端子裁切机传动机构设计+CAD图纸
端子裁切机是集自动送料、折弯、裁切中CARRY、剪切等多个工序于一身的自动化设备,可非常方便地与其它自动化设备一起组成流水生产线。本文采用了凸轮传动实现端子的折弯及裁切中CARRY,采用气压传动完成端子的送料及剪切。合理的工作时序图能确保上述各工序间有序进行,互不干涉。在工作时序的控制与实现方面,对应于凸轮的关键角度设置了多个光电传感器以判断当前所执行的工序。 检测信号由PLC接收并控制所有工序的有序、循环执行。 所介绍的工作时序设计方案已经成功应用于对应的端子裁切机中
本次设计解决了裁切机的传动系统的选择、各个工站之间配合的运作方式、以及凸轮是如何带动刀具运动等。并且在设计中对凸轮、联轴器、刀具等进行了机械结构特性与动力传动特性的研究。
经过对不同运动方案和各部件的设计方案的定性分析比较确定该端子裁切机的传动系统设计方案为:机械传动配合传感器与PLC控制器进行端子的高速加工。从电动机传动传出动力通过联轴器、传动键传递给凸轮,再由凸轮带动滚子进行刀具的折弯与裁切运动,其中由传感器感应折弯工站的工作进程,然后传出信号给控制器,进行裁切机的送料与裁切的进行。与目前国内同类型端子裁切机比较,具有结构紧凑、空间尺寸小、、生产效率高等优点。21247
毕业论文关键词:端子;裁切机 ; 传动系统;凸轮;折弯;
Terminal cutting machine - drive system
Abstract:
In this paper,Is developed in this paper, terminal cutting machine, cutting machine transmission system for the terminal bending system. Including bending and cutting terminal connection between small sheet. Need to complete the design of the contents are: the terminal of the cutting machine transmission system, bending, cutting work station.
The equipment of terminal cutting is a integration of electrical automation equipment automatic including feeding, bending, CARRY cutting and cutting into seven terminals machine. It is mainly Compose of feeding and cutting machine, power and electronic control components. The author design the motion control part of cutting machine and design the structural. The motion Control design use pneumatic drive and the rational timing diagram; Structural design need to consider feeding mechanical structure, length of feeding control, cutting tool design, achieve shear mechanical structure design and so on. The coordination and synchronization of the cutting machine feeding, bending and cutting is the core technology, The remaining part require synchronization, ultimately leading to the various parts work together. In structure design, analysis the principle of feed mechanism used in the allocation of materials and the feeding STOP position on the use of block allocation spacing screw. Cutting Tool structure should be reasonable and should have sufficient strength and stiffness.
After the different sports scheme and design of components of qualitative analysis and comparison to determine the terminal of the cutting machine drive system design scheme is: cooperate with sensor and PLC controller in mechanical transmission terminal of high-speed machining. Coming from motor drive power through coupling, bearing is passed to the CAM, again by CAM driven roller bending and cutting tool, the induction bending work station by sensors work process, and outgoing signal to controller, cutter feeding and cutting. Compared with the present domestic same type machining center, has a compact structure, small space dimension, and high production efficiency etc.