| 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 | 圆顶状弹簧及开关 | CN201010248456.1 | 2010-08-05 | CN101996804B | 2015-09-23 | 稻本繁典; 关口力; 荒内正彦 |
| 本发明的课题是将设有圆顶状弹簧的装置小型化,并且可靠地得到点击操作。圆顶状弹簧(2)是通过下压而引起压曲的圆顶状弹簧,该圆顶状弹簧的压曲时的可动部分的至少一部分的中性面为非球面形状。该非球面形状用六次方以上的偶函数表示,在将与圆顶状弹簧(2)的中心及外径之间的位置相对应的上述偶函数的拐点上的圆顶状弹簧(2)与基板(3)之间的角度设为α,将与该圆顶状弹簧(2)的外径相对应的上述偶函数的拐点上的圆顶状弹簧(2)与基板(3)之间的角度设为β时,满足α<β。 | ||||||
| 2 | 压敏开关和使用了该开关的输入装置 | CN201010196966.9 | 2010-06-02 | CN101908871A | 2010-12-08 | 吉原聪; 泽田昌树; 楠寿则; 井上浩人 |
| 本发明提供一种压敏开关和使用了该开关的输入装置。本发明的压敏开关包括:盖体;滑动部,其容纳在盖体中,向水平方向按压而能够滑行移动;按压单元,其内侧面与滑动部相接,且具有被滑动部按压而能够移动的按压部;薄片电阻体,其上面与按压部相接;和导电板,其被配置为在薄片电阻体的下方设置规定的空隙;滑动部在水平面内能够滑行移动,通过使滑动部滑行移动,从而使按压部对薄片电阻体进行按压,按照对滑动部进行滑动操作的力的变化,使薄片电阻体和导电板之间的电阻值发生变化。由此,由于可以不离开对操作部进行操作的手指,向各个方向进行光标和指针的操作、和确定选择出的菜单的操作,所以可以得到简单的结构且可进行各种操作的压敏开关和使用了该开关的输入装置。 | ||||||
| 3 | 一种使用扭簧为端子的开关 | CN201410662017.3 | 2014-11-19 | CN104505289A | 2015-04-08 | 余正明 |
| 本发明公开了一种使用扭簧为端子的开关,包括上盖、底座、固定端子、可动端子和按压件,所述底座设有一导柱,按压件连接安装到套接有复位弹簧的导柱上,上端露出上盖供按压,上盖与底座扣合使中部形成一空腔,固定端子和可动端子设置于空腔内,固定端子和可动端子的一端均穿出底座与外部电路连接,所述可动端子为扭簧,其安装在底座上位于固定端子的一侧;扭簧一端穿出底座供线路连接,该端与底座固定,扭簧另一端作为动作臂受按压件控制用于与固定端子接触。与现有技术相比,本发明使用扭簧作为可动端子结构,其良好的弹性,可以使使用扭簧为端子的开关拥有较好的手感,且扭簧制造成本较低,结构更为简单,寿命更长。 | ||||||
| 4 | 压敏开关和使用了该开关的输入装置 | CN201010196966.9 | 2010-06-02 | CN101908871B | 2013-04-10 | 吉原聪; 泽田昌树; 楠寿则; 井上浩人 |
| 本发明提供一种压敏开关和使用了该开关的输入装置。本发明的压敏开关包括:盖体;滑动部,其容纳在盖体中,向水平方向按压而能够滑行移动;按压单元,其内侧面与滑动部相接,且具有被滑动部按压而能够移动的按压部;薄片电阻体,其上面与按压部相接;和导电板,其被配置为在薄片电阻体的下方设置规定的空隙;滑动部在水平面内能够滑行移动,通过使滑动部滑行移动,从而使按压部对薄片电阻体进行按压,按照对滑动部进行滑动操作的力的变化,使薄片电阻体和导电板之间的电阻值发生变化。由此,由于可以不离开对操作部进行操作的手指,向各个方向进行光标和指针的操作、和确定选择出的菜单的操作,所以可以得到简单的结构且可进行各种操作的压敏开关和使用了该开关的输入装置。 | ||||||
| 5 | 包括至少两个分开的起泡作用的电接触部的多接触单元 | CN201180015344.4 | 2011-03-23 | CN102822924A | 2012-12-12 | G.朱雷克 |
| 本发明涉及一种多接触块,该多接触部块包括能够进行弹性变形的至少两个独立的起泡作用类型的电接触部(2-6)。根据本发明,这个多接触块包括:被称为撑杆的两个纵向轮廓元件(11,12),每个起泡作用的接触部(2-6)都经由弹性扁平段(21,22)而被连接到所述纵向轮廓元件(11,12)中的每个,所述弹性扁平段(21,22)能够允许所述接触部的弹性变形;以及被称为轨距联杆的两个用于硬化的横向轮廓元件(7-10),所述横向轮廓元件(7-10)在所述撑杆(11,12)之间伸展并被插入到所述接触部(2-6)之间。此外,支承凸缘(13-16)被定位在所述轮廓元件(7,10)的下方,并限定用于所述多接触块的支承基准面,所述支承凸缘(13-16)被设计来当每个接触部(2-6)弹性变形时被该接触部拦截。 | ||||||
| 6 | 圆顶状弹簧及开关 | CN201010248456.1 | 2010-08-05 | CN101996804A | 2011-03-30 | 稻本繁典; 关口力; 荒内正彦 |
| 本发明的课题是将设有圆顶状弹簧的装置小型化,并且可靠地得到点击操作。圆顶状弹簧(2)是通过下压而引起压曲的圆顶状弹簧,该圆顶状弹簧的压曲时的可动部分的至少一部分的中性面为非球面形状。该非球面形状用六次方以上的偶函数表示,在将与圆顶状弹簧(2)的中心及外径之间的位置相对应的上述偶函数的拐点上的圆顶状弹簧(2)与基板(3)之间的角度设为α,将与该圆顶状弹簧(2)的外径相对应的上述偶函数的拐点上的圆顶状弹簧(2)与基板(3)之间的角度设为β时,满足α<β。 | ||||||
| 7 | Pressure sensitive switch and input device using pressure sensitive switch | US12789852 | 2010-05-28 | US08228162B2 | 2012-07-24 | Satoshi Yoshihara; Masaki Sawada; Hisanori Kusunoki; Hiroto Inoue |
| There is provided a pressure sensitive switch including: a cover; a slide portion that is stored in the cover and is slidable by being pressed in a horizontal direction; a pressing unit including a pressure portion that has an inner side face brought into contact with the slide portion and can be moved by being pressed by the slide potion; a sheet resistive body that has an upper face brought into contact with the pressing unit; and a conductive plate that is disposed on the lower side of the sheet resistive body with a predetermined gap arranged therebetween. The slide portion is slidable within a horizontal plane, and the pressing portion presses the sheet resistive body by sliding the slide portion, and a resistance value between the sheet resistive body and the conductive plate changes in accordance with a change in a slide operation force for sliding the slide portion. | ||||||
| 8 | PRESSURE SENSITIVE SWITCH AND INPUT DEVICE USING PRESSURE SENSITIVE SWITCH | US12789852 | 2010-05-28 | US20100301925A1 | 2010-12-02 | Satoshi YOSHIHARA; Masaki Sawada; Hisanori Kusunoki; Hiroto Inoue |
| There is provided a pressure sensitive switch including: a cover; a slide portion that is stored in the cover and is slidable by being pressed in a horizontal direction; a pressing unit including a pressure portion that has an inner side face brought into contact with the slide portion and can be moved by being pressed by the slide potion; a sheet resistive body that has an upper face brought into contact with the pressing unit; and a conductive plate that is disposed on the lower side of the sheet resistive body with a predetermined gap arranged therebetween. The slide portion is slidable within a horizontal plane, and the pressing portion presses the sheet resistive body by sliding the slide portion, and a resistance value between the sheet resistive body and the conductive plate changes in accordance with a change in a slide operation force for sliding the slide portion. | ||||||
| 9 | Multiple contact input device | US09119603 | 1998-07-22 | US06399904B1 | 2002-06-04 | Yoshihisa Mimata |
| The present invention relates to a multiple contact input device which makes it possible to use a single operation member in common for the purpose of controlling a coordinate signal and setting a point thereby preventing two switches from simultaneously operating. The device reduces the number of elements of the multiple contact input device. A base is provided with a first switch and four second switches at a periphery of the first switch, and an operation member is provided with a first pressing portion, second pressing members, and projections. When the operation member is swung longitudinally and laterally, the second pressing portions press the second switches. When the operation member is swung diagonally, each projection touches a receiving portion of the base, thereby preventing the second pressing portions from pressing the second switches. When the operation member is pushed, the first pressing portion presses the first switch. | ||||||
| 10 | Multi-contact input device | JP26608897 | 1997-09-30 | JP3470022B2 | 2003-11-25 | 義久 三又 |
| 11 | A multiple contact joystick | EP98113543.7 | 1998-07-21 | EP0905599A2 | 1999-03-31 | Mimata, Yoshihisa |
The present invention relates to a multiple contact input device. An object thereof is to make it possible to use a single operation member (4) in common for the purpose of controlling a coordinate signal and setting a point thereby preventing two switches from simultaneously operating. In addition, another object is to reduce the number of elements of the multiple contact input device and thin the device. A base (11) is provided with a first switch (2) and four second switches (3) at a periphery of the first switch (2), and the operation member (4) is provided with a first pressing portion (43), second pressing members (44), and projections (45). When the operation member (4) is swung longitudinally and laterally, the second pressing portions (44) press the second switches (3). When the operation member (4) is swung diagonally, the each projection (45) touches a receiving portion of the base (11), thereby preventing the second pressing portions (44) from pressing the second switches (3). When the operation member (4) is pushed, the first pressing portion (43) presses the first switch (2). |
||||||
| 12 | MOBILE TERMINAL | US13842711 | 2013-03-15 | US20140126163A1 | 2014-05-08 | Jaehoon KIM |
| There is provided a mobile terminal a case having a hollow portion provided therein, a circuit board positioned in the hollow portion of the case to mount electronic components therein, the circuit board including a securing hole, a side button having an exposed front side at a lateral side of the case, a reinforcing frame positioned between the side button and the circuit board, the reinforcing frame being coupled to a lateral portion of the circuit board by a securing hook that projects from a backside of the reinforcing frame, the securing hook being received in the securing hole and a switch module coupled to a front side of the reinforcing frame so as to be located between the reinforcing frame and the side button, the switch module being configured to generate an electric signal when the side button is pressed. | ||||||
| 13 | Dome shaped spring and switch | US12848383 | 2010-08-02 | US08389885B2 | 2013-03-05 | Shigenori Inamoto; Chikara Sekiguchi; Masahiko Aranai |
| Disclosed is a dome shaped spring including: a dome shaped spring section in which buckling occurs by pushing, wherein at least a portion of a neutral face of a movable portion when buckling of the dome shaped spring section occurs is an aspherical shape. | ||||||
| 14 | DOME SHAPED SPRING AND SWITCH | US12848383 | 2010-08-02 | US20110031099A1 | 2011-02-10 | Shigenori INAMOTO; Chikara Sekiguchi; Masahiko Aranai |
| Disclosed is a dome shaped spring including: a dome shaped spring section in which buckling occurs by pushing, wherein at least a portion of a neutral face of a movable portion when buckling of the dome shaped spring section occurs is an aspherical shape. | ||||||
| 15 | Key switch with snap-action contact and resilient actuator | US211428 | 1980-11-28 | US4316066A | 1982-02-16 | Michael Muller; Reed A. Palmer; Harry R. Marker |
| A key switch for data-entry keyboards and the like, the switch having a housing supporting a snap-action spring with a movable contact positioned adjacent a fixed contact on the housing. An actuator leaf spring is anchored at one end to the housing, and has a free end which is movable to drive the snap-action spring between first and second bi-stable positions to operate the switch. A keystem is slidably supported in the housing, and has a portion in contact with the actuator spring so depression of the keystem displaces the actuator spring to drive the snap-action spring. | ||||||
| 16 | The dome shaped spring and the switch | JP2009182939 | 2009-08-06 | JP5347818B2 | 2013-11-20 | 繁典 稲本; 力 関口; 正彦 荒内 |
| Disclosed is a dome shaped spring including: a dome shaped spring section in which buckling occurs by pushing, wherein at least a portion of a neutral face of a movable portion when buckling of the dome shaped spring section occurs is an aspherical shape. | ||||||
| 17 | Pressure sensitive switch and input device using this | JP2009265969 | 2009-11-24 | JP2011014521A | 2011-01-20 | YOSHIHARA SATOSHI; SAWADA MASAKI; KUSUNOKI HISANORI; INOUE HIROTO |
| PROBLEM TO BE SOLVED: To provide a pressure sensitive switch used for operating various electronic apparatuses, simple and capable of performing various operations, and an input device using the same.SOLUTION: In this pressure sensitive switch 31, a slide means 22 is housed in a cover 21 so that it is slidably moved within a horizontal plane, a pressing part 23A pressed by the slide means 22 presses sheet resistors 28A-D provided at least four spots, and thereby, in accordance with change of slide operating force to slidably move the slide means 22, resistance values between the sheet resistors 28A-D and a conductive plate 30 change. Thereby, since operation to move a cursor and a pointer in various directions without removing a finger which has operated an operating part 33A, and operation to fix a selected menu can be performed, the pressure sensitive switch capable of various operations with a simple structure, and an input device using it can be obtained. | ||||||
| 18 | DEVICE FOR DETECTING MANIPULATION OF AN OBJECT | US15510505 | 2015-08-18 | US20170256371A1 | 2017-09-07 | Mathias Kulik; Peter Golueke; Alexander Nentwig; Michael Nolte |
| The invention relates to a device (2) for detecting manipulation on an object comprising an actuating switch (22) which has a snap-action disk (220) which can be switched between a first position and a second position, and an actuating element (21) which has a body (210) and an actuating stud (211), projecting from the body of the actuating element (21), for acting on the snap-action disk (220), wherein the actuating stud (211) has a first stiffness. According to the invention a contact element (213), arranged on the actuating stud (211), acts on the snap-action disk (220), wherein the contact element (213) has a second stiffness which is greater than the first stiffness. | ||||||
| 19 | Mobile terminal | US13842711 | 2013-03-15 | US09053878B2 | 2015-06-09 | Jaehoon Kim |
| There is provided a mobile terminal a case having a hollow portion provided therein, a circuit board positioned in the hollow portion of the case to mount electronic components therein, the circuit board including a securing hole, a side button having an exposed front side at a lateral side of the case, a reinforcing frame positioned between the side button and the circuit board, the reinforcing frame being coupled to a lateral portion of the circuit board by a securing hook that projects from a backside of the reinforcing frame, the securing hook being received in the securing hole and a switch module coupled to a front side of the reinforcing frame so as to be located between the reinforcing frame and the side button, the switch module being configured to generate an electric signal when the side button is pressed. | ||||||
| 20 | TWO-STEP SWITCH | US14115508 | 2012-04-06 | US20140090967A1 | 2014-04-03 | Shuji Inagaki |
| [Problem]To provide a two-stage switch which has few components, can be made thin, and can obtain a clear clicking sense.[Solution]A two-stage switch (10) is provided with a click dome plate (20) having a movable contact, a keypad (30) joined to the upper surface of the dome of the dome plate (20), and a fixed contact (41) formed on a substrate (40). The fixed contact (41) comprises a first stage fixed contact (42) and second stage fixed contact (43). When the keypad (30) is not being subjected to a pressing operation, the dome plate (20) is in a floating state without contacting any of the fixed contacts. With a first stage pressing operation on the keypad (30), the pad (30) is deformed and the dome plate (20) comes into contact with the first stage fixed contact (42). With a second stage pressing operation on the keypad (30), the dome plate (20) deforms with a clicking sensation and comes into contact with the second stage fixed contact (43). | ||||||
QQ群二维码
意见反馈
意见反馈