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Industrial Robotics New edition [Pehme köide]

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  • Formaat: Paperback / softback, 304 pages, kõrgus x laius x paksus: 20x210x274 mm, kaal: 657 g
  • Ilmumisaeg: 03-Apr-2018
  • Kirjastus: Delmar Cengage Learning
  • ISBN-10: 1133610994
  • ISBN-13: 9781133610991
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Industrial Robotics New editionSuurem pilt
  • Formaat: Paperback / softback, 304 pages, kõrgus x laius x paksus: 20x210x274 mm, kaal: 657 g
  • Ilmumisaeg: 03-Apr-2018
  • Kirjastus: Delmar Cengage Learning
  • ISBN-10: 1133610994
  • ISBN-13: 9781133610991
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9781133610991.html
Märksõnad:
Giving you insight into real-world practice, INDUSTRIAL ROBOTICS provides an introduction to the industry and basic understanding of the subjects needed for starting a career in industrial robotics. It begins with a background on the history and development of industrial automation, then moves into robot mechanical unit configurations, controller architecture, and general software structure. Basic programming instruction definition and interpretation enable you to break a programming problem into its component parts, solve the component parts, and integrate them into a finished program. Three subjects not typically addressed in robotic texts are discussed: industrial sensors, vision systems, and maintenance. Comprehensive coverage also includes the basic types of tooling and their applications, economic aspects of robots in the workplace, and the issues of human/robot interfaces.
Preface vii
About the Author ix
Dedication x
Chapter 1 Safety
1(20)
Overview
2(1)
Robots Require Respect
3(1)
Danger Zones
3(3)
Guarding
6(2)
Safety Devices
8(3)
Electricity and You
11(3)
LOTO
14(1)
Handling Emergencies
15(4)
Review
19(1)
Key Terms
19(1)
Review Questions
20(1)
Chapter 2 Introduction to Industrial Robotics
21(19)
Overview
22(1)
What Is an Industrial Robot?
22(1)
A History of Technology
23(3)
The Rise of the Industrial Robot
26(9)
Why Use a Robot?
35(3)
Review
38(1)
Key Terms
39(1)
Review Questions
39(1)
Chapter 3 Components of the Robot
40(21)
Overview
41(1)
Power Supply
41(7)
Controller/Logic Function
48(4)
Teach Pendant/Interface
52(2)
Manipulator, Degrees of Freedom, and Axis Numbering
54(3)
Base Types
57(2)
Review
59(1)
Key Terms
60(1)
Review Questions
60(1)
Chapter 4 Classification of Robots
61(17)
Overview
62(1)
How Are Robots Classified?
62(1)
Power Source
62(2)
Geometry of the Work Envelope
64(7)
Drive Systems: Classification and Operation
71(4)
ISO Classification
75(1)
Review
76(1)
Key Terms
77(1)
Review Questions
77(1)
Chapter 5 End-of-Arm Tooling
78(21)
Overview
79(1)
What Is EOAT?
79(1)
Types of Tooling Available
79(14)
Multiple Tooling
93(1)
Positioning of EOAT
94(2)
Review
96(1)
Formulas
97(1)
Key Terms
97(1)
Review Questions
98(1)
Chapter 6 Programming and File Management
99(27)
Overview
100(1)
Programming Language Evolution
100(4)
Planning
104(7)
Subroutines
111(1)
Writing the Program
112(7)
Testing and Verifying
119(2)
Normal Operation
121(1)
File Maintenance
122(2)
Review
124(1)
Key Terms
124(1)
Review Questions
124(2)
Chapter 7 Automation Sensors
126(26)
Overview
127(1)
Limit Switches
127(1)
Proximity Switches
128(5)
Tactile and Impact Sensors
133(3)
Temperature Sensors
136(2)
Fluid Sensors
138(5)
Position Sensors
143(2)
Sound Sensors
145(2)
Connection to the Robot
147(1)
Sensor Selection Criteria
148(1)
Review
149(1)
Key Terms
150(1)
Review Questions
150(2)
Chapter 8 Vision Systems
152(17)
Overview
153(1)
History of Vision Systems
153(3)
Components of a Vision System
156(3)
Image Analysis
159(2)
Lighting
161(6)
Review
167(1)
Key Terms
167(1)
Review Questions
168(1)
Chapter 9 Integration and Networking
169(20)
Overview
170(1)
What Is a Network?
170(1)
Types of Networks
171(6)
Communication Protocols
177(7)
Integration
184(3)
Review
187(1)
Key Terms
187(1)
Review Questions
188(1)
Chapter 10 Programmable Logic Controllers (PLCs) and Human-Machine Interfaces (HMIs)
189(26)
Overview
190(1)
What Is a PLC?
190(4)
A Brief History of PLCs
194(2)
Basic Components of the PLC
196(7)
Operation of the PLC
203(6)
Human--Machine Interfaces
209(4)
Review
213(1)
Key Terms
213(1)
Review Questions
214(1)
Chapter 11 Maintenance and Troubleshooting
215(18)
Overview
216(1)
Preventive Maintenance
216(3)
Arc Flash
219(2)
Troubleshooting
221(2)
Crash Recovery
223(3)
Repair Tips
226(3)
Parts Swapping Versus Fixing the Problem
229(1)
Precautions before Running the Robot
230(1)
Review
231(1)
Key Terms
231(1)
Review Questions
231(2)
Chapter 12 Justifying the Use of a Robot
233(11)
Overview
234(1)
Robot Versus Human Labor
234(1)
SWOT Analysis
235(2)
Return on Investment
237(2)
Precision and Quality
239(1)
Use of Consumables
240(1)
Hazardous Environments
241(1)
Review
242(1)
Key Terms
242(1)
Review Questions
243(1)
Appendix A Flow Charting Symbols 244(1)
Appendix B Recommended Tool List 245(1)
Appendix C Torque Conversion Formulas 246(1)
Appendix D Bolt Torque Chart: UNC/UNF Threads 247(1)
Appendix E Metric Bolt Torque Chart 248(1)
Glossary 249(14)
Index 263
Keith E. Dinwiddie is the Technical Education Extension Specialist/Instructor at Ozarks Technical Community College where he has been teaching industrial maintenance and robotics classes full time since fall 2007. Previously, he worked in industry as an industrial maintenance technician while teaching as an adjunct instructor. He also has prior military experience maintaining Huey helicopters. A FANUC Certified Education Robot Training (CERT) instructor for both programming and vision systems, Dinwiddie has experience with various robotic systems, including Panasonic, Mitsubishi, NAO, LEGO Mindstorms NXT and hobby robotic systems.