|
Lean and the Job Shop
Lean Manufacturing in job shop
environments has an uneven record. There are some notable
successes, some disasters and many non-starters. We can add
misguided
perceptions about Lean's applicability to the
usual culprits of non-support and change resistance.
-
In some cases managers
view Lean as a
universal theory for all situations. Since much of the lean
literature derives from Toyota, they attempt to
copy Toyota's
practices without question. In a job shop this can lead to disaster
(See Blitzing To Disaster). At best this
means a lot of work with little
result.
-
In other cases, managers recognize that
"job shops are different" and then
conclude that Toyota's methods
have no place in a job shop. Hence, the non-starters.
Actual situations are
more complex and
more subtle. At Strategos, we see differences in the following
areas:
-
Cellular Manufacturing
-
Group Technology
-
Value Stream Mapping
-
Kanban & Scheduling
|
-
Focused Factories
-
Work Standardization
-
Implementation
|
Cellular
Manufacturing
 Workcells in a job shop are quite
different than in a higher production facility. They may process
hundreds of different (although somewhat similar) items rather than
the 3-4 items typical in higher production facilities. The
demand for the various items may vary considerably both in pattern
and overall volume. The process may vary significantly both in the
routings and in tools and fixtures. Work times, setup times and lot
sizes vary over a wide range.
Job shop workcells sometimes appear
similar to high production Toyota-type cells but they
function
differently. One Piece Flow may not be applicable and internal lot
sizes may be larger. The matching of product groups to workcells
becomes difficult. Several jobs may be in process simultaneously
within the cell. Quality approaches are often substantially
different with more emphasis on operator knowledge and Attribute
Charts rather than mistake-proofing and Variables Control Charts.
All of this requires a far more rigorous
design process based on fundamentals rather than cookbook formulae.
Our pages on Workcell Design can help.
GT Part Family
 Group Technology
Group Technology (GT) is the art and
science of grouping items according to similarities in relevant
characteristics. Generally in manufacturing, this means similar
characteristics in process routings and sequences. Such grouping is
one of the first steps in a rigorous cell
design process. It defines
what parts go in which cells.
In high-volume, low-variety production,
part groups are often self-evident. At most some discussion and
informal thought may be necessary. However, many job shops cope with
thousands of parts and dozens or hundreds of workcenters. Intuitive
and informal methods are insufficient for these situations.
Production Flow Analysis (PFA) or
Coding
and Classification (C&C) are often necessary. The Lean literature
sometimes presents simple examples of PFA but these examples are
rarely practical and rarely involve more than a dozen products.
Real-life situations are more difficult and complex. For an example
of a real PFA chart developed for an electronics job shop,
click
here. Software such as
PFAST may also be useful.
Kanban & Scheduling
 Kanban has
limited application
for many job shops. The volumes are too low and demand too erratic.
However, there may be opportunities for certain items and
careful
analysis is prudent.
In addition there may be opportunities
to use kanban with purchased parts, hardware items, accessories or
items that are common to multiple products.
Kanban and MRP type scheduling can
co-exist in the same workcell.
When deciding on kanban,
variability of
demand is more important than overall volume. For example, the
demand for an item may be only 2-3 parts per week, but if it is
always 2-3 parts per week, kanban is effective.
|
Value Stream Mapping
& Process Mapping
Value Stream Mapping has been a popular
technique but is pretty useless in a job shop situation. It does
not fit well when multiple routings are required and it is too
complex.
In theory, we
could group parts that are similar and then apply VSM. However,
these parts are likely to have different work times, setup times and
inventory levels. Some workcells might have dozens or even hundreds
of different parts. There is simply not enough room on a Value
Stream Map for all this data. Moreover, once you put it on the map
there would be too much data to comprehend and analyze.
 Process mapping is
much simpler.
It gives a better visual perspective. After Process Mapping, Group Technology identifies
families. The detailed time, capacity and volume analysis
is done on spreadsheets and
database tools meant for such complex data.
A generally
good approach is the following:
1) Develop 3-4 process maps for typical
parts. This shows a good overview of the processes.
2) Use GT to identify families of parts
that match well with potential workcells.
3) Map the process for each workcell
using a typical part within the family. Use this map as
the starting point for cell design.
4) Work out capacity, staffing and lot
sizing using a spreadsheet.
Our pages on Workcell Design show how
this works and the author's book, Facilities Planning & Workplace
Design provides steps through the process in detail.
 Focused Factories
A careful analysis of many job shop
operations may reveal that they are not pure job shops. Certain
products may have fairly high and/or consistent volumes. Yet, for a
variety of reasons, these high-volume and low-volume products mix
together in the same shop, with the same equipment and the same
scheduling.
These situations are ideal for
Focused
Factories and Plant-Within-Plant approaches. The split is usually
based on volume. One section of the plant has cells or lines that
make a single product or variations of that product. The other
section has GT cells producing a much wider variety. Each section
should have its own scheduling system and chain of command.
Work Standardization
Work standardization in a job shop will
typically have much less detail than the standardization in a
higher-volume facility. There are simply too many parts and the
volumes are too low to justify a high level of detailed
standardization. Job shops depend on the skills and knowledge of
their workforce.
 Implementation
The figure at right shows typical
priorities for a job shop. Our pages on
Lean Implementation explain the
development of these priorities, a Lean Strategy and implementation
plan.
In high volume operations, cells will be
simpler and similar. One or two
prototype cells provide models for the remaining cells. With a job shop
each cell may
be unique. Moreover, each cell may have unique scheduling, process and
coordination problems that the individual cell teams must work out
for themselves. There is no standard model to copy.
For this reason, a typical job shop
implementation is likely to be slower than the implementation in
higher volume plants. Moreover, the job shop will require an
extensive GT analysis prior to cell design in order to sort out part
families and cells and this requires considerable time.
Summary
Job shops
really are different. That does not
mean that Lean Manufacturing cannot apply. It only means that an
intelligent application based on
fundamentals rather than a formula is
necessary. This is true for any plant but more so with a job shop.
|
|
IRANI, SHAHRUKH A., Handbook of Cellular
Manufacturing Systems, Wiley, New York, 1999.
LEE,
QUARTERMAN, Facilities & Workplace Design, Engineering
& Management Press, Norcross, Georgia, 1997.
SURESH, NALLAN C. AND KAY, JOHN
M.,Group Technology and Cellular Manufacturing,Klewer
Academic Publishers, Boston, 1998.
|
KAMRANI, ALI K., PARSAEI, HAMID R. AND
LILES, DONALD H., Planning Design & Analysis of Cellular
Manufacturing Systems, Elsevier, New York, 1995.
WRENNALL,
WILLIAM, AND LEE, QUARTERMAN, Handbook of Commercial and
Industrial Facilities Management, McGraw Hill, August, 1993.
|
|
Job Shop Lean 2009
Conference
Featuring Richard
Schonberger
This conference has been organized by
Dr. Shahrukh Irani, author of Wiley's Handbook of Cellular
Manufacturing Systems. It addresses many of the problems that are
peculiar to job shops who attempt to implement Lean Manufacturing.
JobshopLean (JSLEAN) provides concepts,
tools and implementation strategies for the deployment of Lean
Thinking in jobshops, where many of the standard best practices of
Lean, as embodied in the Toyota Production System, do not address
the challenges of achieving flexibility, agility, adaptability and
reconfigurability.
|
Strategos Can Help You
To...
-
Set the stage for Cellular
Manufacturing by analyzing Product-Process Families using Group
Technology.
-
Streamline workflow, cut lead times,
reduce inventory and improve productivity by designing workcells
based on these product families. the workcell design usually
includes the design of kanban or other simplified scheduling
methods.
-
Implement the workcells, train the
cell teams and smooth startup.
The Process Starts
With...
1. A preliminary discussion to scope the
size and complexity of the product. We will ask about objectives,
products, processes, people and problems. There is no cost or
commitment.
2. A project discussion will follow in
several days to, jointly, outline the scope of a project that meets
your needs and estimate preliminary costs. We will then send a
detailed proposal.
3. If you accept the proposal, we begin
data acquisition and, together, execute the project.
Call me at 816-931-1414
and we can evaluate the possibilities.
Quarterman Lee |
