This method has been applied to force sealed and groove sealed CAM mechanism.
本文将这种方法应用于力锁合凸轮和槽道凸轮。
This thesis discusses CAD for globular indexing CAM mechanism on base of reverse engineering.
本文是围绕弧面分度凸轮机构CAD中的逆向设计进行的。
Based on the analysis of traditional worm CAM mechanism, it introduces a new worm CAM mechanism.
在分析传统蜗形凸轮传动机构特点的基础上,设计出了一种新型的蜗形凸轮传动机构。
An analytical design method of disk CAM mechanism with oscillating roller follower is introduced.
介绍了摆动滚子从动件盘形凸轮机构设计的解析法。
The theoretical base of the new cam mechanism and the designing steps of the cam contour are discussed.
本文就这种新型凸轮机构的理论基础与凸轮轮廓曲线的设计步骤进行了详细论述。
Impact and vibration will reduce the precision of CAM mechanism, result in invalidation of CAM mechanism.
从动件运动时产生的冲击和振动会造成凸轮机构传动精度的降低,使凸轮传动系统产生失效。
In this paper, a new type of conical envelope worm indexing cam mechanism with rolling teeth is proposed.
提出了一种具有滚动齿的新型锥面包络蜗杆分度凸轮机构;
Theorical and experimental investigation on programmable cam mechanism are conducted in this dissertation.
论文以可控凸轮机构为研究对象,进行了理论和实验研究。
Cam mechanism is mainly used in mechanical control system, precision of control is the emphasis of design.
凸轮传动系统主要被应用于机械控制系统,控制精度是其机构设计的重点。
This is a practical example of the three element complex used in the profile design of a cylinder cam mechanism.
它是复指数式三元复数模型在空间圆柱凸轮设计中的具体应用。
The roller gear cam mechanism is studied and the surface equations of various types of roller gear cam are acquired.
本文对弧面分度凸轮机构进行了研究,根据凸轮旋向、转向、头数的不同,推导了各种类型的弧面分度凸轮的通用方程;
One of the major projects in old loom reform and new loom design is to substitute the CAM mechanism with link mechanism.
用连杆机构取代凸轮机构是老机改造和新机开发中的重要课题之一。
This paper proposes double action parallel indexing CAM mechanism, and studies cams profile by methods used in gear meshing.
提出了双作用式平行分度凸轮机构,并按研究齿轮啮合的方法研究其凸轮廓线。
It realizes the dynamic indexing precision and static indexing precision testing on dimensional globoid indexing CAM mechanism.
实现了对空间弧面分度凸轮机构的动分度精度检测和静分度精度的检测。
On the base of Hertzian stress theory we developed a new kind of disk CAM mechanism whose follower has concave circle - arc bottom.
根据赫兹应力理论,提出了一种从动件接触面形状为凹圆弧底的新型盘状凸轮机构。
Through studying various types of rollers of a spatial CAM mechanism, the paper presented their unified mathematical expression models.
通过对空间凸轮机构各种从动件滚子的研究,给出了不同类型滚子的统一数学表达模型。
The signal control can be easily realized by this virtual CAM mechanism with good stability, high reliability, and better practical value.
这种虚拟凸轮机构能方便地实现电信号控制,稳定性好,可靠性高,具有很好的实用价值。
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。
A kind of effective thought of design and method of analysis for determining the CAM profile of parallel indexing CAM mechanism was introduced.
介绍一种确定平行分度凸轮机构凸轮轮廓的有效设计思路和分析方法。
The operating principle of seaming mechanism of automatic paper cup machine was introduced and the motion law of the CAM mechanism was analyzed.
以机械机构的参数化设计为启示,论述了全自动纸杯成型机卷封机构的工作原理,分析了卷封凸轮机构的运动规律。
Based on the theory of forming cycloidal gear, this paper discusses the basic fundamentals and methods of machining cycloidal gear with CAM mechanism.
根据摆线齿轮齿廓的形成理论,探讨利用凸轮机构实现摆线齿轮加工的原理和方法。
In addition, the conception of press Angle of spatial CAM mechanism is discussed and its mathematics model and self-adaptive arithmetic are given also.
另外,利用等距曲面的概念讨论了空间凸轮机构压力角的概念及其自适应求解模型。
With the background of Gatling gun′s cam curve slot and main roller system, dynamics analysis of high speed inverse cylinder cam mechanism was carried out.
以转管武器凸轮曲线槽主滚轮系统为背景,进行了高速反圆柱凸轮机构滚轮动力学分析。
Imitating the project of electrical and hydraulic proportional valve, a CAM mechanism is adopted to input and convert the signal of crane arm's radius changing.
系统的控制信号输入方式借鉴电液比例阀方案,采用凸轮杠杆机构,从而利用了凸轮容易实现任意函数关系转换的优点。
The result shows that though such method we can efficiently obtain first tolerance design optimum for CAM mechanism, and thus realizes first Product Correct (FPC).
结果表明该方法保证了凸轮机构公差设计一次达到最优,从而实现了一次产品成功。
In this paper, the calculating method for the contact stress of plate CAM mechanism with translating roller moving follower is presented, and some examples are given.
本文详细分析了对心滚子移动从动件盘形凸轮机构接触应力的计算方法,并给出具体计算例题。
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。
The working principle was analyzed for the middle-bulged varying ellipse shape of the two-freedom mechanism with the crank sliding-block mechanism and the cam mechanism.
分析了以曲柄滑块机构和凸轮机构为主动的二自由度机构成型活塞中凸变椭圆的工作原理。
CAM mechanism with variable inputting speed, its driving force will change along with the profile of CAM, thus make the design of CAM mechanism becomes a difficult problem.
变速输入的凸轮机构,驱动力随凸轮廓线而变化,使得凸轮机构的设计成为一个难题。
The primary coverage as follows:Firstly, according to the running features of the globoidal indexing cam mechanism establishes mathematical model, then builds overall design.
主要内容如下:首先根据弧面分度凸轮机构的运行特点建立数学模型,并进行总体设计。
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