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    • 3. 发明专利
    • ANGULAR VELOCITY SENSOR AND SENSOR ELEMENT
    • JPH0791960A
    • 1995-04-07
    • JP26194493
    • 1993-09-24
    • TOYOTA MOTOR CORPTOYOTA CENTRAL RES & DEV
    • OZAKI IWAOTSUKADA ATSUSHINONOMURA YUTAKAOKUWA MASAYUKI
    • G01C19/56G01C19/5614G01P9/04
    • PURPOSE:To obtain an angular sensor which achieves easier production and higher detection sensitivity. CONSTITUTION:A sensor element 10 of the angular velocity sensor is made up of multiple pairs of vibrators 22-27 for excitation differing in length sequentially and fixed in the thickness and width thereof and pairs of vibrators 42-47 for detection and piezo-electric elements 32-37 for excitation are bonded securely on the sides of the vibrators 22-27 for excitation while the piezo-electric elements 52-57 for detection on the sides turned by 90 deg. of the vibrators 42-47 for detection. AC voltage is applied to the piezo-electric elements for excitation of a pair of the vibrators for excitation to be vibrated steadily and when a specified rotational angular velocity is applied, a coriolis force works on the vibrator for detection to generate an electrical signal (AC voltage) by piezo-electric effect of the piezo-electric elements for detection. A combination to generate an electrical signal giving the maximum voltage is selected from the combinations of a pair of the vibrators for excitation to be vibrated and a pair of the vibrators for detection to detect and an excitation circuit and a detection circuit are connected to the vibrators selected. Thereby, a highly sensitive angular velocity sensor can be obtained even if production errors occur in the sensor element 10.
    • 5. 发明专利
    • Vehicle position detector and vehicle position detection method
    • 车辆位置检测器和车辆位置检测方法
    • JP2009276237A
    • 2009-11-26
    • JP2008128619
    • 2008-05-15
    • Toyota Motor Corpトヨタ自動車株式会社
    • OZAKI IWAOKAGAWA KAZUNORIUSAMI TOMOHIRO
    • G01C21/00G01C21/26G01S19/22G01S19/30G01S19/42G01S19/50G08G1/0969
    • PROBLEM TO BE SOLVED: To provide a vehicle position detector for determining whether an own vehicle is located at an open place, such as a parking lot, without complicating the system configuration of the vehicle position detector, and to provide a vehicle position detection method by the vehicle position detector.
      SOLUTION: The vehicle position detector for detecting a vehicle position based on a positioning signal transmitted from a plurality of GPS satellites includes: a positioning signal detection means for detecting a positioning signal; a number-of-satellites detection means for detecting the number of GPS satellites for transmitting a positioning signal detected by the positioning signal detection means; and an off-route determination means for determining whether the vehicle is located at an open place, based on the number of GPS satellites detected by the number-of-satellites detection means.
      COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供一种用于确定本车辆是否位于诸如停车场的开放位置的车辆位置检测器,而不会使车辆位置检测器的系统构造复杂化,并且提供车辆位置 车辆位置检测器的检测方法。 解决方案:用于基于从多个GPS卫星发送的定位信号来检测车辆位置的车辆位置检测器包括:定位信号检测装置,用于检测定位信号; 数字卫星检测装置,用于检测用于发送由定位信号检测装置检测的定位信号的GPS卫星的数量; 以及基于由卫星数检测装置检测出的GPS卫星的数量,确定车辆是否位于开放位置的离线判定装置。 版权所有(C)2010,JPO&INPIT
    • 6. 发明专利
    • ANGULAR VELOCITY SENSOR
    • JPH10239068A
    • 1998-09-11
    • JP4640397
    • 1997-02-28
    • TOYOTA MOTOR CORP
    • OZAKI IWAO
    • G01C19/56G01C19/5607G01P9/04
    • PROBLEM TO BE SOLVED: To excellently detect angular velocity by increasing amplitude of vibration of the Y axis direction of a vibration piece for detection. SOLUTION: Of first to fourth vibration parts constituted into an H type, the first and second vibration parts are composed of each vibration piece 11 to 13 and each vibration piece 14 to 16 and the third and fourth vibration parts are composed of vibration pieces 17, 18. When angular velocity around a Z axis is added when the vibration pieces 11 to 16 vibrate in an X axis direction, vibration energy of a Y axis direction due to Coriolis force proportional to angular velocity is excellently imparted to the vibration pieces 11 to 16 because the first and second vibration parts are divided into the vibration pieces 11 to 13 and the vibration pieces 14 to 16, respectively. Because vibration energy imparted to the vibration pieces 11 to 16 is transmitted to each of the vibration pieces 17, 18 and total mass of the vibration pieces 17, 18 is smaller than total mass of the first and second vibration parts, the vibration pieces 17, 18 vibrate at amplitude which is large in the Y axis direction.
    • 7. 发明专利
    • ANGULAR VELOCITY SENSOR
    • JPH10206163A
    • 1998-08-07
    • JP975797
    • 1997-01-22
    • TOYOTA MOTOR CORP
    • OZAKI IWAO
    • G01C19/56G01C19/5614G01P9/04
    • PROBLEM TO BE SOLVED: To obtain an angular velocity sensor which eliminates an influence due to a leakage vibration, by which an angular velocity can be detected with good accuracy and by which every resonance frequency can be regulated simply. SOLUTION: Piezoelectric elements 21, 22 for excitation are attached to, and mounted on, outside faces of vibrating pieces 11, 14 in diagonal positions out of four vibrating pieces 11 to 14 which are constituted to be an H-shape, and the vibrating pieces 11 to 14 are excited to the X-axis direction, Piezoelectric elements 23, 24 for vibration detection are attached to, and mounted on, front faces of the vibrating pieces 12, 13 in other diagonal positions, vibrations in the Y-axis direction are detected, and respective vibrations caused by the Coriolis force are detected, respectively. A differential amplifier 43 fetches the difference between electric signals expressing the respective vibrations detected by the piezoelectric elements 23, 24, and the difference is output. Thereby, it is possible to simply regulate that a leakage vibration is generated in a direction identical to the Coriolis force at the vibrating piece on one side out of the vibrating pieces 12, 13 and that a leakage vibration is generated in a direction opposite to the Coriolis force at the vibrating piece on the other side, the leakage vibrations are offset simply, and an angular velocity can be detected with good accuracy.
    • 8. 发明专利
    • CIRCUIT FORMING METHOD ON NON-CONDUCTIVE SUBSTRATE
    • JPH07115338A
    • 1995-05-02
    • JP28585293
    • 1993-10-19
    • TOYOTA MOTOR CORP
    • OZAKI IWAO
    • G01C19/56G01C19/5628H03H3/02H05K3/02G01P9/04
    • PURPOSE:To reduce the manhour and to improve the quality for the circuits of electrodes, etc., which are formed on both sides of a light transmissive substrate of quartz, etc. CONSTITUTION:When the electrodes are formed on both sides of a vibrating gyro made of a quartz crystal substrate, a chromium thin film 102 and a gold thin film 104 are formed by vapor deposition on both sides of each vibrating piece. Then both sides of the vibrating pieces are irradiated by the YAG laser beams through the upper surface side of the vibrating gyro after the beams are focused by a lens. At the same time, the laser focal point (f) is set at the middle points of both sides of both vibrating pieces 86 and 92 respectively. Therefore both films 102 and 104 are fused and evaporated only at the part irradiated by the YAG laser beam on the upper surface side of each vibrating piece and at the beam incident side. Furthermore both films 102 and 104 are also fused and evaporated only at the part where the laser beam is emitted on the lower surface side of each vibrating pieces and at the beam emitting side.
    • 9. 发明专利
    • CRACK DETECTING METHOD
    • JPH0259660A
    • 1990-02-28
    • JP21132588
    • 1988-08-25
    • TOYOTA MOTOR CORP
    • OZAKI IWAO
    • G01N29/12
    • PURPOSE:To improve the discrimination accuracy for the generation of a crack by discriminating whether a point shown by a natural frequency and an output level of a wave type of its natural frequency is within a prescribed area of a two-dimensional plane consisting of the frequency and the output level or not. CONSTITUTION:A percussion is given to an article to be inspected 1 by a steel ball 3, and its vibration is detected by an electromagnetic pick 5, amplified by an amplifier 7 and outputted to a frequency analyzer 9. The frequency analyzer 9 inputs a vibration waveform, based on a timing signal outputted from a delay device, and analyzes a frequency component of a frequency waveform and its output level. Subsequently, whether a point shown by a natural frequency of the frequency waveform and its output level is in a prescribed closed area which is set at every natural oscillation by a setting device 11, of a two-dimensional plane in which the frequency and the output level are parameters or not is discriminated by a discriminator 10. In such a way, the discrimination accuracy for the generation of a crack can be improved.