A mathematical model of spiral bevel gear tooth surface was built by analyzing manufacture method and meshing theory.
通过分析锥齿轮的加工方法和齿轮啮合理论,建立了螺旋锥齿轮齿面数学模型。
According to the result of interference test, the cutting tooth parameter is adjusted till the satisfied spiral bevel gear pair was acquired.
根据干涉结果对螺旋锥齿轮的切齿参数进行调节,直至得到比较满意的螺旋锥齿轮副。
As in the case of helical gears, spiral bevel gears give a much smoother tooth action than straight bevel gears, and hence are useful where high speed are encountered.
在案件的螺旋齿轮,螺旋锥齿轮给予一个更平滑齿行动的机率远高于直锥齿轮,因而是有益的高速,都遇到。
For spiral bevel gears' formate gear, using proper figurate cutting tool and generic CNC machining center, the gear's hard tooth-surface can be milled with high speed.
螺旋锥齿轮副的成形法大轮,利用合适的成形铣刀,在通用的立式加工中心上,可以实现热处理后硬齿面的高速铣削。
Through the calculation of the finite element method(FEM) models for double circular arc profile spiral bevel gear, the stress changing pattern along the length of the tooth is obtained.
用有限元方法,对双圆弧弧齿锥齿轮沿齿长方向齿根应力进行了计算。通过应力计算结果的分析,得出了凸、凹两齿侧应力沿齿长的分布规律。
Based on the local synthesis method, the tooth cutting of non-zero modified spiral bevel gear was researched.
借助于局部综合法,研究了非零变位弧齿锥齿轮的切齿设计。
By using the same alternate blade cutter, bi-arc spiral bevel gear pair with equal-height tooth can be produced on the Gleason machine.
用同一双面刀盘在格里生机床上成功地切出了等高齿双圆弧弧齿锥齿轮副。
Its basic gear tooth profile is double circular arc spiral bevel gear tooth profile.
双圆弧弧齿锥齿轮是将点啮合制圆弧齿轮传动形式运用到锥齿轮上的成功例子。
The above research finds out the influence of grinder error and machining setting parameter error on tooth surface error of spiral bevel gear.
上述研究查明了磨床误差及加工调整参数误差对螺旋锥齿轮齿面误差的影响机制。
The error correction model of tooth surface and solving method using TSVD were verified experimentally, and the tooth surface machining quality of spiral bevel gear was improved.
实验验证了本文齿面误差修正模型及提出的TSVD法求解的正确性,提高螺旋锥齿轮齿面加工质量。
The purpose of this paper is to provide the theoretical basis for designing high-tooth spiral bevel gear cutter head.
本文的研究为等高齿弧齿锥齿轮的刀盘设计提供理论基础。
The purpose of this paper is to provide the theoretical basis for designing high-tooth spiral bevel gear cutter head.
本文的研究为等高齿弧齿锥齿轮的刀盘设计提供理论基础。
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