会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 4. 发明授权
    • Electromagnetic relay
    • 电磁继电器
    • US4587502A
    • 1986-05-06
    • US603013
    • 1984-04-23
    • Kenichi MatsuoMuneo Nakata
    • Kenichi MatsuoMuneo Nakata
    • H01H50/10H01H51/22
    • H01H51/2209H01H2051/2218H01H50/10
    • An electromagnetic relay comprising an electromagnet constituted by an I-like core and a coil wound around the core, a pair of contact mechanisms disposed at both sides of the electromagnet, respectively, a pair of permanent magnets disposed in parallel with the core in such magnetic orientation that the magnetic poles of the permanent magnets each positioned adjacent to each lateral end faces of the I-like core exhibit different polarities, the permanent magnets being interconnected by connecting beam members at both ends to thereby constitutes a frame-like movable armature, a H-like holder having four upstanding legs positioned in opposition to the lateral end faces of the I-like core, respectively, with the permanent magnet being interposed between the legs and the core, actuating members operatively coupled to the permanent magnetic for actuating the contact mechanisms in response to the movement of the armature frame, and a restorting spring for the movable armature frame.
    • 一种电磁继电器,包括由I型芯构成的电磁体和缠绕在芯上的线圈,分别设置在电磁体两侧的一对接触机构,一对与磁芯平行设置的永磁体, 每个定位在与I型芯的每个侧端面相邻的永久磁铁的磁极表现出不同的极性的方向,永磁体通过两端连接梁构件相互连接从而构成框架式可动电枢, H形支架具有分别与I型芯的侧端面相对设置的四个直立支柱,永久磁铁分别设置在支腿和芯之间,致动元件可操作地连接到永久磁铁上以致动触点 响应于电枢框架的运动的机构,以及用于可动电枢架的再调整弹簧。
    • 5. 发明授权
    • Electromagnetic relay
    • 电磁继电器
    • US06483407B1
    • 2002-11-19
    • US09914798
    • 2001-09-05
    • Kazuhisa MatsudaMuneo NakataNobuyoshi KubotaKenichi Matsuo
    • Kazuhisa MatsudaMuneo NakataNobuyoshi KubotaKenichi Matsuo
    • H01H5122
    • H01H50/02H01H50/042H01H50/14H01H50/24H01H50/44H01H50/443H01H2050/446
    • In an electromagnetic relay wherein one of the flanges 2b of the spool 2 is located inside of the opening of the case and a stationary terminal 11 is attached to this spool 2, the problem of dust occurrence due to the attachment of the stationary terminal 11 is solved so as to implement the attachment of the stationary terminal (in particular, a portion to which a stationary contact point 10 is provided) in an excellent condition. In order to achieve this, protruding portions 11e and 11f extending from the stationary terminal 10 are compressively inserted into through holes 2e and 2f configured in the flange 2b and the vicinity of the stationary contact point of the stationary terminal 11 is engaged with the engagement portion 2f formed on the other flange 2a and, thereby, the stationary terminal 11 is attached to this structure.
    • 在电磁继电器中,线轴2的凸缘2b中的一个位于壳体的开口内侧,并且固定端子11附接到该线轴2,由于固定端子11的附接而产生的灰尘的问题是 解决了在良好状态下实现固定端子(特别是固定接点10的设置部分)的附接。 为了实现这一点,从固定端子10延伸的突出部分11e和11f被压缩插入到构成在凸缘2b中的通孔2e和2f中,并且固定端子11的固定接触点附近与接合部分 2f形成在另一个凸缘2a上,从而将固定端子11安装在该结构上。
    • 6. 发明授权
    • Electromagnetic relay
    • 电磁继电器
    • US5015979A
    • 1991-05-14
    • US448272
    • 1989-12-11
    • Yoichi NakanishiJunichi KanetaniMuneo Nakata
    • Yoichi NakanishiJunichi KanetaniMuneo Nakata
    • H01H51/22
    • H01H51/2227
    • An electromagnetic relay where a movable stand is retained by a pair of opposing leaf springs, the movable stand is operated in the opposing direction of the leaf spring in accordance with the energization, deenergization of the electromagnet, the movable terminal is disengageably brought into contact against the fixing terminal supported through the support stand, and the movable stand is provided with a through hole in the vertical direction to be press-fitted, mounted in it, a groove in the vertical direction in the contact portion of the movable stand and the leaf spring, and a passage for guiding into the groove portion the bonding agent to be put into the through hole.
    • 一种电磁继电器,其中可动支架由一对相对的板簧保持,可动支架根据电磁铁的通电,断电动作在板簧的相反方向上操作,可移动端子可脱离地接触 固定端子通过支撑架支撑,并且可动支架在垂直方向上设置有压配合的通孔,在其中安装有在可移动支架和叶片的接触部分中的垂直方向的槽 弹簧,以及用于将待插入通孔中的粘合剂引导到槽部的通道。