With the incorporation of precise robotic line workers and 3D printed parts, automotive automation technology is constantly advancing. This has allowed automotive companies to reduce downtime and increase productivity, significantly increasing profits.
The automotive industry is very dynamic and requires extreme flexibility from car manufacturers. There are many independent factory automation suppliers like MRO Electric that can help companies adopt automation processes through PLC and CNC products.
Industrial Automation in the Automobile Industry
The Automotive sector is among the sectors most affected by digitization processes. It is largely driven by disruptive phenomena that are revolutionizing the market, such as pervasive artificial intelligence. Grasping the disruption means activating data mining and business intelligence applications to intercept market requests. This is done through the information gathered from the web and the digital services that complement the vehicle. Therefore, specific technologies and a redesign of internal and external data management processes are needed.
Industrial automation will generate explosive growth with PLC and CNC products, technologies related to assembly systems, MEMS sensors, and control software. This equipment can be easily acquired through MRO Electric. The main new software applications will be wireless sensors and distributed peer-to-peer networks, allowing nodes to communicate as a larger complex adaptive system.
Evolution in Automobile Industrial Automation
Industrial automation in the automotive industry must evolve in parallel with the needs of the automotive sector. These needs are increasingly oriented towards advanced technology to guarantee high productivity.
They also ensure higher performance standards and optimized work cycles. Thanks to the experience and understanding of the involved teams, the task proposes itself as a strategic partner within the entire supply chain.
Traceability of Production Lots
Automation can provide solutions to ensure execution times (marking and reading) are in compliance with production requirements. This information is based on the speed of the line and the quality of the marked code in compliance with the imposed standards (without qualitative deterioration over time). It limits wear to a minimum traditional marking system (punching, inkjet) and the consequent downtime/maintenance.
Operator Safety
24/7 production cycles require the identification of solutions to guarantee safety for all operators within the production or goods handling areas. It ensures a safe stop of moving machine parts and prevents unauthorized access to dangerous areas through precision access control.
Data Collection From an Industry 4.0 Perspective
The efficiency of cycles and production lines in the automotive sector also passes through multi-platform interfaces. These are essential for collecting data for diagnostic and monitoring purposes, minimizing processing waste, and preventing downtime in machines.
Quality Check
Increasingly higher quality standards and performance levels require the detection and verification of the correct position of the objects in the production line and the possible verification of correct assembly. This is done in order to be able to respect processing times that comply with production needs based on the speed of the individual line.
Conclusion
Automobile manufacturers need to have flexible logistics systems that can be adapted quickly and meet the ever-increasing demand for model diversity. Automation can be leveraged at almost every stage of vehicle production, including assembly, inspection, welding, and testing.