Virtual reality (VR) and augmented reality (AR) can help maintenance engineers in process industries such as the food industry repair industry and reduce potential downtime.
Industrial maintenance can be a costly, time-consuming process, but it is also one that is required if a plant’s systems are to remain effective, efficient and even operational. For the food industry, even a momentary period of downtime can result in lost production.
Yogurt production lines, for example, must ensure that produce is kept at certain temperatures and handled in a certain time period to minimize the risk of spoilage. Downtime due to faulty or ineffective systems can result in an entire batch needing to be disposed of, often to the tune of thousands of pounds in lost profit.
However, while incorporating predictive maintenance functionality into industrial automation systems is valuable in minimizing the frequency of maintenance, there will be times when a maintenance engineer must head out to repair a system. Depending on the role of the equipment requiring maintenance and the nature of the maintenance itself, this period of planned downtime can still have a negative impact on production.
Technologies such as virtual reality (VR) and augmented reality (AR) are proving to be valuable tools in helping maintenance engineers repair equipment and systems faster and more effectively than ever before. Maintenance staff can use a VR headset or even their mobile phones to see an augmented view of equipment, highlighting the performance data of individual components and the best way of accessing them.
For example, let’s say that a dairy plant’s manufacturing execution system (MES) highlights that a rotary evaporator, used to standardize the dry matter of milk in the early production stages, requires maintenance. As the evaporator consists of several components, a maintenance engineer could use AR to see a virtual representation of the components in the evaporator and identify which needs attending to.
This is only possible if the AR application can access the real-time operational data from the evaporator. In this instance, the engineer could use the AR functionality of an Industrial Internet of Things (IIoT) platform.
The value of AR in food machinery maintenance extends beyond the dairy sector to any segment that features high levels of automation. Meat processing plants, for example, can contain any number of complex systems, from deboning equipment to mincing machines, that could prove challenging for an engineer to maintain efficiently. By using AR to pick out the problem part and the best means of accessing it, this process can be sped up to reduce the financial impact of sudden downtime.
By using a purpose-built AR application, the engineer can view real-time system data from the IIoT platform and see which components are performing inefficiently. In this case, it could be that the evaporator’s compressor requires lubrication. The engineer can then resolve this in the least disruptive way possible, minimizing the impact that necessary maintenance has on production.
With this, we can see why VR and AR are far more than quirky technologies for industrial businesses. If used properly alongside an IIoT platform that supports predictive maintenance, they can help plant managers achieve the next level of industrial maintenance efficiency, where the unavoidable downtime associated with maintenance can be minimized to mere moments.
Article Provided By: Plant Engineering