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 | CN200510116194.2 | 2005-10-20 | CN100403468C | 2008-07-16 | 舛田雅裕; 屋内康典; 八木义和 |
本发明的按钮开关,包括:有底面的盒体、设在盒体的底面上的固定接点、金属薄板制的可动接点、弹性体及操作体。弹性体具有:形成孔的圆筒状部、从圆筒状部向下方所设置的圆锥形部、位于可动接点的上方的突起、使突起与圆筒状部连接的连接部。该按钮开关能在接通后获得长的超行程。 | ||||||
2 | 按钮开关 | CN200510116194.2 | 2005-10-20 | CN1767108A | 2006-05-03 | 舛田雅裕; 屋内康典; 八木义和 |
本发明的按钮开关,包括:有底面的盒体、设在盒体的底面上的固定接点、金属薄板制的可动接点、弹性体及操作体。弹性体具有:形成孔的圆筒状部、从圆筒状部向下方所设置的圆锥形部、位于可动接点的上方的突起、使突起与圆筒状部连接的连接部。该按钮开关能在接通后获得长的超行程。 | ||||||
3 | 按钮开关 | CN02146122.8 | 2002-10-29 | CN1229831C | 2005-11-30 | 屋内康典; 渡边久 |
本发明提供一种按钮开关,在开关上配置由棒形部、其上部的第一变形部和其下方作为第二变形部发挥功能的圆锥形部构成的弹性材料制的弹性体,使得在第二变形部的下端部上塞入在开关盒内配置的可动接点。弹性体的棒形部从固定在开关盒上的盖中央孔突出。在该开关上一旦在弹性体上施加向下推压力,则首先第一变形部弹性变形,然后,第二变形部弹性变形,使开关动作。该开关可以吸收由电子设备等的构成部件的组合产生的偏差,没有机器操作钮的晃动,使操作触感稳定。 | ||||||
4 | 开关弹片 | CN200710201341.5 | 2007-08-10 | CN101364488B | 2010-11-17 | 张正龙 |
一种开关弹片,其应用于具触压式按键的电子产品装置中。所述电子产品装置包括一电路板,该电路板上设有若干电性接点,所述弹片装设于所述电路板上的电性接点一侧。所述弹片包括一焊接段、一按压段及一受压段,所述焊接段固设于所述电路板上,所述按压段由所述焊接段上延伸而成,所述受压段由所述焊接段侧缘向外延伸弯折而成。所述按压段受压时推顶所述受压段移动,所述按压段受压时的移动路径与所述受压段的移动路径成一定角度。 | ||||||
5 | 开关弹片 | CN200710201341.5 | 2007-08-10 | CN101364488A | 2009-02-11 | 张正龙 |
一种开关弹片,其应用于具触压式按键的电子产品装置中。所述电子产品装置包括一电路板,该电路板上设有若干电性接点,所述弹片装设于所述电路板上的电性接点一侧。所述弹片包括一焊接段、一按压段及一受压段,所述焊接段固设于所述电路板,所述按压段由所述焊接段上延伸而成,所述受压段由所述焊接段侧缘向外延伸弯折而成。所述按压段受压时推顶所述受压段移动,所述按压段受压时的移动路径与所述受压段的移动路径成一定角度。 | ||||||
6 | 按钮开关 | CN02146122.8 | 2002-10-29 | CN1417819A | 2003-05-14 | 屋内康典; 渡边久 |
本发明提供一种按钮开关,在开关上配置由棒形部、其上部的第一变形部和其下方作为第二变形部发挥功能的圆锥形部构成的弹性材料制的弹性体,使得在第二变形部的下端部上塞入在开关盒内配置的可动接点。弹性体的棒形部从固定在开关盒上的盖中央孔突出。在该开关上一旦在弹性体上施加向下推压力,则首先第一变形部弹性变形,然后,第二变形部弹性变形,使开关动作。该开关可以吸收由电子设备等的构成部件的组合产生的偏差,没有机器操作钮的晃动,使操作触感稳定。 | ||||||
7 | Surgical power tool and actuation assembly therefor | US12699249 | 2010-02-03 | US09345490B2 | 2016-05-24 | Andreas Ippisch |
A surgical power tool has an actuation assembly for the actuation-force-dependent control of the tool. The actuation assembly includes a force sensor configured to sense the actuation force and a carrier component for the force sensor which is arranged upstream of the force sensor in a direction of force application and is coupled thereto in a force-transmitting manner. A mechanical damping member is arranged upstream of the carrier component in the direction of force application. The damping member protects the carrier component and the force sensor, for example, from impacts and shocks and the accompanying plastic deformations. | ||||||
8 | SURGICAL POWER TOOL AND ACTUATION ASSEMBLY THEREFOR | US12699249 | 2010-02-03 | US20100318093A1 | 2010-12-16 | Andreas Ippisch |
A surgical power tool has an actuation assembly for the actuation-force-dependent control of the tool. The actuation assembly comprises a force sensor configured to sense the actuation force and a carrier component for the force sensor which is arranged upstream of the force sensor in a direction of force application and is coupled thereto in a force-transmitting manner. A mechanical damping member is arranged upstream of the carrier component in the direction of force application. The damping member protects the carrier component and the force sensor, for example, from impacts and shocks and the accompanying plastic deformations. | ||||||
9 | Contact spring assembly for electronic devices | US11964801 | 2007-12-27 | US07578712B2 | 2009-08-25 | Cheng-Lung Chang |
A contact spring assembly (30) for an electronic device includes a mounting portion (31), a press spring (32), and a deformable spring (37). The press spring and the deformable spring are respectively bent from the mounting portion. The press spring resists the deformable spring. The press spring is configured to be moved along a first direction and push the deformable spring to move along a second direction different from the first direction. | ||||||
10 | Push switch | US10277314 | 2002-10-22 | US20030094359A1 | 2003-05-22 | Yasunori Yanai; Hisashi Watanabe |
In a switch, an elastic member made of elastic material includes a bar section, a conical section at its upper portion functioning as a first deforming section, and a second deforming section at its lower portion. A movable contact in a switch case is pushed with the lower end portion of the second deforming section. A bar section of an elastic element projects through a central hole of a cover fixed to the switch case. In this switch, a pushing force applied to the elastic element deforms the first deforming section elastically, and then the second deforming section deforms elastically, and thus, the switch operates. The switch can absorb fluctuations due to combination of components of an electronic appliance, and stabilize its manipulation feeling through eliminating looseness of an operation button of the appliance. | ||||||
11 | Keyboard for typewriters, printers or the like | US629949 | 1990-12-19 | US5061094A | 1991-10-29 | Gunter Buttner; Friedrich Forschner; Manfred Fuchtenkort; Rudolf Schmeykal; Alfred Wieland |
In a keyboard for typewriters, printers or the like, where a contact bearing film is disposed underneath the keys, there is provided for achieving a cost-efficient arrangement, while avoiding the use of separate restoring springs, that the contact bearing film (10) has U-shaped cut-outs (11) in the area of the keys (1), the film tongues (12) are bent by 180.degree. and are acted upon by the key tappet (3) of the keys (1), the contacts (14, 15) formed between the base of the film, the underside of the film tongue (12), and the film tongue (12) act at the same time as a restoring spring. | ||||||
12 | Push switch | US10277314 | 2002-10-22 | US06664491B2 | 2003-12-16 | Yasunori Yanai; Hisashi Watanabe |
In a switch, an elastic member made of elastic material includes a bar section, a conical section at its upper portion functioning as a first deforming section, and a second deforming section at its lower portion. A movable contact in a switch case is pushed with the lower end portion of the second deforming section. A bar section of an elastic element projects through a central hole of a cover fixed to the switch case. In this switch, a pushing force applied to the elastic element deforms the first deforming section elastically, and then the second deforming section deforms elastically, and thus, the switch operates. The switch can absorb fluctuations due to combination of components of an electronic appliance, and stabilize its manipulation feeling through eliminating looseness of an operation button of the appliance. | ||||||
13 | Keyboard switch assembly having raised contacts supported by helicline legs on a common conductive sheet | US508482 | 1974-09-23 | US3979568A | 1976-09-07 | Wendell C. Johnson |
A switching device having a movable contact that is an integral part of a metallic support substrate and is supported above the support substrate by a plurality of spring-like support legs that are also an integral part of the support substrate. The support legs extend radially outward from the movable contact and contact the substrate and the movable contact at equally spaced points. The movable contact is aligned with either a stationary contact or another movable contact and a stationary contact to provide either single or multiple switching. The switching device can be used for contact switching or capacitive switching. A plurality of the switching devices can be formed on the support substrate making the switching device particularly well suited for use in a keyboard. A portion of each support leg may be thinned to provide a negative force-displacement characteristic which provides a good tactile feedback signal indicating switching.One or more of the switching devices are produced by forming one or more groups of curved, unconnected, radially extending slots in a metallic substrate, deforming the legs defined by the slots past their elastic limit, and then, if desired, precipitation hardening the completed structure. To assure movement of the central area of the movable contact past the plane of the support substrate, a portion of each of the legs is thinned prior to the legs being plastically deformed. | ||||||
14 | Keyboard switch assembly having movable contact, and supporting helicline type legs disposed co-planar to common conductive sheet | US508480 | 1974-09-23 | US3968336A | 1976-07-06 | Wendell C. Johnson |
A switching device having a movable contact element characterized by a set of unconnected, curved slots radiating outward from a central key area and equally spaced around the central key area. The radially extending unconnected, curved slots may be sections of a spiral, at least some of which sections overlap each other. Adjustment of the spring rate of the movable contact element is accomplished by adjusting the length of the slots or by regulating the distance of the inner terminus of the slots from a central point of the central key area. The movable contact element either contacts a second contact element for contact switching or approaches the second contact element for capacitive switching.A plurality of the switching elements can be formed in a planar array on a continuous metallic substrate to provide a keyboard. The movable switching elements can be formed on the metallized areas of a printed circuit board. | ||||||
15 | Push on switch | JP2001330448 | 2001-10-29 | JP2003132762A | 2003-05-09 | YANAI YASUNORI; WATANABE HISASHI |
PROBLEM TO BE SOLVED: To provide what can absorb the variation by the combination of composition parts such as an electric device and the like, has no shakiness of the operation button of apparatus, and has stabilized operation feeling, about a push-on switch used for operation of various electric devices, or the like. SOLUTION: It is constituted so that it may have a 1st deformation part 15E in the upper part of a stick-like part 15C, an elastic component 15 made from the elastic material, which consists of a cone form part, which has functions as 2nd deformation part 15A of its lower part, may be arranged so that a movable point-of-contact 14 allotted in a switch case 11 may be held down by the lower end 15B of the 2nd deformation part 15A, and the stick-like part 15C of the above elastic body 15 may be projected from the center of a cover 16 fixed to the above switch case 11. If the press down force is added to the above elastic body 15, the above 1st deformation part 15E is deformed elastically at first, and next the above 2nd deformation part 15A carries out elastic deformation, to make it switch. COPYRIGHT: (C)2003,JPO | ||||||
16 | Electronic equipment with keyboard | JP20239184 | 1984-09-26 | JPS6180718A | 1986-04-24 | SHINOHARA ISATO |
17 | Push-on switch | JP2004305471 | 2004-10-20 | JP2006120395A | 2006-05-11 | MASUDA MASAHIRO; YANAI YASUNORI; YAGI YOSHIKAZU |
PROBLEM TO BE SOLVED: To provide a push-on switch used as an operating switch for an input operation unit in various electrical apparatuses and the like, which provides proper operation feeling by providing a long operation stroke having a push-in clearance, even after being switched on. SOLUTION: This push-on switch comprises an elastic body 15 on a movable contact point 14 disposed on a switch case 11, and the elastic body 15 has a central hole 15E formed therein that opens upward in a cylinder 15A at the upper part, a cone 15B at the lower part that has an opening opened downward, and a divider 15F that forms the base of a pressing projection 15C located at the opening center of the cone 15B. A coupling body 17 is fixed on the switch case 11, which is made to project to the upper portion of an operating body 16 fitted in the cylinder 15A from a through-hole 17A. As a result, the amount of elastic deformation of the divider 15F can be utilized as an over-stroke, after the switch is turned on. COPYRIGHT: (C)2006,JPO&NCIPI | ||||||
18 | Typewriter, a printer such as a keyboard | JP31444690 | 1990-11-21 | JPH0793075B2 | 1995-10-09 | アルフレート・ウイーラント; ギュンテル・ビュットネル; フリードリッヒ・フェルシュネル; マンフレート・フュヒテンコルト; ルドルフ・シュマイケル |
19 | Chirurgisches Elektrowerkzeug und Betätigungsbaugruppe hierfür | EP09001517.3 | 2009-02-04 | EP2215980B1 | 2012-12-19 | Ippisch, Andreas |
20 | Chirurgisches Elektrowerkzeug und Betätigungsbaugruppe hierfür | EP09001517.3 | 2009-02-04 | EP2215980A1 | 2010-08-11 | Ippisch, Andreas |
Ein chirurgisches Elektrowerkzeug weist eine Betätigungsbaugruppe zur betätigungskraftabhängigen Werkzeugsteuerung auf. Die Betätigungsbaugruppe umfasst einen zur Erfassung der Betätigungskraft ausgebildeten Kraftsensor sowie ein Trägerbauteil für den Kraftsensor, das dem Kraftsensor in einer Krafteinleitungsrichtung vorgelagert und in Kraft übertragender Weise mit diesem gekoppelt ist. Ein mechanisches Dämpfungsglied ist dem Trägerbauteil in der Krafteinleitungsrichtung vorgelagert. Das Dämpfungsglied schützt das Trägerbauteil und den Kraftsensor beispielsweise vor Schlägen und Stößen sowie den damit einhergehenden plastischen Deformationen. |