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    • 4. 发明授权
    • Belt for continuously variable transmission
    • 皮带用于连续变速传动
    • US06336884B1
    • 2002-01-08
    • US09509824
    • 2000-04-20
    • Hiroshi WakuiShigeru Kanehara
    • Hiroshi WakuiShigeru Kanehara
    • F16G122
    • F16G5/16
    • When a tangential friction force received by a pulley abutment surface 37 of a metal element 32 from a pulley is represented by FV; a radial distance from a point 45 of action of the tangential friction force to a rocking edge 40 located radially outside the friction force-acting point 45 is represented by L; a radially inward load received by the metal element 32 from a metal ring assembly 31 is represented by FL; and a thickness of the metal element 32 is represented by t, the radial distance L and the thickness t of the metal element are determined, so that a relation, L/t≦FL/2FV is established. Thus, even if a moment FV×L is applied to the metal element 32 by the tangential friction force FV, the moment FV×L can be canceled by a moment FL×(t/2) generated by a load FL for urging an edge a of a ring slot 35 by the metal ring assembly 31, thereby preventing the inclination of the metal element 32 to enhance the durability of the metal ring assembly.
    • 当由滑轮的金属元件32的滑轮抵接表面37接收到的切向摩擦力由FV表示时; 从切向摩擦力的作用点45到位于摩擦力作用点45径向外侧的摆动边缘40的径向距离由L表示; 金属元件32从金属环组件31接收的径向向内的载荷由FL表示; 并且金属元件32的厚度由t表示,确定金属元件的径向距离L和厚度t,使得建立L / t <= FL / 2FV的关系。 因此,即使通过切向摩擦力FV将金属元件32施加力矩FVxL,也可以通过用于推动环形槽的边缘a的负载FL产生的力矩FLx(t / 2)来抵消力矩FVxL 通过金属环组件31从而防止金属元件32的倾斜,从而提高金属环组件的耐久性。
    • 5. 发明授权
    • Belt for continuously variable transmission
    • 皮带用于连续变速传动
    • US07846049B2
    • 2010-12-07
    • US11245065
    • 2005-10-07
    • Shigeru KaneharaToru YagasakiMotonori Ohnuki
    • Shigeru KaneharaToru YagasakiMotonori Ohnuki
    • F16G1/00F16G5/16
    • F16G5/16
    • A belt (metal V belt) has a number of elements held by a ring in an endless shape and aligned in a peripheral direction of the ring. The element includes a head portion, a neck portion and a body portion. The body portion has a V face brought into contact with a drive pulley and a driven pulley and left and right locking edge portions wrapped with the ring and disposed on an inner peripheral side of the ring. The head portion is disposed on an outer peripheral side of the ring and having an ear portion extended to left and to right sides to be opposed to the locking edge portion. The neck portion integrally connects the body portion and the head portion. Front faces of the ear portion, the neck portion and the locking edge portion of the element are formed with contact portions capable of bringing the contiguous elements into contact with each other.
    • 带(金属V带)具有许多由环形成的环形元件,并且环绕圆周方向排列。 元件包括头部,颈部和主体部。 主体部分具有与驱动滑轮和从动滑轮接触的V面,以及环绕着环并设置在环的内周侧的左右锁定边缘部。 头部设置在环的外周侧,并且具有向左和向右延伸以与锁定边缘部相对的耳部。 颈部一体地连接主体部分和头部。 元件的耳部,颈部和锁定边缘部分的前表面形成有能够使连续元件彼此接触的接触部分。
    • 6. 发明申请
    • Belt for continuously variable transmission
    • 皮带用于连续变速传动
    • US20060079366A1
    • 2006-04-13
    • US11245065
    • 2005-10-07
    • Shigeru KaneharaToru YagasakiMotonori Ohnuki
    • Shigeru KaneharaToru YagasakiMotonori Ohnuki
    • F16G5/16F16G1/21
    • F16G5/16
    • A belt (metal V belt) has a number of elements held by a ring in an endless shape and aligned in a peripheral direction of the ring. The element includes a head portion, a neck portion and a body portion. The body portion has a V face brought into contact with a drive pulley and a driven pulley and left and right locking edge portions wrapped with the ring and disposed on an inner peripheral side of the ring. The head portion is disposed on an outer peripheral side of the ring and having an ear portion extended to left and to right sides to be opposed to the locking edge portion. The neck portion integrally connects the body portion and the head portion. Front faces of the ear portion, the neck portion and the locking edge portion of the element are formed with contact portions capable of bringing the contiguous elements into contact with each other.
    • 带(金属V带)具有许多由环形成的环形元件,并且环绕圆周方向排列。 元件包括头部,颈部和主体部。 主体部分具有与驱动滑轮和从动滑轮接触的V面,以及环绕着环并设置在环的内周侧的左右锁定边缘部。 头部设置在环的外周侧,并且具有向左和向右延伸以与锁定边缘部相对的耳部。 颈部一体地连接主体部分和头部。 元件的耳部,颈部和锁定边缘部分的前表面形成有能够使连续元件彼此接触的接触部分。
    • 8. 发明授权
    • Method for measuring free-state diameter of metal ring
    • 测量金属环自由度直径的方法
    • US06763602B2
    • 2004-07-20
    • US10273354
    • 2002-10-18
    • Mamoru ArikawaShigeru Kanehara
    • Mamoru ArikawaShigeru Kanehara
    • G01B2110
    • F16G5/16
    • A free-state diameter (a diameter in a state in which a residual stress has been released by cutting) of each of metal rings in a continuously variable transmission) is determined so that a predetermined compression stress and a predetermined tensile stress are applied to outer and inner surfaces of the metal ring in an endless state in which the metal ring is not cut, respectively. When the metal ring is cut in order to measure the free-state diameter, the metal ring is cut at least at two points so that cut ends do not interfere with each other in the free state, and the free-state diameter is then measured. Thus, the free-state diameter of the metal ring in a continuously variable transmission can be accurately measure.
    • 确定无级变速器中的每个金属环的自由状态直径(在切断中残留应力已被释放的状态下的直径),使得预定的压缩应力和预定的拉伸应力施加到外部 金属环的内表面分别为金属环未被切割的环状状态。 当切割金属环以测量自由状态直径时,至少在两个点处切割金属环,使得切割端在自由状态下彼此不干涉,然后测量自由状态直径 。 因此,可以精确地测量无级变速器中的金属环的自由状态直径。
    • 9. 发明授权
    • Method for setting free-state diameter of metal ring
    • 设置金属环自由度直径的方法
    • US06708383B2
    • 2004-03-23
    • US10272287
    • 2002-10-17
    • Mamoru ArikawaShigeru Kanehara
    • Mamoru ArikawaShigeru Kanehara
    • B23Q1700
    • F16G5/16Y10T29/49771Y10T29/49776Y10T29/49863
    • A free-state diameter, upon cutting each metal ring, is set so that when the ratio of a continuously variable transmission is a value in a TOP state and a metal ring receives a severe load, a corrected amplitude of a stress on an outer peripheral surface of the metal ring calculated from an amplitude and a middle value of the stress on the outer peripheral surface of the metal ring is equal to a corrected amplitude of a stress on an inner peripheral surface of the metal ring calculated from an amplitude and a middle value of the stress on the inner peripheral surface of the metal ring. Therefore, an appropriate free-state diameter is set in consideration of a stress based on a tensile load of the metal ring and a stress based on the bending load of the metal ring.
    • 在切割每个金属环时,自由状态直径被设定为使得当无级变速器的比率是TOP状态下的值并且金属环接受严重的负载时,校正的外围应力的振幅 由金属环的外周面上的应力的振幅和中间值计算的金属环的表面等于从振幅和中间计算的金属环的内周面上的应力的校正振幅 金属环的内周面上的应力值。 因此,考虑到基于金属环的拉伸载荷的应力和基于金属环的弯曲载荷的应力来设定适当的自由状态直径。
    • 10. 发明授权
    • Endless metal belt for metal belt type nonstep variable-speed transmission
    • 金属皮带式无级变速传动用无缝金属带
    • US06517458B2
    • 2003-02-11
    • US09813284
    • 2001-03-21
    • Shigeru Kanehara
    • Shigeru Kanehara
    • F16G121
    • F16G5/16
    • An endless metal belt (15) is formed by layering thin metal rings (30) in thicknesses to form tow layered ring structures (31) and fitting the two layered ring structures in slots (32a) formed in opposite side parts of each of metal blocks (32), extending on the opposite sides of a neck part (32e) of the metal block. The endless metal belt is extended between drive and driven pulleys (6, 11) respectively having variable effective diameters to change speed change ratio. Side edges of the inner and the outer circumference (30a, 30b) of the thin metal ring are rounded in round side edges of a radius RR of curvature, middle parts of opposite side surfaces (30c) of each thin metal ring are flat, front and rear edges of opposite side surfaces of the neck part of each metal block are rounded in round edges (32f) of a radius R0 of curvature, and the radius RR of curvature and the radius R0 of curvature are determined so that a stress relating to fatigue strength and induced in the inner circumference of the innermost thin metal ring (301) is equal to or lower than a stress relating to fatigue strength and induced in the inner side surface (30c) of the thin metal ring by the front and the rear edges of the side surface of the neck part of the metal block that come into contact with the thin metal ring.
    • 通过将薄金属环(30)的厚度分层而形成无端金属带(15),以形成丝束层状环结构(31),并将两层环结构装配在形成在每个金属块的相对侧部的槽(32a)中 (32),在所述金属块的颈部(32e)的相对侧延伸。 无级金属带在分别具有可变有效直径的驱动轮和从动带轮(6,11)之间延伸以改变速度变化率。 薄金属环的内周和外周(30a,30b)的边缘在曲率半径RR的圆形侧边缘中圆化,每个薄金属环的相对侧表面(30c)的中间部分是平的,前面 并且每个金属块的颈部的相对侧表面的后边缘在曲率半径R0的圆形边缘(32f)中圆化,并且确定曲率半径RR和曲率半径R0,使得与 在最内侧薄金属环(301)的内周部引起的疲劳强度等于或低于与金属环的内侧面(30c)的前后相对应的与疲劳强度相关的应力 与金属环接触的金属块的颈部的侧表面的边缘。