1 Session 19 Just-In-Time Manufacturing JIT Impact on the MPC System JIT Continuous Improvement –JIT Building Blocks –Elements of JIT Kanban Systems –Single.

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Presentation transcript:

1 Session 19 Just-In-Time Manufacturing JIT Impact on the MPC System JIT Continuous Improvement –JIT Building Blocks –Elements of JIT Kanban Systems –Single Card Kanban –Kanban Calculations JIT Impact on the MPS –Mixed Model Final Assembly –JIT Assembly/Component Scheduling

2 JIT Impact on the MPC System Eliminating discrete batches in floor of production rates Level, mixed model MPS Paperless, visual shop floor control Eliminating transactions/Backflushing Streamlined vendor scheduling

3 Manufacturing Planning and Control System and JIT

4 Building Blocks for Just-in-Time

5 JIT Benefit Summary Improvement Aggregate percentage (3-5 years)Annual percentage Manufacturing cycle time reduction80-90% 30-40% Inventory reductions: Raw materials Work-in-process Finished goods Labor cost reductions: Direct Indirect Space requirements reduction Quality cost reduction Material cost reduction

6 JIT Objectives Ultimate objectives: Zero Inventory. Zero lead time. Zero failures. Flow process. Flexible manufacture. Eliminate waste.

7 JIT Building Blocks Product design: Few bill of material levels. Manufacturability in production cells. Achievable quality. Appropriate quality. Standard parts. Modular design.

8 JIT Building Blocks Process design: Setup/lot size reduction. Quality improvement. Manufacturing cells. Limited work-in-process. Production bandwidth. No stockrooms. Service enhancements.

9 JIT Building Blocks Human/organizational elements: Whole person. Cross training/job rotation. Flexible labor. Continual improvement. Limited direct/indirect distinction. Cost accounting/performance measurement. Information system changes. Leadership/project management.

10 JIT Building Blocks Manufacturing planning and control: Pull systems. Rapid flow times. Small container sizes. Paperless systems. Visual systems. Level loading. MRP interface. Close purchasing/vendor relationships. JIT software. Reduced production reporting/inventory transaction processing Hidden factory cost reductions.

11 Single Kanban System

12 Kanban Calculation 1.Calculate the number of kanbans required for the following two components produced in a factory that works five days per week: A B Usage240/week120/day Lead time 1 week2 weeks Container size 20 units30 units Safety stock 25 percent 0

13 Kanbans Calculations A B Usage (per week) Lead time 1 2 Container size Safety % 25 0 Kanbans Number of Kanbans = Usage x Lead time x (1 + safety stock) / container size Note that B's Usage must be converted to weeks A:240 u/week x 1 week x (1 +.25)= B:120 u/day x 10 days x (1 + 0)= 40 30

14 Master Production Schedule Data Model _______________________________________________________________ 151A151B151C151D Option configurations: HandleBasicBasic Executive Executive PanSheet CladSheetClad Annual forecast (units)200,0002,50025,000100,000 Possible mixed model master production schedules: Daily batch MPS Hourly batch MPS Minimum batch MPS * data are based on a 250-day year and an eight-hour work day.

15 Mixed Model Final Assembly 5. The Yakima Lash Company produced four models. The forecasts of annual demand for each of the four are as follows: Model IIIIIIIV Forecast of annual demand 500 1,500 3,500 4,500 a. Use a 250-day year and an eight-hour day to determine the mixed-model-level master schedule for a daily batch and hourly batch with minimum batch sizes. b. What would the schedule of production look like for an eight-hour day using mixed-model minimum batch size production?

16 Problem 5. Yakima Lash Company a.Product lineI II III IV Forecast for year5001,5003,5004,500 Daily batch Hourly batch Mixed model b.Schedule for the day-order of the products' production and number of each produced. 8-12: IV,IV,IV,IV,IV,IV,IV,IV,IV,III,III,III,III,III,III,III,II,II,II,I 12-4: IV,IV,IV,IV,IV,IV,IV,IV,IV,III,III,III,III,III,III,III,II,II,II,I

17 Assembly/Component Scheduling Hofmann Enterprises produces three products using a mixed-model assembly line. This line is operated eight hours a day for 250 days per year, and produces 14 units per hour of all products. The forecasts of annual demand for each of the three products are as follows: Product Annual (code names) forecast John 16,000 units Goldie 8,000 units Ziggy 4,000 units

18 Hoffman Enterprises Example a.Determine the mixed-model master production schedule for a daily batch with minimum batch size for all three products. Calculation made assuming a 250 day year Annual Daily Mixed Model ProductForecastProductionMinimum Batch Size John Goldie Ziggy

19 Hoffman Enterprises Example b.Prepare a daily schedule indicating the number of Johns, Goldies, and Ziggys to be produced each day. Hours of the Day JohnJohnJohnJohnJohnJohnJohnJohn Goldie Goldie Goldie Goldie ZiggyZiggyZiggyZiggyZiggyZiggyZiggyZiggy JohnJohnJohnJohnJohnJohnJohnJohn Goldie Goldie Goldie Goldie ZiggyZiggyZiggyZiggyZiggyZiggyZiggyZiggy

20 Hoffman Enterprises Example c.Product John requires 2 units of component X and one unit of component Y to make a finished unit of John. Component X is produced on a JIT pull system basis by a separate manufacturing department. Determine the number of kanbans required for component X if the lead time is 2 days, the safety factor is 10%, and the container size is 20 units. # Kanbans = [ 2 x 64 x 2 x (1 +.10) ] / 20= 15 UsageLead TimeSafety Percent Container Kanbans 128/day2 days10% 20 units 15