| 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 | 按压开关 | CN201410279547.X | 2014-06-20 | CN104282469A | 2015-01-14 | 加藤秀和; 堤丈二; 小野寺孝 |
| 提供一种以片部件对壳体的收纳空间的开口进行覆盖的按压开关。按压开关(1)构成为:具有壳体(11)以及片部件(13),该壳体具有开口,且设有固定触点部件(14),并且该壳体具有收纳与固定触点部件接触或分离的可动触点部件(12)的收纳空间,该片部件以覆盖开口的方式焊接于壳体,壳体以及片部件的一方为透射性性的材料,另一方为非透射性的材料,在该按压开关中,在壳体的一部分与片部件的一部分之间配置有粘着剂(15),片部件相对于壳体被粘合保持,并且在没有配置粘着剂的部分,壳体与片部件的抵接部分被焊接,且在壳体与片部件之间形成有被焊接部(17),片部件相对壳体被焊接保持。 | ||||||
| 2 | PCB轻触开关 | CN201180036637.0 | 2011-07-11 | CN103026441A | 2013-04-03 | 李水镐 |
| 本发明涉及一种PCB轻触开关,并且具体地涉及一种具有优异防水性的PCB轻触开关,这是因为u该轻触开关在顶部和底部上没有通向外部的孔,该轻触开关能够通过改进的触点稳定性而防止错误操作,并且能够通过借助被焊接至基板而防止产品分离,从而提高固定强度。本发明的该PCB轻触开关包括:绝缘构件(100),其形成呈薄板形状的不导电的绝缘件;上导电基板(300),其由导电的导体形成,覆盖绝缘构件(100)的上表面,并且包括通过断开部(310)断开的中央触点端子(320)和外部触点端子(330);下导电基板(400),其位于绝缘构件(100)的下表面处,在该下导电基板的上部上沉积有绝缘粘合剂膜(200),并且借助通孔(410)与上导电基板(300)电连接;金属圆顶(500),其通过使用者的敲击而弹性变形,并且将所述上导电基板(300)和所述下导电基板(400)电连接或电断开;作为绝缘覆盖件(600)的绝缘膜,该绝缘膜完全覆盖上导电基板(300)的顶部和金属圆顶(500)的顶部并保护其内部;以及绝缘焊接掩膜(700),其结合至所述下导电基板(400)的下表面并利用绝缘件覆盖除了需要焊接的部分之外的部分,其中由穿过绝缘构件(100)和绝缘膜(111)限定的的收纳孔(110)形成收纳凹槽(360),并且金属圆顶(500)布置在收纳凹槽(360)内。 | ||||||
| 3 | 按钮开关 | CN201580012846.X | 2015-03-05 | CN106104734A | 2016-11-09 | 天野豊彦; 三浦充纪 |
| 本发明提供了一种按钮开关,在侧推式按钮开关中,该按钮开关通过提升被施加伴随着按钮构件的开关操作的外力特别是被施加负荷的壳体的后表面侧的强度,能够将壳体以稳定的状态安装于电路基板,还能够进行具有可靠性的准确的开关操作。具有:壳体(22),其内置开关接点;按钮构件(14),其被设于壳体(22)的前表面中央部(22c),推压操作所述开关接点;以及通道形状的保持框架(13),其覆盖壳体(22)的外周面,所述保持框架(13)的两端部在所述按钮构件(14)的两侧被固定于所述壳体(22)的前表面两侧部(22d)。 | ||||||
| 4 | PCB轻触开关 | CN201180036637.0 | 2011-07-11 | CN103026441B | 2015-05-13 | 李水镐 |
| 本发明涉及一种PCB轻触开关,并且具体地涉及一种具有优异防水性的PCB轻触开关,这是因为u该轻触开关在顶部和底部上没有通向外部的孔,该轻触开关能够通过改进的触点稳定性而防止错误操作,并且能够通过借助被焊接至基板而防止产品分离,从而提高固定强度。本发明的该PCB轻触开关包括:绝缘构件(100),其形成呈薄板形状的不导电的绝缘件;上导电基板(300),其由导电的导体形成,覆盖绝缘构件(100)的上表面,并且包括通过断开部(310)断开的中央触点端子(340)和外部触点端子(330);下导电基板(400),其位于绝缘构件(100)的下表面处,在该下导电基板的上部上沉积有绝缘粘合剂膜(200),并且借助通孔(410)与上导电基板(300)电连接;金属圆顶(500),其通过使用者的敲击而弹性变形,并且将所述上导电基板(300)和所述下导电基板(400)电连接或电断开;作为绝缘覆盖件(600)的绝缘膜,该绝缘膜完全覆盖上导电基板(300)的顶部和金属圆顶(500)的顶部并保护其内部;以及绝缘焊接掩膜(700),其结合至所述下导电基板(400)的下表面并利用绝缘件覆盖除了需要焊接的部分之外的部分,其中由穿过绝缘构件(100)和绝缘膜(111)限定的收纳孔(110)形成收纳凹槽(360),并且金属圆顶(500)布置在收纳凹槽(360)内。 | ||||||
| 5 | 开关,开关用卡合板和开关用卡合板的固定方法 | CN98813723.2 | 1998-12-22 | CN1145993C | 2004-04-14 | 冈本智之; 犬伏俊也; 斋藤浩二 |
| 一种构成用于移动电话中的操作按键等的开关的卡合板(9),其通过焊接在形成于基板上的接触布线模型板(6)上,固定于基板(1)上。该卡合板(9)包括凸部(11),该凸部(11)的中间部鼓起,形成中空。该凸部受到按压,发生变形,从而与基板上的接触布线模型板(7)相接触,由此产生接触信号。上述卡合板(9)中的外缘部(10)带有向外突出的固定部(17)。该固定部(17)焊接于接触布线模型板(6)上。按照上述方式,可通过借助焊接,将卡合板(9)固定于基板(1)上,将上述卡合板固定于任意位置。 | ||||||
| 6 | 开关,开关用卡合板和开关用卡合板的固定方法 | CN98813723.2 | 1998-12-22 | CN1285080A | 2001-02-21 | 冈本智之; 犬伏俊也; 斋藤浩二 |
| 一种构成用于移动电话中的操作按键等的开关的卡合板(9),其通过焊接在形成于基板上的接触布线模型板(6)上,固定于基板(1)上。该卡合板(9)包括凸部(11),该凸部(11)的中间部鼓起,形成中空。该凸部受到按压,发生变形,从而与基板上的接触布线模型板(7)相接触,由此产生接触信号。上述卡合板(9)中的外缘部(10)带有向外突出的固定部(17)。该固定部(17)焊接于接触布线模型板(6)上。按照上述方式,可通过借助焊接,将卡合板(9)固定于基板(1)上,将上述卡合板固定于任意位置。 | ||||||
| 7 | SWITCH, CLICK FOR SWITCHES, AND METHOD OF FIXING CLICK FOR SWITCHES | EP98961463.1 | 1998-12-22 | EP1058282A1 | 2000-12-06 | OKAMOTO, Satoshi, Mitsubishi Denki; INUBUSI, Toshiya, Mitsubishi Denki; SAITO, Koji, Mitsubishi Denki |
A click plate 9 constituting a switch used for an operation key etc. of a portable telephone is attached on a substrate 1 by soldering it on a contact pattern 6 formed on the substrate. The click plate 9 includes a convex portion 11 which center portion is expanded and made hollow. The convex portion is pushed and deformed to contact with a contact pattern 7 on the substrate thereby to generate a contact signal. The peripheral portion 10 of the click plate 9 is provided with attachment portions 17 protruded outward. The attachment portions 17 are soldered on the contact pattern 6. In this manner, the click plate can be attached on an arbitrary position in a manner that the click plate 9 is attached on the substrate 1 by the soldering. |
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| 8 | Push-button switch | US15124862 | 2015-03-05 | US09991068B2 | 2018-06-05 | Toyohiko Amano; Mitsunori Miura |
| A side-push push-button switch is provided in which the strength of a rear surface side of a housing to which a load is particularly applied by outside force caused by the switching operation of a push-button member is increased to stably mount the housing on a circuit board and ensure reliable and secure switching operation. The push-button switch includes a housing, a push-button member, and a holding frame. The housing accommodates a switch contact. The push-button member is disposed on a front-surface center portion of the housing and configured to press the switch contact. The holding frame of a channel shape covers outer surfaces of the housing. Both ends of the holding frame are secured to front-surface side portions of the housing on both sides of the push-button member. | ||||||
| 9 | Method for configuring button keys on a membrane | US10207989 | 2002-07-31 | US06992600B2 | 2006-01-31 | Tien-Min Lu |
| A method for configuring button keys on a membrane includes the steps of: mapping the membrane under the conditions of without jumping and without generating ghost keys; gathering adjacent button keys on a same cluster; defining a button key configuration chart according to each cluster; and linking circuits of each button key in each cluster to a flat cable of the membrane. Then defining total number of various composite keys; locating the composite keys to be not co-linear or cross co-linear on the X-axis or the Y-axis of the matrix scanning lines; and mapping other adjacent button keys without the jumping. | ||||||
| 10 | Switch, click plate and switch and method of attaching click plate for switch | US09606224 | 2000-06-29 | US06303888B1 | 2001-10-16 | Satoshi Okamoto; Toshiya Inubushi; Koji Saito |
| A click plate (9) constituting a switch used for an operation key etc. of a portable telephone is attached on a substrate (1 by soldering it on a contact pattern (6) formed on the substrate. The click plate (9) includes a convex portion (11) which center portion is expanded and made hollow. The convex portion is pushed and deformed to contact with a contact pattern (7) on the substrate thereby to generate a contact signal. The peripheral portion (10) of the click plate (9) is provided with attachment portions (17) protruded outward. The attachment portions (17) are soldered on the contact pattern (6). In this manner, the click plate can be attached on an arbitrary position in a manner that the click plate (9) is attached on the substrate (1) by the soldering. | ||||||
| 11 | Keyswitch with decoupling diode | US619935 | 1984-06-12 | US4568918A | 1986-02-04 | Bernhard Edel |
| A keyswitch for use with keyboards for connecting intersecting row and column wires of a circuit board for the keyboard has a decoupling diode for preventing the generation of false signals which may prevent a clear identification of the keyswitch which has been activated upon the simultaneous actuation of several keyswitches. The decoupling diode is integrated in the movable contact bridge of the keyswitch so that no soldering need be undertaken on the circuit board for the keyboard. | ||||||
| 12 | PUSH-BUTTON SWITCH | US15124862 | 2015-03-05 | US20170213662A1 | 2017-07-27 | Toyohiko AMANO; Mitsunori MIURA |
| A side-push push-button switch is provided in which the strength of a rear surface side of a housing to which a load is particularly applied by outside force caused by the switching operation of a push-button member is increased to stably mount the housing on a circuit board and ensure reliable and secure switching operation. The push-button switch includes a housing, a push-button member, and a holding frame. The housing accommodates a switch contact. The push-button member is disposed on a front-surface center portion of the housing and configured to press the switch contact. The holding frame of a channel shape covers outer surfaces of the housing. Both ends of the holding frame are secured to front-surface side portions of the housing on both sides of the push-button member. | ||||||
| 13 | Socket structure of micro switch | US13270241 | 2011-10-11 | US08698021B2 | 2014-04-15 | Ching-Hsiung Chu |
| A socket structure of a micro switch includes a plurality conductive pins of at the bottom of the switch, and a plurality of grooves and distal slots, and the grooves are formed at the bottom of the switch, and the pins are disposed in the grooves, and the distal slots are formed on an outer wall of the switch and interconnected to the grooves respectively, and the top of the pin is extended into the distal slot, so that the pin is exposed from the outer wall of the switch, and the grooves are provided for positioning the pins and preventing them from being deformed, and containing a solder paste for soldering to prevent the switch from being protruded, and the distal slots are provided for extending a soldering iron to touch that pins to facilitate removing and soldering the switch on a surface of a circuit board. | ||||||
| 14 | Push switch | US13032062 | 2011-02-22 | US08455776B2 | 2013-06-04 | Masahiro Masuda; Yasunori Yanai; Yoshikazu Yagi |
| A push switch includes a switch section for carrying out electric connection by pushing, a switch case having a groove portion on a side surface thereof and accommodating the switch section, and a terminal produced integrally with the switch case and led out from a side surface of the switch case. The groove portion extends from a vicinity of the terminal. | ||||||
| 15 | SOCKET STRUCTURE OF MICRO SWITCH | US13270241 | 2011-10-11 | US20130087439A1 | 2013-04-11 | CHING-HSIUNG CHU |
| A socket structure of a micro switch includes a plurality conductive pins of at the bottom of the switch, and a plurality of grooves and distal slots, and the grooves are formed at the bottom of the switch, and the pins are disposed in the grooves, and the distal slots are formed on an outer wall of the switch and interconnected to the grooves respectively, and the top of the pin is extended into the distal slot, so that the pin is exposed from the outer wall of the switch, and the grooves are provided for positioning the pins and preventing them from being deformed, and containing a solder paste for soldering to prevent the switch from being protruded, and the distal slots are provided for extending a soldering iron to touch that pins to facilitate removing and soldering the switch on a surface of a circuit board. | ||||||
| 16 | PUSH SWITCH | US13032062 | 2011-02-22 | US20110240446A1 | 2011-10-06 | MASAHIRO MASUDA; YASUNORI YANAI; YOSHIKAZU YAGI |
| A push switch includes a switch section for carrying out electric connection by pushing, a switch case having a groove portion on a side surface thereof and accommodating the switch section, and a terminal produced integrally with the switch case and led out from a side surface of the switch case. The groove portion extends from a vicinity of the terminal. | ||||||
| 17 | Thin touch switch | US11605423 | 2006-11-29 | US07381920B1 | 2008-06-03 | Chen-Lung Lee |
| The present invention relates to an improved thin touch switch that includes a penetrating hole disposed on a plastic body and proximate to an exposed end of a metal component of a terminal and a high heat resisting and waterproof plastic material filled and sealed at the penetrating hole, such that when pins of the metal components of the touch switch are soldered to a printed circuit board, the plastic material used for sealing and combining the metal components and the plastic body can totally block the cleaning solution from entering from the joint that connects the metal components and the plastic body during the soldering process and can prevent possible short circuits to the metal components of the terminal, so as to effectively improve the life expectancy and safety of the touch switch. | ||||||
| 18 | Pcb tact switch | JP2013520640 | 2011-07-11 | JP2013534710A | 2013-09-05 | スー ホ イ |
| 本発明はPCBタクトスイッチに関し、さらに詳しくは上部及び下部に外部に開放されたホールがなくて、防水性がすぐれるだけでなく接点安定性が向上して誤動作を防止して、基板に半田付けによる固定力が向上して、製品の離脱を防止するように発明されたのである。 本発明は、薄板形状の電気が通じない絶縁体で形成される絶縁部材(100)と;通電が可能な伝導体で形成され、絶縁部材(100)の上部面に覆われ、短絡部(310)によって中央接点端子(320)と外周接点端子(330)とを有する上部導電基板(300)と;前記絶縁部材(100)の下部面に設けられる絶縁接着フィルム(200)が上部に塗布され、スルーホール(410)によって前記上部導電基板(300)と電気的に接続される下部導電基板(400)と;使用者のクリックによって弾性変形されて前記上部導電基板(300)と前記下部導電基板(400)とを電気的に接点または短絡させるメタルドーム(500)と;前記上部導電基板(300)及びメタルドーム(500)の上部を全体的に覆って内部を保護する絶縁性の絶縁カバーフィルム(600)と;前記下部導電基板(400)の底面に接着され、半田付けを要する位置を除いた部分を絶縁体でカバーする絶縁性ソルダマスク(700)とで構成され;前記絶縁部材(100)及び絶縁フィルム(111)を貫いた収容ホール(110)によって収容溝(360)が形成されるようにして、この収容溝(360)の内部にメタルドーム(500)が位置するように構成される。
【選択図】図8 |
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| 19 | Rubber keyboard | JP14616087 | 1987-06-11 | JPS62291826A | 1987-12-18 | ROI ERU CHIYAACHI |
| 20 | 押釦スイッチ | JP2016507479 | 2015-03-05 | JP6055157B2 | 2016-12-27 | 天野 豊彦; 三浦 充紀 |
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