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Lean University --
Lean Articles
Helping
customers get lean
Distributors
that learn lean manufacturing concepts can help their
manufacturer customers gain a competitive edge.
by Rich
Vurva
Learning
that a major customer is about to adopt lean manufacturing
concepts strikes fear in the hearts of some distributors.
They assume it will mean a reduction in headcount at the
plant, which will impact the distributor’s sales.
But lean
manufacturing is good not only for U.S. manufacturers —
because it helps them eliminate waste and improve their
production processes — it can be good news for
distributors as well. The key is to understand lean concepts
and how distributors can help customers put them into
practice.
Many lean
manufacturing concepts grew out of techniques used by Toyota
to reduce setup times and convert batch production methods
to work cells and one-piece flow (see
sidebar for definitions of common lean terminology). A
growing number of U.S. companies looking to increase
productivity and reduce costs in order to compete against
low-wage manufacturers in China, the Pacific Rim and
elsewhere, are turning to lean manufacturing for
opportunities to streamline.
The
basics of lean
In its simplest form, lean manufacturing means eliminating
waste wherever it’s found. The goal is to be highly
responsive to customer needs. If an activity doesn’t add
value to the customer, eliminate it.
The Toyota
Production System defines seven types of waste:
Overproduction
is producing more material than demanded or producing it
before it is needed. It’s excess inventory sitting on the
plant floor waiting to be used, installed or shipped.
Inventory
or Work In Process (WIP) is material between operations as a
result of large-lot production or processes with long cycle
times.
Transportation
refers to the movement of product during production, which
adds no value to the product. Instead of improving
transportation, it should be minimized or eliminated (for
example, by forming cells).
Processing
waste can be eliminated by asking why a specific processing
step is necessary and why a specific product is produced.
All unnecessary processing steps should be eliminated.
Motion of
workers, machines and transport (because tools and parts
aren’t where they should be) is waste. Instead of
automating wasted motion, improve the operation.
Waiting for
a machine to process should be eliminated. The principle is
to maximize the utilization/efficiency of the worker instead
of maximizing the utilization of the machines.
Making
defective products is pure waste. The goal is to prevent the
occurrence of defects instead of finding and repairing
defects.
Lean’s
impact on MRO suppliers
When a company embraces lean manufacturing concepts,
suppliers can’t expect to stay under the radar
indefinitely. If a key customer goes lean, you’ll have to
go lean, too, or risk losing that business.
Doug
Ruggles learned that reality in the early ’90s when Martin
Plant Services, the integrated supply arm of Martin Supply
Co. in Sheffield, Ala., worked with Boeing to supply MRO
products to its Delta launch vehicle factory in Decatur,
Ala. The facility produces the Delta II and Delta IV launch
vehicles for launching satellites into space.
Before
implementing any new process or idea, it first had to pass
what Boeing called “the lean test,” Ruggles says.
“They did
not want their employees working in a cell to have to leave
their cell or to punch any button or scan anything. They
wanted them to be able to take the material off the shelf
and get back to work,” says Ruggles. This idea is central
to lean.
To comply
with Boeing’s demands, Martin built a temperature and
humidity-controlled room to make sure sensitive components
stayed within a required temperature and humidity range.
Martin’s IT department also wrote programming to include
an expiration date on the bar codes of some items that
required them. The steps were necessary to make sure when
operators pull parts, they’re ready to go and the operator
won’t waste time checking them.
Ruggles
sees lean concepts taking hold in a growing number of
manufacturing facilities. Martin’s experience at Boeing
can give his company an edge when talking to prospects.
“If you
hear that someone at a company is a Black Belt (a Six Sigma
project manager), it’s an opportunity. It means this
company is changing. If there’s change going on, you may
have an opportunity to change their supplier,” he says.
Just-in-time
inventory
One of the most obvious ways industrial distributors can
help manufacturers get lean is by devising a just-in-time
inventory system to eliminate waste in the MRO procurement
process. Steve Pixley, president of AutoCrib Inc., which
produces automated inventory control systems for
manufacturing companies, says point-of-use dispensing
systems can dramatically reduce waste.
At many
plants that utilize a centralized tool crib or storage area,
it’s common for employees to hoard supplies in their tool
box or work station. They don’t want to walk back and
forth to the tool crib, and also may not trust the inventory
control system to have the products they need when they need
them. Pixley says automated point-of-use systems, which
might include handheld scanners, automated lockers and
cabinets, vending machines and robotic carousel systems, are
designed to get material to users in the most efficient
manner possible.
“We’ve
developed a lean system where, in many cases, we’re able
to cut purchasing completely out of the process,” Pixley
says. “By putting a vending system in place, the customer
sees an immediate reduction in hoarding.”
The system
automatically reorders the product when it drops below a
pre-set order condition by issuing an e-mail or EDI order.
As an operator removes the product from the dispensing
system, it automatically triggers the supplier to replenish
the order.
Pixley
offers one word of caution to distributors before they start
talking to customers about lean manufacturing concepts.
Selling the benefits of lean is different from traditional
product feature/benefit selling, he says. Distributors need
to migrate to a conceptual selling process he calls SPIN
selling, which stands for situation, problem, implication
and need payoff.
The
approach starts by asking a series of questions to learn the
current situation, identify bottlenecks or problem areas,
assign a cost to the wasted product or wasted motion, and
determine how the company will benefit from a new system.
“Through
that process, we build a cost justification for a lean tool
distribution system. So, when we go to management, we’re
not giving them industry averages, we’re giving them
numbers from their shop,” Pixley says.
Teaching
lean to distributors
After De-Sta-Co Industries instituted lean manufacturing at
its facility in Madison Heights, Mich., executives with the
company immediately recognized how lean could also benefit
De-Sta-Co customers. So, the maker of clamps, gripping,
transfer and robotic tooling solutions for workplace
automation developed a program to teach distributor
salespeople about lean manufacturing.
“When you
walk through a manufacturing facility, there are lean
opportunities everywhere you look,” says director of sales
Dan Peretz. “It just requires having the knowledge and
experience that allows you to see it.”
De-Sta-Co’s
Lean Vision seminar is a 2 1/2-day training session
involving classroom instruction, hands-on exercises and
real-world projects in a manufacturing plant. The seminar
provides an overview of lean concepts and classroom
exercises. On the second day, participants break into teams
of four or five and visit a manufacturing location to look
for opportunities to apply what they learned. They’re
specifically on the lookout for wasted effort, wasted
movement or motion.
“We
stress gathering data such as quantities, time and distance
and to seek input from machine operators,” explains
seminar presenter Doug Ruffley.
Participants
then brainstorm ways to improve the processes and return to
the plant on the third day to give a formal presentation to
plant managers outlining their proposals.
“Our
motivation behind this is to help our channel partners
become more value-added. We want to help them present
themselves as someone who can bring something to the party,
not just be an order taker,” Ruffley says.
Fluid power
distributor Wainbee Ltd. of Mississauga, Ontario, sent 20
salespeople to a De-Sta-Co seminar last fall. Sales manager
Campbell Tourgis says the experience helped his salespeople
gain a better understanding of lean manufacturing.
“We’re
now able to talk at a higher level to customers and talk not
about what kind of fluid power products they’re buying
today, but what kind of processes they follow and what kind
of pain they’re experiencing,” says Tourgis. “It’s
given our sales reps a better understanding of the
importance of calling on plant managers and general
managers.”
Since
attending the seminar, Wainbee completed a number of
projects that helped customers improve their processes. For
example, Wainbee eliminated a production bottleneck in an
injection molding operation. The company had two injection
molding machines operating side by side, feeding products to
two operators at a single conveyor system. One operator
pulled the parts off the conveyor and the other packaged the
product. Between the two operators, in any given
minute there was 30 seconds of idle time. The company
considered eliminating one of the operators.
Wainbee
analyzed the process and learned the shipping department had
the capacity and need to ship more finished product to
customers. Wainbee recommended installing a second conveyor
system so each operator could pull and package parts. The
change helped the company improve throughput by about 10
packages per minute.
“So, they
kept the same number of operators, spent about $10,000 in a
conveyor upgrade, and produced an extra 10 boxes into their
shipping department. It was a true automation wonder story
because no one’s job was eliminated and they invested in
automation and were rewarded for it,” Tourgis says.
Faster
setups reduces idle time
Component Supply of Ontario, N.Y., applies lean concepts
when it talks to customers about changeover reduction.
Changeover refers to the amount of setup time required to go
from full production on one manufactured product to full
production on another product on the same machine or line.
Reducing changeovers enables companies to do shorter parts
runs that were previously too costly because of long
changeover times.
“Lean can
be applied to anything but, in my opinion, changeover
reduction is key, because that’s basically wasted time
when you’re not generating any saleable product,” says
sales manager John Quinlan.
Quinlan’s
company, Component Supply, partners with Jerry Claunch of
Claunch & Associates in Palm Beach Garden, Fla., experts
in lean manufacturing and cycle time reduction. Using
Claunch’s FasTrack system, an eight-step method to study a
company’s current changeover process and recommend
changes, Component Supply guarantees to reduce a
customer’s changeover time by at least 50 percent.
“At one
company, we took their changeover time from about 50 minutes
to under two minutes,” Quinlan says.
The process
starts when Component Supply videotapes a company’s
changeover process, documents every step and recommends
improvements. The next step is to review its recommendations
with management and employees, including the cost to
implement. The third and final step is to implement the new
process, quantify the improvement, and develop a Changeover
Manual and a Baseline Settings Manual for operators to
follow in the future.
“Our goal
is to have all changeovers completed by operators, not by
mechanics. We want to create simple documents so a new
employee can come in off the street and run the machine,”
Quinlan says.
The
approach gives Component Supply a reason to approach
employees at a higher level within the customer’s
organization.
Although
lean manufacturing might be new to some industrial
distributors, the concepts are familiar. When Martin Supply
first approached customers about integrated supply in the
early 1990s, it would learn how a company procured its MRO
supplies and flow-chart the process, then design a system to
drastically reduce steps in the procedure.
“In
essence, what we were doing was designing a lean business
and showing them how it would save them money. We didn’t
call it lean; we just called it smart,” Ruggles says.
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Learn
lean
To the uninitiated, hearing proponents of lean
manufacturing speak to one another sounds like
gobbledygook. The glossary below provides some
commonly used lean manufacturing terms that will
help you recognize when customers are talking lean.
Autonomation:
This is automation with a human touch. It refers to
semi-automatic processes where the operator and
machine work together.
Balanced
production: All operations or cells produce at
the same cycle time. In a balanced system, the cell
cycle time is less than takt time (see below).
Error-proofing:
Designing a potential failure or cause of failure
out of a product or process.
Flow manufacturing:
A methodology that pulls items from suppliers
through a synchronized manufacturing process to the
end product. The principle goal is faster response
to customer demand.
Kaizen: A
Japanese term for incremental improvement. It uses a
team approach to quickly tear down and rebuild a
process layout to function more efficiently.
Kanban:
Techniques named after the Japanese word for card or
communication. A stocking technique using
containers, cards and electronic signals to make
production systems respond to real needs, not
predictions and forecasts.
Just-in-time:
JIT is a manufacturing method where downstream
operations pull required parts from upstream
operations at the required time.
Mistake-proofing:
Any change to an operation that helps the operator
reduce or eliminate mistakes.
Muda: Anything
that interrupts the flow of products and services
through the value stream and out to the customer is
muda, or waste.
One-piece flow:
Producing one unit at a time, as opposed to
producing in large lots.
Poka-Yoke:
Techniques to mistake-proof a process.
Six Sigma: A
structured process improvement program for achieving
virtually zero defects (3.4 parts per million) in
manufacturing and business processes.
Standard
operations: Clearly defined operations and
standardized steps for both workers and machines.
Takt time:
Takt is German for pace. Takt time defines the
manufacturing line speed and the cycle times for all
manufacturing operations. Takt time is computed as
available work time per day/daily required demand
(parts/day).
Value stream
mapping: A process to determine the value added
to a product as it goes through a manufacturing
process.
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This article originally
appeared in the January/February 2005 issue of Progressive
Distributor. Copyright 2005.
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