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    • 5. 发明授权
    • Face gearing with conical involute pinion
    • 面锥齿轮渐开线小齿轮
    • US5941124A
    • 1999-08-24
    • US54484
    • 1998-04-03
    • Jie Tan
    • Jie Tan
    • B23F15/06F16H1/14F16H55/08F16H55/18
    • F16H1/14B23F15/06F16H2055/173Y10T74/19623Y10T74/19665Y10T74/19958
    • The present invention is directed to a unique gear set including a conical involute pinion and a mating face gear. The mating face gear has an axis whose location and orientation is usually configured, as intersecting with or slightly offset from the pinion axis. The pinion teeth are formed as involute helicoids generated from a base cylinder. The mating face gear teeth are defined by the shape of the mating conical pinion teeth surface at that time when the two mating gears are specifically positioned so as to perform synchronous rotations about their respective axes of rotation. This arrangement allows the gears to mesh and transmit high torque at high speeds through an angle as required in helicopter transmissions and the like.
    • 本发明涉及一种独特的齿轮组,其包括锥形渐开线小齿轮和配合面齿轮。 配合面齿轮的轴线的位置和方向通常配置为与小齿轮轴线交叉或略微偏离小齿轮轴线。 小齿轮齿形成为从基座圆筒产生的渐开线螺旋体。 当两个配合齿轮被特别定位以便围绕它们各自的旋转轴线进行同步旋转时,配合面齿轮齿由当时的配合锥形小齿轮齿面的形状限定。 这种布置允许齿轮以高速通过直升机变速器等所要求的角度啮合和传递高扭矩。
    • 6. 发明授权
    • Tool for manufacturing crown wheels
    • 制造冠轮的工具
    • US5622459A
    • 1997-04-22
    • US464840
    • 1995-06-07
    • Augustinus F. H. BassteinGustaaf A. UittenbogaartAnne L. Sijtstra
    • Augustinus F. H. BassteinGustaaf A. UittenbogaartAnne L. Sijtstra
    • B23F15/06B23F21/02B23F21/16B23F5/27
    • B23F15/06B23F21/026B23F21/16Y10T407/1715Y10T407/172Y10T407/1745Y10T409/10159Y10T409/104929
    • A tool for manufacturing crown wheels by means of a machining hobbing process, which consists of a disc which can rotate about its axis and on the circumference of which machining elements are disposed whose cutting edges lie in the surface of a profile which mainly extends over the circumference of the disc as helical ribs. In each cross-sectional plane perpendicular to the screw direction of the ribs, the profile has the shape of a number of profile teeth situated next to one another. The profile shape is based on the base geometry of a pinion which is characteristic for the crown wheel to be manufactured and has involute toothing. The profile has such a shape that a part thereof lies outside the surface of revolution which is formed by rotation of the addendum circle of the characteristic pinion about the rotational axis of the tool. As a result, the tool has machining elements or machining element parts whose cutting edges lie in the surface of the portion of the profile outside the surface of revolution formed by rotation of the addendum circle and can serve for performing a premachining operation when manufacturing a crown wheel.
    • PCT No.PCT / NL94 / 00028 Sec。 371日期:1995年6月7日 102(e)日期1995年6月7日PCT 1994年2月3日PCT PCT。 第WO94 / 17945号公报 日期1994年8月18日用于通过加工滚齿工艺制造冠轮的工具,该工具由可围绕其轴线旋转的圆盘和其上设置加工元件的圆周组成的切削刃位于轮廓的表面中 其主要在圆盘的圆周上作为螺旋肋延伸。 在与肋的螺旋方向垂直的每个横截面中,轮廓具有彼此相邻的多个轮廓齿的形状。 轮廓形状基于小齿轮的基础几何形状,其是要制造的冠轮的特征,并具有渐开线齿。 轮廓具有这样的形状,即其一部分位于通过特征小齿轮的齿顶圆绕工具的旋转轴线旋转而形成的旋转表面之外。 因此,该工具具有加工元件或加工元件部件,其切削刃位于由凸起圆的旋转形成的旋转表面外侧的轮廓部分的表面中,并且可用于在制造冠部时执行预加工操作 轮。
    • 8. 发明授权
    • Axial gear train having syncline face cycloid gearing
    • 轴向齿轮系具有斜面摆线摆线
    • US4702126A
    • 1987-10-27
    • US706298
    • 1985-02-27
    • Takeichi Nakamura
    • Takeichi Nakamura
    • B23F15/00B23F15/06B23F19/02F16H1/32F16H55/08F16H1/02
    • B23F19/025B23F15/06F16H1/321Y10T74/19958
    • An axial gear train having syncline face cycloid gearing which includes an opposed, spaced apart first pair of face gears each of which is rotatably carried on respective shafts having a common axis, an inclined shaft fixed to the end of one of the two shafts, the inclined shaft having an axis passing at a point between the two face gears, and inclined at a given angle to the common axis, a face cycloid gear rotatably supported on the inclined shaft and a second pair of face gears, wherein the mating first and second face gears have a different number of teeth and the same modules, and wherein at least one of the mating face gears having the converged point of the tooth shapes of the tooth faces thereof displaced from the pitch cone vertex thereof along the generator of the pitch cone with the amount of displacement being equal to that of the displacement between the pitch cone vertices of the mating face gears to thereby ensure that the mutual teeth thereof are in accord with the tooth trace along their full length.
    • 具有斜面面摆线齿轮的轴向齿轮系,其包括相对的间隔开的第一对面齿轮,每个面齿轮可旋转地承载在具有公共轴线的相应轴上,固定到两个轴之一的端部的倾斜轴, 倾斜轴具有通过两个面齿轮之间的点的轴线,并以与公共轴线给定的角度倾斜,可旋转地支撑在倾斜轴上的面摆线齿轮和第二对面齿轮,其中配合第一和第二 面齿轮具有不同数量的齿和相同的模块,并且其中至少一个配合面齿轮具有其齿面的齿形的会聚点沿着俯仰锥体的发生器的俯仰锥顶点偏离 其位移量等于配合面齿轮的俯仰锥顶点之间的位移量,从而确保其相互啮合的齿与齿 h跟踪他们的全长。
    • 9. 发明授权
    • Indexing work table
    • 索引工作表
    • US4463488A
    • 1984-08-07
    • US244589
    • 1981-03-17
    • Daniel J. Pieczulewski
    • Daniel J. Pieczulewski
    • B23F15/06B23F23/08B23F23/12B23Q16/10B23P15/14
    • B23F23/08B23F15/06B23F23/1293B23Q16/102Y10T29/49476Y10T409/10795Y10T409/108904
    • A rotary indexing table having a generally circular top plate rotatably secured to a fixed base structure is disclosed. An outer race annular ring is connected to the top of the fixed base structure and extends radially over a central bore formed in the top face of the fixed based structure. A first ring of teeth is formed on the circular top plate. A second ring of teeth is formed on the outer race annular ring. Both the first and second rings of teeth face toward the central bore in the fixed base structure. A piston is slidably mounted in the central bore. The piston has a third ring of teeth aligned with the first ring of teeth and a fourth ring of teeth aligned with the second ring of teeth. A method of forming the third and fourth rings of teeth on the piston is also disclosed. The method includes mounting a sine block on a work table. Then fastening a rotary indexing table on the top of the sine block. Next, securing the piston to the top of the rotary indexing table. Then, setting a first predetermined angle on the sine block to fix a first coning angle from the central axis of the piston. This is followed by cutting one ring of concentric teeth on the piston. Then, adjusting the sine block to a second predetermined angle to fix a second coning angle from the central axis of the piston. Finally, cutting the other ring of concentric teeth on the piston.
    • 公开了一种具有可旋转地固定到固定基座结构的大致圆形顶板的旋转分度台。 外圈环形环连接到固定基座结构的顶部,并且径向延伸在形成在固定基础结构的顶面中的中心孔上。 在圆形顶板上形成第一环形环。 第二环形环形成在外圈环上。 第一和第二齿环都朝向固定基座结构中的中心孔。 活塞可滑动地安装在中心孔中。 活塞具有与第一环齿对齐的第三齿环和与第二齿环对准的第四齿环。 还公开了一种在活塞上形成第三和第四齿环的方法。 该方法包括将正弦块安装在工作台上。 然后将旋转分度台固定在正弦块的顶部。 接下来,将活塞固定到旋转分度台的顶部。 然后,在正弦块上设定第一预定角度,以从活塞的中心轴线固定第一锥角。 随后在活塞上切割一个同心圆环。 然后,将正弦块调节到第二预定角度,以便从活塞的中心轴线固定第二锥角。 最后,切割活塞上的另一个同心圆环。