子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 181 | Device and method for determining stop of car body for speed calculation device | JP2005005608 | 2005-01-12 | JP2006194698A | 2006-07-27 | TSUNODA YASUNOBU; HOSAKA HITOSHI |
| PROBLEM TO BE SOLVED: To determine whether a car body is at a standstill or not only from acceleration information acquired by an acceleration sensor and increase the accuracy of the value of speed without using angle information, which has a high possibility of including errors, when calculating the speed from the acceleration information acquired by the acceleration sensor installed in the car body. SOLUTION: The speed calculation device comprises an angle calculation means 2 for calculating a road surface angle from an acceleration component Ax which is parallel to the road surface and an acceleration component Az which is perpendicular to the road surface obtained by the acceleration sensor 1 installed in the car body and a speed calculation means 3 for calculating a car body speed using the road surface angle and the acceleration component Ax obtained by the acceleration sensor. The speed calculation system further comprises a fluctuations detection means 4 for detecting the magnitude of fluctuations in the acceleration component Ax or Az obtained by the acceleration sensor 1 and a stop judgment means 5 which compares the magnitude of fluctuations to a predetermined value and judges that the car body is at a standstill when the magnitude of fluctuations does not exceed the predetermined value, thereby judging whether the car body is at a standstill or traveling prior to the calculation of the car body speed. COPYRIGHT: (C)2006,JPO&NCIPI | ||||||
| 182 | Stress-induced light-emitting element and stress-induced light-emitting device | JP2004137008 | 2004-05-06 | JP2005322421A | 2005-11-17 | IIMURA KEIJI |
| <P>PROBLEM TO BE SOLVED: To provide a light-emitting element which emits light, even without the use of power supply, fuel, or chemical light-emitting material. <P>SOLUTION: This is a stress-induced light-emitting element 10 comprises a light transmissible wall member (or capsule) 20 having a spherical shape or the like and having a space 40 surrounded by a wall and a shell, one or a plurality of particle shaped members 30 movably arranged at the space 40, and a stress-induced light-emitting material which emits light by a mechanical stimulus (addition of mechanical energy) contained in the wall member 20 and/or the particle shaped members 30. For example, by fixing a grip 50 to the stress-induced light-emitting element 10, and swinging S right and left or rotating R the stress-induced light-emitting element 10 manually by gripping the grip 50 by hand, mutual particle shaped members 30 or the particle shaped members 30 and the wall member 20 mutually collide or rub, and the stress-induced light-emitting element 10 flashingly emits a light L by this mechanical stimulus, and the light is emitted from the light transmitting wall member 20. In order to give the mechanical stimulus to the stress-induced light-emitting element 10, apart from manual operation, a man-made mechanical energy applying means, such as a voltage vibrator, can be used. <P>COPYRIGHT: (C)2006,JPO&NCIPI | ||||||
| 183 | Moving state calculation device, its method, program therefor recording medium for recording the program, and navigation device | JP2002127400 | 2002-04-26 | JP2003322533A | 2003-11-14 | TANAKA KAZUTOSHI; GOTO SEIJI; ENDO ISAO; OKAMOTO TATSUYA |
| <P>PROBLEM TO BE SOLVED: To provide a moving state calculation device capable of calculating properly the relative moving distance or relative moving speed of a moving body. <P>SOLUTION: A speed information acquisition means 21 acquires speed information on the vehicle speed, and records the acquired speed information in a speed information recording means 27. A state determination means 23 determines the state of start and stop of the vehicle based on the state information showing the state of start and stop of the vehicle acquired by a state information acquisition means 22. After determination, a lowest output speed calculation means 24 calculates accurately the lowest output speed in a period when a vehicle speed detection circuit 10 can not detect the speed information based on the speed information recorded in the speed information recording means 27. A moving state calculating means 25 can calculate properly the relative moving distance or the relative moving speed of the vehicle based on the state information acquired by the state information acquisition means 22 and the lowest output speed calculated by the lowest output speed calculation means 24. <P>COPYRIGHT: (C)2004,JPO | ||||||
| 184 | Rotation-sensing device for fan device applied to chamber of handler | JP2002042853 | 2002-02-20 | JP2003028917A | 2003-01-29 | KIM DONG JUNE |
| PROBLEM TO BE SOLVED: To provide a rotation-sensing device that can sense the rotating state of a fan device used for adjusting the temperature of the chamber of a handler, irrespective of the ambient temperature of the fan device. SOLUTION: This rotation sensing device, which senses the rotating state of the fan device applied to the chamber of the handler, is constituted of a sensor dog which is installed on the outer peripheral surface of a shaft set up in the case of the fan device and is constituted to expand by a prescribed length from its stopping-time radius, when a centrifugal force is generated due to the rotation of the shaft; an optical sensor which receives light reflected from the surface of the sensor dog and generates and outputs a light-sensing signal, when the sensor dog expands by the prescribed length by projecting light upon the sensor dog; and a main control machine which discriminates that the fan device is rotated, by receiving the light sensing signal, when the signal is outputted from the optical sensor. COPYRIGHT: (C)2003,JPO | ||||||
| 185 | Displacement sensors in the appropriate system to control the movement and alarm | JP2000582808 | 1999-11-10 | JP2002530652A | 2002-09-17 | アチレ・パルンボ; レンゾ・プレビアチ |
| (57)【要約】 センサ(1)の室(3)は、外部とやりとりする第1の通路と第2の通路(16,17)と、前記通路(16)を通って、前記室(3)の内側とその中に設けられた球体(7)を照らす室の外にある可視光線が(11)と、室の内側から反射する光を受けるため、第2の通路(17)を通って、室の外側で光の量に感応する素子と、センサが設置された手段の移動制御システムと警報システムを起動する少なくとも1つのパルスを発生するために光感応素子(9)によって観察される光量に相関する電気信号を分析する電子回路とを備えている。 | ||||||
| 186 | Movement detection sensor that uses the mechanical vibration | JP51544093 | 1993-03-03 | JP3310978B2 | 2002-08-05 | ガットセル,グラハム,スコット; テイラー,ピーター,ジョン |
| 187 | Electrical marking device | JP51544193 | 1993-03-03 | JP3294613B2 | 2002-06-24 | ガットセル,グラハム,スコット; テイラー,ピーター,ジョン; ハスティングス,ニコラス,ジェームズ |
| 188 | System and method for moving the sensing of the vehicle Doaejji | JP53471798 | 1998-01-17 | JP2002513354A | 2002-05-08 | ジェイ. ギリス,エドワード; エス. セック,レオナード; アール. ソーウェル,マイケル |
| (57)【要約】 本発明にしたがうと、衝突識別システム(10)が、車両ピラーに取り付けられた複数のコイルセンサ(18)、及びコイルに並ぶドア(14)エッジ面に、又は適切な強磁性磁束コレクタ(28)がドアエッジに取り付けられているときはピラー(16)にのいずれかに取り付けられた磁石を含む。 コイル(19)の形、大きさ及び間隔は、ドア面の運動により生じる磁化の変化に反応してコイル内に出力信号が出来るよう予め定める。 磁界の変化を解析して車両衝突を示す。 | ||||||
| 189 | Method and device for detecting stopping state of vehicle | JP2000384555 | 2000-12-19 | JP2001206210A | 2001-07-31 | HOLL EBERHARD |
| PROBLEM TO BE SOLVED: To provide an improved method or an improved device for detecting stopping state of a vehicle. SOLUTION: In a method and a device for detecting stopping state of a vehicle as a function of vehicle speed or of speed of at least one of vehicular wheels, stopping state is detected as a function of a value (pB) representing braking force applied when braking the vehicle. COPYRIGHT: (C)2001,JPO | ||||||
| 190 | Optoelectronics yarn detecting device | JP50170690 | 1989-12-07 | JP2932098B2 | 1999-08-09 | AKERURINDO BOO; HERUSUTOREMU IERUKERU; FUREDORIKUSON RAASUUBERUNO |
| 191 | Droplet detector | JP1178789 | 1989-01-19 | JP2846642B2 | 1999-01-13 | KINGU OO UORUTAA YUNGU; DAGURASU ERU FURANTSU |
| 192 | Opening monitor for laboratory gas hood sash speed and indicator therefor | JP12235597 | 1997-05-13 | JPH1076167A | 1998-03-24 | JACOB STEVEN D |
| PROBLEM TO BE SOLVED: To inform an operator of the fact that a sash is opened at an extremely high speed by alarm by calculating the moving speed of a sash door and generating the alarm signal when the calculated speed exceeds preset speed. SOLUTION: A room controller receives a signal indicating the volume of air exhausted by a gas hood controller 20 and the same signal as that from an exhaust air flow sensor A1 indicating the volume of air exhausted apart from the gas hood exhausted air through a main exhausting system. The room controller calculates the difference between the total flow rate entering to the room and the total flow rate exhausted from the room by the signals. The differential pressure in the room is controlled to slightly lower than that of a reference space outside of the room, to 0.01-0.1inch in hydraulic pressure. When the opening speed of the sash reaches >=1.5feet/sec, audible signal, visible signal or both signals are generated. Based on the intermittent alarm sound generated by the alarm 44, the moving speed of opening sash door is made slow by the operator. | ||||||
| 193 | Passive acoustic method for monitoring raw material jetting line of catalytic cracker | JP35567196 | 1996-12-24 | JPH09189711A | 1997-07-22 | JIYOOJI DEUEI KOODEII; YUUJIIN AARU ERUJINGA JIYUNIA; CHIYAARUZU RAMUBAATO BEEKAA JI |
| PROBLEM TO BE SOLVED: To change the operational parameter of a catalytic cracker so as to return the RMS acceleration of wall surface vibrations to the initial value by finding the acceleration at a plurality of positions along a feed material riser and comparing the found acceleration with the initial RMS acceleration at each position when the reactor is operated in desired characteristics. SOLUTION: A gas is generated in a feed material riser through a reaction among catalyst particles, jetted oil, and steam and the kinetic energy of the catalyst particles which lose energy when the particles are made to collide with each other or the wall surface of the riser by the gas. The RMS acceleration is found by measuring the vibration of the wall surface caused by the collisions with a plurality of accelerometers provided on the wall surface and the feed riser profile(FRP) is defined by using the found acceleration. The operator of the reactor changes the operational parameter of the reactor by deciding a reference FRP by comparing the defined FRP with an initial reference FRP which is found in advance by operating the reactor in a desired characteristics and changes the operational parameter of the reactor so as to return the decided reference FRP to the initial reference FRP. | ||||||
| 194 | Position discriminator of human body using ir sensor | JP18385996 | 1996-07-12 | JPH0933343A | 1997-02-07 | RI TONKI |
| PROBLEM TO BE SOLVED: To determine with high precision with a direction displacing means which scans line by line such as left, right, far, near of the detecting direction of an infrared detecting means for detecting a specific direction, circuit means, and determining means for determining the position and activity of human body from the timing of the direction displacing means. SOLUTION: Infrared ray emitted from human body is condensed in a condensing part to focus on an infrared sensing member 12 incorporated in an infrared sensor. A cylindrical guide is formed between the guide section and member 12 in a similar direction to the member 12, infrared emission IR incident from the direction that the guide and member 12 are inline may be entered into the detector 12. At this time the member 12 scans up to down, left to right by perspective drive 18 and lateral drive 19. From the infrared sensor output, scanning time with respect to turning angle of the lateral scan, and three step scanning of long, middle, and short range, the position of human body may be determined. COPYRIGHT: (C)1997,JPO | ||||||
| 195 | Ultrasound monitor | JP51968894 | 1994-02-21 | JPH08507706A | 1996-08-20 | ジョン ブリアン サマーズ |
| (57)【要約】 人間又は動物の呼吸のような運動又は土木工学構造物の低周波振動をモニターするための超音波モニターが開示されている。 モニターは、流動率又は粘性のような流体の特性を測定するためにも使用可能である。 モニターは、エミッター(1)から超音波パルスのバーストを周期的に発し、次に例えば眠っている乳児のような目標対象物(13)からの反射後、レシーバ(6)によってパルスを検出することによって作動する。 状態における変化は、エミッター(1)への入力とレシーバ(6)からの出力との間に生じる位相における変化をモニターすることによって決定される。 | ||||||
| 196 | Automatic probe activation and system and ultrasonic imaging system | JP14218295 | 1995-06-08 | JPH07328000A | 1995-12-19 | RII UEN |
| PURPOSE: To make a push button for activating a probe unnecessary by equipping a motion sensoring means which produces a signal by detecting a motion of the probe, a signal detecting means, and a probe operating means which actuates the probe responding to a detector signal from the detecting means. CONSTITUTION: A sensor 161 detects the motion of a probe 101 and a sensor 162 detects the motion of a probe 102. Responding to the motion of the probe 101, the sensor 161 transmits a signal to a signal detector 180 via a communication channel 171, and responding to a signal received from the sensor 161, the signal detector 180 detects that the probe 101 should be operated. After that, the signal detector 180 transmits information to an operating switch 190 via a communication link 185, and responding to the received information, the operating switch 190 makes the probe 101 to actuate according to a means like a relay switch by connecting the probe, 101 with an imaging channel 205. COPYRIGHT: (C)1995,JPO | ||||||
| 197 | JPH07504828A - | JP51029892 | 1992-12-04 | JPH07504828A | 1995-06-01 | |
| A fiber optic body motion monitor in which light is transmitted through an optical fiber waveguide physically coupled to a body being monitored, and modal noise at the output of the optical fiber waveguide is applied to a photodetector filtered, rectified and analyzed to detect breathing and heartbeats. Detection of breathing is performed by low-pass filtering the rectified and filtered signal, and adaptive thresholding of the low-pass filtered signal. A similar but separate technique is used to detect heartbeats. In one embodiment, reliability of detection is enhanced by reducing the number of speckles of light applied to the photodetector to approximately 50%, thereby to maximize modal noise current. In another embodiment the photodetector has two halves separately illuminated by approximately two-thirds of the light from the optical fiber waveguide. Outputs of the photodetector halves are applied to the positive and negative inputs of an operational amplifier, whereby common mode noise is eliminated and modal noise current and therefore sensitivity of modal noise detection increased. | ||||||
| 198 | JPH07504270A - | JP51544093 | 1993-03-03 | JPH07504270A | 1995-05-11 | HASTINGS NICHOLAS J; TAYLOR PETER J; GUTSELL GRAHAM S |
| 199 | Inductive motion sensor | JP20776293 | 1993-08-23 | JPH06160411A | 1994-06-07 | KAARIN RIYUNGUSUTOREEMU |
| PURPOSE: To raise sensitivity to a small motion of an inductive motion sensor which, being small, simple and rigid, comprising a magnetic circuit provided with a permanent magnet. CONSTITUTION: A stator 2 is provided with a core comprising a permanent magnet 12 and a gap 9. An electric coil 3 is provided around the stator 2. A rotator 1 is provided with movable members 4 and 5 of ferromagnetic material, and the movable member passes the inside and the outside of the gap 9 when a motion sensor receives a stress from motion, so that a magnetic field at the stator 2 is changed, and a current is induced at the electric coil 3. COPYRIGHT: (C)1994,JPO | ||||||
| 200 | JPH0365507B2 - | JP13944182 | 1982-08-11 | JPH0365507B2 | 1991-10-14 | |
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