| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 开关场 | CN96111517.3 | 1996-08-16 | CN1148256A | 1997-04-23 | J·弗兰茨克; W·克拉夫特 |
| 本发明涉及一种开关场,用于转接特别是通信和数据技术中的电气信号线路,该开关由许多最好按矩阵形状排列的交叉点1组成,开关场的一个接触表面6配备有一个永久磁铁5,接触表面6对面的接触表面9配备有带线圈13的铁磁材料10。这样就得到一个结构紧凑、造价合理、不受信号影响,坚固耐用的开关场,应用膜片技术来实现本发明,可以使开关场结构特别紧凑。 | ||||||
| 2 | 继电器与矩阵继电器 | CN96197734.5 | 1996-10-16 | CN1200195A | 1998-11-25 | 三角修一; 前西钢三 |
| 继电器结构包括一个线圈板(40),在该板前、后面上具有绕通孔(42)形成的螺旋形平线圈(48);一个固定接触板(50),该板紧固在线圈板(40)的上表面上并使用从通孔(42)伸出的铁芯(51)的末端部分作为固定触点(52);以及一个活动接触板(20),该板使通过从环形座架(24)内伸出的铰接部分(22)在板厚方向可摆动地受到支承的活动接触件(23)面对固定触点(25),从而可与固定触点进入和脱离接触。采用上述结构可提高继电器的生产率、使继电器具有无散射的工作特性。 | ||||||
| 3 | 矩阵继电器 | CN200780008820.3 | 2007-03-12 | CN101401180A | 2009-04-01 | 篠浦达生; 佐藤隆一; 奥田武夫 |
| 本发明涉及一种矩阵继电器,其具有可根据需要简单地变更触点电路数的良好的扩展性,需要进行库存管理的部件数量少,并且组装工时短、生产率高。为此,本发明的矩阵继电器在方形壳体内树脂密封行引线(11~14)、列引线(21~24)及多个开关元件(51~54、61~64、71~74、81~84),该行引线为以在相对的两边分别配置多个输入端子及输出端子的方式进行配线的引线框的行引线,该列引线为以在与所述两边相邻的两边分别配置多个输入端子及输出端子的方式进行配线的所述引线框的列引线,该多个开关元件与所述行引线及所述列引线分别连接。特别是,由中继引线(25、26)及三条跳线(27~29)形成所述行引线(11~14)。 | ||||||
| 4 | 继电器与矩阵继电器 | CN96197734.5 | 1996-10-16 | CN1097276C | 2002-12-25 | 三角修一; 前西钢三 |
| 继电器结构包括一个线圈板(40),在该板前、后面上具有绕通孔(42)形成的螺旋形平线圈(48);一个固定接触板(50),该板紧固在线圈板(40)的上表面上并使用从通孔(42)伸出的铁芯(51)的末端部分作为固定触点(52);以及一个活动接触板(20),该板使通过从环形座架(24)内伸出的铰接部分(22)在板厚方向可摆动地受到支承的活动接触件(23)面对固定触点(25),从而可与固定触点进入和脱离接触。采用上述结构可提高继电器的生产率、使继电器具有无散射的工作特性。 | ||||||
| 5 | Matrix relay | JP5291995 | 1995-03-13 | JP3575707B2 | 2004-10-13 | 勉 下村; 寛 保坂; 史郎 前田; 正行 塩見; 高生 森本; 文宏 笠野; 達也 鈴木 |
| 6 | JPS5517454B2 - | JP6761576 | 1976-06-11 | JPS5517454B2 | 1980-05-12 | |
| 7 | JPS4997506A - | JP13625073 | 1973-12-07 | JPS4997506A | 1974-09-14 | |
| 8 | Reed relay for surface mounting that does not use a lead piece | JP2002527523 | 2001-09-18 | JP2004509434A | 2004-03-25 | サミュエル,ガンサー; ベーグル,ジョン; ボーイントン,ジョン,ジュニア |
| 実質的にリード片を用いず、インダクタンスを可能な限り小さくすることができるリードリレー素子またはリードセンサー素子(102)は個々のユニットまたは複数のユニットとして製造することができる。 リードリレー素子またはリードセンサ素子(102)は、素子の内部側の接点と素子の外部側の複数の接点(130、132、134)を有する基板(110)を備え、外部側の接点を内部側の接点に接続させることによって、信号経路が素子の内部構成部品に接続される。 内部構成部品は、リードスイッチ(100)、電気シールド(148)、コイルボビン、および巻線(120)からなり、励磁によってリードリレーを切り換えることができる。 | ||||||
| 9 | Matrix relay | JP5291995 | 1995-03-13 | JPH08250005A | 1996-09-27 | SHIMOMURA TSUTOMU; KASANO FUMIHIRO; MAEDA SHIRO; SHIOMI MASAYUKI; MORIMOTO TAKAO; SUZUKI TATSUYA; HOSAKA HIROSHI |
| PURPOSE: To obtain a matrix relay which reduces the number of part items, and improves the assembly. CONSTITUTION: A base 1 is formed by burying plural yokes which consist of a magnetic metal made by erecting plural iron cores 2 integrally with a specific interval, in parallel placing a specific interval in the line direction, in a simultaneous compacting, and the iron cores 2 of the yokes are arranged in a matrix form on the upper surface. Compared with the conventional way in which a relay is composed by processing the iron cores of the electromagnets of each ratching relay one by one, the number of part items can be reduced, and since the yokes are integrated to the base in the simultaneous compacting, a minute work to form the holes of the terminals to the forming positions can be carried out easily, and since molded resin is provided between the yokes, a magnetic interference between lines can be prevented. COPYRIGHT: (C)1996,JPO | ||||||
| 10 | Shusekigatasuitsuchi | JP1990175 | 1975-02-19 | JPS5195710A | 1976-08-21 | |
| 11 | SWITCH MATRIX ASSEMBLY AND MAGNETIC RESONANCE IMAGING APPARATUS USING THE SAME | EP16183176.3 | 2016-08-08 | EP3139192A2 | 2017-03-08 | KO, Yun-Kyoung; LEE, Han Lim |
A switch matrix, a switch matrix assembly, and a magnetic resonance imaging (MRI) apparatus are disclosed. The switch matrix includes a first path to which an electric signal is applied; a first switching unit configured to selectively and electrically interconnect a first input unit and a first end of the first path or to open the first end of the first path; and a second switching unit configured to selectively and electrically connect a second input unit to a second end of the first path or to open the second end of the first path. The switching matrix may be used to route the radio frequency (RF) signal received by the RF coil of the MRI apparatus without reducing the RF signal to an intermediate frequency band.
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| 12 | A LEAD-LESS SURFACE MOUNT REED RELAY | EP01973107 | 2001-09-18 | EP1325505A4 | 2006-11-02 | BEIGEL JOHN; SAMUEL GUNTHER; BOYINGTON JOHN JR |
| A reed relay or reed sensor device (102) that is substantially lead-less and has minimal inductance can be manufactured as an individual unit or as a plurality of units. The reed relay or reed sensor device (102) comprises a substrate (110) that path has a plurality of contacts (130, 132, 134) on the exterior of the device connected to contacts on the interior of the device capable of maintaining a signal pathway to the internal components of the device. The internal components further comprise a reed switch (100), an electrical shield (148), a coil bobbin, and a coil of electrical wire (120) which when energized is capable of effectuating switching in the reed relay. | ||||||
| 13 | Matrix relay | EP96103886.6 | 1996-03-12 | EP0732717B1 | 2003-02-19 | Shimomura, Tsutomu; Kasano, Fumihiro; Maeda, Shiro; Shiomi, Masayuki; Morimoto, Takao; Suzuki, Tatsuya; Hosaka, Hiroshi |
| 14 | RELAY AND MATRIX RELAY | EP96935336 | 1996-10-16 | EP0856866A4 | 1999-06-16 | MISUMI SHUICHI; MAENISHI KOZO |
| A relay comprising a coil plate (40) having a flat spiral coil (48) formed around a through-hole (42) on each side, a fixed contact plate (50) using the distal end portion of an iron core (51), which protrudes from the through-hole (42), as a fixed contact and tightly fixed to the upper surface of the coil plate (40), and a movable contact plate (20) with a movable contact (23) rotatable on a hinge (22) extending inside a ring-like yoke (20) so that the movable contact can touch or leave the fixed contact plate (52). This structure of the relay can improve characteristic uniformity and productivity. | ||||||
| 15 | RELAY AND MATRIX RELAY | EP96935336.6 | 1996-10-16 | EP0856866A1 | 1998-08-05 | MISUMI, Shuichi, Omron Corporation; MAENISHI, Kozo, Omron Corporation |
There is a construction comprising a coil plate 40 having a spiral flat coil 48 formed around a through hole 42 on the front and rear surfaces of the plate, a fixed contact plate 50 which is tightly fixed on the upper surface of this coil plate 40 and uses a tip portion of an iron core 51 projecting from the through hole 42 as a fixed contact 52 and a movable contact plate 20 which makes a movable contact piece 23 pivotally supported in the direction of plate thickness via a hinge portion 22 extending from inside an annular yoke 24 face the fixed contact 52 so as to allow it to come in and out of contact with the fixed contact 52. With this arrangement, a relay of a high productivity having no scattering in operation characteristics can be obtained. |
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| 16 | SWITCH MATRIX ASSEMBLY AND MAGNETIC RESONANCE IMAGING APPARATUS USING THE SAME | EP16183176.3 | 2016-08-08 | EP3139192A3 | 2017-09-06 | KO, Yun-Kyoung; LEE, Han Lim |
A switch matrix, a switch matrix assembly, and a magnetic resonance imaging (MRI) apparatus are disclosed. The switch matrix includes a first path to which an electric signal is applied; a first switching unit configured to selectively and electrically interconnect a first input unit and a first end of the first path or to open the first end of the first path; and a second switching unit configured to selectively and electrically connect a second input unit to a second end of the first path or to open the second end of the first path. The switching matrix may be used to route the radio frequency (RF) signal received by the RF coil of the MRI apparatus without reducing the RF signal to an intermediate frequency band.
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| 17 | Dispositif de commutation incluant des micro-interrupteurs magnétiques organisés en matrice | EP07115791.1 | 2007-09-06 | EP1901325B1 | 2011-10-19 | Chiesi, Laurent; Grappe, Benoît |
| 18 | RELAY AND MATRIX RELAY | EP96935336.6 | 1996-10-16 | EP0856866B1 | 2003-09-17 | MISUMI, Shuichi, Omron Corporation; MAENISHI, Kozo, Omron Corporation |
| A relay comprising a coil plate (40) having a flat spiral coil (48) formed around a through-hole (42) on each side, a fixed contact plate (50) using the distal end portion of an iron core (51), which protrudes from the through-hole (42), as a fixed contact and tightly fixed to the upper surface of the coil plate (40), and a movable contact plate (20) with a movable contact (23) rotatable on a hinge (22) extending inside a ring-like yoke (20) so that the movable contact can touch or leave the fixed contact plate (52). This structure of the relay can improve characteristic uniformity and productivity. | ||||||
| 19 | Matrix relay | EP96103886 | 1996-03-12 | EP0732717A3 | 1998-07-22 | SHIMOMURA TSUTOMU; KASANO FUMIHIRO; MAEDA SHIRO; SHIOMI MASAYUKI; MORIMOTO TAKAO; SUZUKI TATSUYA; HOSAKA HIROSHI |
| A matrix relay is formed with a plurality of latching relays arranged in a matrix and mounted on a base (1) of an electrically insulative material. Each of the latching relays comprises an excitation coil (50), permanent magnet (40), a pair of first and second fixed contacts, and an armature (73) carrying a pair of first and second movable springs (72a,72b) each providing movable contacts. The armature (73) is magnetically coupled to the excitation coil (50) so as to be movable in response to energization of the coil by current of selective polarity between close and open positions of the fixed and movable contacts. A plurality of the armatures of the latching relays arranged in a row of the matrix are assembled into a single armature block to be mounted on the base as a single unit. The armature block comprises a single pair of first and second supporting members made of an electrically conductive material. All of the first movable springs and all of the second movable springs of the latching relays of the armature block are connected respectively to the first and second supporting members mechanically and electrically, so that two row paths for electrical signals common to the latching relays arranged in the row of the matrix are provided. This simplification of the structure and electric circuit of the matrix relay would be useful to small-size the matrix relay without complicated fabrication process. | ||||||
| 20 | Koppelfeld | EP96112250.4 | 1996-07-30 | EP0758792A2 | 1997-02-19 | Franzke, Jörg, Dipl.-Ing.; Kraft, Wolfgang, Dipl.-Ing. |
Die Erfindung betrifft ein Koppelfeld zur Schaltung elektrischer Signalleitungen, insbesondere in der Kommunikations- und Datentechnik, bestehend aus einer Vielzahl von vorzugsweise matrixförmig angeordneten Koppelpunkten 1 . Dabei wird der einen Kontaktfläche 6 ein Permanentmagnet 5 und der gegenüberliegenden Kontaktfläche 9 ein ferromagnetischer Werkstoff 10 mit einer Spule 13 zugeordnet. Somit wird ein signalunabhängiges, robustes Koppelfeld geschaffen, das sich kompakt und kostengünstig herstellen läßt. Insbesondere bei der Ausführung der Erfindung mittels Folientechnik läßt sich eine besonderes hohe Kompaktheit erzielen. |
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