在端面车削操作中,进给由横向滑板提供,而切削深度则通过大拖板或复式刀架控制。
During a facing operation, feed is provided by the cross slide, whereas the depth of cut is controlled by the carriage or compound rest.
完成了伺服刀架控制系统的硬件和软件设计以及伺服刀架实时监控软件—伺服刀架控制系统开发。
It has completed the design of servo turret control system hardware and the software as well as the development of the servo tool rest real-time monitoring software -servo turret control system.
以CA6140型普通车床的数控改造为例,介绍了自动回转刀架的结构、安装和换刀控制;并且对自动回转刀架常见故障与排除提出了意见和措施。
Takes nc transformation of CA6140 type common lathe as an example, has explained the structure, installation and principle on automatic tool changing of auto-rotating tool-carrier.
轴向进给通过大拖板或复式刀架手动或自动提供,然而切削深度则由横向滑板控制。
The axial feed is provided by the carriage or the compound rest, either manually or automatically, whereas the depth of cut is controlled by the cross slide.
而伺服刀架的核心技术就是伺服电机的位置控制技术。
And the key technology of the servo turret is the position control technology.
利用所研制的快速伺服刀架、计算机控制系统,在超精密车床上进行了切削试验。
The cutting experiment is proceeded with a self-made fast servo tool and a computer control system on ultra-precision lathe.
分析了以直线电机直接驱动下的高频响伺服刀架为核心的非圆截面加工系统的控制结构;
The paper presents the control structure of a non_circular machining system which is based on linear motor direct feed drive.
当刀架出现故障时,可能是机械原因,也可能是电气、控制系统方面的原因。
The fault on the tool post may be due to the breakdown of machinery, electrical as well as control system.
本课题主要对六刀位自动刀架的机械结构和控制系统进行设计。
The mechanical structure and the control system of six Automatic Tool lift are designed in this thesis.
根据精密数控车削中心的研发要求,设计了一种电液结合控制的多工位转塔动力刀架。
According to the requirements of designing an CNC turning center, a combination of electro-hydraulic control of dynamic multi-position turret is designed.
组合车床设备及控制方法,车刀架,刀刃位置记录及检测装置。
Method for controlling combined lathe apparatus, combined lathe apparatus, turning tool holder, blade position registering apparatus, and blade position detecting apparatus.
提出了刀架改造方案,并设计相应的磨削装置电主轴,对球窝磨削质量的控制进行了分析。
A plan about reconstructing of tool post was proposed, and motorized-spindle of corresponding grinding equipment was designed, grinding quality control of ball-pocket is analyzed.
刀架的进给速度和深度可调,电器部分采用可编程序控制器“PLC”为核心,送料、定位、卡紧、切断(倒角)可依次完成。
The feed speed and depth of blade carrier is adjustable, for electrical equipment, adopt PLC as the core, and the feeding, positioning, clamping and cutting (chamfering) can be finished in turns.
该刀架依靠伺服电机和液压系统完成离合和转位控制,利用高精度鼠牙盘进行精确定位。
The turret uses servo motors and hydraulic system to go on clutching and shifting the tool position, and uses high-precision tooth couplings for accurate positioning.
本控制器利用单片机的特性,在刀架与CNC(数控系统)之间架起一座桥梁。
The intelligent tool turret controller USES the characteristic of the MCU, setting up a bridge between lathe tool turret and CNC (numerical control system).
刀架转位分度采用机-电结合的方法,即先在控制电路中使用霍尔元件进行粗定位,再在机械上采用三齿盘实现精定位。
The mech electronic method is used when the tool turret is turned, the tool turret is positioned roughly by using Hall device in control circuit, and accurately by using a triple gear plate.
刀架转位分度采用机-电结合的方法,即先在控制电路中使用霍尔元件进行粗定位,再在机械上采用三齿盘实现精定位。
The mech electronic method is used when the tool turret is turned, the tool turret is positioned roughly by using Hall device in control circuit, and accurately by using a triple gear plate.
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