Week 13 COMPUTER INTEGRATED MANUFACTURING SYSTEM (CIMS)

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Presentation transcript:

Week 13 COMPUTER INTEGRATED MANUFACTURING SYSTEM (CIMS) Matakuliah : Mechatronics 2 Tahun : 2005 Versi : 1.0/0 Week 13 COMPUTER INTEGRATED MANUFACTURING SYSTEM (CIMS)

Learning Outcomes By the end of this session, students will have a general understanding of CIMS.

Manufacturing Model 1) Elements Functions 1)Duncan, L.W.; “Manufacturing 2000”

Trend of Shift Direction Business Administration Obtaining Business Defining Product & Processes Production Distribution Support Trend of Shift Direction 1)

Characteristics of Industrial Plants Mechanical Plant Transient time << No. of variables << Measured variables >> System parameters relatively vary from one condition to another Process Plant Transient time >> No. of variables >> Measured variables << System parameters relatively constant

Types of Automation Continuous Flow Production Mass Batch Job Shop Variety Quantity Changes of System Parameters Relatively Low Relatively High

Production Volume vs. Part Variety Ref. Groover, Zimmers Jr.

It incorporates CAD/CAM technologies, e.g. CIMS Designed to fill the gap between high production transfer lines and low production NC machines. It incorporates CAD/CAM technologies, e.g. Computer Numerical Control. Automated inspection methods. Industrial robots.

Types of Manufacturing System Special manufacturing system. Manufacturing cell. Flexible Manufacturing System (FMS). Ref. Groover, Zimmers Jr.

Machine Tools Standard CNC machines Inspection stations. Selection of machine tools which make up a CIMS depends on the processing requirements. Factors that define the processing requirements Part size Part shape Part variety Product life cycle Definition of future parts. Operation other than machining, e.g. assembly and inspection tasks.

Computer Control System Machine control. Direct numerical control. Production control. Traffic control. Shuttle control. Work handling system monitoring. System performance monitoring and reporting.

Increasing machine utilization. Shorter manufacturing lead time. Benefits of CIMS Increasing machine utilization. Shorter manufacturing lead time. Lower in process inventory. Scheduling flexibility.