41 |
Force sensing apparatus |
US819462 |
1986-01-15 |
US4635479A |
1987-01-13 |
John K. Salisbury, Jr.; David L. Brock |
Force sensing apparatus for determining the location, magnitude and direction of a force on a three dimensional surface in which there is a convex surface (10-12) of known configuration mounted on a pedestal 22. A cruciform load cell (16) equipped with strain gauges (60-62) measures forces applied to the convex surface through the medium of a flexible force transmitter member (64). |
42 |
Position coordinate input device |
US615534 |
1984-05-31 |
US4558757A |
1985-12-17 |
Yoshihiro Mori; Osamu Yamamoto; Kazumasa Yamamoto |
A position coordinate input device including an input plate subjected, at a point, to an external force with a finger, etc. so as to input data of coordinates of the point into a computer and the like. The device further includes four elastic support members for supporting the input plate, a pair of two first detectors yielding outputs of temperature characteristics of a first sign and a pair of two second detectors yielding outputs of temperature characteristics of a second sign opposite to the first sign so as to enable accurate detection of the coordinates of the point of application of the external force in a simplified construction. |
43 |
Input device |
JP2009106749 |
2009-04-24 |
JP4723660B2 |
2011-07-13 |
恵 桑原; 淳一 氏井 |
|
44 |
Input device |
JP2009106749 |
2009-04-24 |
JP2010257240A |
2010-11-11 |
UJII JUNICHI; KUWAHARA MEGUMI |
<P>PROBLEM TO BE SOLVED: To provide an input device which receives a plurality of stages of inputs in response to pressing loads, at a different pressing force in each operation of an operator. <P>SOLUTION: The input device 10 for receiving the plurality of stages of inputs in response to the pressing loads includes a load detecting part 40 for detecting the pressing load of the input by pressing, and a control part 20 for controlling the second load reference for receiving the second stage input to be set, in each time when the load detecting part 40 detects the pressing load satisfying the first load reference for receiving the first stage input. <P>COPYRIGHT: (C)2011,JPO&INPIT |
45 |
Input key and input apparatus |
JP2004292915 |
2004-10-05 |
JP2005190460A |
2005-07-14 |
SUGIMURA TOSHIAKI; FUKUMOTO MASAAKI |
PROBLEM TO BE SOLVED: To provide an input key and an input apparatus excellent in terms of cost and in terms of easiness of realization.
SOLUTION: An input apparatus, which has at least one input key 10 with a plurality of information items to be inputted assigned, is provided with: a push detection part 36 for detecting a push on the input key 10; a direction detection part 38 for detecting a strain generated in the input key 10 when the push is detected, and for thereby detecting a direction of force applied on the input key 10; and a character determination part 40 for determining inputted information, based on the detected direction.
COPYRIGHT: (C)2005,JPO&NCIPI |
46 |
Apparatus for manually controlling driving and/or lifting gear device for hoisting machine |
JP2001394049 |
2001-12-26 |
JP2002293500A |
2002-10-09 |
HORTIG PHILIPP; MACCIONI GIORGIO; MUENZEBROCK ANTON DIPL ING; ROEHR MICHAEL |
PROBLEM TO BE SOLVED: To provide an apparatus for manually controlling a driving and/or lifting gear device for a hoisting machine compact in size and easy to operate.
SOLUTION: An operation element 14 is connected to a control element 2 via a link mechanism 23, energized in both directions by helical springs 12, 13 and held in position. Th helical spring 12 also energizes a push rod 11 for holding a ball 9. The ball 9 thus abuts on an inner face 6a of a ceramic plate 7. A bridge circuit having an electric resistance is attached to a sensor surface 6 of the ceramic plate 7. When force is applied to the control element 2 by the hand of an operator, the force is transmitted to the sensor surface 6 via the operation element 14, the helical spring 12, the push rod 11, the ball 9 and the inner face 6a and then the bridge circuit outputs an electric signal corresponding to the size and direction thereof to permit the movement of a cargo to move.
COPYRIGHT: (C)2002,JPO |
47 |
Key - pointing stick structure equipped with a switch function |
JP54969999 |
1999-07-23 |
JP3065971U |
2000-02-08 |
家宏 劉 |
(57)【要約】 【課題】 キースイッチ機能を具えたポインティングスティック構造の提供。 【解決手段】 ポインティングスティック本体の第1端に第2端方向に指向する力が加えられる時、ポインティングスティックスライド組合せ体は軌道体に沿って弾性圧縮スイッチ構造の方向にある距離を進み、即ちポインティングスティックスライド組合せ体の底部が弾性圧縮スイッチ構造をこの距離圧縮し、この圧縮の操作を利用し、適宜設置された回路構造を透過して一つのキースイッチ信号を出力することを特徴とする。 |
48 |
Push-button of elevator |
JP11639198 |
1998-04-27 |
JPH11314862A |
1999-11-16 |
TANAKA SHUNSUKE; WATABE MANABU |
PROBLEM TO BE SOLVED: To prevent the short service life of a disc switch resulting from a mechanical factor.
SOLUTION: While a pressing member 13 is provided to the guide hole 12a of a plate 12, a plate spring 14 whose both ends at are supported by a pair of holders 15 is provided at the position corresponding to the guide hold 12a, and a strain gate 16 to generate a strain by pressing the plate spring 14 by the pressing member 13 is adhered to the plate spring 14. As a result, a fear of shortening the service life by a poor contact, wear, and a fatigue by the mechanical factors as in the conventional disc switch, is eliminated and the push-button can be used semi-eternally.
COPYRIGHT: (C)1999,JPO |
49 |
Force and torque converter |
JP30110986 |
1986-12-16 |
JPS62177426A |
1987-08-04 |
HILTON JOHN ALLEN |
|
50 |
Coordinate input device |
JP10112283 |
1983-06-06 |
JPS59225439A |
1984-12-18 |
MORI YOSHIHIRO; YAMAMOTO TOORU; YAMAMOTO KAZUMASA |
PURPOSE: To obtain a device with a simple construction, high accuracy and low cost and possible for inputting the coordinate of a designated position by a finger etc. by detecting the component of an external force applied to one point on a panel face at four positions on the panel face to detect the coordinate of a point applied with an external force.
CONSTITUTION: The means is provided, which detects the component of an external force applied to one point of the panel face is detected at four positions on the panel face to detect the coordinate of the point applied with an external force. for example, a stainless-steel-made elastic plate is fitted to each corner of a plate glass-made input board 1 and a semiconductor strain gauge is fixed to one side of the elastic plate to form detecting points 3-1W3-4 of the component. When an external force F is applied to the point 2 to which the external force is applied, the components f
1Wf
4 at each detecting point are converted into a resistance change via strain detectors 7-1W7-4 made of the semiconductor strain gauge and this resistance change is converted into a voltage change via converting circuits 8-1W8-4. Further, this output signal is converted into coordinates x, y of the applied point 2 via adders 9-1W9-3 and dividers 10-1W10-2 to transmit it to an A/D converter 11.
COPYRIGHT: (C)1984,JPO&Japio |
51 |
JPS5940660Y2 - |
JP15579081 |
1981-10-20 |
JPS5940660Y2 |
1984-11-19 |
|
|
52 |
Programming method and apparatus for industrial robot or manipulator |
JP20248383 |
1983-10-28 |
JPS59116806A |
1984-07-05 |
YOHAN HAINDORU; JIERUHARUDO HIRUJINGERU |
|
53 |
JPS5863639U - |
JP15579081 |
1981-10-20 |
JPS5863639U |
1983-04-28 |
|
|
54 |
휴대 전자 기기 |
KR1020117001889 |
2009-06-26 |
KR1020110036079A |
2011-04-06 |
다나카겐사쿠; 이토다카시 |
검출부에 의해 검출된 부하가 수압에 기인하는 것인지, 다른 압력에 기인하는 것인지를 확실히 판단하고, 당해 판단에 따라 소정의 제어를 행할 수 있는 휴대 전자 기기를 제공하는 것, 휴대 전화 장치(1)는, 조작 검출부(101)와, 제어부(103)를 구비하고 있다. 조작 검출부(101)는, 가압 조작에 의한 압력을 검출하는 복수의 검출부로 구성되어 있다. 제어부(103)는, 복수의 조작 검출부(101)의 적어도 하나에 의해 압력이 검출되면 제1 제어(예를 들면, 수압 이외의 압력이 검출됨으로써 행해지는 제어)를 행한다. 또, 제어부(103)는, 복수의 조작 검출부(101)에 의해 균일하게 압력이 동시에 검출되면 제1 제어와는 다른 제2 제어(예를 들면, 수압이 검출됨으로써 행해지는 제어)를 행한다.
|
55 |
입력키 및 입력 장치 |
KR1020040101064 |
2004-12-03 |
KR100685158B1 |
2007-02-22 |
스기무라도시아키; 후쿠모토마사아키 |
본 발명은, 입력되는 정보가 복수 할당된 1개 이상의 입력키(10)를 구비한 입력 장치에 있어서, 입력키(10)가 가압된 것을 검출하는 가압 검출부(36)와 상기 가압이 검출되었을 때, 입력키(10)에 발생하는 변형을 입력키(10)에 가해진 힘의 방향을 검출하는 방향 검출부(38)와 검출된 방향에 기초하여, 입력되는 정보를 판단하는 문자 판단부(40)를 설치하였다.
입력키, 입력 장치, 가압 검출부, 방향 검출부, 문자 판단부 |
56 |
입력키 및 입력 장치 |
KR1020040101064 |
2004-12-03 |
KR1020050054466A |
2005-06-10 |
스기무라도시아키; 후쿠모토마사아키 |
본 발명은 입력되는 정보가 복수 할당된 1개 이상의 입력키(10)를 구비한 입력장치에 있어서, 입력키(10)가 가압된 것을 검출하는 가압 검출부(36)와 상기 가압이 검출되었을 때, 입력키(10)에 발생하는 변형을 입력키(10)에 가해진 힘의 방향을 검출하는 방향 검출부(38)와 검출된 방향에 기초하여, 입력되는 정보를 판단하는 문자 판단부(40)를 설치하였다. |
57 |
キーボードスイッチ |
JP2018506923 |
2016-08-09 |
JP2018525788A |
2018-09-06 |
呉 福喜 |
本発明に係るキーボードスイッチは、ベース台(1)と、ベース台(1)上に取り付けられる電気抵抗式圧力センサ(5)と、ベース台(1)内に設置されて電気抵抗式圧力センサ(5)を押し付けることが可能なバネ(3)と、バネ(3)を押え付けてベース台(1)に摺動可能に係合する押しキー(4)と、押しキー(4)を押え付けてベース台(1)に嵌合する上部カバー(2)とを含む。電気抵抗式圧力センサ(5)は、2つの端子(53)及び弾性感応素子(51)を含む。弾性感応素子内(51)には、抵抗値が弾性感応素子(51)に付与する圧力と比例関係にある電気抵抗式歪ゲージ(52)が設けられる。電気抵抗式歪ゲージ(52)から、2つのリード線(54)が外向きに延びて形成される。2つの端子(53)の一端は、2つの前記リード線(54)にそれぞれ接続され、2つの端子(53)の他端は、いずれもPCB基板(6)に接続される。本発明では、接点の変形や酸化によるキーボードスイッチの接触不良を回避するほか、キーボードスイッチの使用寿命を延ばすことができるとともに、キーボードスイッチの電流に応じてリニアな入出力を図ることができ、押しキースイッチを導通するために必要な力が小さくなり、押しキースイッチの感度及び汎用性を向上させることができる。 |
58 |
Push-type input device |
JP2008021607 |
2008-01-31 |
JP2009181894A |
2009-08-13 |
ITO HIDEKI; HIRANO SHINJI; KOMATSU MASARU; SATO TADAMITSU; KUBO YOSHIZO |
PROBLEM TO BE SOLVED: To provide a push-type input device capable of performing a suitable input operation without reducing sensitivity of a sensor.
SOLUTION: An operation range 24 is arranged in the center of a back face of an operation section 21, and an external range 25 is arranged in its periphery. The operation range 24 is formed at a plate-thickness dimension t1 thinner than the external range 25, and a circular rib 23 is integrally formed on a boundary between the operation range 24 and the external range 25. The operation range 24 only is bent flexibly when the surface of the operation section 21 is pushed, and the external range 25 does not bend. Thus, the operation range 24 capable of performing a pushing operation and the external range 25 not capable of pushing operation can be clearly divided, and the suitable input operation can be performed without reducing sensitivity of pressure sensors 31a-31h.
COPYRIGHT: (C)2009,JPO&INPIT |
59 |
Cluster key arrangement |
JP2000614098 |
2000-04-20 |
JP2002543485A |
2002-12-17 |
ラビ シー クリシュナン |
(57)【要約】 クラスタキー配列は、機械的に構成されるかまたは電子的に構成されてもよい。 クラスタキー配列は、標準の電話機に従来存在していたような、横4列×縦3列の配列に構成される12個のクラスタキーを含んでもよい。 クラスタキー配列は、携帯/移動電話、テレビのリモートコントローラ、他の把持型/データ入力装置、自動車のコントローラ、卓上型/壁掛け型/コードレス電話、一体型電話レコーダ、パーソナル・デジタル・アシスタントおよび他の電子機器に使用するために、構成されてもよい。 機械的または電子的に構成されたクラスタキーは、互いに排他的な方法で、数字、文字、記号、機能などを表す複数のキー素子の1つを選択する能力をユーザに提供する。 |
60 |
Operating device |
JP17621293 |
1993-06-23 |
JPH0714474A |
1995-01-17 |
MATSUBARA MORIHIKO; HASHIMOTO TAKUMA; TAKETOME GOICHI |
PURPOSE:To make the device small in size by forming an operating lever out of a fixed member which can be freely strained. CONSTITUTION:An operating lever 1 is formed into a square pole, is provided with a spherical grip 1a integrally at its upper end section, and with a flat base plate section 1b integrally at its lower end section. The base plate 1b is integrally installed in place. The operating lever 1 is formed out of a member capable of being freely strained, and is so designed that it can be strained so as to be deformed back and forth (plus minus Y direction) and from side to side (plus minus X direction) by the push-pull operation of the grip 1a. Each strain gauge A through D composed of a base member made of insulating material such as resin and the like, and of a resistor made of a metallic resisting wire, detects the quantity of strain proportional to stress incurred as a change in a resistance value. Therefore, an electrical signal corresponding to the operating direction and the magnitude of the operating lever can be obtained. Since the device has no movable portion, and is simple in structure, the device can be made small in size. |