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    • 1. 发明专利
    • Pneumatic shock absorber
    • 气动冲击吸收器
    • JP2010276064A
    • 2010-12-09
    • JP2009127325
    • 2009-05-27
    • Kayaba Ind Co Ltdカヤバ工業株式会社
    • MATSUMOTO AKIRAOKI NORITOMO
    • F16F9/32F16F9/02
    • PROBLEM TO BE SOLVED: To provide a pneumatic shock absorber optimal for expecting an improvement in its versatility, by permanently guaranteeing expansion operability, without deteriorating lubricating oil stored in an oil reservoir recess by mixing-in of foreign matter.
      SOLUTION: This pneumatic shock absorber includes a cylinder body 1 for storing gas being a working fluid, a piston body 3 slidably arranged in this cylinder body 1, a rod body 2 projectably-retreatably inserted into the cylinder body 1 by joining this piston body 3 to the tip side, and the oil reservoir recess 5a arranged on the inner periphery of a head end part of the cylinder body 1, penetrating through the rod body 2 and storing the lubricating oil, and includes a checking means for preventing mixing of the foreign matter in the lubricating oil. This checking means is composed of a partition wall 6 for partitioning a sliding surface with the piston body 3 in the inner periphery of the cylinder body 1.
      COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:为了提供最佳的气动减震器,通过永久地保证膨胀可操作性,而不会通过混入异物而使油储器凹部中存储的润滑油变质,从而提高其通用性。 解决方案:该气动减震器包括:用于储存作为工作流体的气体的缸体1,可滑动地布置在该气缸本体1中的活塞体3,通过接合该气缸主体1可伸缩地插入气缸本体1中的杆体2 活塞体3到前端侧,以及设置在缸体1的头端部的内周的储油槽5a,贯通杆体2并储存润滑油,并且包括防止混合的检查装置 的润滑油中的异物。 该检查装置由在缸体1的内周分隔滑动面与活塞体3的分隔壁6构成。(C)2011,JPO&INPIT
    • 3. 发明专利
    • Measuring device
    • 测量工具
    • JP2006162419A
    • 2006-06-22
    • JP2004354009
    • 2004-12-07
    • Kayaba Ind Co Ltdカヤバ工業株式会社
    • OKI NORITOMOMAEHARA HIDEOMIZUNO NAOKIINOUE ATSUSHI
    • G01L3/10B62D5/04G01D5/245G01R33/02
    • PROBLEM TO BE SOLVED: To sensitively detect minute change of a magnetic field following variation of quantity of an object to be measured even in a strong magnetic field in a measuring device provided with a means for generating a magnetic field responding to the variation of quantity of the object to be measured, and a magnetic sensor detecting the intensity of the magnetic field. SOLUTION: A means 21 is provided for generating an inverted bias magnetic field in the magnetic field responding to the variation of quantity of the object to be measured, and the magnetic sensor 22 is provided for detecting magnetic flux densities in the magnetic fields. COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:即使在具有响应于变化的产生磁场的装置的测量装置中,即使在强磁场中,即使在测量对象物的量的变化之后也敏感地检测到磁场的微小变化 要测量的物体的数量以及检测磁场强度的磁传感器。 解决方案:提供了一种装置21,用于响应于被测量物体的量的变化而在磁场中产生反向偏置磁场,并且磁传感器22用于检测磁场中的磁通密度 。 版权所有(C)2006,JPO&NCIPI
    • 4. 发明专利
    • Torque sensor
    • 扭矩传感器
    • JP2006047188A
    • 2006-02-16
    • JP2004230797
    • 2004-08-06
    • Kayaba Ind Co Ltdカヤバ工業株式会社
    • MAEHARA HIDEOOKI NORITOMOSUGIHARA KATSUMICHI
    • G01L3/10
    • PROBLEM TO BE SOLVED: To enhance the detection precision of a noncontact type torque sensor which detects torque, on the basis of torsion of a rotary shaft.
      SOLUTION: The torque sensor is provided with a shaft 1, on which twisting torque is exerted; first and second rings 2 and 3 of which the relative rotational positions change as the shaft 1 is twisted; a magnetic flux loop constituting part 20 for guiding magnetism, in such a way as to pass through the first and second rings 2 and 3; a magnetic field changing means for changing the magnetic field of the magnetic flux loop constituting part 20 with the relative rotation of the first and second rings 2 and 3; and a Hall device (magnetic flux density detecting means) 5 for detecting magnetic flux density of the magnetic flux loop constituting part 20. The torque sensor is provided with first and second ring-like yokes 21 and 22, each facing the first and second rings 2 and 3. The magnetic flux loop constituting part 20 is formed into a ring shape of the first and second ring-like yokes 21 and 22. The torque sensor is provided with a nonmagnetic member 30 for coupling the first and second ring-like yokes 21 and 22 and the Hall device 5 to each other.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:基于旋转轴的扭转来提高检测转矩的非接触式扭矩传感器的检测精度。 解决方案:扭矩传感器设有轴1,扭矩传递器施加扭矩; 第一和第二环2和3的相对旋转位置随着轴1的扭转而改变; 构成用于引导磁性的部件20的磁通回路,以通过第一和第二环2,3的方式; 磁场改变装置,用于利用第一和第二环2,3的相对旋转来改变构成部件20的磁通环的磁场; 以及用于检测磁通回路构成部件20的磁通密度的霍尔装置(磁通密度检测装置)5。扭矩传感器设置有第一和第二环形磁轭21和22,每个面向第一和第二环 磁通回路构成部件20形成为第一和第二环状磁轭21和22的环形。转矩传感器设置有非磁性部件30,用于将第一和第二环状磁轭 21和22以及霍尔装置5彼此。 版权所有(C)2006,JPO&NCIPI
    • 5. 发明专利
    • 変位センサ
    • 位移传感器
    • JP2015014478A
    • 2015-01-22
    • JP2013140049
    • 2013-07-03
    • カヤバ工業株式会社Kayaba Ind Co Ltd
    • NAGAI YUKOOKI NORITOMO
    • G01D5/245G01B7/00
    • 【課題】基板の歪みを抑制して変位センサの検出精度の低下を防止する。【解決手段】可動体3の変位量を検出する変位センサ10は、可動体3に摺接して設けられ、内部に有底筒状の収容室30を画成するとともに収容室30の底面30aに収容室30の内径より小径な環状段部32を有するケース31と、環状段部32に当接して収容室30の底面30aとの間にボトム室34を画成する基板33と、基板33のボトム室34側に配設され、可動体3の変位量に応じた信号を出力する検出素子35と、収容室30内に充填されて基板33を環状段部32に固定するモールド樹脂39をボトム室34へ導く導通路38と、を備える。【選択図】図3A
    • 要解决的问题:通过抑制基板的变形来防止位移传感器的检测精度劣化。解决方案:检测可移动体3的位移量的位移传感器10包括:设置在滑块中的壳体31 与可移动体3接触,在内部限定有底的圆筒形存储室30,并且在储存室30的底表面中具有比存储室30的内径小的直径的环状台阶部32; 基板33,其与环状台阶32抵接,并且在壳体室30的底面30a与基板之间形成底部室34; 设置在基板33的底部室34侧的检测元件35,并且根据移动体3的位移量输出信号; 引导通道38,引导通道38引导到底部腔室34,模塑树脂39被填充在储存室30内,以将基底33锚固到环形台阶部分32。
    • 6. 发明专利
    • Pneumatic shock absorber
    • 气动冲击吸收器
    • JP2010276066A
    • 2010-12-09
    • JP2009127327
    • 2009-05-27
    • Kayaba Ind Co Ltdカヤバ工業株式会社
    • OKI NORITOMO
    • F16F9/32F16F9/00F16F9/36F16J15/32
    • PROBLEM TO BE SOLVED: To permanently guarantee expansion operability, without deteriorating lubricating oil stored in an oil reservoir recess by mixing-in of foreign matter. SOLUTION: This pneumatic shock absorber includes the oil reservoir recess inside a head end part of a cylinder body 1 for storing gas being a working fluid, and is formed by making the distal end side present in the cylinder body 1 by penetrating a rod body 2 projectably-retreatably inserted into the cylinder body 1 through the oil reservoir recess. The oil reservoir recess is arranged inside the head end part in the cylinder body, and is formed in upper-lower two stages in an oil reservoir case for allowing penetration of the rod body. COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:永久保证膨胀可操作性,而不会通过混入异物而使储油室凹槽中存储的润滑油变质。 解决方案:该气动缓冲器包括在缸体1的头端部内的用于储存作为工作流体的气体的储油槽,并且通过使前端侧穿过气缸体1而形成 杆身2通过储油槽凹陷可投影地插入缸体1中。 储油槽凹部布置在缸体的头端部内部,并且在储油箱的上下两级形成,以允许杆体穿透。 版权所有(C)2011,JPO&INPIT
    • 7. 发明专利
    • Pneumatic shock absorber
    • 气动冲击吸收器
    • JP2010276061A
    • 2010-12-09
    • JP2009127322
    • 2009-05-27
    • Kayaba Ind Co Ltdカヤバ工業株式会社
    • KAMEDA YUKINORITAKINO SHINSUKEOKI NORITOMOKATO KOKI
    • F16F9/02F16F9/32
    • PROBLEM TO BE SOLVED: To provide a pneumatic shock absorber which permanently ensures sufficient elongation and contraction performance without deteriorating a lubricating oil stored in an oil reservoir recess due to mixture with foreign matter. SOLUTION: The pneumatic shock absorber includes the oil reservoir recess 5a inside the head end in a cylinder body 1 for storing a gas as a working fluid, and a rod body 2 inserted in the cylinder body 1 in a retractable manner while passing through the oil reservoir recess 5a so as to expose the front end side to the inside of the cylinder 1. The oil reservoir recess 5a is formed in an oil reservoir case 5 disposed inside the head end in the cylinder body 1. The oil reservoir case 5 has a prevention means for preventing the foreign matter from entering the lubricating oil stored in the oil reservoir recess 5a. The prevention means has a magnet 52. COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:提供一种气动减震器,其永久地确保足够的伸长和收缩性能,而不会由于与异物的混合而使存储在储油室凹部中的润滑油劣化。 解决方案:气动缓冲器包括在气缸本体1中的头端内部的用于储存气体作为工作流体的储油槽5a和杆体2,其以可缩回的方式插入缸体1中,同时通过 通过储油槽5a将前端侧暴露在缸1的内部。储油槽5a形成在设置在缸体1的头端内侧的储油箱5内。储油箱 5具有防止异物进入储存在储油槽5a中的润滑油的防止装置。 防止手段有磁铁52.版权所有(C)2011,JPO&INPIT
    • 9. 发明专利
    • Acceleration detector
    • 加速检测器
    • JP2006337197A
    • 2006-12-14
    • JP2005162803
    • 2005-06-02
    • Kayaba Ind Co Ltdカヤバ工業株式会社
    • OKI NORITOMO
    • G01P15/08
    • PROBLEM TO BE SOLVED: To provide an acceleration detector capable of being easily fixed to an acceleration detection object.
      SOLUTION: The acceleration detector 1 comprises: the housing 10 to be fixed to the truck (acceleration detection object); each of the pair of sensor substrates 20 to be housed in the housing 10; and the acceleration sensor chip 2. The housing 10 includes the seating surface 11 for seating on the supporting member (acceleration detection object) of the vehicle side; the sensor substrate fixing surfaces 13 and 19 for seating each of the sensor substrates 20. Each surface extending parallel to the each fixing surface 13 or 19 which is perpendicular to the seating surface 11 of the frame 10 is named as the virtual sensitive axis setting surface. Each acceleration sensor chip 2 is mounted on each sensor substrate 20 so as to tilt to the seating surface 11 while preventing the plurality of sensitive axes of the acceleration sensor chip being parallel in each virtual sensitive axis setting surface.
      COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供能够容易地固定到加速度检测对象的加速度检测器。 解决方案:加速度检测器1包括:固定到卡车的壳体10(加速度检测对象); 一对传感器基板20中的每一个被容纳在壳体10中; 和加速度传感器芯片2.壳体10包括用于安置在车辆侧的支撑构件(加速度检测对象)上的就座表面11; 传感器基板固定表面13和19,用于安放每个传感器基板20.平行于每个固定表面13或19的垂直于框架10的就座表面11的每个表面被命名为虚拟感光轴设置表面 。 每个加速度传感器芯片2安装在每个传感器基板20上,以便在每个虚拟敏感轴设置表面中防止加速度传感器芯片的多个敏感轴平行的同时倾斜到就座表面11。 版权所有(C)2007,JPO&INPIT
    • 10. 发明专利
    • Torque sensor
    • 扭矩传感器
    • JP2006162557A
    • 2006-06-22
    • JP2004358508
    • 2004-12-10
    • Kayaba Ind Co Ltdカヤバ工業株式会社
    • MAEHARA HIDEOOKI NORITOMOSUGIHARA KATSUMICHI
    • G01L3/10
    • PROBLEM TO BE SOLVED: To provide a torque sensor capable of retraining an influence of a leak magnetic flux from a surface of an irregular part, and capable of detecting precisely a torsion torque applied on a shaft.
      SOLUTION: In this torque sensor provided with the irregular parts formed alternately with an equal interval along a circumferential direction in each of end faces opposed each other in a pair of magnetic rings, as a means for changing a magnetic field of a magnetic circuit part, a detection position of magnetic flux density is offset from the center P between the end faces (irregular parts 17a, 16a and irregular parts 17b, 16b) opposed each other in the paired magnetic rings 12a, 12b to an axial direction of the shaft 11.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供一种扭矩传感器,其能够再次受到来自不规则部分的表面的泄漏磁通的影响,并且能够精确地检测施加在轴上的扭转扭矩。 解决方案:在该扭矩传感器中,设置有在一对磁环中彼此相对的每个端面中沿圆周方向等间隔交替形成的不规则部分,作为用于改变磁场的磁场的装置 磁通密度的检测位置偏离成对的磁环12a,12b中彼此相对的端面(不规则部分17a,16a和不规则部分17b,16b)之间的中心P到轴向方向 轴11.版权所有(C)2006,JPO&NCIPI