介绍了一种基于数学形态学和动态灰度变化方法相结合的纱线气圈边缘提取方法。
This article introduces a method of edge extraction of yarn balloon, which bases on mathematic morphology and the transformation of dynamical gray algorithm.
其主要采用锭子加捻装置与卷绕机构二部分组成,锭子加捻装置与卷绕机构通过纱线气圈连接成一体。
It USES spindle twisting device and winding mechanism, the spindle twisting device and the winding mechanism are connected together through yarn wire coil.
对于上述三个方面的研究,本论文将主要采用已有的摩擦学原理,纱线结构理论,及气圈理论来进行研究。
This dissertation will use the frictional theory, the yarn structure theory and the balloon theory to research these three content.
环锭纺纱时,如果钢领钢丝圈位置逐步接近该气圈颈部就将造成气圈崩溃和纱线断头。
It would cause balloon collapse and yarn breakage in ring spinning, should the ring and traveler approach this neck portion.
另外这些曲线还清楚地显示了“极限气圈”的存在,在生产中制约着气圈高度的最大极限和纱线张力的最低极限。
These curves also show the existence of the balloon limitation, which limits the Max balloon height and the min. yarn tension during the rings...
另外这些曲线还清楚地显示了“极限气圈”的存在,在生产中制约着气圈高度的最大极限和纱线张力的最低极限。
These curves also show the existence of the balloon limitation, which limits the Max balloon height and the min. yarn tension during the rings...
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