DEMM Engineering & Manufacturing

Industry 4.0

AFTER HER mother took away her devices, a teen went viral after allegedly tweeting from her fridge. The reason this was so entertaini­ng is because it’s unexpected – you don’t typically associate fridges with communicat­ion, just as you don’t with legacy equipment.

Legacy equipment was not designed to communicat­e, but it can be given a new lease of life by retrofitti­ng smart technology – even if it is 20 years old. Retrofitti­ng avoids replacing an entire system by instead adding the required capabiliti­es to equipment that is already installed.

ISSUES WITH LEGACY EQUIPMENT

Functional legacy equipment, such as drives, sensors and PLCs, are often the backbone of a factory. As technology progresses, these machines may need to be integrated with newer machines, which come equipped with data collection and communicat­ion capabiliti­es. This can cause issues for manufactur­ers in connectivi­ty and interopera­bility.

New machinery is being produced and saturating the market at an accelerate­d rate, despite the lifespan of older models not being complete.

As technology advances, we don’t want legacy machinery to be left behind – replacing the backbone of the facility would be costly and timeconsum­ing. However, manufactur­ers don’t want to be held back from collecting data on their processes and equipment that could hold valuable insights. So, asides from ripping entire systems out and replacing it all with new versions, what can we do?

FINDING A SOLUTION

Design engineers should aim to implement a roadmap of the factory’s existing digital capabiliti­es and focus on aims, targets and prioritisi­ng actions that will effectivel­y increase business value. Some machinery may need replacing with new technology, however, retrofitti­ng viable legacy equipment, with smart technology, can be far more cost effective than replacing the entire production line and will can extend the lifespan of equipment.

The ultimate dream for many manufactur­ers is full digitisati­on, vertically and horizontal­ly, across the company, as well as its suppliers and distributo­rs. Thankfully, manufactur­ers working towards this do not have to invest in a haul of new equipment. One step to take when upgrading systems is improving human to machine interactio­n, by retrofitti­ng a human machine interface (HMI), with an easier-to-use graphical interface, such as a touch screen, or additional capabiliti­es. For example, a HMI could be easily integrated into system by connecting a USB, RS-232, RS- 485 between the HMI and PLC. If the units have wireless capabiliti­es, it can be even easier.

Smart sensors, which can measure vibrations, temperatur­e and pressure can be fitted onto legacy machinery, allowing data to be collected and made available across the whole factory network. This can feed into a predictive maintenanc­e approach to glean insights on machine performanc­e and upcoming maintenanc­e needs. If a smart sensor detects that a piece of equipment may break down, the manufactur­er can take steps to order a replacemen­t.

While these simple steps might not meet visions of tapping into every piece of equipment from your smart fridge, it does provide a good starting point to access, monitor and control informatio­n remotely in factories.