介绍一种在车床上研磨蜗轮副的方法。
Following introduces one kind grind auxiliary method of worm gear in the lathe.
蜗杆与蜗轮均为硬齿面,适于动力传动的新型环面蜗轮副。
Such a new type of hourglass worm pair is particularly-favorable for power transmission.
较详细地介绍了用普通车床改装成加工平面二包蜗轮副专用机床的设计方法。
This paper introduces the design method of redoing ordinary lathe to special machine tool for manufacture planar second-enveloping worm wheel in details.
油都用在高负荷工业齿轮系统,如直齿圆柱齿轮,锥齿轮,行星齿轮和蜗轮副。
GEARMASTER PGP oils are used in high-load industrial gear systems such as spur gears, bevel gears, epicyclical gears and worm gear pairs.
最后,对具有安装误差的蜗轮副模型进行了有限元分析,得到相应的应力云图。
Finally, we studied the worm gear model with installations error used finite element analysis, and acquired mises stress nephogram.
提出了对二次包络环面蜗杆传动修形的方法,以降低蜗轮副对制造误差的敏感性。
A method of modifying the double enveloping worm gearing with developable tooth surface has been proposed to reduce the sensibility of the worm gearing to the manufacturing errors.
精密加工制造的减速器,蜗轮副采用高品质的特殊合金,保证整机耐磨损,超静音。
The decelerator of precision fabrication, with the worm gear pair made of high-quality special alloy, guarantees the machine wear-resisting and ultra quiet.
平面包络环面蜗轮副具有优良的啮合性能,它是一种具有广阔应用前景的传动形式。
Worm pairs of planar envelope hourglass have many advanced meshing properties and potential applications.
探讨了硬度对钢蜗轮副材料磨损特性的影响,为研究钢蜗轮副合理的硬度配对提供试验依据。
The influence of hardness difference on the wear behaviour of steel-steel worm gear's material is investigated, which provides a foundation for proper hardness matching.
虽然平面二次包络环面蜗轮副具有传动效率高、承载能力大、使用寿命长等优点,但它的应用却始终受到限制。
Although the planar double-enveloping worm gearing has advantages of high transmission efficiency, excellent load capacity, long life cycle and so on, it has been used in a limited way.
使用实践证明,在相同的使用条件下,平面二次包络环面蜗杆传动副的传动性能比普通蜗轮蜗杆传动副好。
It has been proved by practices that the double enveloping worm gearing transmission is superior to the ordinary worm gearing transmission under the same condition.
本文以斜平面二次包络环面蜗杆副为研究对象,在空间啮合理论的基础上,推论出三参数修正的啮合方程、接触线方程、蜗轮齿面方程。
In this thesis, planar double-enveloping worm gear pairs is the research object, combined with space Meshing theory, derived from the multi-parameter modification of the mesh equation.
本文以斜平面二次包络环面蜗杆副为研究对象,在空间啮合理论的基础上,推论出三参数修正的啮合方程、接触线方程、蜗轮齿面方程。
In this thesis, planar double-enveloping worm gear pairs is the research object, combined with space Meshing theory, derived from the multi-parameter modification of the mesh equation.
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