这些公式适用于齿面啮合的任何接触点。
These formulae are suitable for any contacting point of tooth surface meshing.
将齿轮因齿面变形而产生微小转角,继而进行齿面啮合分析的过程定义为拟赫兹接触分析。
The micro angle induced by the tooth surface elastic deformation causes the change of meshing points. Quasi-Hertzian analysis is defined as the process of tooth meshing analysis.
一般齿轮齿形曲线在一点邻域的高阶阶戴劳级数展开后,会发现齿面啮合点邻域间隙为2阶无穷小。
The common gear tooth profile curve launches after neighborhood higher order step taylor's series, can discover the tooth face meshing point neighborhood gap is 2 step infinitely greats.
提出了运动优化的方法,通过预设传动误差抛物线函数,使齿面啮合时运动误差和不连续性减至最小。
The motion optimization method is proposed, by which transmission errors anddiscontinuousness of tooth surface meshing is decreased to minimum.
当齿沟啮合面旋转至壳体排气口时,较高压力的油气混合气体排出机体。
When the mesh surface rotation teeth to shell vent, under high pressure gas mixture in the oil and gas discharge.
在少齿差内啮合传动中,存在多对接近啮合的小间隙齿面于理论啮合点左右,轮齿受力产生的微小变形使得某些对齿面相互接触进入啮合状态。
In small tooth difference of inner meshed transmission, there were a few pairs of tooth faces which were apart from each other for a small gap beside the contact point generated by two meshed teeth.
研究结果表明:接触应力、上扣扭矩、螺纹啮合时的几何约束,是齿面粘扣的力学要点。
The research result states that the contacting stress, thread torque and thread joggle geometry restriction are mechanical points of the sticky thread.
结果表明,齿面弹性变形引起的齿轮轮齿的微小转动对啮合点的最终位置有一定的影响。
The results show that the micro rotational Angle induced by the tooth surface elastic deformation has definite effect on meshing points.
给出了超环面行星蜗杆传动啮合效率、齿面磨损量和弹流油膜厚度的分布规律及其随传动参数的变化规律。
The distribution of engaging efficiency, EHD oil film thickness and tooth face wear and their changes along with transmission parameters are presented.
在机构强度分析中,阐述了凸轮-针轮副啮合齿面接触强度、针齿销的弯曲强度计算和刚度计算。
Not only the contact strength between the CAM and the rollers is discussed, the flexural strength and rigidity of the rollers are also discussed.
研究了活齿端面谐波齿轮各啮合副齿面修形的原则,得出了波发生器、活齿前后端和端面齿轮齿面的修形高度之间必须满足的关系。
The modification principle of tooth surface is deduced, and it draws the conclusion that the modificative tooth depth of wave producer, end face gear and oscillating teeth have certain relation.
基于微分几何和空间啮合理论,分析了修正型圆环面双包络环面蜗杆副齿面形成原理。
Analysis of the forming principle of tooth flank of modified type worm gear pair was based on different geometry and spatial engaging theory.
齿面修形是提高齿轮副啮合性能的重要手段。
The modification of gear is a principal method for improving performance of meshing.
外啮合珩齿工艺是一种效率高、成本低的硬齿面齿轮加工工艺,但对齿轮精度的提高有限。
Honing with a honing gear is an efficient and low - cost method for hard gear machining, but it can not obviously improve the precision of gear.
本文在极低速情况下,模拟测定了仪表齿轮在一齿啮合过程中两齿轮齿面间摩擦系数的变化情况。
The friction factor between two tooth surfaces of instrument gears during one meshing process is imitatively measured in this paper under the condition of ultra-low-speed.
推导出了活齿端面谐波齿轮各啮合副经过齿面修形后的齿面方程。
The equations of teeth surface after modification of all key components, such as wave producer, oscillating teeth, end face gear, are deduced.
本文依据齿轮啮合原理,利用产形线形成共轭啮合的原理,采用共轭齿面接触线为刀刃构形的切齿刀具,这样构形的切齿刀具都非常简单,并且容易采用合理的几何角度。
This paper USES cutting tool with the contact line of conjugate tooth profile based on the principle of the gear engage and generating shape line forming conjugate engage.
根据空间啮合原理以及坐标关系推导被加工左右旋齿轮的齿面方程;
Tooth face equation of producing gear is derived based on spatial meshing theory and coordinate relation.
利用轮齿接触分析与齿轮啮合原理,建立了齿面均匀研磨与定点研磨控制的几何运动模型,经滚检检验,该模型能对齿面研磨位置与侧隙进行较准确的控制。
The rolling tests prove that this setup model can control precisely the displacement of the lapped area in the tooth surface and keep the even backlash.
运用啮合理论,建立了剃齿刀修形解析模型,推导出了修形时的啮合方程及修形后剃齿刀的齿面方程,并进行了实例分析和计算机运算。
The mesh theory of the technique has been analyzed. The equation of mesh, equation of gear flank of shaving and profiling are obtained and the analysis of example is presented.
研究表明,只需用三轴联动CNC铣齿机就能加工出主动设计得到的啮合性能良好的准双曲面齿轮的齿面。
The study shows that the excellent tooth surface obtained by the function-oriented design can be manufactured with the three-axis CNC gear cutting machine.
在建立了球齿轮齿廓曲面方程和啮合模型基础上,利用计算机仿真的方法对其进行了齿面接触分析研究。
After building the equations of tooth surfaces and the meshing model of a spherical gear pair, tooth contact analysis of spherical gear pairs is performed through simulation.
为了提高面齿轮副的强度并解决其磨齿问题,提出了弧线齿面齿轮副的一种新的加工方法,并研究其啮合特性。
To improve tooth strength and make tooth grinding implement for face gear, a new generating method of face gear drive has been proposed, and the meshing characteristics are investigated.
齿面修形是提高齿轮副啮合性能的重要手段。
The modification of gear is a principal method for improving performance meshing.
研究了平面包络环面蜗杆啮合齿面方程,并探讨建立基于网格矩阵的啮合型面的矩阵模型方法。
The meshing surface equations based on gridding metrics are studied and a method to set up the solid model is discussed in this paper.
利用这些公式,能够非常方便地在设计齿面副参数的同时就对齿面进行啮合分析。
With these formulae, the meshing analysis of a pair of tooth surfaces can be done very easily at the same time as the parameters of the tooth surfaces are designed.
推导了进入双点啮合区的法面啮合角公式,采取了独特的剃齿刀修形方式,从设计和修形上下功夫杜绝剃齿中凹的产生。
And the normal engagement angle of approaching double-point tooth area is deduced. The special dressing method of shaving cutter has been adopted.
燃油泵(卸油泵,高粘度泵,沥青泵)齿轮的磨损部位主要是齿的啮合、渐开线工作面和齿轮两端平面。
Fuel pump (unloading pump, high viscosity pump, asphalt pump) gear wear and tear parts mainly is the tooth meshing, involute face and gear ends plane.
燃油泵(卸油泵,高粘度泵,沥青泵)齿轮的磨损部位主要是齿的啮合、渐开线工作面和齿轮两端平面。
Fuel pump (unloading pump, high viscosity pump, asphalt pump) gear wear and tear parts mainly is the tooth meshing, involute face and gear ends plane.
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