| 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 | 按键及应用该按键的电子装置 | CN200710202062.0 | 2007-10-15 | CN101414519B | 2011-07-27 | 林裕源 |
| 本发明提供一种电子装置,其包括一电路板及若干按键,该电路板上设有若干触点,每一触点周围设置有焊垫,该按键包括一键顶、一按键垫及一触发弹片,该电路板上于每一焊垫外围设置有导通点,该触发弹片设置在该按键垫上,该触发弹片包括一触发部,该键顶与该按键垫相固接,所述按键垫朝电路板方向移动时,所述触发部朝与所述按键垫移动方向相垂直的方向移动以触发该导通点后,该按键垫触发所述触点与焊垫导通。应用该种按键的电子装置可减少老年人及视力不佳者在输入信息时的不便,使使用者输入信息更加准确,避免删除错误信息再重新输入。 | ||||||
| 2 | 选择开关 | CN02126817.7 | 2002-07-22 | CN1244943C | 2006-03-08 | 梁志兴 |
| 提出了一种选择开关(10),用于选择和操纵一个消费产品的至少一个功能。这种选择器包括具有至少一个操作区域的一个操作元件。这种选择开关(10)包括在所述操作区域下的两个按键开关(22、24;26、28;30、32;34、36),用于控制所期望的功能。 | ||||||
| 3 | 按键及应用该按键的电子装置 | CN200710202062.0 | 2007-10-15 | CN101414519A | 2009-04-22 | 林裕源 |
| 本发明提供一种电子装置,其包括一电路板及若干按键,该电路板上设有若干触点,每一触点周围设置有焊垫,该按键包括一键顶、一按键垫及一触发弹片,该电路板上于每一焊垫外围设置有导通点,该触发弹片设置在该按键垫上,该触发弹片包括一触发部,该键顶与该按键垫相固接,所述按键垫朝电路板方向移动时,所述触发部朝与所述按键垫移动方向相垂直的方向移动以触发该导通点后,该按键垫触发所述触点与焊垫导通。应用该种按键的电子装置可减少老年人及视力不佳者在输入信息时的不便,使使用者输入信息更加准确,避免删除错误信息再重新输入。 | ||||||
| 4 | 数据键入模块 | CN201110288414.5 | 2011-09-19 | CN102568120B | 2014-07-09 | 陈理德 |
| 本发明公开了一种数据键入模块包括:一可挠性基板;一栅栏电路,其形成于该可挠性基板上且包括至少以一蜿蜒曲折方式布线的一迹线;一绝缘层,其形成于该栅栏电路上;一基板,其与该绝缘层间隔;及一开关电路,其包括多个开关元件,每一开关元件包括分别安置于该基板及该绝缘层上的两个接触衬垫。该栅栏电路用以覆盖该开关电路以防止对该开关电路的询问。本发明可防止数据键入模块的薄膜开关中的电路经由被穿透的薄膜而被分接。 | ||||||
| 5 | 数据键入模块 | CN201110288414.5 | 2011-09-19 | CN102568120A | 2012-07-11 | 陈理德 |
| 本发明公开了一种数据键入模块包括:一可挠性基板;一栅栏电路,其形成于该可挠性基板上且包括至少以一蜿蜒曲折方式布线的一迹线;一绝缘层,其形成于该栅栏电路上;一基板,其与该绝缘层间隔;及一开关电路,其包括多个开关元件,每一开关元件包括分别安置于该基板及该绝缘层上的两个接触衬垫。该栅栏电路用以覆盖该开关电路以防止对该开关电路的询问。本发明可防止数据键入模块的薄膜开关中的电路经由被穿透的薄膜而被分接。 | ||||||
| 6 | 选择开关,尤其是四位或多位开关 | CN02126817.7 | 2002-07-22 | CN1399289A | 2003-02-26 | 梁志兴 |
| 提出了一种选择开关(10),用于选择和操纵一个消费产品的至少一个功能。这种选择器包括具有至少一个操作区域的一个操作元件。这种选择开关(10)包括在所述操作区域下的两个按键开关(22、24;26、28;30、32;34、36),用于控制所期望的功能。 | ||||||
| 7 | Push button switch, and teaching pendant therewith | JP2000232229 | 2000-07-31 | JP2002042606A | 2002-02-08 | FUKUI TAKAO; MIYAUCHI KENJI; OKADA KAZUYA; UENO YASUSHI; MAEDA TAKESHI; SEKINO YOSHIO |
| PROBLEM TO BE SOLVED: To provide a push button switch capable of reliably performing ON- OFF operation of the push button switch even when one contact is failed while using the push button switch, and a teaching pendant using the same. SOLUTION: Two c-contacts 9a and 9b having a snap action are provided in a switch case 3, and switching mechanisms 11a and 11b for opening/closing the c-contacts 9a and 9b are provided. When a push button 5 is pushed in, the c-contacts 9a and 9b are simultaneously opened/closed by the switching mechanisms 11a and 11b to turn ON/turn OFF the push button switch 1. | ||||||
| 8 | Deadman switch mechanism for robot emergency stop and teaching control panel | JP24175197 | 1997-08-25 | JPH1158289A | 1999-03-02 | TERADA AKIHIRO; YASUMURA MITSUHIRO; NAKAO SHINSUKE |
| PROBLEM TO BE SOLVED: To provide a teaching control panel equipped with a deadman switch having low possibility to lose a safety securing function even when the failure of a contact point and other circuits is caused. SOLUTION: In this mechanism, when at least one of grip levers GL1, GL2 is gripped by normal force, the grip levers GL1, GL2 revolve around axis AX4, AX5, shoulder parts SD1, SD2 are engaged with driven levers SL1, SL2, both of the driven levers SL1, SL2 connected by a link LK are simultaneously revolved in the arrow B direction around an axis AX3, and switches SW1, SW2 are simultaneously set in an ON state. Two circuits with the switches SW1, SW2 respectively built in them separately output ON signals, they are AND treated and make a robot in a state free to move. When gripping of the grip levers GL1, GL2 is released at the time of emergency, etc., the driven leveras SL1, SL2 are simultaneously revolved in the arrow A direction, the switches SW1, SW2 are simultaneously made in an OFF state, and the robot immediately stops. An emergency stop function is not lost unless the circuits, switch contact points, etc., of the two systems simultaneously fail. | ||||||
| 9 | On-hand operator | JP25140694 | 1994-09-19 | JPH0890485A | 1996-04-09 | OSHIMA MIKIO |
| PURPOSE: To provide an on-hand operator of fail-safe for a robot by pressing in a press plate into a recessed part against a pressure of a spring, so that a 3-point type limit switch can be placed in an off-condition of the third point through a shaft and a dog plate. CONSTITUTION: When a finger hook part 31 is gripped with a press plate 5 to grasp a hand operator 1, the press plate 5 is advanced into a recessed part 32, to press dogs 41a, 42a by a dog plate 6, and the dogs 41a, 42a are pressed in a little into 3-point type limit switches 41, 42. Thus, the limit switches 41, 42 are turned on by the dog plate 6, to make an operating circuit operable. When the finger hook part 31 is separated for emergency stopping by a worker, the press plate 5 is pressed down through the dog plate 6 and a steep differenced part 71 of a shaft 7 by spring tension, to place in an off-condition. In the case of firmly gripping the finger hook part 31, the press plate 5 is placed in the recessed part 32, and the limit switches 41, 42 are actuated through a spacer 9 by the dog plate 6, to place in an off-condition of the third point. | ||||||
| 10 | Portable type teaching device | JP24785387 | 1987-10-02 | JPH0192080A | 1989-04-11 | FUJII KENJIRO; OURA MASAO; TSUBURAYA KAZUYUKI; HAGURA SHIGENAO |
| PURPOSE: To improve operability by installing a grip part having an incline in succession toward the surface, on the backside of a body central part side, and an interlock releasing switch as a dead-man's switch to be situated in an incline at the more inside than a top part of the grip part, respectively. CONSTITUTION: Two interlock releasing switches 135 and 145 installed in both inclines 134 and 144 at the more inside than each top part of two grip parts 130 and 140 are operated by each motion of fingers holding these grip parts 130 and 140 of a body 100 set up with a control switch on the surface. Robot operations during the teaching work are stoppable at once by separating a fingertip from each operating button of these interlock releasing switches 135 and 145 as this dead-man's switch. COPYRIGHT: (C)1989,JPO | ||||||
| 11 | 파워릴레이 어셈블리 | KR2020120005051 | 2012-06-14 | KR2020130007324U | 2013-12-24 | 윤혜림 |
| 본고안은안전장치가일체형으로결합되는파워릴레이어셈블리에관한것이다. 본고안은배터리에전기적으로접속되는파워릴레이어셈블리에관한것으로, 다수의전기부품이내장된본체; 상기본체의일측에제공되며, 상기배터리의외부단자와연결되는메인단자; 상기메인단자의일측에제공되며, 상기배터리의내부단자와연결되는라인단자; 상기본체에서의전류흐름을선택적으로차단하는안전장치; 상기라인단자의일측에구비되며, 상기안전장치에결합되는안전장치단자; 및상기라인단자와안전장치단자를연결하는안전장치접속부가포함되고, 상기안전장치는상기본체의일면에일체형으로고정되는것을특징으로한다. 본고안에따르면, 파워릴레이어셈블리와안전장치의일체형구조는두 제품의기능을모두갖추면서동시에기존배터리시스템보다공간을절약할수 있다는장점이있다. 상기파워릴레이어셈블리를통해, 자동차전력계통에배터리전원을안정적으로공급할수 있다. 그리고, 상기안전장치를통해과전류또는단락사고가발생했을때 이를강제로차단하여자동차전력계통을보호할수 있다는장점이있다. 또한, 안전장치는파워릴레이어셈블리로부터분리및 조립이가능하도록제공되므로배터리모듈을다양하게구현할수 있고, 각부품의고장시부품의교체및 수리가용이하다는장점이있다. | ||||||
| 12 | SEAT OCCUPANCY SENSOR | US15915175 | 2018-03-08 | US20180257513A1 | 2018-09-13 | Yoshihiro Mizokawa; Keiichi Yanai; Atsushi Kobayashi; Keiichi Kondo; Shunsuke Nagai |
| A seat occupancy sensor includes: a first sensor group having a plurality of first sensor cells that are arrayed in a front-rear direction of a seat and become conductive as a load is applied thereto; a second sensor group having a plurality of second sensor cells that are arrayed in the front-rear direction, farther on a front side of the seat and closer to an end of the seat in a width direction than the first sensor group, and that become conductive as a load is applied thereto; and an electronic control unit. The electronic control unit determines that someone is sitting on the seat when both of at least one of the first sensor cells and at least one of the second sensor cells become conductive. | ||||||
| 13 | Compact double-contact secured pushbutton switch | US13314037 | 2011-12-07 | US08735747B2 | 2014-05-27 | Jean-Louis Bigand |
| A pushbutton switch comprises a plunger, which provokes, under the action of pressure by a user, the depression of an upper dome positioned above switching means, any depression of the upper dome necessarily provoking the depression of the switching means, the crest of the upper dome and the switching means having a down position, a first electric contact being produced between a primary contact and a secondary contact of the upper dome forming a first electric circuit when the crest of the upper dome is in the down position, and a second electric contact being produced between a primary contact and a secondary contact of the switching means forming a second electric circuit when the switching means are in the down position. | ||||||
| 14 | DATA ENTRY MODULE | US12914107 | 2010-10-28 | US20120105258A1 | 2012-05-03 | LI DE CHEN |
| A data entry module includes a flexible substrate, a fence circuit formed on the flexible substrate and including at least one trace routed in a meandering manner, an insulating layer formed on the fence circuit, a substrate spaced from the insulating layer, and a switch circuit including a plurality of switch elements each including two contact pads separately disposed on the substrate and the insulating layer. The fence circuit is configured to cover the switch circuit for preventing the interrogation of the switch circuit. | ||||||
| 15 | Key button, key assembly using the key button and portable electronic device using the keypad assembly | US11964828 | 2007-12-27 | US07714246B2 | 2010-05-11 | Yu-Yuan Lin |
| A portable electronic device (10) is provided. The portable electronic device includes the keypad assembly (20). The keypad assembly includes key buttons (30 or 60). Each key button includes a key portion (32 or 62), a supporting portion (34 or 66), a switching portion (35 or 64), a pad portion (36 or 67), and a circuit board portion (38 or 68). The supporting portion defines a first through hole (344 or 664). The switching portion includes at least one switching elastic sheet (354 or 644). The pad portion includes a base body (362 or 672) and a protruding portion (364 or 674). The circuit board portion includes a first contacting point (3821 or 6821), a contacting sheet (384 or 684), and at least one second contacting point (3822 or 6822). | ||||||
| 16 | Key structure | US11859245 | 2007-09-21 | US07541554B2 | 2009-06-02 | Wen-Kuang Hou |
| A key structure comprises a membrane circuit, a substrate, a cover and a press element. The membrane circuit comprises at least one first signal generator and a second signal generator. The substrate is disposed below the membrane circuit to support the membrane circuit. The cover comprises a body and at least one protrusion, wherein the protrusion is disposed on the body corresponding to the first signal generator. The press element is disposed on the second signal generator, wherein when force is applied on the cover, the protrusion presses the first signal generator. | ||||||
| 17 | Handheld Electronic Device and Keypad Providing Enhanced Usability and Reduced Size, and Associated Method | US12119699 | 2008-05-13 | US20080211697A1 | 2008-09-04 | Jason T. Griffin; Steven Henry Fyke |
| An improved handheld electronic device, keypad, and method in accordance with the invention meet these and other needs. An improved handheld electronic device having an improved keypad provides enhanced usability and reduced size by organizing its keys in pairs, with a pair of keys being disposed on a support. Each key of a pair of keys is individually actuatable. An actuation of a key causes a primary conductor associated with the key set to electrically to connect a pair of contacts and to cause a secondary conductor associated with the key to electrically connect another pair of contacts. The primary conductor is a dome that is collapsible to electrically connect the pair of contacts and to provide a particular tactile feedback to the user. The secondary conductor is a conductor other than a collapsible dome. An actuation of any key or of any pair of keys thus provides to the user a consistent tactile feedback from a collapse of a single dome. An improved method in accordance with the invention is also disclosed. | ||||||
| 18 | Switching Device for Flexible Material | US11560385 | 2006-11-16 | US20070084703A1 | 2007-04-19 | Shane Kohatsu; Scott Hutsenpiller |
| A switching device for use on flexible material includes a core member configured to be secured to and extend outwardly from a flexible material, a switch supported by the core member, and a cover. The switch is configured to be operably connected to an electrical device. The resistance required to activate the switch beyond that provided by the user's fingers is provided solely by the core member, the switch, the cover, or any combination thereof. | ||||||
| 19 | Switching device for flexible material | US10703221 | 2003-11-06 | US07161106B2 | 2007-01-09 | Shane S. Kohatsu; Scott K. Hutsenpiller |
| A switching device for use on flexible material includes a core member configured to be secured to and extend outwardly from a flexible material, a switch supported by the core member, and a cover. The switch is configured to be operably connected to an electrical device. The resistance required to activate the switch beyond that provided by the user's fingers is provided solely by the core member, the switch, the cover, or any combination thereof. | ||||||
| 20 | Enabler of teaching pendant | US10363815 | 2001-08-22 | US07019227B2 | 2006-03-28 | Takao Fukui; Kenji Miyauchi; Kazuya Okada; Yasushi Kamino; Ken Maeda; Yoshio Sekino; Masaki Nobuhiro |
| In a case where a left-hand push-button switch is ON, a second relay RL2 is electrically de-energized to open a normally close contact RL2-1 of the second relay RL2 so that a relay contact circuit RC is opened. If, in this state, a right-hand push-button switch is shifted to a second OFF state, a normally close contact R3-1 of the right-hand push-button switch is opened. Thus, a third relay RL3 is not electrically de-energized and a first and a second circuits are in cutoff until both the right-hand and the left-hand push-button switches are returned to a first OFF state. | ||||||
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