- 更多网络例句与中间齿轮相关的网络例句 [注:此内容来源于网络,仅供参考]
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Author takes a crank-leader mechanism as the instance, demonstrates general method of adjustability mechanism design.
对具有一个中间自调齿轮的齿轮机构无过约束设计方案,深入的进行了其自调机理的分析。
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Through the intermediate gear Z12, the elevator shaft's gear Z13 and shaft are driven to turn, then via friction cone clutch or planetary mechanism the drum obtains six hoisting speeds.
a、冲击钻进:将变速箱右手柄板至"卷扬"位置,变速箱Ⅲ轴齿轮Z8与Ⅳ轴的齿轮Z10啮合,经中间齿轮Z12带动升降机轴上齿轮Z13及轴旋转,通过锥形摩擦离合器或游星轮机构使卷筒获得六种提升进度
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Design of the CPA Stable union of base plate and intermediate plates with integral rams inserted centrically into each other Strong and rigid connection of the linear position measuring system with all ram systems Every ram system equipped with main hydraulic ports Every ram system equipped with additional hydraulic ports for movements outside the press Mechanical-hydraulic quick-clamping device Adapter travelling gear for rail-bound transport Complete adapter changing system Advantages Good accessibility for tool changeover Quick and simple adapter change with hydraulic quick-couplers and electric travel gear High compacting forces in both directions Short setup times Automatic centering and clamping of the adapter relative to the machine axis Tool presetting outside the press possible High guiding accuracy
设计的注册会计师安定联盟的底板和中间板块与积分公羊插入centrically到对方强大和刚性连接的线性位置测量系统与所有的RAM系统每一个内存系统配备的主要液压港口每一个内存系统配备额外的液压港口动作外新闻机械式液压快夹紧装置适配器行驶齿轮为铁路运输的约束完成适配器变换系统优势良好的无障碍环境,为工具换届快速简单的适配器改变与液压快车钩及电动旅行齿轮高压实势力在两个方向短期调整时间自动定心夹紧的适配器相对机床主轴刀具预调外新闻可能高指导的准确性
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The coefficients of load distribution along the contact line of pitch position in axial middle section are obtained.
应用它计算了六对齿轮在不同接触线上的载荷分布,得出齿轮在轴向中间截面节点位置啮合时接触线上的载荷分布系数,分析了轮齿刚度的变化规律,给出轮齿刚度的简化计算公式。
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Firstly,using the method of concentrate mass this paper establish a non-linear dynamics model of a two-stage gear train with backlashe between the gear pair,and through analysed the dynamics model,the torsional motion differential equations are got , on this basis,then calculate the torsional motion differential equations using Runge—Kutta method ,and discuss how to influence the dynamics characteristic of system when these parameters chage such as mesh frequentcies、 stiffness of the intermediate shaft、the ration of mesh frequentcies.and discuss when the chaos will happen under the change of these parameters.
首先用集中质量法建立系统的含间隙的非线性动力学模型,并根据牛顿力学定理,得到系统的运动微分方程。然后对所建立的运动微分方程运用四阶变步长Runge—Kutta方法进行了求解,并对计算结果进行分析,研究了齿轮啮合频率、中间联接轴的刚度,一、二级齿轮的啮合频率比等参数变化时,对系统非线性动力学特性的影响规律,并讨论了当参数如何变化时会导致系统的混沌响应的出现。
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The key point of the structure of the utility model is that: the other side of the reducer that is arranged on the platform is provided with a hoisting device; the roller shaft end of the electronic controlled windlass is provided with a hub, a damper brake is arranged outside the hub; the input castellated shaft of the reducer that is arranged on the electronic windlass is provided with duplicate gears that have different amount of teeth.
本实用新型包括标准节,两侧标准节的中间为平台,电控卷扬机的卷绳通过平台上的滑轮同吊盘相连;平台上的减速器的一侧设置有可提升平台的具有卷绳的滚筒,平台上设置有具有滑轮的支架,其结构要点平台上的减速器的另一侧设置有提升装置;电控卷扬机的滚筒轴端设置有轮毂,轮毂外设置有制动闸;电控卷扬机的减速器的输入花键轴上设置具有不同齿数的双连齿轮,双连齿轮之间的凹槽内的拨杆同减速器外的摇把相连。
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Calculates the coordinates of the spindle and drive shaft and checking the center distance, determined department spindle must use dislodges the gear.
根据柴油机齿轮室盖的结构特点、加工部位、尺寸精度、表面粗糙度及生产率等要求,确定该机床为单工位卧式组合机床;为确保加工精度,采用&一面两销&的定位方案;为实现无级调速,安全可靠,选择液压滑台;根据零件的大小及被加工孔的位置确定主轴箱的轮廓尺寸;由加工工艺选择滚珠轴承主轴,通过计算扭矩确定主轴和传动轴的直径;齿轮的模数是通过类比法确定;齿轮齿数和中间传动轴的位置是由&计算、作图和多次试凑&相结合的办法确定;计算主轴、传动轴的坐标并进行中心距验算,确定部分轴上需采用变位齿轮;轴上的齿轮套、键等零件按轴号选取相应的标准件。
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A handle is arranged in the middle of the frame, and the handle is connected with a big bevel wheel through a small bevel wheel.
它包括框架、左伸缩臂、右伸缩臂,所述框架为中间空形,所述左伸缩臂和右伸缩臂的内侧为管形,外侧为蝶形,蝶形面上设有二排孔,所述框架两端分别嵌套左伸缩臂内侧和右伸缩臂内侧,左伸缩臂内顶端设置有左螺母,右伸缩臂内顶端设置有右螺母,所述的框架中部设有手柄,手柄通过小斜齿轮连接大斜齿轮,大斜齿轮连接有螺杆,所述螺杆有以中间为对向的螺纹,螺杆的两端分别与左螺母和右螺母相连接。
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Through the intermediate gear Z12, the elevator shaft's gear Z13 and shaft are driven to turn, then via friction cone clutch or planetary mechanism the drum obtains six hoisting speeds.
a、冲击钻进:将变速箱右手柄板至&卷扬&位置,变速箱Ⅲ轴齿轮Z8与Ⅳ轴的齿轮Z10啮合,经中间齿轮Z12带动升降机轴上齿轮Z13及轴旋转,通过锥形摩擦离合器或游星轮机构使卷筒获得六种提升进度
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If an intermediate gear is introduced between the driving gear and the driven gear,the rotation of the driven gear will be reversed.
4如果一个中间齿轮之间的介绍传动齿轮和从动齿轮,旋转的齿轮将得到扭转。
- 更多网络解释与中间齿轮相关的网络解释 [注:此内容来源于网络,仅供参考]
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Idler Wheel:中间齿轮
idler pulley 惰轮 | idler wheel 中间齿轮 | idler 懒惰者
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idler:惰轮,空转[中间]齿轮,张紧轮
idle delivery 怠速燃油供给量 | idler 惰轮,空转[中间]齿轮,张紧轮 | idle speed 怠速(转速)
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idler gear:空转轮,换向齿轮,中间齿轮
idler arm 空转轮臂 | idler gear 空转轮,换向齿轮,中间齿轮 | idler pulley 支承滚筒,托滚,皮带张紧轮,惰轮,滚轮
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intermediate bearing:中间齿轮
insulation level to ground 對地绝缘水平 | intermediate bearing 中间齿轮 | intermediate terminal 中間端子
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reverse gear:倒挡齿轮
reverse gear clutch 回动齿轮离合器 | reverse gear 倒挡齿轮 | reverse idler gear 倒挡中间齿轮
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translating gear:变换齿轮,中间齿轮,中间齿轮
translating equipment ==> 转换设备 | translating gear ==> 变换齿轮,中间齿轮,中间齿轮 | translating machine ==> 翻译机
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transposing gear:中间齿轮
transposed transmission line ==> 换位输电线路 | transposer station ==> 转发电台 | transposing gear ==> 中间齿轮
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mid gear:中间齿轮
mid frequency 中心频率 | mid gear 中间齿轮 | mid latitude 中分纬度
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mid gear:死点位置,中间齿轮
mid-gapline 禁带中间线 | mid-gear 死点位置 中间齿轮 | mid-girth 中央干围
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idle wheel:中间齿轮,惰轮
惰轮 idle wheel | 中间齿轮,惰轮 idle wheel | 空转,无负荷运转,惰速运转 idling