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    • 1. 发明授权
    • Rolling bearing
    • 滚动轴承
    • US07249892B2
    • 2007-07-31
    • US10520184
    • 2003-07-18
    • Hiromichi TakemuraYoshiaki Sakajiri
    • Hiromichi TakemuraYoshiaki Sakajiri
    • F16C19/06
    • F16H57/0489F16C19/06F16C33/58F16C2240/40F16C2240/60F16C2240/70F16C2240/76F16C2361/63F16H9/16F16H9/18
    • When a minimum thickness of a part where an outer ring raceway is provided on a middle portion in the axial direction of an outer ring is h, and a diameter of each rolling element is Da, the relationship 0.4 Da≦h 0.8 Da is satisfied. As a result, even when the outer ring 4a is fixed in a transmission case of low-rigidity, elastic deformation of the outer ring can be prevented without needlessly increasing the thickness h of the outer ring.When an outer diameter of an outer ring is D, a width of this outer ring in the axial direction is W, a minimum thickness of a part where the outer ring raceway is provided on a middle portion in the axial direction of the outer ring is h, and a diameter of each ball is Da, the respective dimensions are controlled such that a value K calculated by {(h1.5·W)/(Da1.1·.D0.5)} satisfies the relationship 1.20≦K≦2.00. As a result, sufficient rigidity of the outer ring can be maintained, and early exfoliation based on elastic deformation of the outer ring can be prevented without needlessly increasing the size of the outer ring.
    • 当在外圈的轴向的中间部分设置外圈滚道的部分的最小厚度为h,并且每个滚动元件的直径为Da时,满足关系0.4 Da <= h 0.8 Da 。 结果,即使当外圈4a固定在低刚性的变速箱中时,也可以防止外圈的弹性变形而不用增加外圈的厚度h。 当外圈的外径为D时,该外圈的轴向宽度为W,在外圈的轴向的中间部设置有外圈滚道的部分的最小厚度为 h,并且每个球的直径为Da,各个尺寸被控制为使得通过{(h <1.5 W)/(Da> 1.1)计算的值K D <0.5>}}满足关系1.20 <= K <= 2.00。 结果,可以保持足够的外圈的刚性,并且可以防止基于外圈的弹性变形的早期剥离,而不用增加外圈的尺寸。
    • 4. 发明授权
    • Rolling bearing
    • 滚动轴承
    • US06342109B1
    • 2002-01-29
    • US09420836
    • 1999-10-19
    • Hiromichi TakemuraKazuo SekinoShigeru OkitaYasuo Murakami
    • Hiromichi TakemuraKazuo SekinoShigeru OkitaYasuo Murakami
    • C23C822
    • F16C33/62F16C2240/54Y10S384/913
    • As a steel material for an inner race, an outer race and a rolling element constituting a rolling bearing, there is used one containing carbon (C) and chromium (Cr) in an amount of 0.65 wt % to 1.10 wt % and 2.0 wt % to 6.0 wt %, respectively. At least one of the inner race, the outer race and the rolling element is formed from the steel material. The inner race, outer race and the rolling element thus formed is then subjected to hardening, tempering and polishing. Further, a chromium oxide layer (Cr2O3) having a thickness of 5 nm to 300 nm is formed on a race track surface of at least one of the inner race, the outer race and the rolling element. If the rolling bearing is used in operation under the lubrication at a high traction coefficient with water mixed therein, finely particulate molybdenum carbide and/or vanadium carbide having a particle diameter of 50 nm to 300 nm is distributed in the matrix.
    • 作为构成滚动轴承的内圈,外圈和滚动体的钢材,使用含有0.65重量%〜1.10重量%的碳(C)和铬(Cr),2.0重量% 至6.0重量%。 内圈,外圈和滚动体中的至少一个由钢材形成。 然后将如此形成的内圈,外圈和滚动元件进行硬化,回火和抛光。 此外,在内圈,外圈和滚动体中的至少一个的座圈表面上形成有厚度为5nm〜300nm的氧化铬层(Cr 2 O 3)。 如果在与水混合的高牵引系数的润滑下使用滚动轴承,则在基体中分布有粒径为50nm〜300nm的微细的碳化钼和/或碳化钒。
    • 6. 发明申请
    • Spacer for Radial Needle Roller Bearing
    • 径向滚针轴承
    • US20130004111A1
    • 2013-01-03
    • US13498065
    • 2011-11-25
    • Masaki SadamuraHiromichi TakemuraKoichi Kitamura
    • Masaki SadamuraHiromichi TakemuraKoichi Kitamura
    • F16C33/46
    • F16C19/48F16C19/463F16C33/37F16C33/485F16C33/6651F16C2361/61F16H2057/085
    • Provided is a spacer for a radial needle roller bearing that keeps dynamic torque of a double-row radial needle roller bearing low, while suppressing wear in areas of rubbing with adjacent members by causing there to be a film of oil having a proper amount of oil to exist in the areas of rubbing without excessive surface area. Concave sections that are recessed in a direction away from the adjacent members of the column sections 13a or rim sections 12 are formed in the outside surfaces in the radial direction and/or circumferential direction of the column sections 13a, and/or in the outside surfaces in the radial and/or axial direction of the rim sections 12, and preferably radial concave sections 22 having bottom and that are recessed toward the inside in the radial direction are formed in the outside surfaces in the radial direction of the column sections 13a.
    • 提供一种用于径向滚针轴承的间隔件,其保持双列径向滚针轴承的动态扭矩低,同时通过使得存在具有适当油量的油膜而抑制邻近部件摩擦区域的磨损 存在于没有过度表面积的摩擦区域。 在柱部13a或边缘部12的相邻部件的方向上凹陷的凹部形成在柱部13a的径向和/或圆周方向的外表面和/或外表面 在边缘部分12的径向和/或轴向方向上,并且优选地,在柱部分13a的径向方向上的外表面中形成具有底部并且在径向方向上朝内侧凹陷的径向凹部22。
    • 8. 发明申请
    • Rolling Bearing
    • 滚动轴承
    • US20070243962A1
    • 2007-10-18
    • US11764870
    • 2007-06-19
    • Hiromichi TakemuraYoshiaki Sakajiri
    • Hiromichi TakemuraYoshiaki Sakajiri
    • F16H7/20
    • F16H57/0489F16C19/06F16C33/58F16C2240/40F16C2240/60F16C2240/70F16C2240/76F16C2361/63F16H9/16F16H9/18
    • When a minimum thickness of a part where an outer ring raceway is provided on a middle portion in the axial direction of an outer ring is h, and a diameter of each rolling element is Da, the relationship 0.4Da≦h 0.8Da is satisfied. As a result, even when the outer ring 4a is fixed in a transmission case of low-rigidity, elastic deformation of the outer ring can be prevented without needlessly increasing the thickness h of the outer ring. When an outer diameter of an outer ring is D, a width of this outer ring in the axial direction is W, a minimum thickness of a part where the outer ring raceway is provided on a middle portion in the axial direction of the outer ring is h, and a diameter of each ball is Da, the respective dimensions are controlled such that a value K calculated by {(h1.5·W)/(Da1.1·D0.5)} satisfies the relationship 1.20≦K≦2.00. As a result, sufficient rigidity of the outer ring can be maintained, and premature flaking based on elastic deformation of the outer ring can be prevented without needlessly increasing the size of the outer ring.
    • 当在外圈的轴向上的中间部分设置外圈滚道的部分的最小厚度为h,并且每个滚动元件的直径为Da时,满足关系0.4Da <= h 0.8Da 。 结果,即使当外圈4a固定在低刚性的变速箱中时,也可以防止外圈的弹性变形而不用增加外圈的厚度h。 当外圈的外径为D时,该外圈的轴向宽度为W,在外圈的轴向的中间部设置有外圈滚道的部分的最小厚度为 h,并且每个球的直径为Da,相应的尺寸被控制为使得通过{(h <1.5W)W / /(Da&gt; .W)/ 0.5)}满足关系1.20 <= K <= 2.00。 结果,能够保持外圈的足够的刚性,并且可以防止基于外圈的弹性变形的过早剥落而不用增加外圈的尺寸。