| 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 | 按钮开关 | CN200810172088.X | 2008-10-29 | CN101425415A | 2009-05-06 | 尾野耕治 |
| 本发明涉及一种按钮开关,其具备:上方具有开口部、下方具有凹部的壳体;配设于该凹部的底面位置的按压型的开关触点部;上方具有操作部、下方具有凸缘部的操作体;以对操作体向上方施力的方式设置的弹性体;覆盖开口部且具有用于操作部向上方突出的中央孔的罩。于是,所述操作体由导向用凸部和凹陷部引导并可沿上下方向移动,所述导向用凸部在所述凹部的对置的内壁面上向上下方向延伸,所述凹陷部以与所述导向用凸部卡合的方式设置于所述凸缘部,并且,所述操作部构成为在所述凹陷部的凹陷到最内侧的位置具有立起的垂直面的形状。 | ||||||
| 2 | 可动接点体以及使用该接点体构成的面板开关 | CN200510116380.6 | 2005-10-21 | CN1787141A | 2006-06-14 | 濑良直树; 古山博通 |
| 本发明公开了即使把基片的外缘与可动接点之间设定得很窄,也能够防止外缘剥落的小型的可动接点体以及面板开关。本发明的可动接点体具备可动接点和基片,可动接点是形成为圆顶形的弹性金属板,基片是用下表面的粘接剂粘接可动接点的圆顶形顶点部分,在预定位置保持可动接点的绝缘膜,在向基片外缘附近的可动接点的对应部分,在与非粘接部分相当的成为基片外缘一侧的环形部分的一部分上设置辅助粘接剂,配置在外缘附近的可动接点包括辅助粘接剂在内粘接保持在基片上。 | ||||||
| 3 | 按钮开关 | CN200810172088.X | 2008-10-29 | CN101425415B | 2012-05-09 | 尾野耕治 |
| 本发明涉及一种按钮开关,其具备:上方具有开口部、下方具有凹部的壳体;配设于该凹部的底面位置的按压型的开关触点部;上方具有操作部、下方具有凸缘部的操作体;以对操作体向上方施力的方式设置的弹性体;覆盖开口部且具有用于操作部向上方突出的中央孔的罩。于是,所述操作体由导向用凸部和凹陷部引导并可沿上下方向移动,所述导向用凸部在所述凹部的对置的内壁面上向上下方向延伸,所述凹陷部以与所述导向用凸部卡合的方式设置于所述凸缘部,并且,所述操作部构成为在所述凹陷部的凹陷到最内侧的位置具有立起的垂直面的形状。 | ||||||
| 4 | 按压装置及其制造方法 | CN200810300196.0 | 2008-01-23 | CN101494127A | 2009-07-29 | 张正龙 |
| 一种按压装置,其固定装设于一具触压式按键的电子产品内的电路板上。所述按压装置包括一弹性件、一固定贴覆于所述弹性件内表面上的导接件及一触垫。所述弹性件包括一弧形部,所述触垫固设于所述弹性件的弧形部的顶部。本发明还涉及一种按压装置的制造方法。 | ||||||
| 5 | 可动接点体以及使用该接点体构成的面板开关 | CN200510116380.6 | 2005-10-21 | CN100437859C | 2008-11-26 | 濑良直树; 古山博通 |
| 本发明公开了即使把基片的外缘与可动接点之间设定得很窄,也能够防止外缘剥落的小型的可动接点体以及面板开关。本发明的可动接点体具备可动接点和基片,可动接点是形成为圆顶形的弹性金属板,基片是用下表面的粘接剂粘接可动接点的圆顶形顶点部分,在预定位置保持可动接点的绝缘膜,在向基片外缘附近的可动接点的对应部分,在与非粘接部分相当的成为基片外缘一侧的环形部分的一部分上设置辅助粘接剂,配置在外缘附近的可动接点包括辅助粘接剂在内粘接保持在基片上。 | ||||||
| 6 | CAPACITANCE-TYPE SWITCH | EP86903010.0 | 1986-04-22 | EP0220275A1 | 1987-05-06 | CHALASANI, Rao, Mallikarjuna |
| Un commutateur du type à capacitance comprend une paire d'organes à capacitance, comprenant chacun premièrement un matériau isolant (10, 11), deuxièmement un élément conducteur (14, 16) sur une surface du matériau isolant, et troisièmement un film diélectrique (15, 17) sur l'élément conducteur. Au moins l'un des organes à capacitance est mobile. En outre, les organes à capacitance sont supportés en alignement espacé généralement parallèle. Les éléments conducteurs (14, 16) se font face et sont en alignement général les uns avec les autres, et les films diélectriques (15, 17) sont mutuellement adjacents mais espacés les uns des autres. Le mouvement de l'organe à capacitance mobile pour s'engager dans l'autre organe à capacitance amène le film diélectrique (15) sur l'organe à capacitance mobile à s'engager dans l'autre film diélectrique (17) de l'autre organe à capacitance, provoquant une augmentation dans la capacitance entre les éléments conducteurs des organes à capacitance. | ||||||
| 7 | TACTILE EFFECT ELECTRIC SWITCH WITH PRE-LOAD STROKE | EP16202952.4 | 2016-12-08 | EP3185271B1 | 2018-05-02 | Hebras, Jeremy; Hurtard, Stéphane; Martin, Rémi; Kubat, Laurent |
| The invention proposes an electric switch (10) comprising a base (12) which receives a plurality of fixed electrical contacts (26, 28) and a movable electrical contact (14), an actuating body (16) made of elastic material and a central, top, pushbutton (18), characterized in that the body (16) comprises a lateral part (62), surrounding a top force-receiving portion (56), and the pushbutton (18) comprises a lateral actuating surface (86) for acting on this top lateral part (62, 64) of the body (16) and in that, successively, the central actuating surface (84) of the pushbutton (18) acts on the top force-receiving portion (56) and elastically deforms a wall part (60) of the body (16) and then the lateral actuating surface (86) of the pushbutton (18) acts on the top lateral part (62). | ||||||
| 8 | Touch-action electric switch with pre-load stroke | US15371270 | 2016-12-07 | US10068725B2 | 2018-09-04 | Jeremy Hebras; Stéphane Hurtard; Rémi Martin; Laurent Kubat |
| An electric switch includes a base which receives a plurality of fixed electrical contacts and a movable electrical contact. The switch also includes an actuating body made of elastic material. The switch also includes a central, top, pushbutton. The body includes a lateral part, surrounding a top force-receiving portion. The pushbutton includes a lateral actuating surface for acting on this top lateral part of the body. When operated, successively, the central actuating surface of the pushbutton acts on the top force-receiving portion and elastically deforms a wall part of the body, and then the lateral actuating surface of the pushbutton acts on the top lateral part. | ||||||
| 9 | Touch-Action Electric Switch With Pre-Load Stroke | US15371270 | 2016-12-07 | US20170178836A1 | 2017-06-22 | Jeremy HEBRAS; Stéphane HURTARD; Rémi MARTIN; Laurent KUBAT |
| An electric switch includes a base which receives a plurality of fixed electrical contacts and a movable electrical contact. The switch also includes an actuating body made of elastic material. The switch also includes a central, top, pushbutton. The body includes a lateral part, surrounding a top force-receiving portion. The pushbutton includes a lateral actuating surface for acting on this top lateral part of the body. When operated, successively, the central actuating surface of the pushbutton acts on the top force-receiving portion and elastically deforms a wall part of the body, and then the lateral actuating surface of the pushbutton acts on the top lateral part. | ||||||
| 10 | Autoclavable electrical switch assembly for use with a medical device and medical device using the same | US128309 | 1993-09-28 | US5512721A | 1996-04-30 | William T. Young; Bradley D. Blackwood |
| An autoclavable electrical switch assembly for use with a medical device having electrical functions comprising a flexible substrate formed of an insulating material and having a first and second surfaces, and having outer margins, first conductive means adherent to the first surface and forming a pattern surrounding an area of the surface and a contact disposed within the area, second conductive means adherent to the second surface and forming a ground plane and at least one, feedthrough means forming a connection between the contact on the first surface and the ground plane on the second surface, a snap dome of a conductive material overlies the contact and engages the pattern surrounding the area, flexible cover means disposed over the first and second surfaces and means for forming a hermetic seal between the outer margins so that the dome is hermetically sealed, said cover means and said hermetic seal being capable of withstanding repeated autoclaving. | ||||||
| 11 | Compact electronic device | US69898 | 1987-07-06 | US4801768A | 1989-01-31 | Kazuhiro Sugiyama; Yoshio Kawai |
| A key switch structure comprises a first insulating cover having on one surface thereof a first conductive layer and an anisotropically electrical conductive layer printed on the first conductive layer, a second insulating cover having one surface arranged at a side opposite to the anisotropically electrical conductive layer on the first cover member, and a second conductive layer sandwiched between the anisotropically electrical conductive layer and the second insulating cover. At least, one of the first and second insulating covers being flexible. A depression force is selectively introduced from the other surface side of the flexible cover through the anisotropically electrical conductive layer so as to form a conductive path between the first and second conductive layers. | ||||||
| 12 | Diaphragm keyboard | US039047 | 1987-04-16 | US4771143A | 1988-09-13 | Horst Hoffmann |
| The diaphragm keyboard comprises a baseboard from the bottom of which pins (11) project in vertical direction. These pins (11) pass through apertures (22) in an encoding plate (20) and extend beyond the surface thereof, thus presenting spacers for a diaphragm (30). In addition, they serve for retaining and aligning the encoding plate (20). | ||||||
| 13 | Sheet-like compact electronic equipment | US468401 | 1983-02-22 | US4558427A | 1985-12-10 | Eiichi Takeuchi; Kazuya Hara |
| A sheet-like compact electronic device includes an electronic parts assembly in which a semiconductor integrated circuit chip, a display element and a dry cell are arranged on a sheet-like board. The electronic parts assembly is flexible and is sandwiched between a sheet-like upper cover and a sheet-like lower cover. The upper cover is flexible and has a display window, and the lower cover is also flexible and has a flat lower surface. | ||||||
| 14 | Electrostatic discharge-protected switch | US109423 | 1979-12-31 | US4303960A | 1981-12-01 | Robert A. Sherwood; Svein T. Nordberg |
| A tactile matrix switch has a planar electrically conductive layer dielectrically spaced between contacts of individual switch elements and an actuating mechanism such as a finger on the body of a human being who may carry an electrostatic charge. Some switch contacts are electrically connected through external circuitry to ground. The conductive layer is also electrically connected to ground. When a human operator carrying an electrostatic charge brings his finger near the face of the matrix switch for applying a tactile force to actuate an individual switch element, the conductive layer electrically conducts the electrostatic charge to ground and away from the switch contacts for protecting the electrical circuitry connected to the latter. In one embodiment, the conductive layer is electrically conductive printer's ink, having a resistivity of less than 50 k ohms per square, that is silk screened onto the back of a face plate of the matrix switch. In an alternate embodiment, the conductive layer is printed onto the same broad side of a flexible dielectric plate to which the tactile force is applied, switch contacts being formed on the opposite broad side thereof. | ||||||
| 15 | Method of fabricating keyboard apparatus | US567874 | 1975-04-14 | US3981757A | 1976-09-21 | Willis August Larson |
| A method of forming an insulator and electrode member is disclosed, in its preferred form, as including an insulator having a first face supporting a uniform height conductive layer. A plurality of first electrode members are formed in the conductive layer by etching away or otherwise forming an array of apertures therein. A plurality of second electrode members are simultaneously formed either by printing, screening or other similar approach forming conductive material within and laterally spaced from the array of apertures. | ||||||
| 16 | Transparent touch type input device | JP11205588 | 1988-05-09 | JPH01281622A | 1989-11-13 | MATSUYAMA KOJI; USHIDA HIROAKI |
| PURPOSE: To raise a light transmittance, quicken response at the time of pressing and releasing the pressing, and facilitate the quick and continuous inputting of data. CONSTITUTION: A pair of resistance sheets 1 and 3 arrayed at the predetermined intervals comprises transparent and flexible base materials 1a and 3a such as an organic high polymer, and conductive thin films 1b and 3b formed on the opposite surfaces of the base materials 1a and 3a via a film formation means such as deposition. The surfaces of the conductive thin films 1b and 3b constitute conductive surfaces. Furthermore, a dispersed liquid composed of an electrical insulation liquid 6a and an electrical insulation fine particle 6b dispersed in the aforesaid liquid 6a is sealed in a space between the resistance sheets 1 and 3 as a pair. According to the aforesaid construction, a light transmittance rises via the adjustment of the refractive indexes of the electrical insulation liquid and fine particle 6a and 6b. Also, a response time at the time of pressing and releasing the pressing is shortened due to the effect of the mixed and dispersed fine particle 6b, and continuous data inputting thereby becomes possible. COPYRIGHT: (C)1989,JPO&Japio | ||||||
| 17 | JPS6362014B2 - | JP3327382 | 1982-03-03 | JPS6362014B2 | 1988-12-01 | |
| PURPOSE:To obtain a sheet-like small-sized electronic apparatus which is convenient for carrying, by laminating upper and lower sheets, and upper and lower face sheets, having toughness, so that they are made to closely adhere onto the upper side and the lower side of an electronic parts constitution body, and supporting the electronic parts constitution body by surrounding it by a frame. CONSTITUTION:A titled electronic apparatus is provided with an electronic parts constitution body 11 to which an integrated circuit element 26 for executing the operation by a switch part 51 which is turned on and off by an external operation, a display element 34 for executing the display by a signal of the element 26, and a solar battery 43 for driving them, etc. are connected, and on the upper and lower parts of the constitution body 11, an upper sheet 13 and a lower sheet 15 which have toughness, respectively are made to closely adhere and are laminated. The sheet 13 has a hole part 56 opposed to the switch part, and hole parts 57, 58 opposed to the element 34 and the battery 43, respectively. On the upper part of the sheet 13, an upper face sheet having toughness, which has an operating part 50 for operating the switch through the hole part 50, and a display window 53 is made to closely adhere and is laminated. On the lower part of the sheet 15, a lower face sheet 14 having toughness is made to closely adhere and is laminated, and between the sheets 13, 15, a supporting frame 16 supports the constitution body by suprrounding it, of which a sheet-like electronic apparatus is constituted. | ||||||
| 18 | JPS6259824B2 - | JP3327282 | 1982-03-03 | JPS6259824B2 | 1987-12-12 | HARA KAZUYA; TAKEUCHI EIICHI |
| 19 | JPS56168843U - | JP523781 | 1981-01-16 | JPS56168843U | 1981-12-14 | |
| 20 | Push switch | JP2007279879 | 2007-10-29 | JP2009110740A | 2009-05-21 | ONO KOJI |
| PROBLEM TO BE SOLVED: To provide a push switch mounted on an operation section of various electronic devices which includes the case that its external profile is a narrow rectangular parallelepiped shape and hardly generates a prying operation of an operating unit. SOLUTION: A recessed section of a case 20 is an approximately rectangular parallelepiped shape, and a guide projected section 22 extending in the vertical direction is arranged on an opposite inner wall surface at a short-side side viewed from upward at the recessed section. The operating unit 50 is arranged in the recessed section at a vertically movable state by connecting a hollow section 56 prepared on a flange section 55 with the guide projected section 22, an operation section 53 of the operating unit 50 is formed in a shape with a perpendicular surface rising at a position being hollow at the most inner side of the hollow section 56, and a side section 53A of the operation section 53 is succeedingly regulated by the guide projected section 22. COPYRIGHT: (C)2009,JPO&INPIT | ||||||
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