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    • 1. 发明授权
    • Accelerator pedal module
    • 加速踏板模块
    • US08464604B2
    • 2013-06-18
    • US12259370
    • 2008-10-28
    • Hidekazu WatanabeTetsuo HariuHaruhiko Suzuki
    • Hidekazu WatanabeTetsuo HariuHaruhiko Suzuki
    • G05G1/30
    • G05G1/38B60K26/02G05G5/03Y10T74/20534Y10T74/20888
    • An accelerator pedal is engaged with the rotor so that the accelerator pedal is pivotable about a rotation axis. A coil spring is arranged on a biasing axis that is generally tangential to an arc path, along which a protrusion of the rotor passes when the rotor rotates about the rotation axis. A holder is interposed between the protrusion of the rotor and the coil spring. A concave surface of the holder contacts a convex surface of the protrusion. A receiving portion of the holder receives the coil spring. The contact point is located between a second end and a first end of the coil spring. The concave surface of the holder and the convex surface of the protrusion are curved to satisfy a predetermined relationship.
    • 加速器踏板与转子接合,使得加速踏板可围绕旋转轴线枢转。 螺旋弹簧布置在偏置轴线上,该偏置轴线大体上与弧形路径相切,当转子围绕旋转轴线旋转时,该转子的突出部沿该偏转轴线通过。 保持器插入在转子的突起和螺旋弹簧之间。 保持器的凹面与凸起的凸面接触。 支架的接收部分接收螺旋弹簧。 接触点位于螺旋弹簧的第二端和第一端之间。 保持器的凹面和突起的凸面弯曲以满足预定的关系。
    • 2. 发明申请
    • ACCELERATOR PEDAL MODULE
    • 加速踏板模块
    • US20090183589A1
    • 2009-07-23
    • US12259370
    • 2008-10-28
    • Hidekazu WATANABETetsuo HariuHaruhiko Suzuki
    • Hidekazu WATANABETetsuo HariuHaruhiko Suzuki
    • G05G1/44
    • G05G1/38B60K26/02G05G5/03Y10T74/20534Y10T74/20888
    • An accelerator pedal is engaged with the rotor so that the accelerator pedal is pivotable about a rotation axis. A coil spring is arranged on a biasing axis that is generally tangential to an arc path, along which a protrusion of the rotor passes when the rotor rotates about the rotation axis. A holder is interposed between the protrusion of the rotor and the coil spring. A concave surface of the holder contacts a convex surface of the protrusion. A receiving portion of the holder receives the coil spring. The contact point is located between a second end and a first end of the coil spring. The concave surface of the holder and the convex surface of the protrusion are curved to satisfy a predetermined relationship.
    • 加速器踏板与转子接合,使得加速踏板可围绕旋转轴线枢转。 螺旋弹簧布置在偏置轴线上,该偏置轴线大体上与弧形路径相切,当转子围绕旋转轴线旋转时,该转子的突出部沿该偏转轴线通过。 保持器插入在转子的突起和螺旋弹簧之间。 保持器的凹面与凸起的凸面接触。 支架的接收部分接收螺旋弹簧。 接触点位于螺旋弹簧的第二端和第一端之间。 保持器的凹面和突起的凸面弯曲以满足预定的关系。
    • 3. 发明授权
    • Accelerator apparatus
    • 加速器装置
    • US08418581B2
    • 2013-04-16
    • US12403716
    • 2009-03-13
    • Tetsuo HariuHaruhiko Suzuki
    • Tetsuo HariuHaruhiko Suzuki
    • G05G1/30
    • B60K26/02G05G1/38Y10T74/20534
    • A rotational angle sensor and a connector are provided at a first-side portion and a second-side portion, respectively, of a sensor holder. The first-side portion is engaged with a base through a primary engaging arrangement, and the second-side portion is engaged with the base through a secondary engaging arrangement. The secondary engaging arrangement includes secondary engaging portions of the sensor holder, which are provided in the second-side portion of the sensor holder and are engaged with the base. A distance from an engaging point between the secondary engaging portion of the sensor holder and the base to the sensor is longer than a distance from the engaging point between the secondary engaging portion of the sensor holder and the base to the connector.
    • 旋转角传感器和连接器分别设置在传感器保持器的第一侧部分和第二侧部分。 第一侧部分通过主接合装置与基座接合,并且第二侧部分通过辅助接合装置与基部接合。 第二接合装置包括传感器保持器的第二接合部分,其设置在传感器保持器的第二侧部分中并与基部接合。 距离传感器保持器的辅助接合部分和基座与传感器之间的接合点的距离比从传感器保持器的辅助接合部分和基座到连接器之间的接合点的距离长。
    • 4. 发明授权
    • Accelerator device
    • 加速器装置
    • US08539858B2
    • 2013-09-24
    • US13456527
    • 2012-04-26
    • Takehiro SaitoHaruhiko SuzukiMasahiro MakinoYoshinori InuzukaTetsuo Hariu
    • Takehiro SaitoHaruhiko SuzukiMasahiro MakinoYoshinori InuzukaTetsuo Hariu
    • G05G1/14
    • B60K26/021
    • An accelerator pedal rotates a pedal rotor when depressed. Rotors located on both sides of the pedal rotor are relatively rotatable to the pedal rotor. Second helical teeth of the rotors project toward the pedal rotor and engage with first helical teeth of the pedal rotor to bias the rotors when the pedal rotor rotates in the accelerator opening direction. The pedal rotor is rotatable to an accelerator full-close position without interfering with the first helical teeth when the pedal rotor rotates in an accelerator closing direction. A first biasing unit biases the rotors in the accelerator closing direction. A second biasing unit biases the accelerator pedal or the pedal rotor in the accelerator closing direction.
    • 踩踏时,加速踏板旋转踏板转子。 位于踏板转子两侧的转子可相对于踏板转子旋转。 转子的第二螺旋齿向踏板转子突出并与踏板转子的第一螺旋齿啮合,当踏板转子沿油门开启方向旋转时偏压转子。 当踏板转子以加速器关闭方向旋转时,踏板转子可旋转到加速器全关位置而不干扰第一螺旋齿。 第一偏压单元在加速器闭合方向上偏压转子。 第二偏置单元在加速器闭合方向上偏压加速器踏板或踏板转子。
    • 6. 发明授权
    • Rotation angle detection device having bearing supported yoke fixed to object being detected
    • 旋转角度检测装置,其具有固定在检测对象上的轴承支撑的轭
    • US07498803B2
    • 2009-03-03
    • US11594814
    • 2006-11-09
    • Kazuyuki HorieTetsuo HariuYasunori KobayashiMasao Kano
    • Kazuyuki HorieTetsuo HariuYasunori KobayashiMasao Kano
    • G01B7/30
    • G01D5/145G05G1/38
    • A rotation angle detection device for detecting a rotation angle of an object has a substantially cylinder-shaped yoke, a magnetism generation unit which is fixed to an inner surface of the yoke, a magnetism detection member which is arranged substantially in a center axis of the yoke, at least one bearing which rotatably supports the yoke, and a support member which holds the bearing. The yoke is made of a magnetic metal, and fixedly mounted at the object to be rotatable integrally with the object. The magnetism generation unit generates a magnetic field substantially perpendicular to the center axis of the yoke. The magnetism detection member generates an output corresponding to a variation of the magnetic field to detect the rotation angle of the object relative to the magnetism detection member.
    • 用于检测物体的旋转角度的旋转角度检测装置具有基本上为圆柱形的轭,固定到轭的内表面的磁性产生单元,大致位于该轭的中心轴上的磁性检测构件 轭,可旋转地支撑轭的至少一个轴承和保持轴承的支撑构件。 磁轭由磁性金属制成,并且固定地安装在物体上以与物体一体旋转。 磁产生单元产生与轭的中心轴大致垂直的磁场。 磁检测部件产生与磁场变化相对应的输出,以检测物体相对于磁检测部件的旋转角度。
    • 7. 发明申请
    • Device for detecting deterioration of oil
    • 用于检测油的劣化的装置
    • US20060042966A1
    • 2006-03-02
    • US11196383
    • 2005-08-04
    • Tetsuo HariuKazuyuki HorieTakao Ban
    • Tetsuo HariuKazuyuki HorieTakao Ban
    • G01N27/26
    • G01N27/07G01N33/2888
    • A device for detecting deterioration degree of oil is composed of an electrode unit in a cylindrical coil shape and a detector circuit connected to the electrode unit. The electrode unit is composed of a first electrode plate and a second electrode plate, both wound in a coil shape with an insulating layer disposed therebetween. The electrode unit is dipped in oil, and a potential difference between the electrode plates is measured by the detector circuit. The oil deterioration degree is detected based on the potential difference that varies according to a pH level of the oil. A distance between the first and the second electrode plates is kept small and precise to enhance accuracy in detecting oil deterioration without making the detector size large.
    • 用于检测油的劣化程度的装置由圆柱形线圈形状的电极单元和连接到电极单元的检测器电路组成。 电极单元由第一电极板和第二电极板构成,两者均缠绕成线圈状,绝缘层设置在其间。 将电极单元浸入油中,并通过检测器电路测量电极板之间的电位差。 基于根据油的pH水平而变化的电位差来检测油劣化程度。 第一和第二电极板之间的距离保持小而精确,以提高检测油劣化的精度,而不会使检测器尺寸变大。
    • 8. 发明申请
    • Rotation angle detection device
    • 旋转角度检测装置
    • US20070103149A1
    • 2007-05-10
    • US11594814
    • 2006-11-09
    • Kazuyuki HorieTetsuo HariuYasunori KobayashiMasao Kano
    • Kazuyuki HorieTetsuo HariuYasunori KobayashiMasao Kano
    • G01B7/30
    • G01D5/145G05G1/38
    • A rotation angle detection device for detecting a rotation angle of an object has a substantially cylinder-shaped yoke, a magnetism generation unit which is fixed to an inner surface of the yoke, a magnetism detection member which is arranged substantially in a center axis of the yoke, at least one bearing which rotatably supports the yoke, and a support member which holds the bearing. The yoke is made of a magnetic metal, and fixedly mounted at the object to be rotatable integrally with the object. The magnetism generation unit generates a magnetic field substantially perpendicular to the center axis of the yoke. The magnetism detection member generates an output corresponding to a variation of the magnetic field to detect the rotation angle of the object relative to the magnetism detection member.
    • 用于检测物体的旋转角度的旋转角度检测装置具有基本上为圆柱形的轭,固定到轭的内表面的磁性产生单元,大体上设置在磁轭的中心轴上的磁性检测构件 轭,可旋转地支撑轭的至少一个轴承和保持轴承的支撑构件。 磁轭由磁性金属制成,并且固定地安装在物体上以与物体一体旋转。 磁产生单元产生与轭的中心轴大致垂直的磁场。 磁检测部件产生与磁场变化相对应的输出,以检测物体相对于磁检测部件的旋转角度。