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    • 4. 发明授权
    • Linear guide device
    • 直线导轨装置
    • US06435720B1
    • 2002-08-20
    • US09488638
    • 2000-01-21
    • Shiroji YabeSoichiro KatoNobumitsu TakahashiRyoichi SatoYoshinori MizumuraHiroki Yamaguchi
    • Shiroji YabeSoichiro KatoNobumitsu TakahashiRyoichi SatoYoshinori MizumuraHiroki Yamaguchi
    • F16C2906
    • F16C33/3706F16C29/0609F16C29/0642
    • A linear guide device is provided with a plurality of rolling elements. A guide rail extending in an axial direction thereof and including a plurality of rolling element rolling grooves in two side portions thereof is provided in the device, wherein the rolling grooves extend in an axial direction of the guide rail. A slider includes a plurality of rolling element rolling grooves respectively opposed to the rolling element rolling grooves of the guide rail, wherein the slider is supported on the guide rail in such a manner that the slider is movable along the axial direction of the guide rail through the rolling movements of the rolling elements respectively inserted between the rolling element rolling grooves of the slider. The slider includes a rolling element endless circulation track along which the rolling elements are allowed to circulate endlessly; and a plurality of separators, each interposed between the adjoining rolling elements in the circulation direction of the rolling elements. A clearance is formed between a line of the rolling elements and the separators which are endlessly circulated.
    • 线性引导装置设有多个滚动元件。 在该装置中设置有沿其轴向延伸并且在其两个侧部中包括多个滚动元件滚动槽的导轨,其中滚动槽沿导轨的轴向延伸。 滑块包括分别与导轨的滚动元件滚动槽相对的多个滚动元件滚动槽,其中滑块以这样的方式被支撑在导轨上,使得滑块可沿导轨的轴向方向移动 分别插入滑块的滚动体滚动槽之间的滚动体的滚动运动。 滑块包括滚动元件循环循环轨道,使滚动元件沿其循环循环; 以及多个分离器,每个分离器在滚动元件的循环方向上插入相邻的滚动元件之间。 在滚动元件的线和不断循环的分离器之间形成间隙。
    • 5. 发明授权
    • Linear guide assembly
    • US06287006B1
    • 2001-09-11
    • US09456500
    • 1999-12-08
    • Toru TsukadaShiroji YabeNobuyuki OsawaKenjiro Shiki
    • Toru TsukadaShiroji YabeNobuyuki OsawaKenjiro Shiki
    • F16C2906
    • F16C29/0638F16C33/585
    • Three rows of ball rolling grooves 23A to 23C are formed in each side of a guide rail 21, while being vertically arrayed. Three rows of ball rolling grooves 25A to 25C are also formed on the inner surface of each of the legs of a slider 22. The ball rolling grooves 25A to 25C are respectively disposed in opposition to the ball rolling grooves 23A to 23C to thereby form ball sliding passages 26A to 26C. In either of the upper or lower ball rolling passage 26A or 26C, each ball contacts, at four points, with the surfaces of the ball rolling groove 23A or 23C of the guide rail 21 and the ball rolling groove 25A or 25C of the slider 22. In the remaining ball rolling passages, each ball contacts at two points with the surfaces of the ball rolling grooves. One of lines L1 and L4, each of which connects two opposite contact points of those four ones in the upper or lower ball rolling passage is oriented in the same direction as of lines L2 and L3 connecting the contact points in the remaining ball rolling passages. With such a construction, the upper, medium and lower rows of ball trains receive all loads acting on the slider in share, whereby the linear guide assembly exhibits its maximum load capacity against the loads.
    • 7. 发明授权
    • Linear guide assembly
    • 直线导轨组件
    • US06783278B2
    • 2004-08-31
    • US10388742
    • 2003-03-17
    • Toru TsukadaShiroji YabeNobuyuki OsawaKenjiro Shiki
    • Toru TsukadaShiroji YabeNobuyuki OsawaKenjiro Shiki
    • F16C2906
    • F16C29/0638F16C33/585
    • Three rows of ball rolling grooves 23A to 23C are formed in each side of a guide rail 21, while being vertically arrayed. Three rows of ball rolling grooves 25A to 25C are also formed on the inner surface of each of the legs of a slider 22. The ball rolling grooves 25A to 25C are respectively disposed in opposition to the ball rolling grooves 23A to 23C to thereby form ball sliding passages 26A to 26C. In either of the upper or lower ball rolling passage 26A or 26C, each ball contacts, at four points, with the surfaces of the ball rolling groove 23A or 23C of the guide rail 21 and the ball rolling groove 25A or 25C of the slider 22. In the remaining ball rolling passages, each ball contacts at two points with the surfaces of the ball rolling grooves. One of lines L1 and L4, each of which connects two opposite contact points of those four ones in the upper or lower ball rolling passage is oriented in the same direction as of lines L2 and L3 connecting the contact points in the remaining ball rolling passages. With such a construction, the upper, medium and lower rows of ball trains receive all loads acting on the slider in share, whereby the linear guide assembly exhibits its maximum load capacity against the loads.
    • 三列滚珠滚珠槽23A至23C形成在导轨21的每一侧,同时垂直排列。 在滑块22的每个腿的内表面上也形成有三列滚珠滚动槽25A至25C。滚珠滚动槽25A至25C分别设置成与滚珠滚动槽23A至23C相对,从而形成球 滑动通道26A至26C。 在上下滚动通道26A或26C中的任一个中,每个滚珠在四个点处与导轨21的滚珠滚动槽23A或23C的表面和滑块22的滚珠滚动槽25A或25C接触 在剩余的滚珠滚动通道中,每个滚珠与滚珠槽的表面两点接触。 在上,下滚珠滚动通道中连接四个相对的两个接触点的线L1和L4中的一个沿与连接剩余的滚珠滚动通道中的接触点的线L2和L3相同的方向定向。 通过这样的结构,上列,中排和下排的球列接收作用在滑块上的所有载荷,由此直线引导组件相对于载荷表现出其最大载荷能力。
    • 8. 发明授权
    • Linear guide assembly
    • US06558040B2
    • 2003-05-06
    • US10118161
    • 2002-04-09
    • Toru TsukadaShiroji YabeNobuyuki OsawaKenjiro Shiki
    • Toru TsukadaShiroji YabeNobuyuki OsawaKenjiro Shiki
    • F16C2906
    • F16C29/0638F16C33/585
    • Three rows of ball rolling grooves 23A to 23C are formed in each side of a guide rail 21, while being vertically arrayed. Three rows of ball rolling grooves 25A to 25C are also formed on the inner surface of each of the legs of a slider 22. The ball rolling grooves 25A to 25C are respectively disposed in opposition to the ball rolling grooves 23A to 23C to thereby form ball sliding passages 26A to 26C. In either of the upper or lower ball rolling passage 26A or 26C, each ball contacts, at four points, with the surfaces of the ball rolling groove 23A or 23C of the guide rail 21 and the ball rolling groove 25A or 25C of the slider 22. In the remaining ball rolling passages, each ball contacts at two points with the surfaces of the ball rolling grooves. One of lines L1 and L4, each of which connects two opposite contact points of those four ones in the upper or lower ball rolling passage is oriented in the same direction as of lines L2 and L3 connecting the contact points in the remaining ball rolling passages. With such a construction, the upper, medium and lower rows of ball trains receive all loads acting on the slider in share, whereby the linear guide assembly exhibits its maximum load capacity against the loads.
    • 9. 发明授权
    • Linear guide assembly
    • 直线导轨组件
    • US06394653B2
    • 2002-05-28
    • US09917709
    • 2001-07-31
    • Toru TsukadaShiroji YabeNobuyuki OsawaKenjiro Shiki
    • Toru TsukadaShiroji YabeNobuyuki OsawaKenjiro Shiki
    • F16C2906
    • F16C29/0638F16C33/585
    • Three rows of ball rolling grooves 23A to 23C are formed in each side of a guide rail 21, while being vertically arrayed. Three rows of ball rolling grooves 25A to 25C are also formed on the inner surface of each of the legs of a slider 22. The ball rolling grooves 25A to 25C are respectively disposed in opposition to the ball rolling grooves 23A to 23C to thereby form ball sliding passages 26A to 26C. In either of the upper or lower ball rolling passage 26A or 26C, each ball contacts, at four points, with the surfaces of the ball rolling groove 23A or 23C of the guide rail 21 and the ball rolling groove 25A or 25C of the slider 22. In the remaining ball rolling passages, each ball contacts at two points with the surfaces of the ball rolling grooves. One of lines L1 and L4, each of which connects two opposite contact points of those four ones in the upper or lower ball rolling passage is oriented in the same direction as of lines L2 and L3 connecting the contact points in the remaining ball rolling passages. With such a construction, the upper, medium and lower rows of ball trains receive all loads acting on the slider in share, whereby the linear guide assembly exhibits its maximum load capacity against the loads.
    • 三列滚珠滚珠槽23A至23C形成在导轨21的每一侧,同时垂直排列。 在滑块22的每个腿的内表面上也形成有三列滚珠滚动槽25A至25C。滚珠滚动槽25A至25C分别设置成与滚珠滚动槽23A至23C相对,从而形成球 滑动通道26A至26C。 在上下滚动通道26A或26C中的任一个中,每个滚珠在四个点处与导轨21的滚珠滚动槽23A或23C的表面和滑块22的滚珠滚动槽25A或25C接触 在剩余的滚珠滚动通道中,每个滚珠与滚珠槽的表面两点接触。 在上,下滚珠滚动通道中连接四个相对的两个接触点的线L1和L4中的一个沿与连接剩余的滚珠滚动通道中的接触点的线L2和L3相同的方向定向。 通过这样的结构,上列,中排和下排的球列接收作用在滑块上的所有载荷,由此直线引导组件相对于载荷表现出其最大载荷能力。