减速箱齿轮研磨台的研制应用,减轻了工人的劳动强度,提高了减速箱维修后的效率。
The manufacture and application of gear grind desk used for gearbox can decrease strength of the workers and increase the efficiency of gearbox repaired.
最重要的应用领域包括大规模支助辊,船行轴和舵轴,石头破碎机,曲轴,齿轮,振动筛,轧钢机,研磨,粉碎工程。
The most important applications include heavy support rollers, ship line shafts and rudder shafts, stone crushers, crankshafts, gears, vibrating screens, rolling mills, grinding and comminuting works.
研磨机及其无齿轮驱动器是该行业中最大型的设备之一(环行马达约20米高),也是选矿厂的关键设备之一。
The mill and its gearless drive is one of industry's largest installations (the ring motor is almost 20 meters high) and one of the pivotal applications in a concentrator plant.
硬化,精密研磨,在车头铬钼齿轮。
Hardened, precision ground, chrome molybdenum gears in headstock.
还设置有一种齿轮锁机构,以在轮盘主轴上的研磨轮安装或去除过程中防止轮盘主轴转动。
A gear wheel lock mechanism is also provided to prevent the wheel spindle from rotating during installation or removal of a grinding wheel on the wheel spindle.
在车头的所有齿轮经过高频淬火及精密研磨。
The guide way and all gears in the headstock are hardened and precision ground.
建立了螺旋锥齿轮研齿过程的动力学模型,求出了动态研磨力的大小。
The dynamic model of the lapping was setup, and the dynamic lapping force was calculated.
传动齿轮采用优质合金钢,经热处理,研磨而成。
The drive gears adopt high quality alloy steel, after heat treatment and lapping finish.
磨粉完成,研磨室内剩料少,清整容易,确保机体清洁,斜齿轮式不容易黏料,散热快。
After finishing grinding, the residual us dew, easy to clean, ensure the body clean, inclined gear type for not easy to sticking material, radiate heat fast.
提出了超声研磨螺旋锥齿轮的理论与方法。 分析了超声研齿不灵敏性振动切削机理。
The paper presented the theory and method for the ultrasonic lapping of spiral-bevel and hypoid gears and analyzed its insensitive vibration cutting mechanism.
提出螺旋锥齿轮超声振动复合研磨的方法,介绍了其原理;
The method of ultrasonic vibration lapping on the spiral-bevels and hypoid gears was first presented.
文摘:影响齿轮动力互研研磨率的因素有多种。
Abstract: the abrasion rate of gears is affected by many factors in the dynamic mutual abrasion proces.
研究了螺旋锥齿轮齿面综合研磨率、动态互研与研齿修形机理。
The material general removal rate and the dynamic mechanism of tooth surfaces modified and corrected mutually during lapping process of hypoid gears were firstly investigated.
影响齿轮动力互研研磨率的因素有多种。
The abrasion rate of gears is affected by many factors in the dynamic mutual abrasion proces.
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.
高精度研磨齿轮传动。
高精度研磨齿轮传动。
高精度研磨齿轮传动。
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