Daniel M Kandray

Programmable Automation Technologies

• Gebundenes Buch

Produktbeschreibung

Divided into four parts, "Programmable Automation" focuses on programmable automation technologies used in industry. Comprehensive yet concise, this unique textbook provides a solid foundation of analytical techniques to justify automation and the knowledge and instruction of how to program computer numerical controlled (CNC) equipment, industrial robots and programmable logic controllers (PLC). Through a very practical approach, readers will learn specific programming languages related to each technology including G code and ladder logic. And it is sure to be found useful by electrical, industrial, mechanical and/or manufacturing engineering technology undergraduate students, in addition to anyone in industry interested in learning about programmable automation and developing the corresponding programming skills. Each chapter begins with an overview of chapter material with emphasis on desired outcomes and concludes with a summary, questions, and problems where appropriate. The book presents explicit skills and methodologies to aid in the programming process; features a good use of examples with numerous illustrations; and, uses computer simulation and actual lab equipment extensively in learning activities.

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Produktdetails

• Verlag: Industrial Press
• Seitenzahl: 528
• Erscheinungstermin: 4. Juni 2010
• Englisch
• Abmessung: 262mm x 184mm x 34mm
• Gewicht: 1066g
• ISBN-13: 9780831133467
• ISBN-10: 0831133465
• Artikelnr.: 23281959

Autorenporträt

Daniel M. Kandray is a gratudale of Youngstown State University, with an M.T. from Kent State University. A faculty member in the Department of Engineering & Science Technology in Summit College at the University of Akron, he was previously a faculty member at Kent State University. He is a member of the Soociety of Manufacturing Engineers and a Registered Professional Engineer in the State of Ohio.

Inhaltsangabe

Introduction to Programmable Automation
Introduction to Programmable Automation The Manufacturing Process
Automation Manufacturing Performance Measures Benefits of Automation
Automation Strategies
Automation Justification and Productivity Concepts
Automation Justification and Productivity Productivity Calculations Process
Outputs and Mathematical Concepts for Quantifying Production Process Inputs
and Manufacturing Costs Comparing Alternatives with Productivity
Calculations The Impact of Production Volume on Alternatives Productivity
and the USA Principle
Introduction to Computer Numerical
Introduction to CNC Technology CNC System Components Coordinate Systems and
Reference Points The Ten Steps of CNC Programming Advantages and
Disadvantages of CNC Technology When to Use CNC Technology
CNC Programming
Overview of CNC Programming Program Code Cutting Parameters Program
Organization Programming Process Turning Programs
CNC Simulation Software
Overview of CNC Simulation Software Installation and Setup of CNCSimulator®
User Interface Simulation Examples
Introduction to Robotic Technology
Industrial Robotics Robot Hardware Robot Applications Robot Safety Robot
Selection Considerations
Robot Programming
Robot Programming Concepts Programming Methods Robot Programming Languagues
Robot Program Development, Organization and Structure Writing Robot Program
of Instructions Robot Simulation Robot Program Simulation Example
Introduction to Programmable Logic Controllers (PLCs)
Progammable Logic Control Overview Industrial Process Control PLC
Terminology PLC Hardware Components PLC Applications Sensors and Actuators
Implementing Automation with PCLs
PLC Programming
Logic Control, Sequencing, and Ladder Logic Diagrams Ladder Logic
Terminology Typical PLC Instruction Set PLC Programming Process PLC Program
Simulation PLC Programming Example
Automated Work Cells
Automated Workstations and Work Cells Workstation and Work Cell Components
Automated Workstation and Work Cell Examples