tapered sidewall TS1 in at least one end above a substrate 11, a process of forming the sacrificial layer BGP0 having a tapered end surface TS2 inclining in the inverse direction of the tapered sidewall TS1 in an end so as to overlap with the upper part of the tapered sidewall TS1 by extending from an area formed with no base electrode 14a, a process of forming a spacer 14b abutting on the tapered end surface TS2 of the sacrificial layer BGP0 on the base electrode 14a, a process of forming a movable electrode 15 on the sacrificial layer BGP0 and the spacer 14b, and a process of removing the sacrificial layer BGP0 after forming the movable electrode 15. COPYRIGHT: (C)2011,JPO&INPIT | ||||||
| 96 | Flexible optoelectronic interconnection module and method of manufacturing the same | JP2010019624 | 2010-01-29 | JP2011158666A | 2011-08-18 | KAMIMURA HIROSHI; FURUYAMA HIDETO |
| <P>PROBLEM TO BE SOLVED: To achieve low cost and high reliability of a flexible optoelectronic interconnection module. <P>SOLUTION: The flexible optoelectronic interconnection module includes: a flexible wiring board 100 that has an electric wire 120 and a first electric connection terminal 130 for electrically connecting the electric wire 120 outside; an optoelectronic flexible interconnection board 200 that has an optical interconnection path 250, an electric wire 220, and a second electrical connection terminal 230 for electrically connecting the electric wiring 220 outside, and that is mounted on a part of the region of the flexible wiring board 100; a semiconductor element 280 that is mounted on the flexible optoelectronic interconnection board 200, that is electrically connected to the electric wire 220 of the interconnection board 200, and that is optically connected to the optical interconnection path 250; and a conductive connecting member that is installed between the first electric connection terminal 130 and the second electric connection terminal 230 and that electrically connects the respective electric connection terminals 130, 230. <P>COPYRIGHT: (C)2011,JPO&INPIT | ||||||
| 97 | Electrical connection device and this method of manufacturing | JP2007546648 | 2005-09-30 | JP4709850B2 | 2011-06-29 | アフザリ、アリ; コーデス、スティーブン、アレン; コートイス、ポール、ダブリュー; ゴーマ、シェリフ、エー; ファリネリ、マシュー、ジェイ; ホーハム、ガレス、ジェフリー; モリス、ダニエル、ピーター; ヨハンナン、ニシャ; ランゼッタ、アルフォンソ、ピー; ロスナー、ジョアンナ |
| 98 | JPH0349187B2 - | JP19325582 | 1982-11-02 | JPH0349187B2 | 1991-07-26 | ANSONII GURAHAMU GOOMAN; JON RICHAADO PIIKOTSUKU |
| A connector which can make electrical connection to the wires in a highway cable without cutting the cable is formed with two hinged members which can be closed together to make the connection. On closing, conducting needles penetrate the insulation of the cable to contact the wire core. For a co-axial cable, the needle for the central core is insulated except at the tip. | ||||||
| 99 | Denkikonekutakumitatetai | JP11731575 | 1975-09-30 | JPS5162376A | 1976-05-29 | MAIRUZU EDOMONDO BAANETSUTO JU; JOOJI HEIRUZU FUOSUTAA JUNIA; JOOJI AREN BATSUTON |
| 100 | JPS498107A - | JP3193673 | 1973-03-22 | JPS498107A | 1974-01-24 | |
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