Abstract
This paper proposes an expansion of the Lean 5S methodology, which includes the concept of Safety–Security as 6S. Implementation was done by a standardized process tested in a pilot area that is part of the Integrated Industrial Manufacturing System Laboratory at the Higher Technical School of Engineering (ICAI). The additional 6S phase (Safety-Security) thoroughly reviews all areas of an industrial plant by analyzing the risks at each workstation, which let employees be fitted out with protection resources depending on each of their personal characteristics and to guarantee the safety of the workstation by strictly complying with occupational safety and health and machinery use standards, which must hold a CE certificate of compliance. The main objective was to increase the scope of 5S methodology to respond to the occupational safety and health needs for machines required in optimizing production processes. It is important to remember that companies must guarantee that their employees use personal protection equipment (PPE) at their work posts or stations that protect them properly from risks to their health and safety and that cannot be prevented or sufficiently limited by using collective means of protection or by adopting work organization measures. The industrial resources employed in the pilot area chosen for 6S implementation were a sheet metal deformation and cutting line comprised of a punch press, feeder, and winder, as well as a conventional machine tool with minimum safety specifications and without CE certification. Until now, there had been no plans to implement a 6S tool in this laboratory. However, given that the existing safety risk to operators is high, the implementation has led to obtaining optimal results, which justify the success of the 6S methodology proposal. In short, it lets us advance towards the zero accident target.
Highlights
The overall industrial sector demands a response to competitive requirements
This paper proposes an expansion of the Lean 5S methodology, which includes the concept of Safety–Security as 6S
The main objective was to increase the scope of 5S methodology to respond to the occupational safety and health needs for machines required in optimizing production processes
Summary
The overall industrial sector demands a response to competitive requirements. The innovation and continuous improvement of existing methodologies are essential for responding to these needs. The price impact on resource purchase and sale processes, as well as the costs associated with production processes, if leaving out quality requirements and delivery timelines, oblige many companies to seek alternatives by implementing methodologies in their organization systems based on the principles of Lean Manufacturing [1,2,3]. The word ‘lean’ in reference to an industrial process means that it is versatile, meaning that the parameters can be modified according to clients’ requirements. The methodologies developed under the philosophy of lean manufacturing seek to maximize competiveness of industrial plants via adjusted production, which manages to reduce costs and improve processes. There are a wide variety of methodologies applied during different stages and areas of the plant that permit the entire system to be optimized [5,6,7]
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