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Since robotic prehension is widely used in all sectors of manufacturing industry, this book fills the need for a comprehensive, up-to-date treatment of the topic. As such, this is the first text to address both developers and users, dealing as it does with the function, design and use of industrial robot grippers. The book includes both traditional methods and many more recent developments such as micro grippers for the optolectronics industry. Written by authors from academia, industry and consulting, it begins by covering the four basic categories of robotic prehension before expanding into sections dealing with endeffector design and control, robotic manipulation and kinematics. Later chapters go on to describe how these various gripping techniques can be used for a common industrial aim, with details of related topics such as: kinematics, part separation, sensors, tool excahnge and compliance. The whole is rounded off with specific examples and case studies. With more than 570 figures, this practical book is all set to become the standard for advanced students, researchers and manufacturing engineers, as well as designers and project managers seeking practical descriptions of robot endeffectors and their applications.
Since robotic prehension is widely used in all sectors of the manufacturing industry, this book fills the need for a comprehensive, up-to-date treatment of the topic. As such, this is the first text to address both developers and users, dealing as it does with the function, design and use of industrial robot grippers. The book includes both traditional methods and many more recent developments such as micro grippers for the optoelectronics industry. Written by authors from academia, industry and consulting, it begins by covering the four basic categories of robotic prehension before expanding into sections dealing with endeffector design and control, robotic manipulation and kinematics. Later chapters go on to describe how these various gripping techniques can be used for a common industrial aim, with details of related topics such as: kinematics, part separation, sensors, tool exchange and compliance. The whole is rounded off with specific examples and case studies. With more than 570 figures, this practical book is all set to become the standard for advanced students, researchers and manufacturing engineers, as well as designers and project managers seeking practical descriptions of robot endeffectors and their applications. From the contents: - Introduction to Prehension Technology - Automatic Prehension - Impactive Mechanical Grippers - Ingressive Grippers - Astrictive Prehension - Contigutive Prehension - Miniature Grippers and Microgrippers - Special Designs - Hand Axes and Kinematics - Separation - Instrumentation and Control - Tool Exchange and Reconfigurability - Compliance - Selected Case Studies Authors: Gareth Monkman is Professor of Robotics and Automation at the Fachhochschule Regensburg in Germany. In addition to authoring a large number of academic papers, he also holds numerous patents in the field of gripper technology. Stefan Hesse is a manipulator technology consultant, lectures at the Technical College Technikum Vienna, and has been working extensively as editor and author for many years. Ralf Steinmann is head of Sales and Marketing Automation at SCHUNK GmbH & Co. KG, Lauffen, Germany. Henrik Schunk is executive Vice President of SCHUNK GmbH & Co. KG, Lauffen, Germany.
Grippers in Motion provides a comprehensive, practice-oriented guide to the fascinating details of automation processes involving gripping and manipulation. This intriguing and colorful book leads the reader from the history of automation and robotics to the fundamentals of the gripping process as well as the interaction of the gripping process with individual workpieces. Boundary conditions and initial situation of the gripping process are defined, and how subsequent motion follows gripping is shown. The implementation of these motion processes, from simple linear motions to the kinematics of multiple axes, is illustrated in a practical way. This practical introduction motivates students and even professionals to learn more about the world of robotic grippers. Grippers in Motion includes a spectrum of real-world applications demonstrating the possibilities and varieties of automation in practice.
This volume contains the basic concepts of modern robotics, basic definitions, systematics of robots in industry, service, medicine and underwater activity. Important information on walking and mili-walking machines are included as well as possible applications of microrobots in medicine, agriculture, underwater activity.
A modern and unified treatment of the mechanics, planning, and control of robots, suitable for a first course in robotics.
Grasping in Robotics contains original contributions in the field of grasping in robotics with a broad multidisciplinary approach. This gives the possibility of addressing all the major issues related to robotized grasping, including milestones in grasping through the centuries, mechanical design issues, control issues, modelling achievements and issues, formulations and software for simulation purposes, sensors and vision integration, applications in industrial field and non-conventional applications (including service robotics and agriculture). The contributors to this book are experts in their own diverse and wide ranging fields. This multidisciplinary approach can help make Grasping in Robotics of interest to a very wide audience. In particular, it can be a useful reference book for researchers, students and users in the wide field of grasping in robotics from many different disciplines including mechanical design, hardware design, control design, user interfaces, modelling, simulation, sensors and humanoid robotics. It could even be adopted as a reference textbook in specific PhD courses.
Introduces designers to hardware and software tools necessary for planning, laying out, and building advanced robot-based manufacturing cells surveying the available technology for creating innovative machines suitable to individual needs. Considers assembly system simulation, task-oriented programm