Design of a force control gripper using Matlab Simulink

2023 12th Mediterranean Conference on Embedded Computing (MECO) Pub Date : 2023-06-06 DOI:10.1109/MECO58584.2023.10154982

Dejan Shishkovski, Damjan Pecioski, M. Anachkova, Hristijan Mickoski, Z. Pandilov

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Abstract

The working body usually called the gripper in manipulators is an essential component of industrial automation systems. They are designed to hold and manipulate objects with precision, speed, and reliability. Robotic applications and the creation of functional organs are both widespread. The working body may be incorporated into the robot's overall design or added to its fundamental framework. The design is determined by the robot's function, the object it must grasp, the task it must complete, and its working environment. Force control is an essential feature of robotic grippers that allows them to handle delicate or fragile objects without causing damage. This paper outlines the many decisions that are made when designing and selecting the robot's gripper. Aspects of the process and environment are covered first. Power, joint adaptability, load capacity, and connections are all included. Following is a section that offers an overview of the various working bodies and their constructive directions. The sensors and elements of the control system are also featured.

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利用Matlab Simulink设计一种力控夹持器

机械手的工作主体通常称为夹持器，是工业自动化系统的重要组成部分。它们被设计用来精确、快速、可靠地握住和操纵物体。机器人的应用和功能器官的创造都是广泛的。工作体可以纳入机器人的整体设计，也可以添加到机器人的基本框架中。该设计是由机器人的功能、它必须掌握的对象、它必须完成的任务以及它的工作环境决定的。力控制是机器人抓手的一个基本特征，使他们能够处理微妙或易碎的物体而不会造成伤害。本文概述了在设计和选择机器人夹持器时所做的许多决策。首先介绍过程和环境的各个方面。包括功率、接头适应性、负载能力和连接。以下一节概述了各工作机构及其建设性方向。控制系统的传感器和元件也有特色。

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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来源期刊

2023 12th Mediterranean Conference on Embedded Computing (MECO)

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