Modelling and simulation tooling controlled by the PLC in the robot cell in NX

IOP Conf. Series: Materials Science and Engineering Pub Date : 2016-08-01 DOI:10.1088/1757-899X/145/5/052016

W. Banaś, A. Gwiazda, Z. Monica, A. Sekala, K. Foit

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引用次数: 4

Abstract

Many CAD programs allows the simulation of machines. Often, before creating the real machine can simulate the operation and see how it works. In these cases, set values of the forces acting on an element or displacement of the element. It is very easy for simple machines. Programming in this way PLC controlled system is very complicated because have to save the the entire PLC logic in the simulation program. It would be good simply connect the PLC or PLC simulation program to a CAD program enabling the simulation. There are many possibilities for sending information between the PLC and CAD. PLC to control most of the actuators using the digital outputs 0 or 1. Actuators often have two states but the transition from one to the other takes some time. By setting additional parameters may be the behaviour of the simulation as in real life. Setting these parameters is usually held in the testing phase before running it means that the system is assembled and can be damaged. Often this is the only opportunity to verify the PLC program. It is worth noting that such testing and running takes place on the production line and needs to be stopped.

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在NX的机器人单元中由PLC控制建模和仿真工具

许多CAD程序允许对机器进行模拟。通常，在制造真正的机器之前，可以模拟操作，看看它是如何工作的。在这种情况下，设置作用在元件上的力的值或元件的位移。对于简单的机器来说，这是很容易的。以这种方式编写PLC控制系统是非常复杂的，因为必须将整个PLC逻辑保存在仿真程序中。简单地将PLC或PLC仿真程序连接到启用仿真的CAD程序就可以了。在PLC和CAD之间发送信息有许多可能性。PLC控制大多数执行器使用数字输出0或1。执行器通常有两种状态，但从一种状态过渡到另一种状态需要一些时间。通过设置附加参数，可以模拟出与现实生活一样的行为。设置这些参数通常在运行前的测试阶段进行，这意味着系统已经组装好，并且可能会损坏。通常这是验证PLC程序的唯一机会。值得注意的是，这种测试和运行发生在生产线上，需要停止。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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IOP Conf. Series: Materials Science and Engineering

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