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说明:双击或选中下面任意单词,将显示该词的音标、读音、翻译等;选中中文或多个词,将显示翻译。
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1) involute toothed sprocket
渐开线齿形链轮
1.
In this paper,calculated impact velocity of odontoid chain meshed as well as analyzed meshing parameters about the odontoid chain and the involute toothed sprocket,transmission become more stable through improving chain drive′s performance,and then laid the foundation for meshing design and motion analysis of the odontoid chain and the involute toothed sprocket.
作者对齿形链啮合过程的冲击速度进行了分析计算,并对齿形链和渐开线齿形链轮的啮合参数进行了研究,以期改善其链传动性能,使传动更加平稳,并为齿形链与渐开线齿形链轮的啮合设计和运动分析提供理论依据。
2) Conical involute gear
渐开线锥形齿轮
1.
The gear hobbing of conical involute gear is a complex generating motion with doubledegree of freedom.
根据齿轮啮合原理中多自由度齿面包络理论,对渐开线锥形齿轮在滚齿加工中,刀具与工件的相对运动及产形齿条的形成机理进行了深入分析,证明了产形齿条的存在,并求解了其齿面形状。
3) conical involute gear
锥形渐开线齿轮
4) the involute ring tooth spherical gear
渐开线环形齿球齿轮
1.
Then,the characteristics of the working flanks of the involute ring tooth spherical gear are analyzed and the equations to calculate the master curvature radius are derived.
为研究渐开线环形齿球齿轮传动过程中齿轮副间的接触力,基于Hertz弹性接触理论定义了齿面接触点的刚度系数;利用微分几何相关知识,分析了球齿轮的齿面特征,得到了实时啮合点主曲率半径计算公式;研究了重合度系数对啮合刚度的影响,结合球齿轮机构传动特点,推导出任意位置反向啮合点位置计算公式;最后通过一个实例说明球齿轮机构接触点刚度系数具有典型的时变特征。
5) involute gear
渐开线齿轮
1.
Confirmation of the measuring teeth number of involute gear common normal;
渐开线齿轮公法线跨测齿数的确定
2.
Accurate modeling of Involute gear machined by the principle of generation of curve;
基于曲线的生成原理实现渐开线齿轮的实体建模
3.
Exactitude Modeling of Involute Gear on Pro/E;
基于Pro/E的渐开线齿轮精确建模
6) Involute gears
渐开线齿轮
1.
This article introduced the three-dimensional molding design for involute gears based on SolidWorks,and put forward four methods of parameterized entity design of gears aiming to extend the application of SolidWorks in gear fields and to improve the efficiency of gear designing.
结合计算机辅助设计/制造的需要,基于SolidWorks软件平台,对渐开线齿轮的三维造型方法进行了探讨,提出了在SolidWorks环境下实现参数化齿轮实体设计的四种方法。
2.
This paper introduces the method of realization parameterized design of cylindrical involute gears based on unigraphics NX after inducing the general structure of cylindrical involute gears, and composers can get the new needed roughcast quickly by applying the models.
在Unigraphics环境下,在归纳了常见圆柱渐开线齿轮的结构基础上,利用其成形特征和表达式功能实现圆柱渐开线齿轮齿坯的参数化设计方法,可使设计人员能应用现有的模型进行更新设计,提高设计效率,并介绍了利用表达式、规律曲线和螺旋功能实现圆柱齿轮(直齿和斜齿)的精确建模。
3.
This paper introduces in detail some measuring and determining metho ds of the parameters of the straight and inclined involute gears that are more p ractical in the actual work.
详细介绍了实际工作中较实用的直齿渐开线齿轮、斜齿渐开线齿轮参数的测量与确定方法。
补充资料:齿轮轮齿渐开线、螺栓、弹簧autolsp源程序
一、齿轮轮齿渐开渐开线 (defun c:gear(/)
(
setq
p0 (getpoint"输入齿轮中心p0: ")
m (getreal"输入齿轮模数M: ")
z (getint"输入齿轮齿数Z: ")
ha 1
c 0.25
a (/ pi 9)
ra(/ (* (+ z (+ ha ha)) m) 2)
rf(/ (* (- z (+ (+ ha ha) c)) m) 2)
r(/ ( * m z) 2)
rb ( * r (cos a))
ri rb
ang 0
g (polar p0 ang rb)
)
(command "circle" p0 ra)
(command "circle" p0 rf)
(command "circle" p0 r)
(command "line" g)
(while (< ri ra)
(setq
ang ( + ang(/ pi 360))
ri ( / rb (cos ang))
cta ( - (/ (sin ang) (cos ang)) ang)
g(polar p0 cta ri)
) (command g)
)
(command )
)
二、螺旋源程序
(defun errMsg (s)
(if (/= s "function cancelled") (princ (strcat "\nError: " s)))
; 当命令执行时出现错误
(setvar "cmdecho" ocmdold) ; 例如用户按下了CTRL + C
(setvar "osmode" osmold)
(setq *error* olderr) ; 恢复旧的错误处理
(princ)
) (defun c:3Dthread (/ radouter threadpitch threadlength threadangle
ptStart innerdiafactor radmid radinner ocmdold osmold 4H 5H 6H h6 g6)
;-------------------------------------------------------------------
; 获取公制外径大小、螺距总长
; 然后计算一系列几何点
; 并且关闭对象捕捉、命令回显
;-------------------------------------------------------------------
(setq 4H (list 0.0015 0.002 0.002 0.0025 0.003 0.0035 0.004 0.005 0.006 0.007 0.008 0.009 0.010))
(setq 5H (list 0.002 0.0025 0.003 0.004 0.0045 0.0055 0.0065 0.0075 0.009 0.010 0.0115 0.0125 0.0135))
(setq 6H (list 0.003 0.004 0.0045 0.0055 0.0065 0.008 0.0095 0.011 0.0125 0.0145 0.016 0.018 0.020))
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条
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