| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 121 | Device for maneuvering a radiology appliance | US626752 | 1996-04-02 | US5675227A | 1997-10-07 | Hartog Roos; Jose Garrote |
| A safety system including two command buttons (7, 8) spaced apart from one another geographically, and obliging an operator to use both his hands to control a radiology appliance, or one hand and a foot, is completed by a protocol including, on a single button (7), a short pulse followed by a long pulse during which the maneuver is carried out. It is shown that, under these conditions, the stress on the operator is lower and he is less fatigued | ||||||
| 122 | Power level control apparatus for electrosurgical generators | US431013 | 1995-04-28 | US5626575A | 1997-05-06 | James C. Crenner |
| An electrosurgical generator system includes an electrosurgical handpiece including an active electrode for receiving electrosurgical power from a generator, and cut and coagulation mode switches and a foot activated switch device also including cut and coagulation mode switches. A signal processor associated with the generator and connected to the handpiece and foot activated switch device monitors the states of the cut and coagulation mode switches so as to detect activation of any of these switches and, responsive to two successive activations of a single switch of the switches being monitored, provides control of the power produced by the electrosurgical generator by further activation of the single switch. | ||||||
| 123 | Switch device and electronic instruments equipped with the switch device | US498171 | 1995-07-05 | US5612931A | 1997-03-18 | Hiroshi Sato; Masayoshi Okuyama; Nobuhiro Aoki |
| When an electronic instrument has taken a predetermined attitude, an attitude-detecting switch incorporated in the instrument detects the attitude, and outputs a switch signal to a CPU. The CPU, in turn, drives a lighting device for lighting a liquid crystal display device. The lighting device is driven, for example, only when a predetermined number of pulses of the switch signal are generated within a predetermined period of time, or only when the switch signal has continued for a predetermined period of time or more. Thus, there are cases where the lighting device is not driven irrespective of the generation of the switch signal. As a result, the lighting device is prevented from operating so often, and hence the life of its battery is lengthened. | ||||||
| 124 | Data input device and method | US242431 | 1994-05-12 | US5473346A | 1995-12-05 | Jordan Pollack |
| A data input device and method for producing signals corresponding to symbols, comprises: at least one manually actuatable switch having a home state and manually actuatable from the home state to one of a set of first states and manually actuatable from the set of first states to one of a set of second states including the home state. A first signal corresponding to a transition from the home state to a selected one of the set of first states is produced and a second signal corresponding to a transition from the selected one of the set of first states to a selected one of the set of second states is produced. An output signal representing one symbol is produced in response to the first and second signals. | ||||||
| 125 | Electronic devices with a liquid crystal display | US101714 | 1993-08-02 | US5418760A | 1995-05-23 | Kazuyo Kawashima; Yoshimi Ishikawa |
| An electronic device including a switch member which has a multiplicity of switch contacts provided thereon, a film liquid crystal display unit disposed above the switch member and having openings provided at positions opposite to the respective switch contacts, and operation members disposed in the corresponding openings so as to depress the operation members from above the film liquid crystal display. By the depression of the respective operation members, the corresponding switch contacts are switched. According to this structure, the switching operations are performed on the film liquid crystal display unit, so that the operability of the switches is improved and the device itself is miniaturized. | ||||||
| 126 | Data input device and method | US46467 | 1993-04-12 | US5361083A | 1994-11-01 | Jordan Pollack |
| A data input device and method for producing signals corresponding to symbols, comprises: at least one manually actuatable switch having a home state and manually actuatable from the home state to one of a set of first states and manually actuatable from the set of first states to one of a set of second states including the home state. A first signal corresponding to a transition from the home state to a selected one of the set of first states is produced and a second signal corresponding to a transition from the selected one of the set of first states to a selected one of the set of second states is produced. An output signal representing one symbol is produced in response to the first and second signals. | ||||||
| 127 | Automatic testing apparatus for electrical switches | US482604 | 1990-02-21 | US5117189A | 1992-05-26 | Michael A. Terminiello; Marc P. Asselin; Joseph P. Fowler; Lawrence M. Hauser; Raymond E. Sansom |
| A computer-controlled apparatus (1) for electrical testing of the make-and-break characteristics of electrical switches (15), including characteristics when the switches are actuated very slowly. The apparatus automatically feeds the switches into a test position (16), "breaks them in" by cycling them through many operations, and tests their switching parameters. The amount of hysteresis (54) between a switch actuator's (38) positions at actuation (30) and deactuation (56) is a criterion for sorting the switches. Switches are automatically classified and marked (14) according to their tested characteristics, and sorted into bins (28, 29). Any undesirable electrical "deadbreak" (an excessive transfer delay) during the operation of a double-throw switch's contacts is detectable by both a Timer Method and a Limit Switch Method, and faulty switches are reliably rejected. The apparatus increases accuracy in the testing of switches and reduces human errors such as those caused by fatigue. | ||||||
| 128 | Switch time delay apparatus | US548563 | 1990-07-05 | US5051607A | 1991-09-24 | John E. Dalton |
| A time delay apparatus configured to connect in parallel with a common single pole switch. For time delay operation the switch is toggled on and off again within a short time span defined as the trigger window period. This triggering results in the circuit providing power to the load for a period of time predetermined by the user, after which the circuit automatically interrupts power to the load. For manual operation the switch is turned on and left on longer than the trigger window period, after which turning the switch off results in interruption of power to the load similar to a standard wall switch. | ||||||
| 129 | Multi-function switch-controlled lamp circuit | US788924 | 1985-10-18 | US4695739A | 1987-09-22 | Lyle R. Pierce |
| A multi-function circuit controller provides auxiliary control functions for an existing single-pole, single-throw toggle switch by counting the number of changes of state of the switch that occur within predesignated delay periods from one state change to the next. An encoder responsive to a sequencer counter develops control functions such as dimming and timing functions which attenuate the power delivered to the load and regulate the on-off time of the load. The invention may be used in conjunction with a household lighting circuit to provide these functions for an existing wall-mounted switch, thereby providing dimmer and programmable timing for the lighting normally controlled by the switch. | ||||||
| 130 | Power switch module | US118599 | 1980-02-04 | US4291238A | 1981-09-22 | Albert T. Braga; Roger J. Cartier; Edward H. Getz; Warren R. Hafstrom |
| A power switch module for use in controlled-sequence devices such as a domestic laundry appliance has switches arranged in a pattern about a central portion of the module selectively closeable to connect circuitry associated with each switch to a source of electric potential. Each switch has an associated actuator movable to open and close the switch, and each actuator is operated by a hammer having a striking surface for depressing an actuator to open a switch and a camming surface for raising an actuator to close a switch. The hammer is mounted for rotation on a shaft and is axially movable by a solenoid. A disc encoder on the shaft derives hammer-position information which is transmitted to a microprocessor which controls sequential operation of the device and energizes the solenoid to open or close a switch at appropriate times during operation. | ||||||
| 131 | Method of effecting one of several different circuit connections | US971917 | 1978-12-21 | US4202038A | 1980-05-06 | Stig Anders Petersson |
| To permit multiple use of data entry keys, and to effect different circuit connections by a single key, operation of any one of the keys is associated with time slots, or time windows so that, upon operation of anyone of the keys, a course, or sequence of time slots at intervals is initiated, each interval or time slot being temporally associated with a specific circuit connection. The length of the time course, that is, the number of time slots or time intervals is selected by continued operation of anyone of the control buttons, this continuance of operation or operating of another button, entering the then pertaining circuit into the system. An indicator is provided, continuously indicating the then pertaining time slot, and an additional indicator providing a symbolic output representative of the finally established circuit connection. The system may be used with a graphic display, such as a pointer pencil and a screen, the circuit connections establishing representation, sequentially, of electrical components which sequentially appear on the screen at the location indicated by the pointer so that, upon removal of the pointer, the then indicated symbol will persist on the screen, thereby permitting rapid interchange of components and electronically drawing electrical circuit diagrams. | ||||||
| 132 | 車両制御装置 | JP2016029526 | 2016-02-19 | JP2016199254A | 2016-12-01 | 野口 順平; 有江 真一; 山崎 勝幸; 渡邊 友紀; 幅口 正幸; 吉村 健太郎 |
| 【課題】押圧スイッチによるオン操作とオフ操作を効率的に関連付けることで、押圧スイッチの操作性を向上させることが可能な車両制御装置を提供する。 【解決手段】車両制御装置14の切替制御装置66は、車両10が非走行状態である状態において、車両10の駆動源18の作動状態又は車載機器16、24、130への電源供給状態を切り替える切替制御のための押圧スイッチ64に対する押圧操作の操作手法を、車両10の駆動源18の作動状態又は車載機器16、24、130への電源供給状態をオフからオンにする場合とオンからオフにする場合とで異ならせる。 【選択図】図1 |
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| 133 | How to safely open and close the switch of the safety switching device and the electrical load | JP2008553648 | 2007-01-25 | JP2009526509A | 2009-07-16 | ツィンサー,クリストフ; ニッチェ,トーマス; レイティ,ウド |
| 【課題】対費用効果の高い安全スイッチング装置および電気負荷のスイッチを開閉する方法を提供する。
【解決手段】本安全スイッチング装置10は、第1信号素子18のための第1ポート32と、第2信号素子20のための第2ポート34と、第1スイッチングアクティベータ36に結合される第1スイッチング装置40と、第2スイッチングアクティベータ38に結合される第2スイッチング装置42とを備える。 時間モニター装置60は、信号素子18,20の作動間の時間が所定の最大持続時間(T max )より短い場合に限り、第1および第2スイッチングアクティベータ36,38を駆動する。 これにより、次にスイッチング装置40,42が導通され、ひいては負荷22のスイッチが入れられる。 【選択図】図2 |
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| 134 | Portable information equipment | JP2006271056 | 2006-10-02 | JP2008090618A | 2008-04-17 | MATSUMOTO TADANAO; TAKIGUCHI TAKESHI; IWAO NAOKI |
| <P>PROBLEM TO BE SOLVED: To satisfactorily perform various operations such as cursor operation through a small structure. <P>SOLUTION: The portable information equipment including a display, a switch to be pushed, and an operation knob for pushing the switch comprises a contact detection means for detecting a finger contact on the operation knob 31, a clock means for counting the duration of the finger contact state detected by the contact detection means, and a change means for outputting, when the duration exceeds a preset unit time, a signal for changing the operation to be executed on the display 22 based on the finger contact. <P>COPYRIGHT: (C)2008,JPO&INPIT | ||||||
| 135 | Operation part for bicycle provided with electric shift control switch | JP2006292779 | 2006-10-27 | JP2007137412A | 2007-06-07 | FUJII KAZUHIRO |
| <P>PROBLEM TO BE SOLVED: To provide an operation part for a bicycle provided with an electric shift control switch with sufficient operability. <P>SOLUTION: The electric shift control switch 36 is provided with an attachment part 60; and an operation member 61. The operation member 61 is movably connected to the attachment part 60 and is moved from a home position in an operation direction. Then, when the operation member 61 is moved from the home position to the operation direction, the shift mechanism for the bicycle is operated in a first direction and when the operation member 61 is moved from the home position to the operation direction, the shift mechanism for the bicycle is operated in a second direction. Preferably, a control unit 24 is functionally connected to the electric shift control switch and operates the shift mechanism for the bicycle according to stroke of the operation member 61 or according to a time moving in the operation direction. <P>COPYRIGHT: (C)2007,JPO&INPIT | ||||||
| 136 | Press sensor | JP2004184512 | 2004-06-23 | JP2006011578A | 2006-01-12 | SATO ISAO |
| PROBLEM TO BE SOLVED: To provide a press sensor wherein resolution of a switch signal from a switch part changes especially by magnitude of pressing force on an operation face. SOLUTION: In this press sensor S, the switch part S1-S5 is changed into an input state on the basis of the switch signal from the pressed switch part S1-S5, and the resolution of the switch signal changes by the magnitude of the pressing force. Thereby, by the change of the resolution, electronic equipment such as a cellphone incorporated with the press sensor S can be made to have various functions based on the change of the resolution. COPYRIGHT: (C)2006,JPO&NCIPI | ||||||
| 137 | System and method for interacting with user interface of media player | JP2005000785 | 2005-01-05 | JP2005196784A | 2005-07-21 | FRANKLIN DAVID; FONG JEFFREY; ABANAMI THAMER |
| <P>PROBLEM TO BE SOLVED: To provide a system and method for realizing the reproduction and interface of media by a media player. <P>SOLUTION: The number of control buttons is reduced by connecting the functions of fast forwarding and skip forward for single button control so that the costs of a device and the "button overload" of consumers can be reduced. When a forwarding button is depressed, media reproduced by a media player are skipped to a predetermined position in the media. When the forwarding button is depressed and held, media under reproduction are fast forwarded according to an algorithm for fast forwarding. A return button accepts backward skip and fast reversing in the same way. This device is provided with reproduction/temporary stop buttons and the above forwarding buttons and fast running buttons so that it is possible to advantageously reduce the number of the required buttons only by two buttons. <P>COPYRIGHT: (C)2005,JPO&NCIPI | ||||||
| 138 | Recording medium, computer, how to perform the processing method to perform select, and the processing | JP2001552193 | 2001-01-12 | JP2003519865A | 2003-06-24 | 修啓 小跨 |
| (57)【要約】 出力表現のための単なるオン・オフスイッチの押圧や押圧の継続を、ユーザーに使い易いインターフェースにする。 この発明に係る記録媒体は、そのプログラムが、コントローラの操作継続時間に対応した指令に基づき、処理を行う。 或いは、プログラムが、上記コントローラの出力値の大きさに対応した指令に基づき、処理を実行する。 更には、コンピュータが、感圧手段によって感知された圧力の継続時間を決定する手段と、上記圧力の継続時間に対応した指令を選択して決定する手段と、決定された上記指令に基づき、処理を実行する手段とを備える。 | ||||||
| 139 | Telephone comprising perfected control keypad | JP2002084354 | 2002-03-25 | JP2003018280A | 2003-01-17 | JAMBIE PASCAL; LUBOWICKI JEAN-PIERRE; RICHEZ BERTRAND |
| PROBLEM TO BE SOLVED: To provide a mobile telephone, especially of a GSM type. SOLUTION: The GSM type mobile telephone set has a controller consisting especially of a keypad (24) realizing the individual operation of keys and provided with keys (22) able to move vertically as a whole in an independent method between an idle position and an operation position in the controller for controlling the combination of alpha-numerals especially being a telephone number and moving of a cursor (36) or for scrolling a menu on a display picture (32). At least one of the dialing keys (22) is a multi-functional key (40, 42, 44 and 46) where key operation realizes dialing of key operation by a first mode and key operation realizes controlling of the movement of the cursor (36) by a second mode. | ||||||
| 140 | Electronic equipment | JP2000079251 | 2000-03-16 | JP2001265504A | 2001-09-28 | IURA KATSUTOSHI; SUZUKI YUICHIRO |
| PROBLEM TO BE SOLVED: To prevent a malfunction when a specified key is erroneously depressed without changing mechanical structure of the specified key. SOLUTION: As for a general key except a print key, a fact that the key is depressed is detected on condition that the key is at a depressed state for more than two cycles in succession (S9→S2→S3→S6→S7) by key scan cycles and as for the print key, a fact that the key is depressed is detected on condition that the print key is at the depressed state for more than ten cycles in succession by the key scan cycles (S5→S2→S3→S4→S7). COPYRIGHT: (C)2001,JPO | ||||||
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