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Barcode Scanning the Perfect Servo-Feed Complement

By: Brad Kuvin

Friday, May 01, 2009
 
Streamlined, efficient oil-burner assembly at 70+-yr.-old R.W. Beckett Corp. is all about effective material flow through the firm’s 120,000-sq.-ft. plant in Elyria, OH. The company, with just under 200 employees, has focused on what manufacturing engineering manager Glen Norris calls “worldclass manufacturing”—lean and
A pneumatic press fed by a servo feeder
A pneumatic press fed by a servo feeder chops up 1000-lb. spools of 3⁄16-in.-dia. wire rod, the cut length determined by an operator scanning a barcode into the machine control. Two sets of straightening rolls—a seven-roll horizontal set and five-roll vertical set—straighten the wire before it finds the entry end of the press. There, the straightened wire lands in a groove machined into the feed drum to align the wire for blanking.
six-sigma initiatives, that visual inventory controls (kanbans) and level-loading that allows for efficient inventory buildup in warm-weather months in anticipation of winter’s high-demand period. It’s also brought inhouse lead-time-sensitive fabricating and manufacturing tasks that the firm deems critical to quality and timeliness. So while assembly is really the primary core competency of the facility, and where R.W. Beckett hangs its hat, the firm has invested in improving a few critical metalforming tasks in recent years, with measurable, quantifiable payback results.

“We manufacture to about 1800 different, unique oil-burner specifications,” Norris says, “and when a customer needs a burner in the middle of a cold winter, we must be able to supply it immediately. We’ve designed our factory flow so that there is not a single process with a lead time of more than 1 hr.”

The Winning Recipe: Servo Feed + Barcode Scanning

While the company does not perform a lot of sheetmetal fabrication, it does make a handful of components it deems as lead-time sensitive. To manufacture air tubes—rolled and spot-welded cylinders 4 to 24 in. tall—the firm operates a coil-fed press that shears to length, pierces holes and notches all in one blanking die. Cold-rolled steel, 16 gauge by 12 in. wide, feeds into a 30-ton mechanical press. Norris describes a recent project to optimize operation of the press line to improve productivity and “mistake-proof” the process.

“Lot sizes range from one to as many as 200, but generally they are very small, so we used to expend a lot of labor doing changeovers, as many as 20 per day,” Norris says. “To minimize changeover time, we acquired a servo feeder (from P/A Industries, Bloomfield, CT), and then set out to electronically link our business and production-control system to the feeder.”

More consistent quality and reduced scrap—basic goals of many metalforming-improvement projects—were quickly realized with the project, says manufacturing engineer Paul Rodjom. “Before we brought in the new feeder, every first part at the start of a new run would end up in the scrap bin,” Rodjom says. “The operator would have to measure the blank length and adjust the feeder to hold the required tolerance, ±0.030 in. Now we get a good first-part off every time, and hold a length feed-tolerance of ±0.003 to 0.005 in.”

To connect the firm’s production-control system to the feeder, Rodjom married a barcode reader to the setup, with barcodes corresponding to feed length. “This eliminates another opportunity for error,” he says. At setup, the operator scans the barcode, which inputs the required feed length into the feeder’s memory. “We generate the barcodes with a standard font in Excel or Word,” adds Norris. “Scanning barcodes to set feed length rather than having to keystroke a length into the controller saves us 2 to 3 min. per setup, and—with 20 setups per day, and, therefore 20 opportunities to make a mistake—the process has become mistake-proof.”

Barcode Application Number Two

So satisfied with its first barcode scanning to help manage servo-feed setup, Norris and Rodjom soon found another application for the technology. Inside each air tube (described above) mounts a pair of cut lengths of 3⁄16-in.-dia. wire rod, of galvanized cold-rolled steel. These lengths of rod—electrical contacts—traditionally had been purchased components, until the firm’s purchasing manager asked Norris and his team if they could fabricate the lengths of rod inhouse.

“We use the rods in 30 to 40 unique lengths, from very short to as long as 18 in.,” Rodjom says. “We had been purchasing each length in 25-lb. boxes, an inventory-control nightmare.”

Newly designed assembly cells
Newly designed assembly cells at R.W. Beckett locate assembly workers in the center, facing out to access parts bins filled by a crew of shoppers, as well as their workstations. There’s no turning and twisting, which has led to a significant gain in productivity.

Bringing cut-to-length wire-rod processing inhouse, the company set up a small pneumatic press, fed, again, by a P/A servo feeder. Wire comes in on 1000-lb. spools; two sets of straightening rolls, a seven-roll horizontal set and five-roll vertical set, straighten the wire before it finds the entry end of the press. There, the straightened wire lands in a groove machined into the feed drum to align the wire for blanking.

The wire-rod cell has not one operator, but several, as the company employs a crew of “shoppers” to move throughout the facility to collect burner parts into kits, which the shopper then delivers to assembly cells. Each shopper arrives at the wire-rod blanking setup knowing how many burners to include in his kit, and sets up the cell to cut two cut rods per burner. Shoppers use a barcode scanner at the cell to communicate to the servo-feed control the required feed length. With the barcode scanned for the job and the number of parts entered, the shopper can continue shopping and then come back later to pick up his order of blanked rods.

“There’s no inventory transactions—the process is simple, reliable and repeatable,” says Norris. “The work in process is whatever is in each shopping cart while it’s waiting to be assembled. There’s no need to track the cut wire through the process—the material is either on the coil or on a burner. And, once the burner is received, inventory is backflushed and we debit the number of pounds to the coil. Purchasing then monitors the number of burners made to determine the amount of material remaining on the wire spool, to determine when to order another spool.”

A Fresh Look at Assembly Pays Off

The bevy of parts that make up the burners—some purchased and some fabricated inhouse—all eventually wind up at the plant’s assembly area, gutted in 2007 in order to provide efficiency gains.

“We had hit the wall in terms of throughput with our previous assembly-cell design,” he says. “So, we sat back and took a fresh look, a completely different approach to how we build the product.”

Focus shifted to product delivery to the cells, to ensure that materials flow easily into and out of each cell. Previous cell design placed a central workstation in the middle of a cell, with the team of assembly workers stationed at the perimeter. Bins of components then surrounded the operators, who had to repeatedly turn around to grab parts as needed, and then return to the workstation to continue the assembly process. This “back and forth washboard-type of movement,” says Norris,” led to excessive waste in the process.”

The new assembly cells locate the assembly workers in the center of each cell, facing out to access parts bins and to work at each assembly workstation. There’s no turning and twisting. Also, assembly workers need not leave the cell to search for the parts or subassemblies they need—the shoppers do it all, and “one shopper can service two or three assembly cells,” adds Norris. “We’re much more efficient now, and have experienced a significant gain in productivity, a huge improvement in what had been a very mature process.” MF

 

See also: P/A Industries, Inc.

Related Enterprise Zones: Coil Handling, Materials/Coatings

 


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