61 The production lines are organized according to Lean Manufacturing principles: processes are streamlined and clearly divided by role. Specifically, the Production Planning Office sends picking orders to the Warehouse, which prepares carts with the exact quantities of components required for each production batch. The production operator simply replaces the empty cart at their workstation with the prepared one and starts the production process. The items produced during assembly and heavy processing are then passed on to the packaging stage, where they are inserted into Retail or Bulk packaging, depending on the product type. The finished goods are then dispatched to other warehouses. For Osculati, one of the greatest advantages of having an internal production department is the ability to provide both technical and practical support for the design and development of new products. All the processes described above — from production setup to packaging — are designed and managed by the company with continuous attention to environmental protection: Osculati currently boasts over 7,000 proprietary products, many of which were conceived and developed directly by the Design & Engineering Department, dedicated to creating new items and improving existing ones to ensure the highest efficiency and reliability of the Company’s products. Every year, this department develops approximately 30 new projects, ranging from new products and product families to custom designs tailored to specific customer requirements. The product development process is often driven by the innovative spirit that characterizes the Osculati family — particularly President Mario Osculati — as well as by the feedback and requests of customers, especially shipyards and sailors who collaborate with the Company. This constant dialogue enables a continuous improvement process, aimed at creating solutions that meet ever-evolving needs. Through the use of CAD software and FEA (Finite Element Analysis) and FEM (Finite Element Method) simulations, Osculati is able to analyze the mechanical behavior and stress loads of new products before production. This allows the optimization of shapes and Low-Environmental-Impact Machinery with Oil Recovery and Reuse Systems Reduction of Waste and Material Scrap through Raw Material Optimization Waste segregation (plastics, ferrous scrap, wooden crates and cardboard packaging)
RkJQdWJsaXNoZXIy MjM2MTk=