| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 201 | Manual input device and on-vehicle equipment controller using the same | JP2000390848 | 2000-12-22 | JP2002189558A | 2002-07-05 | NUMATA HIDETAKA; ONODERA MIKIO; KIYONO KENICHI |
| PROBLEM TO BE SOLVED: To provide a manual input device with excellent operability and reliability and to provide an on-vehicle equipment controller with the excellent operability and reliability. SOLUTION: The manual input device is provided with a knob 3 fixed to one end of an operation shaft 2, a detection means 4 for detecting the operation state of the operation shaft 2, an actuator 5 for loading external force on the knob 3, a driving power transmission part 6 for transmitting driving power between the operation shaft 2 and the drive shaft 5a of the actuator 5, an input- output part 1 for transmitting and receiving signals to/from an external device and a control part 8 for generating and outputting the control signals c of the actuator 5 on the basis of external signals b from an external detection means or control information e generated on the basis of at least the external signals b. For the on-vehicle equipment controller, a case 52 is provided with one of the selection switches 54a-54f of on-vehicle electrical equipment, the selection switches 55a-55c of functions and the manual input devices 1A-1H for adjusting the function of the selected on-vehicle electrical equipment. | ||||||
| 202 | Manual input device | JP2000390807 | 2000-12-22 | JP2002189557A | 2002-07-05 | NUMATA HIDETAKA; ONODERA MIKIO; KIYONO KENICHI |
| PROBLEM TO BE SOLVED: To provide a manual input device with excellent operability and reliability. SOLUTION: The manual input device 1A is provided with a knob 3 fixed to one end of an operation shaft 2, a detection means 4 for detecting the operation state of the operation shaft 2, an actuator 5 for loading external force on the knob 3, a driving power transmission part 6 for transmitting driving power between the operation shaft 2 and the drive shaft 5a of the actuator 5, an input-output part 7 for transmitting and receiving signals to/from an external device and a control part 8 for generating and outputting the control signals c of the actuator 5 on the basis of external signals b from an external detection means or control information e generated on the basis of at least the external signals b. The control signals c of the actuator 5 can be generated by generating the control information e of the actuator 5 in the external device and analyzing the control information e in the control part 8. Also, the actuator 5 can be controlled by the control signals c generated in the external device without providing the control part in the manual input device. | ||||||
| 203 | Operating force adjusting device | JP12704494 | 1994-05-16 | JP3269260B2 | 2002-03-25 | 弘 藤池 |
| 204 | Knob control device | JP2001001158 | 2001-03-07 | JP3083070U | 2002-01-18 | ピー ヴァッサロ、スティーブン; エム マーティン、ケニス; ディー レヴィン、マイケル |
| (57)【要約】 (修正有) 【課題】回転軸とほゞ垂直な横面においても可動なノブ制御装置を提供する。 【解決手段】制御ノブ26は、装置の種々の機能を制御しようとする使用者によって操作され、制御パネル12
は、制御される装置の機能を操作するために使用者によってアクセス可能である。 パネル12は、車輌のセンターコンソールや、他の便利な場所に取り付けられ、ディスプレイ14は、制御された装置の情報を使用者に提供する表示機能をもっている。 |
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| 205 | Surgical system to provide an automatic re-configuration feature | JP51194998 | 1997-08-28 | JP2001522257A | 2001-11-13 | エバハルド,クリストファー,マイケル; コクラン,ブルース,ロバート; ナイト,ジェフリー,アラン; ビシュ,マイケル,エブレモンド; リター,ジョン,アラン |
| (57)【要約】 本発明は、自システムに接続された複数の眼科顕微手術装置を制御するためのシステムである。 顕微手術装置は外科医などのユーザが眼科の外科処置を施行する際に使用するものである。 本システムは、データ通信バスと、データ通信バスに接続されたユーザインタフェース(3)とを含む。 ユーザインタフェース(3)は、ユーザに情報を提供すると共に顕微手術装置を表す情報をユーザから受信する。 このシステムは、顕微手術装置に接続され、動作パラメータのうち少なくとも1つの動作パラメータの機能として顕微手術装置を制御する外科手術用モジュール(13)も含む。 外科手術用モジュール(13)はデータ通信バスにも接続されている。 データ通信バスはユーザインタフェース(3)と外科手術用モジュール(13)との間で動作パラメータを表すデータを通信する。 | ||||||
| 206 | Foot controller for the microsurgical system | JP51192198 | 1997-08-28 | JP2001522254A | 2001-11-13 | エバハルド,クリストファー,マイケル; コクラン,ブルース,ロバート; ビシュ,マイケル,エブレモンド; ペインター,ジョン,エー.; マクフェラン,スタンレー,カーティス; ワーグナー,マイケル,アンドリュー |
| (57)【要約】 接続された複数の眼科用顕微手術機器を制御するための顕微手術システム用のフットコントロールアセンブリ(15)である。 顕微手術機器は、眼科手術を実行する際に外科医などのユーザにより使用されるものである。 システムは、データ通信バスと、データ通信バスに接続されたユーザインタフェースを有している。 ユーザからの情報は、顕微手術機器の動作パラメータを表わす。 また、システムは、顕微手術機器に接続され、かつ、少なくとも1つの動作パラメータの機能として顕微手術機器を制御する手術用モジュール(13)を含んでいる。 また、手術用モジュールは、データ通信バスに接続されている。 | ||||||
| 207 | Mechanism for control knob and other interface devices | JP2000248984 | 2000-08-18 | JP2001109558A | 2001-04-20 | VASSARO STEPHEN P; LEVIN MICHAEL D; MARTIN KENNETH M |
| PROBLEM TO BE SOLVED: To provide a mechanism for other interface devices or a control knob which provides an additional degree of freedom of the knob. SOLUTION: One implementation example provides a rotary knob which is movable even in a lateral plane nearly perpendicular to the axis of rotation. A rotation sensor can detect a rotation position and a lateral sensor can detect the lateral position of the control knob 26. Another implementation example provides a driving device having a shaft nearly coaxial with the axis A of rotation. This driving device can be moved linearly along the axis A of rotation in relation with the housing of the driving device so as to correspond to the linear movement of the control knob 26. In another implementation example, an assembly of two combined gears is provided to transmit rotating operation from the knob to the sensor and the combined gears carry out transmission while relating each other when the control knob 26 is moved along the axis A of rotation. COPYRIGHT: (C)2001,JPO | ||||||
| 208 | Operation part structure of apparatus | JP29043599 | 1999-10-13 | JP2001108057A | 2001-04-20 | KOBAYASHI TOSHIAKI |
| PROBLEM TO BE SOLVED: To provide an operation part structure of an apparatus that has a plurality of functions for one knob and provides different operation feelings of the knob corresponding to respective functions. SOLUTION: When variable resistor base 9 is straight driven forwardly according to a rotation direction of a driving shaft 5a of a driving motor 5, interlocking with the motion, a shaft 2a and thus a gear 2 are driven forwardly and the gear 2 abuts on a dumper mechanism 3. In this state, when a user manually rotates a rotation-type knob 1 about the shaft 2a, the dumper mechanism 3 rotates via the gear 2, and load in the rotation direction is applied to the rotation-type knob 1 by, for example, rotation viscosity applied to the dumper mechanism 3. COPYRIGHT: (C)2001,JPO | ||||||
| 209 | Isotonic and force feedback interface having a function of isometric | JP52671398 | 1997-11-25 | JP2000515285A | 2000-11-14 | ローゼンバーグ,ルイス,ビー. |
| (57)【要約】 GUI等のグラフィカル環境を表示するホストコンピュータに結合され、コンピュータで生成される力を使って、アイソトニック及びアイソメトリック制御能力を有する力フィードバックインタフェース。 インタフェースは、マウスのような、物理的空間で可動な物理的オブジェクトを含む。 センサはオブジェクトの動きを検出し、アクチュエータは、物理的オブジェクトにアウトプット力を加える。 入力装置から、又はグラフィカルオブジェクト間のインタラクションから、モードセレクタがインタフェースのアイソトニックモードとアイソメトリックモードを選択する。 アイソトニックモードは、物理的オブジェクトの位置に基づきホストに入力を提供し、それに対応してカーソルの位置を更新して、物理的オブジェクトに力刺激を加える。 アイソメトリックモードは、物理的オブジェクトへのユーザにより加えられたインプット力に基づきホスト入力を提供する。 ここで、インプット力は、空間での物理的オブジェクトの感知された変位により決められる。 インプット力は、アクチュエータにより加えられるアウトプット力とは反対で、表示される画像のスクローリング、パニング、ズーミングのようなアプリケーションプログラムの機能の制御に使用される。 | ||||||
| 210 | Surgical module comprising Neuron chip communication device | JP51193298 | 1997-08-28 | JP2000515050A | 2000-11-14 | アッペルバウム,ピーター,フランシス; リター,ジョン,アラン |
| (57)【要約】 本発明は、自システムに接続された複数の眼科顕微手術装置を制御するためのシステムである。 顕微手術装置は外科医などのユーザが眼科の外科処置を施行する際に使用するものである。 本システムは、データ通信バスと、データ通信バスに接続されたユーザインタフェース(3)とを含む。 ユーザインタフェース(3)は、ユーザに情報を提供すると共に顕微手術装置の動作パラメータを表す情報をユーザから受信する。 このシステムは、顕微手術装置に接続され、動作パラメータのうち少なくとも1つの機能として顕微手術装置を制御する外科手術用モジュール(13)も含む。 外科手術用モジュール(13)はデータ通信バスにも接続されている。 データ通信バスはユーザインタフェースと外科手術用モジュールとの間で動作パラメータを表すデータを通信する。 | ||||||
| 211 | Device for providing detent tactile feedback and method therefor | JP2419897 | 1997-02-07 | JPH09231000A | 1997-09-05 | BAATORANDO HARORUDO JIYONSON; JIYOOJI KUNOODERU JIYUNIYA |
| PROBLEM TO BE SOLVED: To obtain a device imparting a detent shaped tactile feedback to a track ball shaped or a mouse shaped input/output device by constituting the device by the rotation member which is rotatably provided within a main body, the actuator located within the main body and the brake provided on the actuator, etc. SOLUTION: When a ball 20 moves by preliminarily fixed amount, a driving electronic 23 immediately operates a solenoid/actuator 22, the solenoid/actuator 22 retreats a penetrating bar 29 and a loading spring 25 is compressed to a frame main body 27. By this action, a brake pad 21 is retreated and the ball 20 can be immediately and freely rotated. After preliminarily fixed time, the driving electronics 23 inoperates the solenoid/actuator 22 and loading spring 25 elongates the penetrating bar 29 and the brake pad 21. Therefore, the brake force to the ball 20 is restored. Thus, a detent shaped action can be imparted to the ball 20. COPYRIGHT: (C)1997,JPO | ||||||
| 212 | Drag variable device, and the key - switch device | JP13772291 | 1991-06-10 | JP2527854B2 | 1996-08-28 | 秀行 元山; 誠一 岩佐 |
| In order to achieve a selectible relationship (key force profile curve) between the displacement of a key top (1) and the force used to depress the key, the position of the key top is detected, and a resistive force corresponding to that position is generated and applied to the key top. Hence, a numeral array for the position data and the force data is stored in a memory (19). To apply hysteresis to a key force profile curve, a RS flip-flop (29) whose output is inverted by the position data may be provided to generate different resistive forces in the key top depressing process and the key top returning process. |
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| 213 | Method and device for controlling rotation | JP2172193 | 1993-01-16 | JPH06131744A | 1994-05-13 | DEBITSUDO ENU RAAKINSU; GUREN TEII YOSHIDA; TOOMASU ERU HERUMAAZU |
| PURPOSE: To use a stepping motor for inputting to a microprocessor by providing a rotary knob combined with the shaft of the rotor of the stepping motor with first and second stator coils in the state of a quadrature phase. CONSTITUTION: The 8-bit output of a line 50 includes binary count information to the microprocessor 20 related to the motion parameter, namely the speed, the acceleration, the direction and the angular position of the knob 14 related with the final position before rotation. A counter/duder 95 includes a reset input RST and its function is receiving a command from the microprocessor 20 so as to reset a counter within the counter/duder 95 to zero. A touch sense is given to an operator by generating a torque opposite to the moving direction of the knob 14 thereby. COPYRIGHT: (C)1994,JPO | ||||||
| 214 | Position coding circuit of electronic device and method for determining its virtual preset position | JP5642692 | 1992-02-06 | JPH0588812A | 1993-04-09 | JIEEMUSU KAAKOSUKA |
| PURPOSE: To make it possible to easily set an encoder at a prescribed preset point by equaling an encoder position signal to a signal indicating the preset point for a prescribed period time in case where the position of a rotating element exceeds the preset point. CONSTITUTION: The manual position adjusting encoder 100 has the rotating element 105 rotatable continuously >=360 deg.C in both directions and sends a encoder position signal indicating the rotational displacement of the rotating element 105 to a target circuit 113. A microprocessor 112 has the data indicating the virtual preset position existing in the rotation position of the rotating element 105 corresponding to the prescribed encoder position signal and a positioning device for determining the virtual preset position for the encoder 100. This positioning device compares the encoder position signal with the virtual preset position data and equals the encoder position signal to the encoding position signal indicating the virtual preset position when the rotation of the rotating element 105 beyond the virtual preset position is confirmed. | ||||||
| 215 | Variable reaction device and key switch device | JP13772291 | 1991-06-10 | JPH04362722A | 1992-12-15 | IWASA SEIICHI; MOTOYAMA HIDEYUKI |
| PURPOSE: To provide a key switch touch sense varying device which can optionally and easily vary the key depression characteristic, a key switch device which can freely set the desired touch sense, and a reaction varying device. CONSTITUTION: A means 1 which is depressed with the optional external force is provided together with a position detecting means 2 which detects the position of the means 1, a reaction generating means 3 which generates the reaction to the means 1, a reaction setting means 4 which sets the value of the reaction generated by the means 3 based on the information on the position detected by the means 2, a driving means 5 which drives the means 3 based on the reaction value set by the means 3, and a control means 6 which controls the means 4. Furthermore, an ON/OFF discriminating means is added to work is response to the position of the means 1 of a reaction varying device. COPYRIGHT: (C)1992,JPO&Japio | ||||||
| 216 | Switch controller | JP14326390 | 1990-05-31 | JPH0329146A | 1991-02-07 | DAGURASU KOOJI TAO |
| PURPOSE: To execute an operation control with a tactile feedback by detecting a contact between the operator and the insulating part or conductive part of a control knob to generate mode control signals and controlling the transfer of the knob with signals according to the transfer of the control knob and mode control signals. CONSTITUTION: The control knob 10 is provided with a conductive part 12 of a conductive rotating knob having a cavity 14 for a forefinger and a insulating part 16 of a circumferential insulation ring, a stepping motor 24 is installed to the end of a shaft 22, and an electric output lead wire T is electrically connected to the rotating knob 12. And when the operator comes into contact with the conductive part of the knob, the contact is detected, and the knob is automatically returned to the original control mode when the contact is finished. Further, when the knob 12 reaches a prescribed limit, break signals are generated and fed to the stopping motor 24, and a resistance is provided to the further rotation of the knob. By this way, the tactile feedback for the operator is obtained and the operation control is executed. | ||||||
| 217 | Tilting stick control device especially for aircraft | JP3641990 | 1990-02-19 | JPH02254098A | 1990-10-12 | BERUNAARU BUOOBURU |
| PURPOSE: To carry out a swift operation by detecting tilting operation around a crossing axis and a longitudinal axis of a mini stick such as a tilting stick by a positional sensor and aiding the tilting operation of the mini stick by a torque motor in accordance with each of detection signals. CONSTITUTION: This handle (mini stick) 6 for an aircraft carries out depth control by tilting operation around a crossing axis X-X and rolling control by tilting operation around a longitudinal axis Y-Y. Additionally, this handle 6 is connected to each of mechanisms 8, 9 furnished with torque motors 10, 11 on an axis X-X where rotors 12, 13 are fixed on an operation station and stators 14, 15 are integrated with an inclined unit 16 and torque motors 18, 19 on an xis Y-Y where rotors 22, 23 are integrated with a common shaft and stators 20, 21 are integrated with the inclined unit 16. Therefore, the electric signals in accordance with a handle position around each of the axes X-X, Y-Y are transmitted from each of positional sensors 17, 25. COPYRIGHT: (C)1990,JPO | ||||||
| 218 | Manual controller to electronic device | JP21152789 | 1989-08-18 | JPH02103763A | 1990-04-16 | RORUFU HETOKE |
| PURPOSE: To control a cursor by allowing to change the rotating moment of a ball with a controllable damping device. CONSTITUTION: Plurality of locking positions are artificially formed using controllable damping devices 17, 18 with a resistant force capable of sensing in the case of a setting process via the operating ball 11. In the case of the movement of the operating ball 11 in the X or Y direction, when the number of peace per unit time of Y or X pulse generated from a pulse generator 15 exceeds a prescribed limit value corresponding to the width of the operating area, a damping moment is formed in Y or X direction by controlling with a micro computer 10. As the result of it, the resistant force capable of sensing in the Y or X direction is generated. Upon reaching a zero point, damping devices 17, 18 are operated, a final state is also marked in order to identify the maximum feeding velocity of e.g. of a magnetic tape 2. By this way, the cursol 26 is positioned. COPYRIGHT: (C)1990,JPO | ||||||
| 219 | Mouth controller | JP9048088 | 1988-04-14 | JPS63293624A | 1988-11-30 | FURANKU JIYOSEFU AFUINITO; JIYON FURANSHISU BIIITEN |
| 220 | Input device | JP3441084 | 1984-02-27 | JPS60179821A | 1985-09-13 | INOSE SHIYUUICHI |
| PURPOSE: To attain precise positioning easily by detecting the enter of a cursor into a specific area and driving a braking means in an input device for inputting coordinates within a picture through a mouse. CONSTITUTION: A moving distance detecting device detects moving directon and distance on the basis of the rotation of a ball 34 in accordance with the movement of a cursor moving device 29 and a cursor moving device control part 28 converts the detected values into digital values and sends the digital values to a CPU21. The CPU21 moves the cursor on a CRT1, and when the cursor enters menu areas 4W6, a solenoid 32 is driven, a brake is actuated and resistance is applied to the rotation of the ball 34. When the cursor is included within the menu areas, the menu of the cursor position is selected and the brake is released. The enter of the cursor into the menu areas can be detected by operator's hand and the overrun phenomenon of the menu areas is prevented, so that highly accurate positioning can be attained. COPYRIGHT: (C)1985,JPO&Japio | ||||||
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