Abstract
Changing the design of a factory in practice involves the change of a number of parallel and interdependent systems such as the machining resources and robot cells, the supply systems for electricity, water, air, heat and cooling, pneumatics and hydraulics, the systems for chip and waste handling, process fluid, communication networks, sprinkler systems, as well as the building construction. Thus the coordination of information and models, as well as of the design work activities, is of utmost importance to achieve a fast and flexible development process. This paper presents the results from a research project focusing on computer aided work processes and the communication of models between various stake holders in layout design. The primary objective was to provide methods for a coordinated factory development process with a facilitated information exchange and reuse of knowledge and models. Results concerning required layout and PLM (Product Lifecycle Management) functionalities, as well as modelling and communication principles, tested in an industrial case, are presented.
Highlights
Introduction with Background and Problem DescriptionFactory layout design is a multidisciplinary, knowledge-intensive task that is vital for the survival of manufacturers in today’s globally competitive environment
The consolidation and integration of different models is of particular interest since the design of a factory involves many different stakeholders
These stakeholders, who come from the building, media, manufacturing and machine design domains, typically utilize different models and CAX systems from different system vendors
Summary
Factory layout design is a multidisciplinary, knowledge-intensive task that is vital for the survival of manufacturers in today’s globally competitive environment. With the proposed scheme and the STEP AP203 standard, they use the integrated schema for generating the product feature code This approach does not include layout development [5]. Apart from geometry; technical data and interrelations between products and processes and resources can be represented using the STEP application protocols AP214 [13] or AP242 [14], and the standard has previously been applied for modeling manufacturing systems and machine tools [15]. The ultimate goal is that the right data is accessible at the right time to the right person which assumes that data is organized in a coherent information model, partly based on some standard formats Even with this vision realized, there is a need to be able to manage versions, permissions, support processes, etc.
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