Abstract
Large-scale personalization is becoming a reality. To ensure market competitiveness and economic benefits, enterprises require rapid response capability and flexible manufacturing operations. However, variant design and production line reconfiguration are complicated because it involves the commissioning, replacement, and adaptive integration of equipment and remodification of control systems. Herein, a digital twin-driven production line variant design is presented. As a new technology, the digital twin can realize the parallel control from the physical world to the digital world and accelerate the design process of the production line through a virtual–real linkage. Simultaneously, the actual production line can be simulated to verify the rationality of the design scheme and avoid cost wastage. Four key technologies are described in detail, and a production line variant design platform based on digital twin is built to support rapid production line variant design. Finally, experiments using a smartphone assembly line as an example are performed; the results demonstrate that the proposed method can realize production line variant design and increase production efficiency.
Highlights
Serial design is used as the manufacturing system design process, which is developed and designed according to the sequence of the whole line scheme, intermediate equipment, control system, execution system, integration test, installation, and commissioning
This study introduces a method of variant design for production lines based on digital twin
A production line variant design platform based on a digital twin was built based on the proposed enabling technology to support rapid production line variant design
Summary
Based on the digital twin, complex manufacturing processes can be integrated to achieve closed-loop optimization of the production line design, commissioning, verification, integration, and service. Compared with the change effect of product variant design, the change effect of the production line is more diversified, including the change from users and products, the change of production line structure configuration, equipment action, WIP movement, control network, manufacturing execution system.
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