| 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 | 一种全自动双金属片成型机 | CN201710694434.X | 2017-08-15 | CN107464709A | 2017-12-12 | 蔡从胜; 伍为国 |
| 本发明公开了一种全自动双金属片成型机,包括成品收纳箱(6)、自动开卷输送机构(5)和自动冲压机(1),成品收纳箱(6)、自动开卷输送机构(5)分别设置于设置于自动冲压机(1)的两侧,自动冲压机(1)的上模架和下模架之间设置有碟片成型模具组,碟片成型模具组包括钣金裁切模具(2)、铁钉放置装置(3)、银点放置装置(4)和铁钉银点铆接固定模具(5),自动开卷输送机构(5)包括自动开卷料架(51)和伺服送料机(52);所述钣金裁切模具(2)、铁钉银点铆接固定模具(5)依次固定安装于自动冲压机(1)的下模架上。本发明的优点在于它能克服现有技术的弊端,结构设计合理新颖。 | ||||||
| 2 | 轻触开关组装工艺 | CN201710538018.0 | 2017-07-04 | CN107134382A | 2017-09-05 | 陈志坚; 周晓 |
| 本发明公开了一种轻触开关组装工艺,采用CCD检查胶座来料自动组装、CCD检查成品外观打带包装机,包括以下步骤:开始,胶座入料;胶座CCD检查:如果通过检查,则进行自动组装;如果未通过检查,则不进行组装,不良品排到不良品区;端子弯曲,胶座斩散为单品后经过二次吹吸风后将四个端子弯曲为90°。弹片入料,弹片斩切同时装入胶座;保护膜入料,保护膜装入胶座;经除尘后,进行动作感与耐压测试,如果通过动作感与耐压测试,则进行电阻与导通测试,如果未通过动作感与耐压测试,则自动识别挑出未通过的工件;包装带与密封胶带上料,如果通过电阻与导通测试,则产品入包装带;经再次除尘后,进行胶座CCD检查;最后经热封卷盘收料后,结束。 | ||||||
| 3 | 一种高压隔离开关动静触头用弹簧片及其生产工艺 | CN201510209419.2 | 2015-04-29 | CN104779083A | 2015-07-15 | 李岩; 孙宝辉; 韩步云 |
| 本发明公开了一种高压隔离开关动静触头用弹簧片及其生产工艺,所述弹簧片的材质为镍钛基形状记忆合金;所述弹簧片中部为弧形,两端分别为自由端和固定端;所述弹簧片的固定端设置有螺栓孔。本发明采用具有良好超弹性、热稳定性和耐蚀性的镍钛基形状记忆合金制备出高压隔离开关动静触头用弹簧片产品,替代现有的普通弹簧钢片,从根本上解决因为夹紧弹簧失效导致的隔离开关过热失效问题,从而大大减少隔离开关发热事故和大面积停电事故的发生,为电力部门节省大量的检修、维护用人力和物力,满足国内电力运行企业的迫切需要,同时避免由于输电线路停电产生的重大经济损失和恶劣社会影响。 | ||||||
| 4 | 微型开关组装设备的按钮翻转组件 | CN201610502734.9 | 2016-07-01 | CN105977077A | 2016-09-28 | 胡小东 |
| 本发明公开了一种微型开关组装设备的按钮翻转组件,该微型开关组装设备的按钮翻转组件包括安装板连接块、翻转气缸安装板、翻转气缸、翻转浮动接头、翻转安装块、法兰轴、翻转轴承、吸盘安装块、按钮吸盘、滚轮轴承安装板、滚轮轴承、翻转安装板、翻转导向板、缓冲器安装板、翻转缓冲器、翻转限位螺栓和安装垫板,翻转气缸的活塞杆通过翻转浮动接头与翻转安装块固定,法兰轴的法兰端安装有吸盘安装块,吸盘安装块下端安装有两个按钮吸盘,法兰轴后端安装有滚轮轴承安装板,滚轮轴承安装板上安装有滚轮轴承,滚轮轴承的滚轮与翻转导向板前端面紧贴。通过上述方式,本发明结构紧凑,能够替代人工自动完成按钮的换位工作,节约劳动力。 | ||||||
| 5 | 用于制造由磁场激励的微开关的方法 | CN201110461939.4 | 2011-12-31 | CN102543522B | 2015-02-11 | 亨利·席卜耶特; 亚尼克·优乐美特 |
| 本发明关于一种在平面衬底上制造由磁场激励的微开关的方法,所述方法包含:a)蚀刻步骤(42),以在所述平面衬底的上表面中蚀刻用来形成两条带的凹的模型的空腔,所述空腔具有垂直侧面,所述垂直侧面垂直于所述衬底的所述平面延伸以形成所述带的垂直表面;b)填充步骤(50),以通过磁性材料来填充所述空腔以形成所述带;接着c)蚀刻步骤(62),以通过各向同性的蚀刻方法在所述衬底中蚀刻井,所述井在所述带的所述垂直表面上延伸并且低于及包围所述带中至少一条的一个远端,以展开所述带之间的空气间隙并使所述远端能在封闭的位置与开放的位置之间运动。 | ||||||
| 6 | 用于制造由磁场激励的微开关的方法 | CN201110461939.4 | 2011-12-31 | CN102543522A | 2012-07-04 | 亨利·席卜耶特; 亚尼克·优乐美特 |
| 本发明关于一种在平面衬底上制造由磁场激励的微开关的方法,所述方法包含:a)蚀刻步骤(42),以在所述平面衬底的上表面中蚀刻用来形成两条带的凹的模型的空腔,所述空腔具有垂直侧面,所述垂直侧面垂直于所述衬底的所述平面延伸以形成所述带的垂直表面;b)填充步骤(50),以通过磁性材料来填充所述空腔以形成所述带;接着c)蚀刻步骤(62),以通过各向同性的蚀刻方法在所述衬底中蚀刻井,所述井在所述带的所述垂直表面上延伸并且低于及包围所述带中至少一条的一个远端,以展开所述带之间的空气间隙并使所述远端能在封闭的位置与开放的位置之间运动。 | ||||||
| 7 | Method for adjusting the switch-gap between the contact tongues of a reed switch | EP02077741.3 | 2002-07-10 | EP1381063B1 | 2004-11-24 | van Gastel, Gerardus Judocus Cornelis |
| 8 | METHOD OF ADJUSTING THE SWITCH-GAP IN A REED SWITCH | EP95929989.2 | 1995-09-20 | EP0731978B1 | 1998-06-10 | HOVING, Willem; VAN DOOREN, Johannes, Paulus, Cornelis |
| 9 | METHOD OF ADJUSTING THE SWITCH-GAP IN A REED SWITCH | EP95929989.0 | 1995-09-20 | EP0731978A1 | 1996-09-18 | HOVING, Willem; VAN DOOREN, Johannes, Paulus, Cornelis |
| A method of adjusting the mutual separation (g) of the two overlapping metallic cantilever members (9, 11) within the vitreous envelope of a reed switch, whereby a beam (21) of radiant energy to which the envelope is substantially transparent is directed for a controlled period of time through the envelope onto a localised area (p) of at least one of the members (11), thereby effecting permanent thermally-induced bending of that member (11) about the irradiated area (p). | ||||||
| 10 | IMPROVED REED SWITCH AND METHOD OF MAKING SAME | EP98963149 | 1998-12-14 | EP1040494A4 | 2004-03-10 | SHUTES BRADLEY E |
| A reed switch (20) employs contact blades (10) which have enhanced flexibility and performance, as a result of the selective removal of material from one or more of the blades (10) without work hardening the remaining blade material. The blades (10) are masked and acid etched in predetermined patterns to provide either a contact region (14), a hinge or fulcrum region (24), or one or more of both. The contact region (14) of the blade (10) optimizes the alignment and magnetic coupling of the switch (20) while minimizing the electrical capacitance in the space between the blades (10) when the switch (20) is open. The hinge or fulcrum region (24) improves blade (10) compliance and flexibility under an applied load. Various geometries of the contact region (14) can be employed to improve the performance and longevity of the switch (20). | ||||||
| 11 | INFRARED ABSORBING GLASS FOR REED SWITCH | EP99940563.2 | 1999-08-30 | EP1153895A1 | 2001-11-14 | HASHIMOTO, Koichi, Nippon Electric Glass Co., Ltd.; KOSOKABE, Hiroyuki, Nippon Electric Glass Co. Ltd. |
An infra-red absorption glass for a reed switch is suitable for encasement of a reed switch using magnetic wire members made of Fe-Ni based alloy (52 alloy). In the infra-red absorption glass, an infra-red transmittance at a wavelength of 1050 nm is not greater than 10 % for a thickness of 0.5 mm and the content of Cl in the glass is not greater than 150 ppm. In the glass, a coefficient of thermal expansion in a temperature range between 30 and 380°C is preferably 85-100 x 10-7/°C. In addition, the infra-red absorption glass preferably has a composition consisting essentially of, by weight percent, 60-75 % of SiO2, 1-10 % of Al2O3, 0-10 % of B2O3, 3.5-10 % of RO (R being one or more selected from Ca, Mg, Ba, Sr, and Zn), 0.5-5 % of Li2O, 8-17 % of Na2O+K2O, 2-10% of Fe3O4. |
||||||
| 12 | Procédé de fabrication d'un micro-contacteur actionnable par un champ magnétique | EP11195895.5 | 2011-12-28 | EP2472542A1 | 2012-07-04 | Sibuet, Henri; Vuillermet, Yannick |
L'invention concerne un procédé de fabrication, sur un substrat plan, d'un micro-contacteur actionnable par un champ magnétique comprenant : |
||||||
| 13 | INFRARED ABSORBING GLASS FOR REED SWITCH | EP99940563 | 1999-08-30 | EP1153895A4 | 2004-04-14 | HASHIMOTO KOICHI; KOSOKABE HIROYUKI |
| An infrared absorbing glass for a reed switch which has a transmittance for an infrared ray having a wavelength of 1050 nm of 10 % or less at a thickness of 0.5 mm and has a chlorine content of 150 ppm or less. It is preferred that the glass has a coefficient of thermal linear expansion of 85 to 100 x 10<-7>/ DEG C in the temperature range of 30 to 380 DEG C. It is more preferred that the glass has the following composition: SiO2 60 to 75 %, Al2O3 1 to 10 %, B2O3 0 to 10 %, RO 3.5 to 10 % (R is one or more elements selected from the group consisting of Ca, Mg, Ba, Sr, Zn), Li2O 0.5 to 5 %, (Na2O + K2O) 8 to 17 %, Fe3O4 2 to 10 %, all percentages being based on the weight of the glass. This infrared absorbing glass can be suitably used for sealing a reed switch which uses a magnetic wire rod made from a Fe-Ni alloy (52 alloy). | ||||||
| 14 | Method for adjusting the switch-gap between the contact tongues of a reed switch | EP02077741.3 | 2002-07-10 | EP1381063A1 | 2004-01-14 | van Gastel, Gerardus Judocus Cornelis |
The invention relates to a method for adjusting the switch-gap between the overlapping metal tongues of a reed switch contained in a glass envelope, in which a beam of radiation energy is directed through the envelope onto a localised area of at least one of the tongues for a specific period of time, thereby effecting thermally-induced bending of the tongue in question about the irradiated area, wherein a radiation source is used which delivers radiation energy having a wavelength in a range in which the radiation is absorbed by the glass envelope to a considerable extent, and wherein the beam of radiation energy is focussed and measured in such a manner that the proportion between the irradiated glass volume of the envelope and the irradiated metal area of at least one of the tongues that is obtained is such that the temperature of the glass undergoes a temperature increase of less than 100 Kelvin during the time required for heating the metal to the melting point. |
||||||
| 15 | IMPROVED REED SWITCH AND METHOD OF MAKING SAME | EP98963149.4 | 1998-12-14 | EP1040494A1 | 2000-10-04 | SHUTES, Bradley, E. |
| A reed switch (20) employs contact blades (10) which have enhanced flexibility and performance, as a result of the selective removal of material from one or more of the blades (10) without work hardening the remaining blade material. The blades (10) are masked and acid etched in predetermined patterns to provide either a contact region (14), a hinge or fulcrum region (24), or one or more of both. The contact region (14) of the blade (10) optimizes the alignment and magnetic coupling of the switch (20) while minimizing the electrical capacitance in the space between the blades (10) when the switch (20) is open. The hinge or fulcrum region (24) improves blade (10) compliance and flexibility under an applied load. Various geometries of the contact region (14) can be employed to improve the performance and longevity of the switch (20). | ||||||
| 16 | 리드 스위치를 위한 힌지를 가진 리드 | KR1020150034909 | 2015-03-13 | KR1020150108764A | 2015-09-30 | 픽하드마크 |
| 리드 스위치를 위한 리드 및 리드 스위치가 제공된다. 리드는 제1 두께와 제1 길이를 갖는 제1 부분, 제2 두께와 제2 길이를 갖는 제2 부분, 및 제1 부분과 제2 부분 사이에 배치되고 제3 두께와 제3 길이를 갖는 힌지형 부분을 포함할 수 있고, 제3 길이는 제1 두께의 150%보다 작으며, 제3 두께는 제1 두께 및 제2 두께 각각보다 작다. 리드 스위치는 리드를 변형시키기 위한 리드 변형기와 함께, 절연 하우징 내에 배치되는 리드를 포함할 수 있다.
|
||||||
| 17 | 비접촉 스위치를 구비한 방수형 작업등 | KR1020100002193 | 2010-01-11 | KR1020110082287A | 2011-07-19 | 이영훈 |
| PURPOSE: A water-proof work light with the contactless switch is provided to prevent the malfunction due to the electric shock accident and the moisture by manufacturing the contactless switch having no the power source connect wire. CONSTITUTION: A water-proof work light(1) including the contactless switch comprises a wire(90) supplying the power, a flexible spring tube(20) for preventing the damage of the wire, and a tongs band for the fastening of the wire. The wire is inserted through the bottom cap. The bottom cap is water-proof by the tongs band. The flexible spring tube is molded with the vertical type molding machine. The assembly crevice of the flexible spring tube and bottom cap is removed by inducing the braking phenomenon between the flexible spring tube and the bottom cap. | ||||||
| 18 | Infrared-absorbing glass for the reed switch | JP19503598 | 1998-06-24 | JP3902333B2 | 2007-04-04 | 幸市 橋本; 裕幸 香曽我部 |
| 19 | Switch gap adjustment method of the reed switch | JP51155896 | 1995-09-20 | JP3645266B2 | 2005-05-11 | ドーレン ヨハネス パウラス コーネリス ファン; ウィレム ホフィング |
| 20 | Manufacture of transfer lead switch | JP16629588 | 1988-07-04 | JPH0215527A | 1990-01-19 | UBE TATSUO; KAZAMA TAKAO; KOMURO YOSHIAKI |
| PURPOSE: To enable to obtain favorable face contact by providing in advance a first fixed contact and a moving contact with the inclination of the opposite direction appropriate to the inclination formed at both contacts in the subsequent process using a taper jig. CONSTITUTION: The fixed inclination is given to a first fixed contact 22a and a moving contact 25a using a taper jig 28. When the mechanical pre-load is given to the moving contact 25a in the subsequent process, the inclination generated at the first fixed contact 22a and the moving contact 25a by the mechanical pre-load and the inclination by the taper tool 28 are offset each other so as not to create space between both contacts. As a result, respective contacts are securely face contacted so as to prevent the fluctuation of the switch characteristic and the lowering of its life caused by the defective contact. COPYRIGHT: (C)1990,JPO&Japio | ||||||
