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Thermoforming, a technology that is more than a century old, uses sheet plastic that is heated to become soft so it can be vacuum-formed in or around a mold. Excess plastic is then cut off to create final products with dimensions that range from a few inches to the size of a room.
Over the years, 5-axis CNC routers replaced hand-trimming for most thermoformers. More recently, Juliet Oehler Goff, president and CEO of Los Angeles-based Kal Plastics, had watched her peers explore the use of large industrial robots to finish-trim molded plastic parts, but she wasn’t convinced. For a business like hers, the initial price point of industrial robots and their required safety caging was too high, not to mention the programming costs.
“You end up having to have a skillset under your roof that’s very expensive. That’s a risk for a small business,” she said. After talking to colleagues, she heard behind the scenes that many of those who had tried industrial robots found that they didn’t work well for their applications and that they wouldn’t buy them again.
Research leads to business results
Goff is also a director and member of the R&D committee for the national industry association, the Society of Plastics Engineers (SPE) Thermoforming Division. In that role, she had been involved in numerous discussions about the state of robotics, particularly collaborative robotics, and their application in the industry.
When Kal Plastics needed to replace a CNC machine that was nearing the end of its life, Goff was presented with an opportunity. She set out to research the use of cobots for her own business and agreed to share her findings at the organization’s national conference.
As a contract manufacturer, Kal Plastics produces a wide range of parts with varying complexity and tolerances. Goff looked for low-hanging fruit for the initial cobot deployment: parts that presented safety or productivity issues with hand-trimming and could be produced on less-expensive equipment to boost competitiveness. Once she could prove the cobot worked, she knew there were other jobs that fit those criteria.
“I did my homework and found that Universal Robots was the global leader in the collaborative robot space,” Goff said. “They came out and gave us a demonstration, and when I looked at the numbers, they were really attractive. I was looking at getting another five-axis CNC router, and at the time it would have been a $250,000 investment and I would have waited 12 months to take delivery. When I met with UR, I was quoted two weeks to get the equipment, and the entry point was a quarter or a fifth of the cost.”
During the course of her research, Goff hired Dan Sproles, a consultant and another director for SPE Thermoforming, to help improve overall operations. Since his initial skepticism, Sproles has also become a champion of lightweight, cost-effective, and easy-to-program UR cobots.
“If you’re a thermoformer that’s been in business for 50 years or five months, if I look at the cobot, it’s a perfect fit—because I can’t afford a new CNC, but I can afford this,” Sproles said. “And I can afford someone who’s going to basically take a tablet and program it. So your bang for your buck—it’s the robot.”
“It would be foolish for other processors not to consider adding this to their operation,” Goff concurred. “They’d be really missing out on a smart business decision.”
Inside the cobot cell
Prior to installing the UR10e collaborative robot, the forming and rough trimming took place in the thermoforming cell, and then the parts had to be transferred to the CNC router in another part of the plant. The Kal Plastics facility is housed in multiple older buildings, so moving parts was disruptive and added production time. It also presented opportunities for damage or safety hazards as parts stacked up waiting in queues.
The initial task identified for the cobot is a complex trim of a four-cavity mold, in which one sheet of plastic is formed into four parts. The ability to install the cobot into the same work cell alongside the thermoformer inspired Sproles to describe it as a “cell manufacturing dream.” Formed parts come off the thermoformer and are immediately rough-cut to separate them. They are then delivered directly to the cobot, which can trim two pieces in each setup. The cobot takes nearly half the time of hand-trimming and provides greater accuracy and consistency.
The deployment has two routers mounted on the robot arm—one with a standard router bit and one with a larger saw blade. The advantage is that the routers are the same commercial tools used for hand trimming. They are inexpensive and available off-the-shelf at any hardware store, so there is no expensive replacement or downtime due to tooling issues. Balancing the two heavy routers as they rotated around the part presented early challenges that were solved by mounting the robot arm overhead on a gantry to reduce pressure on the robot joints and improve accuracy.
The efficiency of the new work cell has already paid off. “The robot has basically taken over all of the overflow that we had to do by hand,” Sproles explained. “In the past, we always had to juggle back and forth on the CNCs just to make delivery dates. We introduced the cobot: now there’s no more overtime and we can ship on time. I would say late shipments have dropped to less than one percent.”
Now that the cobot has been proven, Goff is looking forward to implementing newer, larger cobots in other workstations, and for processes beyond trimming. Ultimately, she would love to “form, trim, palletize, out-the-door” from complete, automated work cells. Until then, the flexibility of the relatively lightweight cobot is an added bonus. Unlike a CNC, which requires a large dedicated space, permanent installation, and a three-phase, 480V power source, the gantry and UR10e cobot along with the fixture table can be moved anywhere in the plant as needed, as long as there is a standard 110V power outlet.
Reducing costs and risks
The cobot’s ease of programming was a big deal, said Sproles. “If I bought a regular CNC, regular robot, I’m going to spend thousands of dollars training that person, not knowing if they’re going to be here tomorrow.”
The expense and risk of training workers in traditional programming are significant for small businesses, which are already facing difficulties retaining skilled workers in a competitive labor environment. With the UR cobot, José Luis, a Kal Plastics operator, learned the basics of programming using the free online UR Academy classes, which he could access in his native Spanish. He then attended two sessions of affordable, hands-on training. That was all it took for him to be able to create new programs, change tools, and make adjustments as needed.
Luis recognizes that technology is evolving and his past skills will not necessarily be the skills he needs in the future, so he is eager for the opportunity to learn. He said, “My job is more interesting because the manufacturing process has really improved, and the robot provides me with a safer workplace.”
Goff is thrilled to have a way to retain and advance her valued employees. “It gets your workforce excited because it’s different, it’s cool, it’s unique,” she said. “When you get someone who’s younger, who’s hungry, you want to find a way to satisfy their hunger and keep them interested and motivated.” She added, “It’s been a treat to watch José grow in this role, and elevate himself.”
Luis is already scheduled for a master programmer class, where Sproles expects he will gain additional insight to make the robot cell even more profitable and repeatable, and to program it for any new jobs the company brings in.
Necessity is the mother of invention
Goff described California as a tough state for manufacturing. Challenges include high costs of labor, occupancy, and energy, as well as a regulatory environment that presents additional workforce challenges.
“It’s a no-fault state for workers’ compensation injuries,” she explained. “It’s the right thing to provide a safe workplace environment, but it’s also a fiduciary responsibility to try to avoid having those incidents occur. So we’re always looking for ways to work safer, work smarter, work faster.”
Along with those challenges, Goff is also dealing with labor issues that are common across the country: workers who are less interested in manufacturing jobs. Labor and safety were key drivers for Kal Plastics to become an early automation adopter. “Necessity is the mother of invention,” Goff stated.
The job the UR cobot now handles used to be hand-trimmed. Sproles said, “In this plant, there are two people that can route parts. So if you brought in a job that had to be hand-routed, you’ve got those two people and you’re locked in because that’s all they can do.” Now those employees can be redeployed to safer, more valuable tasks, and production isn’t limited to the availability of those workers, giving the company better production flexibility.
When Goff began her research, her workforce was afraid robots were going to replace their jobs. She told them, “Listen, you don’t get it, guys. I want you to be safe. I want you to work smart. I don’t want you to just rely on your hands; I want you to rely on your knowledge and skills. If we can get our work environment to a point where you’re more of a QC operator than a machine operator, that’s a win for everybody.”
After working with the cobot, her workers’ attitudes have completely changed. Goff said, “Once everyone settled down and they saw how this thing worked, it was like, ‘Why didn’t we do this sooner?’”
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