每个轴行程的滚珠丝杆。
针对单弧度弯曲大变形无裂纹轴校直问题,根据广义预测控制理论,建立了多步校直行程预测算法。
However to the large deformation shaft without crack, general predictive theory has been applied to built up the multi-steps straightening stroke predictive algorithm.
负载和气缸可绕铰轴在一个平面内摆动,气缸长行程时,建议采用中间铰轴式。
The load and air cylinder can swing round the pin in a plan, if the stroke is long, adopt the intermediate fixed or movable trunnion type.
一个行程下的流体积可以通过变化各个腔室的活塞和轴直径来改变。
The flow volume per stroke may be altered by varying the piston and shaft diameters for each chamber.
轴,立式磨床行程,直线。
XYZ轴方向均设置了行程限位开关,避免了运转过程中超程的烦恼。
The XYZ axis is arranged trel limit switch, to oid the operation process of the trouble.
出力轴在间歇分度时,可设定在旋转行程的中心点上停动,也可设定旋转角度和升高能力。
Output shaft when the swing set in the center of rotation on the trip-down, design may also need to set rotation angles and movements itinerary.
该策略根据油门开度和发动机转速与离合器输出轴转速差,并通过控制离合器驱动机构的行程增量,满足驾驶员平稳、快捷的要求,同时具有所需输入信号少的特点。
The strategy controls the rotation speed difference between engine and the clutch drive mechanism distance increment. It makes it possible to satisfy the requirement of controlling smoothly and fast.
基于这一观点,结合校直行程递推算法,建立了单边径向裂纹轴的多步校直行程递推算法。
Based on this view, the multi-step straightening stroke algorithm was built up to the shaft with single-edged crack.
机器采用液压电气控制,滑块行程可任意调节,机械挡块,扭轴同步、平稳可靠;
Hydraulic and electrical control is applied to the machine , with free adjustment of stroke for the gliding block, as well as stable and reliable mechanical stopper and synchronized tension bar.
本实用新型涉及一种回转油缸行程调节装置,在油缸行程轴(2)的后端装有一个调节螺母(3)。
The utility model relates to a rotary oil cylinder stroke control device which comprises an adjusting nut (3) arranged at the back end of an oil cylinder stroke shaft (2).
本实用新型涉及一种回转油缸行程调节装置,在油缸行程轴(2)的后端装有一个调节螺母(3)。
The utility model relates to a rotary oil cylinder stroke control device which comprises an adjusting nut (3) arranged at the back end of an oil cylinder stroke shaft (2).
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