Internet of Things


ROADMAP TO IOT SUCCESS WITH LEGACY MANUFACTURING EQUIPMENT


SELECTING SENSORS


Available sensors support different types of data collection that enable manufacturers to track metrics related to productivity, consumption, wear, and other factors. Here are five commonly used sensors.


A proximity sensor is used for counting. One sensor may capture each part produced. Another may track the feet of material going into the machine. Comparing those two measures can help to understand scrap and percentage of loss.


Amperage and pressure sensors work similarly. Amperage sensors can measure machine speed and force of tooling. Pressure sensors capture similar information for hydraulic-based machines. Having a standard base of amperages and pressures for each part can determine proper setup, tooling expectations, and machine norms. Meanwhile, variations from base measurements can indicate issues affecting part quality or equipment maintenance.


A vibration sensor measures the amount and frequency of vibration in a machine or equip- ment. Those measurements can help detect imbalances and other issues to predict main- tenance needs. Additionally, a vibration base measurement can provide a machine signature for good parts and a healthy machine.


A flow meter can be added to a device to track whether it is applying the necessary amount of lubricant to the material, which can impact product quality.


CAPTURING SENSOR DATA IN SOFTWARE Data from sensors is captured by a programmable logic controller (PLC) or a data logger. The device can then convert the data to a usable computer format and make it accessible to the shop floor network. Newer smart IoT sensors can be made directly available to the shop floor network without intermediary devices. Once accessible


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Smart machines can provide manufacturers with invaluable real-time insights into shop floor productivity, inventory, and potential quality and maintenance issues. But buying new machinery to harness the Internet of Things (IoT) can be hard to justify, especially when interest rates remain high. An effective option to IoT success is to add sensors to existing equipment and start capturing real-time data at a fraction of the cost. Lynn Loughmiller, software engineering manager at DELMIAWorks, takes a closer look at how IoT can be an effective tool when working with existing equipment, and looking at just how efficient it may be.


to the network, the information is usually sent to a server that supports the Open Platform Communications (OPC) standard for industrial communications. The OPC or other software may be needed to cali- brate the data to match a machine’s own values. From there, the information can be fed into a manufacturer’s enterprise resource planning (ERP) and/or manufacturing


execution system (MES) software to populate various real-time reports with the data. Both current and historical data are maintained in the software, making it possible to analyse this information from the perspective of quality, efficiency and other key metrics.


Manufacturers typically use data captured by the software to:


Collect information for end-of-shift reporting to help determine if the material is equal to the number of parts that the team anticipates producing.


Track counts in a work centre to assist in production planning.


Match the work order to what’s running in the machine to update inventory consumption.


Compare how many cycles have been completed versus parts made to understand the scrap being produced.


Determine downtimes for each work centre. Look for out-of-limit processes for quality control.


November 2024 Instrumentation Monthly


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