Approximately 90 percent of the sanding is
done by the robot. Shift knobs are given quick
touch ups and are inspected for quality.
ing is now done by the robot.”
Reject rates remained consistent
because most of them occurred from
defects in the wood. “The robot gave
our customers something they never
anticipated asking for because the shift
knobs were hand sanded,” says Alan
Applegate, vice president of business
and development. “We now can provide a consistent product.”
In-house innovation
The robot’s initial programming was
provided by Stiles, but it required a few
internal tweaks. The production team
had to figure out how much pressure
to apply when the shift knob is flap
sanded, how long to leave it there and
how much it should be rotated as it’s going through the sanding operation.
“We incorporated a carbide sleeve
on the bottom of the knob that
protected it from being over sanded,
which was an initial problem,” says Jeff
Bouwens, project manager at Paladin
Industries. “Now, we can sand two shift
knobs at a time by adding an addition-
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al axis and servomotor on the end-of-arm tooling.”
The longest cycle time to produce
two shift knobs is one-and-a-half minutes compared to five to six minutes
of hand sanding. “We are producing
more than 300 shift knobs per day and
have the capacity to increase production to 400, if needed,” says Bouwens.
“In the past, we adjusted the cycle time
by adding labor, now we’re producing
more with fewer people.”
The robot’s sanding program was
modified to accommodate maple and
walnut parts. “The amount of pressure
is different for the maple because it’s a
harder wood than walnut,” says Craig
Bell, president of Paladin Industries.
The robot’s router tooling is removable and interchangeable and if an
insert needs to be sharpened it can be
easily replaced.
Making other processes lean
Paladin’s next lean initiative is to
streamline its membrane pressing
operation.
Before the lean makeover, parts
were machined in three different areas
in the front of the 54,000-square-foot
plant. A casegoods assembly area and a
separate membrane pressing area were
located in the back.
“We would approach these contract
jobs as a batch process run from 25 to
200 or 400 as a batch, and send these
parts into the pressroom as a batch,”
says Applegate. “We now have two dedicated routers outside the press room.
They are easy to set up so everything
that goes through the press room is
machined on the routers.”
The goal is to set up and machine
one piece or 50 pieces as quickly and
efficiently as possible. “We have more
volume, but we’re running smaller
and smaller batches of product orders
every day,” says Applegate.
Paladin recently invested in a new
Wemhoener membrane press to reduce labor and set-up times. “It’s more
automated than our current presses,
and we’ll be able to increase capacity
by 100 percent,” says Applegate.
Membrane pressing is also going
to be turned into a large work cell.
“We’ve purchased two Weeke CNC
machines and they’ll be located near
the membrane pressing work cell,” says
Applegate. “All the component parts
will be machined on the Weekes and
they will pass via conveyor to a panel
cleaning device directly into a spray
booth.”
The panels are now machined MDF
components and are sprayed with a
heat-activated adhesive. From there,
they will move via conveyor to the
membrane presses.
According to Bell, the company’s
shift from CNC contract machining
to producing finished components
is moving the company forward and
positioning it as a strategic partner for
its customers. ●
Paladin recently invested in a new
Wemhoener membrane press to reduce labor
and set-up times. The goal is to set up and
machine one piece or 50 pieces as quickly
and efficiently as possible.
For more info
Stiles Machinery Inc.
Wemhoener membrane press, Weeke CNC
machining centers
616.698.7500 www.stilesmachinery.com
Fanuc, Robot
248.377.7000 www.fanucrobotics.com
Or visit fdmonline.com
