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Automated end-of-line system for eight container styles, three case sizes

A small-footprint system at Ring Container Technologies’ blow-molding plant operates 24/7 case erecting/sealing, tumble packing, palletizing, and stretch wrapping.

For case erecting and sealing, the robot’s end effector lifts open a case before presenting it to the bottom tape operation.
For case erecting and sealing, the robot’s end effector lifts open a case before presenting it to the bottom tape operation.

The Ring Container Technologies blow-molding plant in Hanover, PA, recently installed flexible automation for its end-of-line packaging system that includes hands-free case erecting, tumble packing, palletizing, and stretch wrapping.

“This new end-of-line packing system can access on-the-fly information about which one of three cases to erect next, and then direct the case along the line from tumble filling to stretch-wrapped eight-foot-high pallets, all hands-free,” says Kevin Frye, Executive Director of Engineering, Ring Container Technologies. “This system isn’t where flexible automation is evolving, but rather where it has evolved.”

The 125,000-sq-ft Ring plant in Hanover is a highly-automated PET blow-molding facility strategically located near its customers for the benefits of just-in-time delivery. A new customer for Ring recently presented a difficult packaging challenge that one of the company’s engineers believed could be solved with state-of-the-art track-and-trace information integrated into flexible systems.

The customer wanted eight different PET food containers delivered on demand. Each pallet was to carry cases of the same product, so that the pallets and cases could be taken all together to the correct filling line. Each style bottle would have a specified case count, which meant that three different-sized cases were required for the eight distinctive bottles. Cases needed a bag liner to minimize corrugated dust on the bottles. Each type of bottle would fill a case at a different rate. Therefore, case erection would occur in random order with cases arriving at the tumble filler just in time.

Waste reduction was an important factor for Ring and for the customer. The process would involve cases being sent back to Ring for reuse. Polyethylene liners would be collected and recycled. The cases would be taped, so the tape used had to be easy to remove. This meant there would be a mix of new and used cases being fed into the case erector. Surface porosity of new and used corrugated varies, making vacuum-based handling for case erection and palletizing problematic.

For many years, Ring has worked closely with Brenton Engineering, a Pro Mach brand, on turnkey custom solutions for case erecting, packing, and palletizing. Knowing that the mixed new and used cases presented a unique case-erection challenge, the two companies started looking at potential solutions.

“We studied case erectors,” Frye says about the initial specification setting sessions. “We also considered robotics. We concluded the best scenario would be a robotic-based case-erector system, one capable of handling mixed used and new corrugated. The most innovative idea to come out of these planning meetings was to have a single robot handle the three different-sized cases on demand and with zero changeover time.”

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