4. Sections:
1. Production Systems
2. Automation in Production Systems
3. Manual Labor in Production Systems
4. Automation Principles and Strategies
5. Organization of the Course
5. ï‚ž Globalization - Once underdeveloped
countries (e.g., China, India, Mexico) are
becoming major players in manufacturing
ï‚ž International outsourcing - Parts and
products once made locally are now being
made offshore (in China or India) or near-
shore (in Eastern Europe)
ï‚ž Local outsourcing - Use of suppliers locally to
provide parts and services
6. ï‚ž Contract manufacturing - Companies that
specialize in manufacturing entire products,
not just parts, under contract to other
companies
ï‚ž Trend toward the service sector
ï‚ž Quality expectations - Customers, both
consumer and corporate, demand products of
the highest quality
ï‚ž Need for operational efficiency -
manufacturers must be efficient in in their
operations to overcome the labor cost
advantage of international competitors
8. A collection of people, equipment, and procedures
organized to accomplish the manufacturing
operations of a company
9. Factory, production machines and tooling, material
handling equipment, inspection equipment, and
computer systems that control the manufacturing
operations
10. ï‚¡ Business functions - sales and marketing,
order entry, cost accounting, customer billing
ï‚¡ Product design - research and development,
design engineering, prototype shop
ï‚¡ Manufacturing planning - process planning,
production planning, MRP, capacity planning
ï‚¡ Manufacturing control
shop floor control,
inventory control, quality control
11.
12. Examples:
ï‚ž Automated machine tools
ï‚ž Transfer lines
ï‚ž Automated assembly systems
ï‚ž Industrial robots
ï‚ž Automated material handling and storage
systems
ï‚ž Automatic inspection systems for quality
control
Automated
System
Automated
System
Periodic
Worker
Periodic
Worker
Transformation Process
14. Sequence of processing (or assembly) operations is
fixed by the equipment configuration
Typical features:
ï‚ž Suited to high production quantities
ï‚ž High initial investment for custom-engineered
equipment
ï‚ž High production rates
ï‚ž Relatively inflexible in accommodating product
variety
15. Capability to change the sequence of operations throug
reprogramming to accommodate different product
configurations
Typical features:
ï‚ž High investment in programmable equipment
ï‚ž Lower production rates than fixed automation
ï‚ž Flexibility to deal with variations and changes in
product configuration
ï‚ž Most suitable for batch production
ï‚ž Physical setup and part program must be changed
between jobs (batches)
16. System is capable of changing over from one job to
the next with little lost time between jobs
Typical features:
ï‚ž High investment for custom-engineered system
ï‚ž Continuous production of variable mixes of products
ï‚ž Medium production rates
ï‚ž Flexibility to deal with soft product variety
17. 1. To increase labor productivity
2. To reduce labor cost
3. To mitigate the effects of labor shortages
4. To reduce or remove routine manual and clerical
tasks
5. To improve worker safety
6. To improve product quality
7. To reduce manufacturing lead time
8. To accomplish what cannot be done manually
9. To avoid the high cost of not automating
18. 1. Understand the existing process
ï‚¡ Input/output analysis
ï‚¡ Value chain analysis
ï‚¡ Charting techniques and mathematical modeling
1. Simplify the process
ï‚¡ Reduce unnecessary steps and moves
1. Automate the process
ï‚¡ Ten strategies for automation and production systems
ï‚¡ Automation migration strategy
19. 1. Specialization of operations
2. Combined operations
3. Simultaneous operations
4. Integration of operations
5. Increased flexibility
6. Improved material handling and storage
7. On-line inspection
8. Process control and optimization
9. Plant operations control
10. Computer-integrated manufacturing