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  • How Remote Monitoring Improves Machine Maintenance

    IIoT is transforming the way manufacturers identify problems on the plant floor as the latest wireless solutions address integration challenges.  Read the article to learn more about how wireless technologies are making machine maintenance easier and more effective.

    Tower lights for status indication and remote monitoring

    A flashing red light on the plant floor often signals a problem on a production line or in a work cell. It’s a familiar scene in lean manufacturing environments, where these Andon signals help plant workers quickly identify problems before they lead to excessive downtime.

    Beyond the plant floor, traditional Andon alerts don’t provide much information about the cause of disruptions or maintenance trends. But manufacturers can now leverage the Industrial Internet of Things (IIoT) to expand the capabilities of existing maintenance monitoring systems, such as Andon signals.

    IIoT eliminates data silos, so device-level data is accessible to the entire operations team. It provides valuable insights into machine performance, process inefficiencies and other potential risks. In this smart environment, wireless sensors enable real-time remote monitoring of machine performance. Manufacturers can use the information to increase overall equipment effectiveness (OEE), which is a calculation of manufacturing process efficiency.

    How IIoT Improves Machine Monitoring

    In today’s mobile world, wireless networks are everywhere. The advantages are clear: By eliminating the wire limitations in conventional systems, wireless networks improve data logging and process monitoring and control, while maintaining high levels of security and integrity.

    But until recently, implementing a wireless network on the plant floor has been challenging. In the past, wireless systems were difficult to install and maintain. Today, many remote monitoring solutions can be integrated into a single, inexpensive unit. Some of the key attributes of this integrated system include:

    • Portability: I/O devices that manufacturers can easily install and then uninstall and move to a new location as monitoring requirements change.
    • Less maintenance: The radio, I/O terminals and LCD screen are included within a single housing. This means fewer mechanical and wiring issues need to be incorporated into a maintenance schedule.
    • Increased data analysis: A single wireless I/O device can collect both digital and analog sensor readings and forward this data to a central collection point for analysis. In addition, multiple sensor readings can be aggregated into a single gateway device before being forwarded to a host-controlled system for analysis.

    Now, manufacturers can make device-level data accessible to operators and plant managers, providing valuable insights into OEE. The three primary factors included in an OEE calculation are availability, performance and quality.

    The results of this calculation provide actionable insights into the critical sources of waste in a manufacturing operation. This is where access to data from sensors and indicator lights become very important. Logged data from sensors and indicator lights installed on machines can help manufacturers calculate OEE and identify steps to improve efficiency of their machines, processes, and people.

    Monitor and Track Performance

    When an operator “pulls the Andon cord,” or activates an alert, typically a light or display wired to the machine will only signal a stoppage or problem with the machine. It doesn’t provide much insight into what is actually occurring internally. Operators need to manually monitor machine slowdowns or disruptions, which often requires additional man-hour and inefficiencies.

    IIoT-enabled alerts provide both the local machine status and remote status of each light module. Remote status indicators from wireless tower lights and other alert systems allow users to log trends in machine uptime and cycle counts.  Capturing this data helps plants determine maintenance intervals and make decisions about new machine investments.

    It also helps manufacturers identify whether a machine or operator is causing a bottleneck. For example, operators may blame missed production goals on machine downtime, while maintenance personnel point to inefficient workers as the root cause.

    Plant managers can use real-time data collection to accurately verify when the delays were the result of machine downtime or operator inefficiency. For larger manufacturers with multiple plants, these trends can be transmitted to a central location and compared plant to plant to identify and replicate the successes of the highest-performing plants.

    Condition Monitoring for Predictive Maintenance

    Wireless sensor networks also provide ongoing insight into overall machine health. Real-time data feeds indicate abnormalities that may lead to future breakdowns. In the past, understanding minor performance changes was difficult because technicians needed to perform device-level tests to understand machine health.

    Banner's vibration monitoring solutions range from a simple check engine light of critical vibration parameters, to collecting data on a variety of vibration characteristics so that an even more in-depth analysis can be performed on the machines being monitored.

    Wireless sensor-based systems remove this barrier. For example, manufacturers can track increases in machine vibration, which is a key cause of machine maintenance issues. Machine vibration is often related to imbalanced, misaligned, loose, or worn parts. As vibration increases, so can damage to the machine.

    By remotely monitoring different machine components, plants can detect excess vibration before it causes unplanned downtime. Typical IIoT-enabled vibration monitoring involves the use of a wireless vibration sensor that acts as a “check engine light” for machines by measuring root-mean squared (RMS) velocity. RMS velocity provides the most uniform measurement of vibration over a wide range of machine frequencies.

    With Banner's condition monitoring solution, a machine learning algorithm establishes a vibration baseline for the machine. When a machine exceeds its threshold, the wireless temperature and vibration sensor can deliver information to the local user, to a centrally located wireless tower light or to a mobile device via email or text message. The sensor also can send vibration and temperature data to a wireless logic controller or PLC for collection and analysis.

    The Future of Maintenance-Related IIoT

    Remote monitoring capabilities will continue helping manufacturers identify and remedy waste within their facilities. Advancements in integration capabilities will continue to minimize costs and lead times during IIoT implementations.

    The result: Manufacturers can quickly and easily gather data needed to identify the root cause of production issues and implement measures to increase efficiencies and prevent future disruptions.

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