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    • 1. 发明授权
    • Fender supporting structure of two-wheeled motor vehicle
    • 两轮机动车的挡泥板支撑结构
    • US08016307B2
    • 2011-09-13
    • US12038883
    • 2008-02-28
    • Eiji AdachiYuichi KatoDaisuke SoenoYuji NoguchiTomohiro FuseKazuhito Hayashi
    • Eiji AdachiYuichi KatoDaisuke SoenoYuji NoguchiTomohiro FuseKazuhito Hayashi
    • B62D25/16
    • B62J15/02
    • A fender supporting structure of a two-wheeled motor vehicle capable of securing the rigidity of a mounting portion of a front fender and the rigidity of the entire front fender is provided, without enlarging the outer shape of the front fender more than necessary. In a fender supporting structure of a two-wheeled motor vehicle including a fender formed in an arc shape along the shape of a wheel, and a fender supporting member on which the fender is mounted from under the fender supporting member so as to cover an area above the wheel, at least two mounting surfaces at different levels in height are formed on the fender, at least two mounting surfaces at different levels in height are formed on the fender supporting member, and the fender is joined to the fender supporting member with these mounting surfaces.
    • 提供了一种能够确保前挡泥板的安装部分的刚性和整个前挡泥板的刚性的两轮机动车辆的挡泥板支撑结构,而不需要增大前挡泥板的外形。 在两轮机动车辆的挡泥板支撑结构中,包括沿着轮的形状形成为弧形的挡泥板,以及挡泥板支撑构件,挡泥板支撑构件从该挡泥板支撑构件的下方安装以覆盖一个区域 在挡板上方,在挡泥板上形成至少两个高度不同高度的安装表面,在挡泥板支撑构件上形成至少两个高度不同高度的安装表面,挡泥板与翼子板支撑构件接合 安装表面。
    • 6. 发明授权
    • Variable valve timing control apparatus
    • 可变气门正时控制装置
    • US08544433B2
    • 2013-10-01
    • US13163911
    • 2011-06-20
    • Yuji NoguchiKazunari AdachiTakeo AsahiAtsushi Homma
    • Yuji NoguchiKazunari AdachiTakeo AsahiAtsushi Homma
    • F01L1/34
    • F01L1/3442F01L2001/34479
    • A variable valve timing control apparatus, includes a drive-side rotary member, a driven-side rotary member, a partition portion arranged at least one of the drive-side rotary member and the driven-side rotary member to partition a fluid pressure chamber into an advanced angle chamber and a retarded angle chamber, a seal member arranged at a portion of the partition portion, which faces the other one of the drive-side rotary member and the driven-side rotary member, the seal member avoiding a hydraulic fluid from leaking between the advanced angle chamber and the retarded angle chamber, and a biasing member biasing the seal member, wherein at least one of the partition portion and a facing surface of the other one of the drive-side rotary member and the driven-side rotary member facing the partition portion is defined by an inclined surface of a tapered portion.
    • 一种可变气门正时控制装置,包括驱动侧旋转构件,从动侧旋转构件,布置在驱动侧旋转构件和从动侧旋转构件中的至少一个上的分隔部,以将流体压力室分隔成 前进角室和延迟角室,设置在分隔部分的与驱动侧旋转构件和从动侧旋转构件中的另一侧相对的部分处的密封构件,密封构件避免液压流体 在前进角室和延迟角室之间泄漏,偏压构件偏置密封构件,其中驱动侧旋转构件和从动侧旋转体中的另一个的分隔部和面对面中的至少一个 面向分隔部的构件由锥形部的倾斜面形成。
    • 9. 发明授权
    • Method for the hydrogenation treatment of a heavy hydrocarbon oil
    • 氢化处理重质烃油的方法
    • US4622127A
    • 1986-11-11
    • US719365
    • 1985-04-03
    • Yuji NoguchiYuzuru Itoh
    • Yuji NoguchiYuzuru Itoh
    • C10G65/10B01J29/00B01J35/10C10G47/16C10G65/02C10G65/12
    • C10G65/12C10G47/16C10G65/02
    • A method for the two-step catalytic hydrogenation treatment of a heavy hydrocarbon oil which comprisesfirst contacting the heavy hydrocarbon oil with a first solid catalyst comprising a metal component having catalytic activity for hydrogenation supported on a zeolite having catalytic activity for cracking a hydrocarbon, said zeolite having a (i) pore size distribution curve with two peaks, one peak in the range of 5 to 50 nm pore diameter and the other peak in the range of 50 to 1000 nm pore diameter and (ii) the volume of the pores having a diameter of 100 nm or larger is at least 0.05 ml/g; andthen contacting the heavy hydrocarbon oil which had been contacted with said first catalyst, with a second catalyst, said second catalyst having hydrogenation activity and which is different from said first catalyst.
    • 一种用于重质烃油的两步催化氢化处理的方法,其包括首先使重烃油与第一固体催化剂接触,所述第一固体催化剂包含具有催化活性的催化活性的负载在具有用于裂解烃的催化活性的沸石上的金属组分, 沸石具有(i)具有两个峰的孔径分布曲线,一个峰在5至50nm孔径范围内,另一个峰在50至1000nm孔径范围内,和(ii)具有 100nm以上的直径为0.05ml / g以上; 然后将与所述第一催化剂接触的重质烃油与第二催化剂接触,所述第二催化剂具有氢化活性并且不同于所述第一催化剂。