Automation solutions as signposts for a successful future




PIA系统模块实现了从简单的手动工位到集成数据文档的全自动工位的可扩展性。 优点:实现装配技术高模块化和高灵活性,同时还具有高可用性,维护便利性和可重用性。PIA装配系统可适应新的生产类型或产品生命周期的变更。

Automation solutions increase flexibility

Modern automation solutions unite the virtual and real world and are synonymous with the flexible production of the future. Because there is no question that ever higher demands are being placed on production in terms of flexibility and efficiency. Modern automation solutions are the only answer to these requirements. The focus is not only on the production process itself. Rather, intelligent automation solutions consider the entire complex from the supply of raw materials to maintenance and delivery. In this context, the design of assembly and production machines plays an important role. In order to meet the increasing horizontal diversification of products, an efficient alignment of the investments to the various requirements is indispensable. This includes fast retooling as well as economic changeover between small and large quantities.

Automation is always individual

The individual degree of automation in the company depends on various influencing factors. A wide variety of solutions are used. Especially the human-robot collaboration (MRK) is gaining more and more acceptance in assembly lines. Here, the human being often takes on a monitoring function, while the machine performs specially defined tasks. This form of cooperation can be highly individualized and ranges from the pure control function of man to intensive cooperation between worker and machine. Adapted to the requirements of the company, efficiency and general economic efficiency of the production process increase significantly.

Automation solutions from supply to delivery

Industry 4.0 stands for the automation solution from raw material delivery to delivery and networked, and in some cases even cross-acceptance, software-supported automated communication. A vision that has meanwhile become reality through the merging of the virtual and real world. Above all, the further development of sensors and corresponding software solutions make an important contribution to progressive automation. Production machines communicate with the preceding stages and request required materials or workpieces that are automatically supplied by robots. Numerous sensors continuously collect data as part of predictive maintenance and supply it to processing systems, while production or assembly output stages additionally communicate with the storage systems.

In this context, predictive maintenance in particular is becoming increasingly important in the context of automation solutions. After all, this view of the future of production plants prevents expensive plant downtimes and repairs by reacting quickly and optimizes the planning of maintenance measures.