Mini Factories In Containers Help Reduce Mask Shortages

Gary Parr | June 11, 2020

The Mikron system fits in a 20-ft. shipping container and can produce 50 to 100 protective masks a minute.

Decentralized systems from Mikron ensure supply in times of a pandemic. Festo is a key development partner.

Disposable protective nasal-and-mouth masks are in short supply, but a manufacturing system from Swiss company Mikron, Englewood, CO could put masks within everyone’s reach. This scalable system produces 50 to 100 face masks per minute, depending on the version. With engineering support from Festo Corp., Islandia, NY, Mikron developed the system in just six weeks.

See a Mikron factory in a box manufacture face masks in this video.

The beauty of Mikron’s system is that it fits in a 20-ft. shipping container that can also act as a clean room. The factory in a box could be located in front of a hospital, next to a shopping center, or near a school. The integrated air-conditioning system, with air-purification filters, makes production possible even in places with high risk of viral contamination. With adequate raw materials, the system can operate autonomously for more than two hours.

“This reduces the number of people required to operate the system and, as a result, lowers the risk of infection,” explained Nils Rödel, General Manager of Mikron Berlin. “The mini factory can produce protective masks in remote areas or even in crisis zones where meeting hygiene standards is most challenging.”

It would be possible to produce two million protective mouth-nose masks each month with just one system. The masks are based on melt-blown non-woven fabric, which consists of many layers of fine fibers that filter out even the smallest particles such as bacteria and viruses from the air. “Using official statistics, we calculated that medical personnel in Germany alone need at least 50 million disposable protective mouth-nose masks per month,” reported Rödel. “We could meet this demand with 25 containers.”

In this section of the manufacturing “plant,” ear loops are added to the main mask material.

Eliminating the need for transport makes the end product less costly. The system, depending on how it is configured, can make packs of ten masks or individual ones, shrink-wrapped for cleanliness, and packaged in printed bags and boxes if required. “Packaging masks involves docking an automated station developed by pi4_robotics GmbH, Berlin, a project partner,” stated Rödel.

Electric and pneumatic components from Festo ensure the reliable transport, clamping, unwinding, shaping, and folding for the non-woven fabric. An ultrasonic sealing station seals the edges. The servo drives, CMMT, from Festo, for controlling the electric drives, EMMT, are used in the application, because they can be easily connected to PLCs from major manufacturers, including Beckhoff, Siemens, and Rockwell.

The pneumatic components from the Festo core product range installed in the system, such as the compact cylinder ADN, the guided drive DFM, and the round cylinder DSNU, are in stock worldwide and available for shipment within 24 hours. Global availability enables quick and reliable manufacture of systems for producing masks within a condensed timeframe. The pneumatic drives are actuated by MPA valves. The safety valve MS6-SV-E ensures that safety-critical system components are exhausted and de-energized as quickly as possible in the event of a sudden emergency stop.

“The current travel restrictions make it extremely difficult for commissioning technicians to go where the systems are to be built,” explained Rödel. “Mikron came up with a digitized solution. We use Microsoft HoloLens, which enables commissioning to be done virtually using an interactive 3D projection.”




Gary Parr

Gary Parr

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