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    • 1. 发明授权
    • Steering damper apparatus
    • 转向阻尼器
    • US06769707B2
    • 2004-08-03
    • US10231229
    • 2002-08-30
    • Yosuke HasegawaTakeyasu ItabashiKanji HayashiTakeshi WakabayashiOsamu Bunya
    • Yosuke HasegawaTakeyasu ItabashiKanji HayashiTakeshi WakabayashiOsamu Bunya
    • B62K2108
    • B62K21/08
    • In a steering damper utilizing hydraulic pressure, even if generation of a damping force is controlled in correspondence with an external force inputted to a handle upon external perturbations and the like, the damping force changes due to change in liquid temperature of working liquid. Accordingly, to precisely control the damping force, correction based on change in liquid temperature of the working liquid is required. However, to measure the change in liquid temperature of the working liquid, it is necessary to provide a particular measurement device requiring a complicated structure, which increases the number of parts and costs. Accordingly, the present invention has an object to provide a steering damper which can easily temperature-correct the damping force without such difficulty. A liquid chamber is provided in a main body of a steering damper. An inside of the liquid chamber is partitioned into a right liquid chamber and a left liquid chamber by a rotatable partition wall integral with a shaft coaxial with a steering shaft. Both liquid chambers are connected with each other by a liquid passage, and a control valve is provided in the middle of the passage such that the damping force is variable. A control device drive-controls the control valve in correspondence with a turning angle speed of the shaft and the partition wall, thereby controls the damping force, and corrects the damping force based on intake temperature information detected by an intake temperature sensor.
    • 在使用液压的转向阻尼器中,即使在外部扰动等输入到手柄中的外力相应地控制阻尼力的产生时,阻尼力由于工作液体的液体温度的变化而变化。 因此,为了精确地控制阻尼力,需要基于工作液体的液温变化的校正。 然而,为了测量工作液体的液体温度的变化,需要提供一种需要复杂结构的特定测量装置,这增加了部件数量和成本。 因此,本发明的目的是提供一种能够容易地对阻尼力进行温度校正而没有困难的转向阻尼器。 在转向阻尼器的主体中设置有液体室。 液体室的内部通过与转向轴同轴的轴一体的可旋转分隔壁分隔成右液室和左液室。 两个液体室通过液体通道彼此连接,并且控制阀设置在通道的中间,使得阻尼力是可变的。 控制装置根据轴和分隔壁的转角速度驱动控制控制阀,从而控制阻尼力,并根据由进气温度传感器检测到的进气温度信息来校正阻尼力。
    • 2. 发明授权
    • Air pressure detecting device for wheel
    • 车轮气压检测装置
    • US06753768B2
    • 2004-06-22
    • US09988765
    • 2001-11-20
    • Toshio YamagiwaTomoyuki HaradaOsamu Bunya
    • Toshio YamagiwaTomoyuki HaradaOsamu Bunya
    • B60C2300
    • B60C23/006B60C23/0408B60C23/0494
    • An air pressure detecting device serves to detect the air pressure of a wheel of a vehicle which has a tire tube disposed in a tire, the air pressure detecting device is disposed between the tire tube and the rim of the wheel portion for detecting the air pressure of the tire. The air pressure detecting device has a pressure bearing plate held in contact with the outer surface of the tire tube, a pressure sensor for detecting a pressure of the pressure bearing plate, and a detecting and transmitting unit for detecting pressure information from the pressure sensor, converting the pressure information into an electric signal, and transmitting the electric signal as a radio wave. The pressure bearing plate, the pressure sensor, and the detecting and transmitting unit are superposed in the order named. The components including the pressure bearing plate, the pressure sensor, and the detecting and transmitting circuit can be installed without the need for a special modification of the tire tube and the rim. As a result, the cost of the air pressure detecting device can be reduced.
    • 气压检测装置用于检测具有设置在轮胎中的轮胎胎的车辆的车轮的空气压力,气压检测装置设置在轮胎管与车轮部分的轮辋之间,用于检测气压 的轮胎。 气压检测装置具有与轮胎管的外表面保持接触的压力承载板,用于检测承压板的压力的压力传感器,以及用于检测来自压力传感器的压力信息的检测和传递单元, 将压力信息转换为电信号,并将电信号作为无线电波发送。 压力承载板,压力传感器和检测和传输单元按照命名重叠。 可以安装包括压力承载板,压力传感器和检测和传输回路的部件,而不需要对轮胎管和轮辋进行特殊的修改。 结果,可以降低气压检测装置的成本。
    • 4. 发明授权
    • Steering damper device
    • 转向阻尼器
    • US06817265B2
    • 2004-11-16
    • US10102848
    • 2002-03-22
    • Yosuke HasegawaTakeyasu ItabashiKanji HayashiTakeshi WakabayashiOsamu Bunya
    • Yosuke HasegawaTakeyasu ItabashiKanji HayashiTakeshi WakabayashiOsamu Bunya
    • F16F914
    • F16F9/145B62K21/08Y10T74/2078Y10T74/20822
    • A steering damper device attenuating the oscillations of the handlebar of a motorcycle during operation, and more particularly, a device capable of varying a damping force variable. The steering damping device prevents the adverse effect of oscillations of the handlebar that would otherwise occur when the load on the front wheel of the motorcycle becomes light. The device includes a rotary steering damper provided in a coaxial manner on a steering shaft. Either a damping force or zero damping force is produced by a variable valve arranged in the bypass passage communicating with a right liquid chamber and a left liquid chamber. The variable valve is controlled by a control device and generates a damping force in the steering damper only when the acceleration of the motorcycle as detected by the acceleration sensor exceeds a threshold value.
    • 一种在操作期间衰减摩托车车把的振荡的转向阻尼器装置,更具体地说,是能够改变阻尼力变量的装置。 转向阻尼装置防止当摩托车前轮上的负载变轻时否则会产生手把的振荡的不利影响。 该装置包括在转向轴上以同轴方式设置的旋转转向阻尼器。 阻尼力或零阻尼力是通过布置在与右液体室和左液体室连通的旁通通道中的可变阀产生的。 可变阀由控制装置控制,仅在加速度传感器检测到的摩托车的加速度超过阈值时才在转向阻尼器中产生阻尼力。
    • 5. 发明授权
    • Steering damper system
    • 方向阻尼系统
    • US06742794B2
    • 2004-06-01
    • US10321696
    • 2002-12-18
    • Osamu BunyaTakehiko NanriKanji HayashiTakeshi Wakabayashi
    • Osamu BunyaTakehiko NanriKanji HayashiTakeshi Wakabayashi
    • B62K2112
    • F16F9/466B62K21/08F16F9/125
    • A liquid pressure type steering damper system for generating a damping force for preventing a handle from being swung due to a kick-back upon a disturbance wherein the generation of the damping force is nonlinear so that the steering angle would not be enlarged so much even if the kick-back becomes greater. A liquid pressure type steering damper is provided with a restriction passage for a working liquid and a solenoid-type control valve for varying the passage sectional area of the restriction passage. A needle portion is formed at the tip end of a plunger constituting the solenoid valve and is made to advance and retract in a restriction portion connected to a bypass passage. An annular gap passage is formed between the needle portion and the inside wall of the restriction portion so that, when the needle portion advances or retracts in proportion to the steering speed of a front wheel steering system, the clearance area of the gap passage is varied in the manner of a quadric curve in relation to the stroke amount of the needle portion, whereby the generation of the damping force is rapidly increased in the manner of a quadric curve. In addition, an upper limit of the damping force is restricted by an electromagnetic force of the solenoid valve.
    • 一种用于产生阻尼力的液压式转向阻尼器系统,其中阻尼力的产生由于阻尼力的产生而导致的防止手柄摆动,因此阻尼力的产生是非线性的,使得即使 反弹变得更大。 液压式转向阻尼器设置有用于工作液体的限制通道和用于改变限制通道的通道截面面积的螺线管式控制阀。 在构成电磁阀的柱塞的前端形成有针部,并且在与旁通通路连接的限制部中前进和后退。 在针部和限制部的内壁之间形成环状的间隙通路,使得当针部与前轮转向系统的转向速度成比例地前进或后退时,间隙通道的间隙区域变化 以相对于针部的行程量的二次曲线的方式,以二次曲线的方式快速地增加阻尼力的产生。 此外,阻尼力的上限受到电磁阀的电磁力的限制。