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Design and Implementation of a Drum-Buffer-Rope Pull-System

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posted on 2022-03-01, 16:52 authored by John Darlington, Mark Francis, Pauline Found, Andrew J. Thomas
Purpose: This paper investigates the selection, design and implementation of a Drum-Buffer-Rope (DBR) type of production pull-system in a panel fabrication plant characterised by extensive shared, batch resource resources within a low volume UK manufacturer of large vehicles. This was the second of a series of two related research projects conducted under the aegis of a Lean initiative at this case firm. Design/methodology/approach: A purposively selected longitudinal case study conducted over 24 months and organised around a two phase research design. The initial body of evidence included a detailed map constructed by a project team of eight managers and accountants during a two day structured workshop; numerous unstructured interviews and observation of shop floor practices; document and archival analysis, and 140 photographs of the focal operation. Supplemented by extensive financial and operational data extracted from the firm’s accounting and MRP systems, including all data necessary to construct and implement bespoke capacity planning, work in progress (WIP) monitoring and simulation modelling tools. The case firm is anonymised. Findings: The Lean manufacturing literature ignores the real-world issue of shared resources, and this gap is attributable to the concept of ‘rightsizing’ tools and equipment that is widely promoted within the Lean community. The case panel plant is characterised by extensive shared resources; many of which are also batch processes. The most appropriate pull-system method for this production environment is DBR. The detailed design of the DBR mechanism required a controlled transfer buffer of overhead conveyance capacity after the Drum because the extent of downstream process variability risked it being unable to offload panels, hence compromising throughput. Research limitations/implications: The study is based upon a single case. This consequently has implications for the ability to generalise from the results. Practical Implications: When the DBR pull-system design was implemented it reduced the number of panels in WIP by 60%. This equated to a 56% (18 days worth) reduction of manufacturing lead time and more than doubled the plant’s inventory turns (from 9.1 to 21.2). It also significantly improved delivery schedule adherence, with downstream jig stoppages in the Final Assembly falling from an average of six to less than one per week. The financial benefit was independently audited to equate to an annualised value of $850 K. Consequently, this project was awarded the first prize at its parent enterprise’s annual worldwide process improvement competition. Originality/value: This paper details a novel technique that permits the routings of multiple value streams to be mapped and is useful for highlighting the identity and location of shared resources. It also contributes significantly to the literature that is available on the relationship between the Lean paradigm and the management of shared production resources, and adds to the literature on the detailed design and implementation of a DBR pull-system in a jobbing-type of environment.

History

Published in

Production Planning & Control: The Management of Operations

Publisher

Taylor & Francis

Version

  • AM (Accepted Manuscript)

Citation

Darlington, J., Francis, M., Found, P. and Thomas, A.J (2015) 'Design and Implementation of a Drum-Buffer-Rope Pull-System', Production Planning & Control: The Management of Operations, Vol. 26, No. 6, pp.489-504

Print ISSN

0953-7287

Electronic ISSN

1366-5871

Cardiff Met Affiliation

  • Cardiff School of Management

Cardiff Met Authors

Mark Francis

Cardiff Met Research Centre/Group

  • Welsh Centre for Business and Management Research

Copyright Holder

  • © The Publisher

Language

  • en

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