Creating Continuous Flow
Explains how to design, introduce and sustain flow in pacemaker cells and lines.
Published: June 2011
Publisher: Lean Enterprise Institute
Discount: 20% on 10+ copies
This workbook explains in simple, step-by-step terms how to introduce and sustain lean flows of material and information in pacemaker cells and lines, a prerequisite for achieving a lean value stream.
A sight we frequently encounter when touring plants is the relocation of processing steps from departments (process villages) to product-family work cells, but too often these "cells" produce only intermittent and erratic flow. Output gyrates from hour to hour and small piles of inventory accumulate between each operation so that few of the benefits of cellularization are actually being realized; and, if the cell is located upstream from the pacemaker process, none of the benefits may ever reach the customer.
This sequel to Learning to See (which focused on plant level operations) provides simple step-by-step instructions for eliminating waste and creating continuous flow at the process level. This isn't a workbook you will read once then relegate to the bookshelf. It's an action guide for managers, engineers, and production associates that you will use to improve flow each and every day.
Creating Continuous Flow takes you to the next level in work cell design where you'll achieve even greater cost and lead time savings. You'll learn:
- where to focus your continuous flow efforts
- how to create much more efficient work cells and lines
- how to operate a pacemaker process so that a lean value stream is possible
- how to sustain the gains, and keep improving
Creating Continuous Flow is the next logical step after Learning to See. The value-stream mapping process defined the pacemaker process and the overall flow of products and information in the plant. The next step is to shift your focus from the plant to the process level by zeroing in on the pacemaker process, which sets the production rhythm for the plant or value stream, and apply the principles of continuous flow.
Every production facility has at least one pacemaker process. The pacemaker processes is usually where products take their final form before going to external customers. It’s called the pacemaker because how you operate here determines both how well you can serve the customer and what the demand pattern is like for your upstream supplying processes.
How the pacemaker process operates is critically important. A steady and consistently flowing pacemaker places steady and consistent demands on the rest of the value stream. The continuous flow processing that results allows companies to create leaner value streams.
ABOUT THE AUTHOR
Mike is also a co-author of Learning to See: value-stream mapping to create value and eliminate muda, a Shingo Research prize winner. He also co-developed the Training to See kit that teaches facilitators how to run value-stream mapping workshops. His latest book is Toyota Kata (McGraw-Hill). Mike is an engineer, a researcher, teacher, consultant, and speaker on the subjects of management, leadership, improvement, adaptiveness, and change in human organizations. His affiliations have included the Industrial Technology Institute (Ann Arbor), the University of Michigan College of Engineering, the Fraunhofer Institute for Manufacturing Engineering and Automation (Stuttgart), and the Technical University Dortmund. Mike began his career in the manufacturing division of Thyssen AG in Germany. He lives in Ann Arbor, MI, and Cologne, Germany.
Rick is also the co-author of Making Materials Flow: a lean material-handling guide for operations, production-control, and engineering professionals, a Shingo Research prize winner in 2005. Rick learned the realities of manufacturing during 15 years at GM, beginning as an operator and working his way up to first line manager. He received his lean education at Toyota’s Georgetown, KY, plant, where he was a member of the startup team and an assembly manager. Rick continued his lean training at the Tsutsumi Assembly Plant in Toyota City, Japan. He pioneered the "reverse flow" process to achieve dramatic increases in operator efficiency. He also has extensive experience developing layouts that facilitate one-piece flow, operator flexibility, first-time-through quality, optimum uptime, and reduced capital investment.
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