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    • 5. 发明申请
    • MACHINING METHOD FOR A THREADED SECTION AND MACHINING DEVICE
    • 螺纹部分加工装置的加工方法
    • US20160008940A1
    • 2016-01-14
    • US14768918
    • 2014-02-06
    • NSK LTD.
    • Takashi YOSHIMURAYoshiteru KONDO
    • B23Q15/02B23Q17/20G05B19/404B23G1/02
    • B23Q15/02B23G1/02B23Q17/20G05B19/404G05B2219/49217G05B2219/49219
    • The present invention prevents the occurrence of variation in the lead of a threaded section of a machined article (19a) resulting from the effects of thermal expansion of the machined article (19a) during machining. A thermal expansion amount that relates to the axial direction of the machined article (19a) during machining is measured by measurement means (13), history information for the thermal expansion amount that relates to the machined article (19a) during machining is obtained from the result of the aforementioned measurement, and a control unit (17a) determines the relative rotational speed of a rotary drive shaft (11) or the feeding speed of an axial feeding device (16a) with respect to the next machined object (19a) that is to be machined on the basis of the history information for the thermal expansion amount of the machined object (19a) that has been machined.
    • 本发明防止加工制品(19a)在加工过程中由于加热制品(19a)的热膨胀的影响而导致加工制品(19a)的螺纹部分的引线的变化。 通过测量装置(13)测量与加工制品(19a)的轴向方向有关的热膨胀量,从加工中获得与加工制品(19a)相关的热膨胀量的历史信息,从 上述测量的结果,以及控制单元(17a)确定旋转驱动轴(11)的相对旋转速度或轴向进给装置(16a)相对于下一个加工对象(19a)的进给速度,即 根据加工对象物(19a)的热膨胀量的历史信息进行加工。
    • 6. 发明授权
    • Systematic displacement bone screw
    • 系统位移骨螺钉
    • US08419779B2
    • 2013-04-16
    • US12633277
    • 2009-12-08
    • James A. Rinner
    • James A. Rinner
    • A61B17/86A61F2/08
    • A61B17/8625A61B17/7035A61B17/863A61B17/8635A61B17/864B23G1/02
    • The present invention is a systematic displacement bone screw having minor and major thread diameters that are constant instead of tapered. The crests at the tip of the screw are narrower than the crests near the screw head resulting in a smaller distance between the thread flanks, which displaces and/or compresses more bone matter. Because the major diameter remains constant, the diameter of the hole made by inserting the screw is consistent over the length of the screw allowing the screw to be adjusted without loosening. The systematic displacement screw with varying crest thicknesses also avoids the need to use a larger diameter screw in place of a removed screw during a repair procedure. Rather than increasing the size of the hole, the systematic displacement screw can be used for the both the original screw and the replacement screw.
    • 本发明是一种系统性位移骨螺钉,其具有常数而不是锥形的小直径和大螺纹直径。 螺钉尖端的顶部比螺钉头附近的波峰窄,导致螺纹齿侧之间的距离更小,这样就移位和/或压缩更多的骨骼物质。 由于大直径保持恒定,通过插入螺钉所形成的孔的直径在螺杆长度上是一致的,允许调节螺丝而不松动。 具有不同波峰厚度的系统位移螺钉也避免了在维修过程中需要使用较大直径的螺钉来代替去除的螺钉。 而不是增加孔的尺寸,系统的位移螺钉可用于原始螺钉和替换螺钉。
    • 9. 发明申请
    • HIGHLY-VERSATILE VARIABLE-ANGLE BONE PLATE SYSTEM
    • 高可变角度骨板系统
    • US20080140130A1
    • 2008-06-12
    • US11971358
    • 2008-01-09
    • Jason S. ChanAlberto Angel Fernandez
    • Jason S. ChanAlberto Angel Fernandez
    • A61B17/58A61B17/56
    • A61B17/8057A61B17/1728A61B17/1782A61B17/8061A61B17/8605A61B17/864A61B2090/062A61B2090/067B23G1/02
    • A bone plate system for internal fixation of bone fractures includes a bone plate having a plurality of bone plate holes. The holes are constructed to receive either a non-locking, locking, or variable-angle locking bone screw. The holes have discrete columns of teeth or thread segments arranged around the inner surface of the hole for engaging threads on the heads of locking and variable-angle locking bone screws. Conventional locking bone screws engage the bone plate coaxially with the central axis of the bone plate hole. Variable-angle locking bone screws can engage the bone plate at a selectable angle within a range of selectable angles relative to the central axis of the bone plate hole. The head of the variable-angle locking screw is at least partially spherical, and the thread thereon has a profile that follows the arc-shaped radius of curvature of the spherical portion of the screwhead.
    • 用于骨折内固定的骨板系统包括具有多个骨板孔的骨板。 孔被构造成接收非锁定,锁定或可变角度锁定骨螺钉。 这些孔具有离散的孔或螺纹段,该孔排列在孔的内表面周围,用于接合锁定头和可变角度锁定骨螺钉的螺纹。 常规的锁定骨螺钉与骨板孔的中心轴线同轴地接合骨板。 可变角度锁定骨螺钉可以相对于骨板孔的中心轴线在可选角度的范围内以可选择的角度接合骨板。 可变角度锁定螺钉的头部至少部分是球形的,并且其上的螺纹具有跟随螺杆头的球形部分的弧形曲率半径的轮廓。
    • 10. 发明申请
    • Screw Device And Method Of Manufacturing The Same
    • 螺丝装置及其制造方法
    • US20070209465A1
    • 2007-09-13
    • US11547804
    • 2005-04-08
    • Takeki ShiraiYuji Tachikake
    • Takeki ShiraiYuji Tachikake
    • F16H25/22
    • F16H25/2223B23G1/02B23G2210/04F16H25/24F16H2025/2481Y10T74/19702
    • A screw device is provided with a screw shaft 5 formed, on an outer peripheral surface thereof, with a ball member rolling groove 6 in form of spiral, a nut 1 formed, on an inner peripheral surface thereof, with at least single one-turn of groove 4 constituted by a loaded ball rolling groove 2 having a partial circle less than one circle of groove and corresponding to the ball rolling groove 6 of the screw shaft and a ball circulation groove 3 connecting one and other ends of the loaded ball rolling grove 2, and a plurality of balls arranged and accommodated between the ball rolling groove 6 of the screw shaft 5 and the loaded ball rolling groove 2 and the ball circulation groove 3 of the nut 1. The loaded ball rolling groove 2 and the ball circulation groove 3 of the nut 1 are formed by cutting the inner peripheral surface of the nut which was preliminarily heat-treated. According to the screw device thus formed, the positional relationship between the loaded ball rolling groove and the ball circulation groove can be precisely set.
    • 螺杆装置具有在其外周面上形成有螺旋形的滚珠构件滚动槽6的螺杆轴5,在其内周面上形成有至少一个单圈的螺母1 槽4由具有小于一个圆的部分圆的负载滚珠滚动槽2构成,并且对应于螺杆轴的滚珠滚动槽6以及连接加载的滚珠滚筒的一端和另一端的滚珠循环槽3 螺杆轴5的滚珠滚珠6与滚珠滚珠滚珠2的滚珠滚珠槽6和螺母1的滚珠循环槽3之间形成多个滚珠。 螺母1的负载滚珠滚动槽2和滚珠循环槽3通过切割预先进行了热处理的螺母的内周面而形成。 根据这样形成的螺丝装置,可以精确地设定负载滚珠滚珠槽与滚珠循环槽之间的位置关系。