子分类:
- H01H2009/0077: .使用可回收材料,如易于回收或消逝的包装材料
- H01H2009/0083: .使用冗余组件,如压力开关的两个压力管
- H01H2009/0088: .多于单刀的开关或开关单元共有的旋转轴的零部件
- H01H2009/0094: .细分的旋转轴的零部件;其中耦合方式的零部件
- H01H9/0005: .{分接头切换装置}
- H01H9/0066: .{辅助触点装置(用于电弧转移的入H01H9/38;用于电磁继电器的入H01H50/541)}
- H01H9/0072: .{专用于三相开关的 (同步开关入H01H9/563)}
- H01H9/02: .底座、外壳和盖(容纳一个以上的开关或一个开关另带电气元件的入H02B1/26)
- H01H9/08: .便于开关换装的装置,如盒装式外壳
- H01H9/10: .适用于内附熔断器的(开关和熔断器分装在一个支座上或一个支座内的入H02B)
- H01H9/12: .把通常不与触点有电连接的开关部分接地的装置
- H01H9/14: .适用于开关内附的安全放电间隙
- H01H9/16: .开关状态指示器,如“闭合"或“断开"指示器
- H01H9/18: .开关的识别标记,加在黑暗中指示开关位置的;使开关容效识别标记的适配结构
- H01H9/20: .连锁、锁止或闭锁机构(闭锁触点入H01H1/52;由操作部分或其附件的辅助运动的入H01H3/20;可拆卸开关入H02B11/00)
- H01H9/30: .载流部件间的灭弧或防弧装置
- H01H9/48: .防止向非载流部件放电的装置,如电晕护环
- H01H9/50: .检测电弧和放电的装置
- H01H9/52: .开关部件的冷却(触点的冷却入H01H1/62)
- H01H9/54: .不适于开关装置特殊应用的及未包含在其他类开关设备的电路装置
| 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 | Prevention of poor conduction of electric opening/closing contact due to organopolysiloxane gas | JP26134586 | 1986-10-31 | JPS63116316A | 1988-05-20 | ASAI HIROYUKI; MINE KATSUTOSHI; MATSUOKA HIROSHI |
| 82 | JPS5022303B1 - | JP5164970 | 1970-06-16 | JPS5022303B1 | 1975-07-30 | |
| 83 | 폴리케톤 산업용 부품 | KR1020140154614 | 2014-11-07 | KR1020160054950A | 2016-05-17 | 이종 |
| 본발명은폴리케톤산업용부품에관한것으로, 더욱상세하게는폴리케톤, 유리섬유및 난연제를포함하는블렌드를사용하여수분흡습율이낮고수분흡습에따른물성유지율이우수하며, 폴리케톤산업용스위치로의적용이가능한폴리케톤산업용스위치에관한것이다. | ||||||
| 84 | 기계식 스위치 컨택트 | KR1020127028741 | 2011-02-23 | KR1020130093479A | 2013-08-22 | 호펠클라우스; 브레데실케 |
| 본 발명은 특히 탭식 변압기의 온로드 탭 전환기에서 해제, 분리 또는 전환을 위한 기계식 스위치 컨택트(10)에 관한 것으로, 이 컨택트는 전기 전도적으로 서로 연결된 적어도 두개의 접촉 핑거 또는 접촉 핑거 블럭(12, 14)을 포함하고, 이들 접촉 핑거 또는 접촉 핑거 블럭은 두 끝 위치 사이에서 각각 선회가능하며 또한 다중 레버 조인트(16)에 의해 회전 전환 축(18)과 작동 연결되며, 이 전환 축은 다중 레버 조인트(16)를 안내하고 또한 접촉 핑거 또는 접촉 핑거 블럭(12, 14)을 방향 전환시키기 위해 결합되어 있는 주변 게이트 가이드(24)를 갖는 기계식 스위치 컨택트.
|
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| 85 | 탭 전환기용 부하 전환 스위치 | KR1020127030584 | 2011-02-26 | KR1020130064070A | 2013-06-17 | 알브레히트볼프강; 도블러클라우디아; 호펠클라우스; 자타마틴; 코츠크리스티안; 레코프세바스티안 |
| 본 발명은 탭 전환기용의 부하 전환 스위치에 관한 것으로서, 이 부하 전환 스위치는 각각의 상에서 무전압으로 스위칭하는 영구 메인 콘택을 구비한다. 본 발명의 특징은 부하 전환 스위치의 측면 A 또는 B의 고정 영구 메인 콘택을 가동 레일형 영구 메인 콘택에 의해 접속하는 것에 있다. 가동 레일형 영구 메인 콘택은 부하 라인의 대응하는 영구 메인 콘택에 전기 접속을 형성하는데, 가동 레일형 영구 메인 콘택의 종단 위치에서만 형성하고, 작동을 위한 단일의 편향을 제공한다. 가동 레일형 영구 메인 콘택은 대응하는 고정된 영구 메인 콘택의 다수의 콘택 블레이드와 압착 방식으로 연결되고, 콘택 블레이드는 탄성적으로 연결된다.
|
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| 86 | 회로차단기 | KR1020017016065 | 2001-02-22 | KR100454114B1 | 2004-10-26 | 가쓰베순이치; 후쿠야가즈노리 |
| The invention relates to a circuit breaker having a crossbar (7) that is supported swingably onto a base (1B) to hold swingably movable contacts (4), and has the small reduction of overtravel in the elapsed years, and can reduce its size. The bending modulus of elasticity Eb, Ec of the base (1B) and the crossbar (7) at the ordinary temperature/ordinary humidity satisfy following relationships | ||||||
| 87 | 유기무기복합조성물 및 그것을 사용한 개폐기 | KR1019950040504 | 1995-11-09 | KR100204526B1 | 1999-06-15 | 가쓰베중이치; 우에모토도시카즈; 니시나켄이치; 후쿠야가즈노리; 야마가다신지; 야마사키사도루; 다카하시미쓰구; 미쓰바시다카오; 아다치히로시; 야마구치쇼지; 니시야마이쓰오; 바바후미아끼 |
| A highly flame-retardant organic and inorganic complex composition without corroding metal parts, and a compact switch with excellent insulation properties after opening and closing electrodes, are provided. An organic and inorganic complex composition wherein the resin content is at 15 to 70 wt % and the content of one or more inorganic compounds capable of dehydration at 150 DEG C or more is at 80 to 30 wt %. When the composition is exposed to combustion, inorganic compounds being capable of dehydration at 150 DEG C or more and being contained in the organic and inorganic complex composition generate steam, which then suppresses combustion. Simultaneously, endothermic reaction during steam generation deprives combustion heat. A switch having a molded article of which the entirety or a part is composed of an organic and inorganic complex composition is provided, wherein the base inside 2a of the base of a box is composed of for example an organic and inorganic complex composition with the resin content at 15 to 70 wt % and the content of one or more inorganic compounds capable of dehydration at 150 DEG C or more at 80 to 30 wt %. |
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| 88 | 電動工具 | JP2016188744 | 2016-09-27 | JP2018051658A | 2018-04-05 | 小山 泰基; 森井 真喜人; 大盛 浩二 |
| 【課題】耐振動性の向上を図ることができる電動工具を提供すること。 【解決手段】電動工具が、工具ハウジングと、工具ハウジングの内部に固定されたトリガースイッチ(20)と、を備える。工具ハウジングが、その内部に、トリガースイッチ(20)を固定するトリガースイッチ固定部(16)を有し、このトリガースイッチ固定部(16)に、トリガースイッチ(20)との間に介在する制振用弾性体(26)が設けられている。 【選択図】図2 |
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| 89 | 住宅オートメーションで使用するための一体化されたSPDTまたはDPDTスイッチのSPDTリレーとの組合せ | JP2016520046 | 2014-10-01 | JP6093914B2 | 2017-03-08 | デビッド エルバーバウム |
| 90 | 小型電気機器およびその制御装置 | JP2015083554 | 2015-04-15 | JP2016202235A | 2016-12-08 | 西村 真司; 大羽 隆文; 楊 康太郎 |
| 【課題】動作の切り替えの操作性を向上させることができる小型電気機器およびその制御装置を提供する。 【解決手段】電気かみそり1は、リニアモーター21と、リニアモーター21の動作モードを変更するスイッチ12と、リニアモーター21の動作モードを切り替える制御装置30とを備える。制御装置30は、スイッチ12の操作種類の判定を行う第1判定時間および第1判定時間よりも長い第2判定時間と、スイッチ12が操作される前の電気かみそり1の動作モードとに基づいて、スイッチ12が操作された後の電気かみそり1の動作モードを設定する。 【選択図】図2 |
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| 91 | アクチュエータの制御方法及びアクチュエータの制御装置 | JP2011153498 | 2011-07-12 | JP5803361B2 | 2015-11-04 | 山本 康 |
| 92 | 一体型電力センサを有するリレー | JP2015510439 | 2013-05-01 | JP2015523042A | 2015-08-06 | トラビス アイアンズ, |
| リレー内に一体化された電力検出構成要素を使用して電力パラメータを検出するための方法、システム、およびデバイスが記述される。電力分配ユニットには、複数のリレーを介して出力部に供給される電力を供給または遮断することができるスイッチ連動出力部を設けることができる。複数のリレーは、それぞれの電力出力部に送出された電力に関連する1つまたは複数の電力パラメータを検出するように構成された一体型電力センサを含むことができる。電力関連情報報告システムがリレーに結合され、電力センサから得られた電力関連情報を遠隔システムに報告するように構成されてもよい。【選択図】図3 | ||||||
| 93 | Switch Module | JP2010032568 | 2010-02-17 | JP5427637B2 | 2014-02-26 | 仁 内田; 学 大類; 孝寿 赤塚 |
| 94 | Actuator control method and actuator control device | JP2011153498 | 2011-07-12 | JP2013020464A | 2013-01-31 | YAMAMOTO YASUSHI |
| PROBLEM TO BE SOLVED: To provide an actuator control method and an actuator control device including a feedback control element in a shortest time control.SOLUTION: The actuator control method for calculating the display of elapse time from a calculation time t0 by using a shortest time control and previously measured maximum acceleration αp and maximum deceleration αm at maximum output of the control force of an actuator, includes the steps of: calculating switching time t1 for switching from an acceleration output to a deceleration output and termination time t2 of the deceleration output; controlling the output of the control force of the actuator to the maximum acceleration output from the calculation time t0 to the switching time t1, and the output of the control force of the actuator to the maximum deceleration output from the switching time t1 to the termination time t2 and to terminate the output of the control force at the termination time t2; and updating the switching time t1 and the termination time t2 by repeatedly performing the calculating step at every preset time. | ||||||
| 95 | Circuit breaker | JP2001577570 | 2001-02-22 | JP4496698B2 | 2010-07-07 | 俊一 勝部; 和則 福谷 |
| 96 | Switch | JP2002501217 | 2000-05-24 | JP4463470B2 | 2010-05-19 | 俊一 勝部; 和則 福谷; 浩志 舟木 |
| 97 | Switch device | JP2008196203 | 2008-07-30 | JP2010033942A | 2010-02-12 | UKAI TOSHIMITSU |
| <P>PROBLEM TO BE SOLVED: To prevent peeling of a plated layer by a simple structure in a device with an operation knob for switching operation rockably or rotatably disposed in an opening of a switch cover with the plated layer on its surface. <P>SOLUTION: The operation knob 22 is rockably provided in the opening 13 of the switch cover 11. The switch cover 11 is molded with a material to which the plated layer is not adhered to form the opening 13 and includes a first resin layer 30 forming a back side of the switch cover 11, a second resin layer 31 formed by molding on a front surface side of the first resin layer 30 with a material to which the plated layer is adhered and the plated layer 32 provided on the surface of the second resin layer 31 to cover the surface. A parting line 30a is set on a peripheral edge part of the opening 13 in molding the first resin layer 30. The plated layer 32 is not adhered to the parting line 30a to prevent peeling of the plated layer 32. <P>COPYRIGHT: (C)2010,JPO&INPIT | ||||||
| 98 | External case of a portable computer | JP10200095 | 1995-04-26 | JP4090522B2 | 2008-05-28 | 弼奎 崔; 天烈 李 |
| 99 | Phenolic resin molding material | JP30346599 | 1999-10-26 | JP2001123041A | 2001-05-08 | YAMAZAKI KAZUMASA; YAMAGUCHI SEIJI |
| PROBLEM TO BE SOLVED: To provide phenolic resin molding materials which have good moldability and heat resistance and mechanical strength and excel in sliding properties without causing insulation deterioration by arc discharge and heat deterioration and are useful for insulating members having contact switching mechanism. SOLUTION: The phenolic resin molding materials are obtained by incorporating a flame retardant and an antioxidant into a phenolic resin molding material comprising a novolak phenol resin, a resol phenol resin, and an organic base material as the major components. COPYRIGHT: (C)2001,JPO | ||||||
| 100 | Pressure switch | JP10725996 | 1996-04-26 | JPH09293435A | 1997-11-11 | SASAKI KEIJI |
| PROBLEM TO BE SOLVED: To prevent any creep phenomenon from occurring in a receiving member even in a long-term use by constituting the receiving member of a material which can be prevented from creeping even in a long-term use under a high temperature environment in a state in which shearing force is repeatedly applied. SOLUTION: A pressure switch 1 has a structure similar to that of a conventional pressure switch, in which a switch receiving member is made of a PBT resin and an operating rod is made of a phenol resin. In contrast, a switch receiving member 50 is made of a PPT resin and an operating rod is made of ceramic. The PPT resin used herein is more excellent in heat resistance, higher in strength and rigidity, and less in physical deterioration under high temperature than the PBT resin. That is, the receiving member made of the PPS resin is more excellent than that made of the PBS resin in view of tensile strength, tensile elongation, bending elastic modulus, hardness, load-flexibility temperature measured on LU standard, linear expansion coefficient and water absorption, although there is no difference in mold shrinkage and volume low efficiency between both the receiving members. Furthermore, since the PPS resin exhibits a higher bending elastic coefficient than the PBS resin even if the temperature 15 increased, it is suitable for use under a high temperature environment. COPYRIGHT: (C)1997,JPO | ||||||
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