| 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 | 输入装置和输入方法 | CN201080018212.2 | 2010-04-23 | CN102414644B | 2014-10-29 | 氏井淳一; 桑原惠 |
| 提供了能够根据操作者每次操作中变化的压力负载来接收多级输入的输入装置,以及使用这种输入装置的输入方法。根据压力负载接收多级输入的输入装置10具有负载检测单元40以及控制单元20,负载检测单元40被配置为检测按压输入的压力负载,控制单元20被配置为控制使得每当负载检测单元40检测到满足用于接收第一级输入的第一负载标准的压力负载时设置用于接收第二级输入的第二负载标准。 | ||||||
| 2 | 一种键盘开关 | CN201510509245.1 | 2015-08-19 | CN105185635B | 2017-11-14 | 吴福喜 |
| 本发明提供了一种键盘开关,包括底座、安装于底座上的电阻式压力传感器、设置在底座内的可压于电阻式压力传感器上的弹簧、压住弹簧并与底座滑动配合的按钮、压住按钮并与底座相适配的上盖,电阻式压力传感器包括两个端子及弹性敏感元件,弹性敏感元件内具有阻值可与施于弹性敏感元件上的压力成正比关系的电阻应变片,电阻应变片向外延伸两根引线,两个端子一端分别与两根述引线连接,两个端子的另一端均与PCB板连接。本发明一方面避免了键盘开关因触点变形、氧化而接触不良,提高了键盘开关的使用寿命;另一方面可实现键盘开关电流线性的输入输出,只需使用很小的力,便能导通按键开关,提高了按键开关的灵敏度和通用性。 | ||||||
| 3 | 便携式电子机器 | CN200980123982.0 | 2009-06-26 | CN102067573A | 2011-05-18 | 田中健作; 伊藤高史 |
| 便携式电话装置(1)具备操作检测部(101)和控制部(103)。操作检测部(101)由检出按压操作而产生的压力的多个检出部构成。控制部(103)在多个操作检测部(101)中的至少一个检出压力后,就进行第1控制(例如检出水压以外的压力后进行的控制)。另外,控制部(103)在多个操作检测部(101)同时检出一样的压力后,就进行与第1控制不同的第2控制(例如检出水压后进行的控制)。提供能够切实地判断被检出部检出的负荷是起因于水压还是起因于其它的压力并相应该判断进行规定的控制的便携式电子机器。 | ||||||
| 4 | 一种键盘开关 | CN201510509245.1 | 2015-08-19 | CN105185635A | 2015-12-23 | 吴福喜 |
| 本发明提供了一种键盘开关,包括底座、安装于底座上的电阻式压力传感器、设置在底座内的可压于电阻式压力传感器上的弹簧、压住弹簧并与底座滑动配合的按钮、压住按钮并与底座相适配的上盖,电阻式压力传感器包括两个端子及弹性敏感元件,弹性敏感元件内具有阻值可与施于弹性敏感元件上的压力成正比关系的电阻应变片,电阻应变片向外延伸两根引线,两个端子一端分别与两根述引线连接,两个端子的另一端均与PCB板连接。本发明一方面避免了键盘开关因触点变形、氧化而接触不良,提高了键盘开关的使用寿命;另一方面可实现键盘开关电流线性的输入输出,只需使用很小的力,便能导通按键开关,提高了按键开关的灵敏度和通用性。 | ||||||
| 5 | 输入装置和输入方法 | CN201080018212.2 | 2010-04-23 | CN102414644A | 2012-04-11 | 氏井淳一; 桑原惠 |
| 提供了能够根据操作者每次操作中变化的压力负载来接收多级输入的输入装置,以及使用这种输入装置的输入方法。根据压力负载接收多级输入的输入装置10具有负载检测单元40以及控制单元20,负载检测单元40被配置为检测按压输入的压力负载,控制单元20被配置为控制使得每当负载检测单元40检测到满足用于接收第一级输入的第一负载标准的压力负载时设置用于接收第二级输入的第二负载标准。 | ||||||
| 6 | 输入键以及输入装置 | CN200410098349.X | 2004-12-03 | CN1296803C | 2007-01-24 | 杉村利明; 福本雅朗 |
| 在具备分配有多个输入的信息的1个或1个以上的输入键(10)的输入装置中,设置有:检测输入键(10)被按下的按下检测单元(36);在检测出该按下时通过检测在输入键(10)上发生的偏斜,检测被施加在输入键(10)上的力的方向的方向检测单元(38);根据被检测出的方向判断输入的信息的字符判断单元(40)。 | ||||||
| 7 | 输入键以及输入装置 | CN200410098349.X | 2004-12-03 | CN1624635A | 2005-06-08 | 杉村利明; 福本雅朗 |
| 在具备分配有多个输入的信息的1个或1个以上的输入键(10)的输入装置中,设置有:检测输入键(10)被按下的按下检测单元(36);在检测出该按下时通过检测在输入键(10)上发生的偏斜,检测被施加在输入键(10)上的力的方向的方向检测单元(38);根据被检测出的方向判断输入的信息的字符判断单元(40)。 | ||||||
| 8 | 클러스터키 장치 | KR1020017013464 | 2000-04-20 | KR100804836B1 | 2008-02-18 | 크리쉬난,래비,씨. |
| 클러스터키 장치는 기계식이나 전자식으로 구성될 수 있다. 클러스터키 장치는 통상의 전화기와 마찬가지로 3x4 배열의 12개 키들을 포함한다. 이 클러스터키 장치는 또한 사용자를 위해 휴대폰, 텔레비젼 원격제어기, 기타 핸드헬드 장치, 자동제어기, 데스크탑/벽면형/무선 전화기, 복합 전화기 레코더, PDA나 기타 전자장치 등에 사용될 수 있다. 기계식이나 전자식으로 구성된 클러스터키들에 의하면, 사용자는 숫자, 문자, 심볼, 기능 등을 표시하는 다수의 키들중 하나를 상호 배타적으로 선택할 수 있다. 클러스터, 키 | ||||||
| 9 | 입력 키 및 입력 장치 | KR1020040101067 | 2004-12-03 | KR1020050078190A | 2005-08-04 | 스기무라도시아키; 후쿠모토마사아키; 닌조우지다카시 |
| An input key which is assigned a plurality of information items to be inputted, of the present invention, includes a key top which can incline relative to a support plate for supporting the input key; a key top supported portion provided on an opposite surface in the key top to the support plate and arranged to be pushed together with the key top; a key top supporting portion provided on the support plate, and arranged to come into contact with the key top supported portion during a push on the key top and to support the key top supported portion so as to permit the key top to incline in a state of the contact with the key top supported portion; at least one inclination detector provided in a direction assigned one of the information items to be inputted, on an opposite surface in the support plate to the key top or on the opposite surface in the key top to the support plate; push detecting means for detecting a push on the input key; and inclination direction detecting means for detecting an inclination direction of the key top when the push detecting means detects a push on the input key. | ||||||
| 10 | Device controlling force applied to control stick | JP18194399 | 1999-06-28 | JP2000122742A | 2000-04-28 | BELLUR ASHOK; BOUCHER VAL G; CREGER LISA A; RECTOR STEPHEN W |
| PROBLEM TO BE SOLVED: To limit the strength of the force applied to the control stick by fitting a specific adapter onto the control stick between a force imparting means and a force detecting means. SOLUTION: A force detection control stick assembly includes the control stick 22 fitted to a base 24, a force detecting means 26 which detects the force applied thereto, and a means 28 which converts the detected force into an electric output signal. The adapter 32 is fitted onto the control stick 22 between the force imparting means which applies the force to the control stick 22 like a compression pad 30 and the force detecting means 26. Then the adapter 32 includes a back part 34 which extends to the periphery of at least part of the control stick 22, its bottom part comes into contact with the base 24, and when the control stick 22 moves by a specific quantity with the force applied thereto, it is disabled to further move. COPYRIGHT: (C)2000,JPO | ||||||
| 11 | Pointing device and production of the same | JP3069596 | 1996-02-19 | JPH09222948A | 1997-08-26 | ENDOU MICHIKO |
| PROBLEM TO BE SOLVED: To improve sensitivity and to miniaturize a pointing device in the case of sending an input signal corresponding to the direction and strength of load impressed to an input member. SOLUTION: This pointing device is provided with a base 13, a supporter 14 straightly erected from the upper face of the base 13, plural elastically deformable elastic elements 15 extended from the upper end part of the supporter 14 to the side of the supporter 14, and strain gauge 16 for detecting the strain quantity of elastic elements 15, and an input member 12 is supported at the top end parts of four elastic elements 15. The supporter 14 and the elastic elements 15 can be integrally formed and, as its method, a sacrifice layer can be utilized as well. When silicon is used for the base 13, the signal processing circuit of the strain gauge 16 can be formed on the substrate 13. | ||||||
| 12 | JPH0584855B2 - | JP30110986 | 1986-12-16 | JPH0584855B2 | 1993-12-03 | HILTON JOHN ALLEN |
| 13 | JPH02502591A - | JP50111288 | 1988-12-19 | JPH02502591A | 1990-08-16 | |
| 14 | JPS6411430B2 - | JP12090779 | 1979-09-21 | JPS6411430B2 | 1989-02-23 | HANSURIHITAA |
| 15 | Keyswitch unit | JP19966085 | 1985-09-11 | JPS61198816A | 1986-09-03 | BUERUNAA BUAINERUTO |
| 16 | Method and device for programming robot | JP5676983 | 1983-03-31 | JPS58181598A | 1983-10-24 | UORUFUGANGU TORAUTOBUAIN; HANSU YOHAHIMU BOORU |
| 17 | Processing method for component force in touch type coordinate input device | JP16868481 | 1981-10-23 | JPS5872277A | 1983-04-30 | OONISHI HIROO; ITOU AKIKO; TOUMACHI TAKAO |
| PURPOSE:To remove troubles due to a hinged joint and maintain a linear property by finding the coordinates of a force-applied point relating to a non-linear property from a component force signals of a strain gauges sticked to the surface of plate springs. CONSTITUTION:A face plate 12 is coupled with a supporting frame 14 through plate springs 13 and both the ends of the plate springs 13 are coupled with the face plate 12 and the supporting frame 14. Strain gauge 15 are sticked to the surface of the springs 13 and strain signals epsilon1, epsilon2, epsilon3, epsilon4 corresponding to the bending deformation of springs 13 are outputted. On the basis of the formula 1, the coordinates of a force-applied point P (x, y) are found from the strain signals epsilon1, epsilon2, epsilon3, epsilon4 having non-linear relation to the coordinate values P (x, y) and undifined factors a0-an, b0-bn. | ||||||
| 18 | JPS4834454B1 - | JP1924670 | 1970-03-06 | JPS4834454B1 | 1973-10-22 | |
| 19 | STRAIN GAUGE PROPORTIONAL PUSH BUTTON | US16185600 | 2018-11-09 | US20190080861A1 | 2019-03-14 | Kevin Christopher Towers |
| A transmitter device incorporating a strain gauge proportional push button is disclosed. The transmitter device includes a printed circuit board including one or more electrical components thereon and a proportional push button having a flexible membrane, a dome switch positioned beneath the flexible membrane and attached to the printed circuit board, the dome switch being proximate to the flexible membrane such that depression of the flexible membrane causes the dome switch to snap down and thereby form a closed circuit in the dome switch, and a strain gauge formed on or applied to the printed circuit board and positioned adjacent the dome switch, the strain gauge generating an electrical output proportional to an amount of deflection of the printed circuit board caused by pressure exerted thereon by depression of the flexible membrane and the dome switch. | ||||||
| 20 | Safety switch with imbalance test | US15592399 | 2017-05-11 | US10072997B2 | 2018-09-11 | Todd Bubar; Andrew L. Tsang; Burt Sacherski; Steven Robert Tambeau; Arvind Ananthanarayanan; James Edward Dogul; Timothy P. Wolfe |
| An apparatus for an imbalance test includes a strain measurement module that measures a strain voltage across terminals of a strain gauge. The strain voltage is representative of an amount of force on the strain gauge. The apparatus includes a test measurement module that measures a test voltage across the terminals of the strain gauge while a test resistor is connected in parallel with a resistor of the strain gauge. The test resistor is connected while the test measurement module measures the test voltage and is disconnected while the strain module measures strain voltage. The apparatus includes an average module that calculates an average strain voltage from two strain voltage measurements. The strain voltages are measured preceding and after the test voltage measurement. The apparatus includes a difference module that determines a difference voltage. The difference voltage is a difference between the average strain voltage and the test voltage. | ||||||
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