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Lean University --
Lean Articles
Converted farm machine
improves Boeing production
Innovators sometimes find
their inspiration in the most humble of places.
In the spring of 2001, Larry
Larson and his colleague, Bob Harms, who help build Boeing
757 airplanes in a factory near Seattle, found theirs in a
barnyard in rural Washington state.
The two men are part of a
factory team called the "Moonshine Shop" at The
Boeing Company, which is charged with discovering new ways
to decrease the costs and time required to build Boeing
jetliners. (The Moonshine Shop gets its name from a Japanese
lean manufacturing philosophy where innovators develop new
methods in clandestine, by the light of the moon.)
That spring, the two
colleagues set off on a mission: find a simpler way to lift
heavy parts and assemblies, especially passenger seats, from
the factory floor to the airplane door. The pair went
looking for existing machines they could adapt for that
task.
"We stopped at a
carnival and watched the way Ferris wheel seats move
upwards," said Larson. "We looked at ski lifts and
considered roofing material loaders. We went to see how
sugar beets are loaded, and then we started looking at farm
equipment."
Larson, who lives in rural
Washington, had seen hay elevators (also called hay loaders)
in operation on neighboring farms -- lifting individual hay
bales up into barn lofts. He knew the elevators had
potential for other uses and began visiting farm equipment
dealers and scrap yards to see what was available.
"We saw a lot of hay
elevators both new and used," reported Larson.
"They were lightweight, easy to move, had a proven
track record and could lift 125-pound bales of hay up into
barns. They were very simple to modify, too."
The quest for the right one
that could be modified to lift airplane parts eventually led
to the Level Best Ranch, a hay farm that is a two-hour
automobile ride east and over the Cascade Mountains from
Seattle, and to Jack Wheatley, a rancher who also likes to
tinker with machines.
"We took a look around
his shop, which was heated with a homemade furnace, and we
could see right away that Jack was a moonshiner," said
Larson. "When Harms explained what we were looking for,
Jack scratched his chin and thought for a while. Then he
said he could make a hay elevator to our
specifications."
Meanwhile, back in the
airplane factory, Harms was calculating just what
adaptations a hay loader would need before it could load the
airplane seats, which each weigh 50 to 100 pounds.
"Once Jack got our
specifications, he made our custom elevator in three
days," said Larson. "It was 24 feet long, so we
borrowed a neighbor's truck to deliver it from Jack's ranch
to the 757 final assembly line."
To meet safety requirements,
Harms added guards to the elevator. He also added a top and
a bottom fixture -- and tracks -- so the seats, which had
wheels attached, could be rolled onto the elevator and up to
the airplane.
Other employees in the
factory were skeptical.
"People thought we were
stark-raving nuts," recalled Larson. "They thought
we were wasting the company's money."
However, when the team used
the modified hay elevator to move seats the first time that
summer, that attitude quickly changed.
"Now people were amazed;
mouths dropped open," Harms chuckled. "It was like
a party atmosphere."
Before the team's efficiency
efforts, the process for loading passenger seats onto each
airplane was cumbersome. After seats would arrive at Boeing,
wheels were attached to each seat, and then the seats were
delivered to the factory floor in a large container. An
overhead crane lifted the container from the factory floor
to a mezzanine. Seats were unloaded and rolled into the
airplane door, where wheels were removed before seats were
installed inside the passenger cabin. The crane then
delivered the empty container to the factory floor, lifted
the next container onto the mezzanine and repeated the
process until all seats were in. The process took 12 hours.
Today, using the hay loader
concept, seats roll across the floor to a holding area on
the factory floor near the airplane. When it's time for
installation, the seats are rolled to the seat loader, which
carries them up to the airplane door. The process takes
about two hours and eliminates the need for cranes, a common
factory bottleneck.
Once the 757 seat loader was
in operation, word reached the Boeing 737 assembly line in
the next building. Soon, members of the 737 Moonshine Shop
team came to watch it operate.
"They said, 'We think we
could use that on the 737,'" Larson recalled. "So,
we brought the 737 Moonshine guys across the mountains to
visit Jack Wheatley. The team suggested some improvements to
the design, and it wasn't long before he had built one to
their specifications."
Eventually, the news about
the hay elevator that became a successful seat loader
traveled 40 miles north to the factory where the larger
Boeing commercial airplanes are assembled.
Soon, moonshine teams for the
Boeing 767 and 777 were working with Jack Wheatley to build
seat loaders based on the 737 and 757 prototypes. These much
larger elevators are about 43 feet (13 meters) long and
incorporate improvements which make the loader even more
efficient.
Two years later, the airplane
production lines are still using the modified farm machine.
However, continuous improvement is the goal of the Moonshine
Shops. And today, Harms is at work on a new seat loader that
will cut production time by eliminating the need for wheels
to be attached and removed from the seats before they are
loaded onto the airplane.
"The philosophy of lean
manufacturing is lifelong improvement," said Larson.
"The need for innovation never ends."
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