According to maximal pressure Angle and nomogram 4 or 5 determine the minimum CAM size.
按最大压力角和图线(4)或(5)决定凸轮最小尺寸。
It influences not only the pressure Angle of mechanism, but also the curvature of earn contoUrs.
它不仅影响机构的压力角,而且还影响其轮廓曲线的曲率半径。
Pressure Angle is never zero, the transmitted force always tends to push centers of the gear apart.
压力角不会是零,传动力总是倾向于把齿轮的中心分开。
The relationship of CAM with oscillating follower's pressure Angle and Basic dimensions were analyzed.
分析了摆动从动件盘形凸轮机构的压力角与基本尺寸之间的关系。
The new principle to measure the gear whole error with small pressure angle involute worms is presented.
提出了小齿形角渐开线蜗杆测量齿轮整体误差的新原理,阐明了其优点,并进行了原理论证和参数设计计算。
The relationship of cam with oscillating followers pressure angle and radius of basic circle were analyzed.
分析了摆动从动件盘形凸轮机构的压力角与基本尺寸之间的关系。
Generally, standard gear hobs are only used to machine gears with the same modul, pressure Angle as hobs themselves.
在一般条件下,标准齿轮滚刀只能加工与其模数、压力角相同的同制齿轮。
The author has derived a formula for the pressure Angle and a simplified formula for such a spatial four-bar linkage.
作者推导了该空间四杆机构中的压力角公式及其简化公式。
This paper presents a practical method to calculate the pressure angle at pitch cylinder, of gear drive with computer.
本文提出了一种利用计算机计算齿轮传动啮合角的简便易行的方法。
The available method for determining basic size of cam mechanism according to its allowable pressure angle is lack of appropriateness.
现有按许用压力角确定凸轮机构基本尺寸的方法欠妥。
In this paper, the pressure Angle and minimal radius of curvature of CAM mechanism with swinging roller follower are discussed in details.
本文对摆动从动杆盘状凸轮机构的最大压力角和最小曲率半径问题进行了详细的讨论。
The original profile of CAM in hydraulic press's distributor is not proper, its pressure Angle is excessive, so that the guide sleeve is broken.
某巨型水压机分配器的原有凸轮过渡曲线压力角过大,导套经常断裂。
The article also presents appropriate methods for pressure angle computation, detail drawings and parameter representation of a space cam respectively.
本文也提供了压力角的校核,空间凸轮的绘图及特性参数表示方法。
The influence of the base worm radius, the module of shaper, the teeth number and the pressure Angle on the singularity point were analyzed, respectively.
分别分析了基蜗杆半径、插齿刀模数、齿数、压力角对基蜗杆曲面奇异点位置的影响。
The results reported can provide a guidance in the research of the pressure angle of oscillating follower cam mechanisms and in the design of cam mechanisms.
对研究摆动从动件凸轮机构压力角和设计凸轮机构具有指导意义。
High tooth gear has small module, small pressure Angle, and large addendum to enlarge the transverse contact ratio, improve gear strength, and reduce the noise.
细高齿齿轮是采用小模数、小压力角、大齿顶高来加大端面重合度,达到提高齿轮强度、降低噪声的目的。
Meeting requirement of the mechanical pressure angle, the minimum base radius of a plate cam for oscillating follower is determined by the 0.618 optimization method.
在满足机构许用压力角条件下,采用0.618法最优确定盘状摆动凸轮机械的最小基圆半径。
The other is a mechanical automatic reversing mechanism designed for atmospheric pumps, which adopts involute (zero pressure Angle) CAM mechanism as reversing mechanism.
另一种是为气压泵设计的机动自动换向机构,该机构是利用渐开线(零度压力角)凸轮机构作为换向机构。
According to the allowed pressure Angle, this paper determines the disk CAM with translating followers basic circle radius and eccentricity by using the analytic method.
基于解析几何法导出的最大压力角表达式,导出了偏心凸轮机构和对心凸轮机构的基圆半径和偏距的计算公式。
The equabions on tooth shape of internal gear by means of envelope method is derived and the pressure angle, inflection point, curvature, topcut are analysised in detail.
用包络法导出了内齿轮的齿形方程,对压力角、曲率、拐点、顶切进行了详细分析,并给出了计算公式。
The way of calculating the parameters of modulus, pressure angle and helix angle of the gear masters that are used to calibrate gear instruments is in detail in this paper.
本文详细介绍了用于齿轮仪器校准的齿轮样板模数、压力角、螺旋角等参数计算方法。
The polar equation of non-circular gear pitch curve, calculation method of center distance, formula of pitch curve length, primary circle radius and pressure Angle is given.
给出了非圆齿轮的节曲线极坐标方程,两齿轮中心距的计算方法,节曲线长度、基础圆半径和压力角的计算公式。
The changing regularity of pressure angle of ball joint and the optimum position region of pressure angle in given rod structure were proved through computer aided analysis.
通过计算机辅助分析,求得了该点压力角的变化规律及给定杆系参数下压力角的最佳变化区间。
This paper describes the establishing process of the equation of working profile curved surface of worm CAM mechanism, the calculation of its pressure Angle and normal curvature.
介绍了圆锥滚子蜗杆凸轮机构的轮廓曲面方程的建立、压力角和啮合曲面法曲率的计算过程。
This paper has introduced the conventional method for adjusting clearance of pressure angle and its shortcomings, and pointed a new method called meshing the most thickly feeler.
介绍了传统压力角间隙调整办法及缺点,提出了一种新的压力角间隙调整方法——啮入最厚塞尺法,并对其原理进行了分析,实践证明该方法简单可靠。
With cylindrical coordination, this paper establishes the contour surface equations and pressure Angle formula of the conical grooved CAM with translating conical roller follower.
借助柱面坐标,建立了圆锥滚子直动从动件圆锥槽凸轮的廓面方程和压力角公式。
This paper establishes the contour surface equation of a torus CAM and presents a pressure Angle formula, it provides a simple and efficient method for designing this kind of cams.
建立了环面凸轮轮廓曲面的解析方程,同时给出了压力角计算式,为此种凸轮的设计提供了一种简单有效的方法。
The limit pressure angle is related to such factors as offset angle, mean spiral angle, pitch cone angle and mean pitch cone diameter, not to geometrical shape of the tooth surface.
极限压力角受偏置角、大小轮的螺旋角、节锥角和中点的分度圆直径影响,而与齿面的其他参数无关等结论。
The worm and worm among plane within the modulus and pressure Angle, namely the worm gear were equivalent modulus is equal to the end of the worm shaft side modulus and for standard;
中间平面内蜗杆与蜗轮的模数和压力角分别相等,即蜗轮的端面模数等于蜗杆的轴面模数且为标准值;
The worm and worm among plane within the modulus and pressure Angle, namely the worm gear were equivalent modulus is equal to the end of the worm shaft side modulus and for standard;
中间平面内蜗杆与蜗轮的模数和压力角分别相等,即蜗轮的端面模数等于蜗杆的轴面模数且为标准值;
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