Toyota production system an integrated approach to just-in-time
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| 240 | 1 | 0 | |a Shin Toyota shisutemu |
| 245 | 1 | 0 | |a Toyota production system |b an integrated approach to just-in-time |c Yasuhiro Monden |
| 250 | |a 4. ed. | ||
| 264 | 1 | |a Boca Raton [u.a.] |b CRC Press |c 2012 | |
| 300 | |a XLVI, 520 S. |b Ill., graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
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Datensatz im Suchindex
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| adam_text | Contents
Foreword to the First Edition
..........................................................xxiii
Preface to the Fourth Edition
............................................................xxv
Preface to the Third Edition
.........................................................xxxvii
Preface to the Second Edition
..............................................................xli
Acknowledgments
.............................................................................xliii
About the Author
.................................................................................xlv
SECTION
1
Total System and
Implementation Steps
Chapter
1
Total Framework of the Toyota Production System
........3
§ 1
Primary Purpose
...................................................................3
Profit through Cost Reduction
.............................................3
Elimination of Overproduction
............................................4
Quantity Control, Quality Assurance, Respect for
Humanity
.................................................................................6
Just-in-Time and Autonomation
..........................................6
Flexible Workforce and Originality and Ingenuity
...........8
JIT Production
........................................................................8
§ 2
Kanban
System
......................................................................9
Maintaining JIT by the
Kanban
System
..............................9
Information via
Kanban
......................................................10
Adapting to Changing Production Quantities
.................10
§ 3
Production Smoothing
.......................................................11
Production in Accordance with Market Demand
...........11
Determining the Daily Production Sequence
..................12
Adapting to Product Variety by General-Purpose
Machines
................................................................................13
§ 4
Shortening Setup Time
.......................................................13
vi
· Contents
§ 5
Process Layout for Shortened Lead Times and
One-Piece Production
...............................................................14
§ 6
Standardization of Operations
..........................................15
§ 7
Autonomation
......................................................................16
Autonomous Defects Control System
................................16
Visible Control System
.........................................................17
§ 8
Improvement Activities
......................................................17
§ 9
The Goal of TPS
...................................................................18
The Ultimate Goal of TPS
...................................................18
To Improve Margin Ratio, Costs Must Be
Reduced, since Profit
=
Revenue
-
Costs
......................18
To Improve Turnover Ratio, Lead Time Must
Be Reduced
........................................................................19
Another Measure of the Integrated Goal:
JIT Cash-Flows
..................................................................20
Motivational Effects of the JIT Cash Flow Measure
........21
Control Measure at the Top Management Level
of the Whole Supply-Chain
............................................21
Control Measure at the Level of Plant Managers
and Supervisors
................................................................22
Control Measures at the Level of Shop Floor
Operators
..........................................................................23
§ 10
Summary
............................................................................23
Chapter
2
Implementation Steps for the Toyota Production
System
...............................................................................25
§ 1
Introductory Steps to the Toyota Production System.
...25
Step
1:
Upper Management Plays a Key Role
....................25
Step
2:
Establish a Project Team
.........................................26
Step
3:
Prepare an Implementation Schedule and
Set Goals to Be Achieved within the Schedule
.................26
Step
4:
Introduce a Pilot Project
.........................................26
Step
5:
Move from a Downstream Process to an
Upstream Process
.................................................................26
Application Order of JIT Techniques
................................27
§ 2
Introduction of JIT at Toyo Aluminum—
A Case Study
..............................................................................29
Contents ·
vii
SECTION
2
Subsystems
Chapter
3
Adaptable
Kanban
System Maintains Just-In-Time
Production
........................................................................35
§ 1
Pull System for JIT Production
.........................................35
§ 2
What Is
a Kanban?
..............................................................36
How to Use Various
Kanban
...............................................41
Two Methods of Utilizing Production-Ordering
Kanban
..................................................................................43
§ 3
Kanban
Rules
.......................................................................45
Rule
1—
The Subsequent Process Should Withdraw
the Necessary Products from the Preceding Process
in the Necessary Quantities at the Necessary Point
in Time
...................................................................................45
Whirligig
..........................................................................46
Constant-Cycle and Round-Tour Mixed-
Loading System
...............................................................46
Rule
2—
The Preceding Process Should Produce
Its Products in the Quantities Withdrawn by the
Subsequent Process
...............................................................47
Rule
3—
Defective Products Should Never Be
Conveyed to the Subsequent Process
................................48
Rule
4—
The Number of
Kanban
Should Be
Minimized
............................................................................48
Rule
5—
Kanban
Should Be Used to Adapt to
Small Fluctuations in Demand (Fine-Tuning
of Production by
Kanban)
...................................................49
§ 4
Other Types of
Kanban
......................................................51
Express
Kanban
....................................................................51
Emergency
Kanban
..............................................................53
Job-Order
Kanban
................................................................53
Through
Kanban
...................................................................53
Common
Kanban
................................................................54
Cart or Truck as
a Kanban
.................................................54
Label
.......................................................................................55
Full-Work System
.................................................................55
viii
· Contents
Chapter
4
Supplier
Kanban
and the Sequence Schedule Used
by Suppliers
.......................................................................59
§ 1
Monthly Information and Daily Information
...............60
§ 2
Later Replenishment System by
Kanban
.........................61
How the Supplier
Kanban
Should Be Applied
to the Supplier
.......................................................................61
How the In-Process
Kanban
Will Circulate
in the Supplier s Plant
...........................................................63
§ 3
Sequenced Withdrawal System by the Sequence
Schedule
......................................................................................65
Store Space and a Variety of Products
...............................67
How the Sequence Schedule Is Used
in the Assembly Lines of a Supplier
..................................68
§ 4
Problems and Countermeasures in Applying
the
Kanban
System to Subcontractors
....................................70
Criticism by the Communist Party against the
Toyota Production System
...................................................70
§ 5
Guidance by the Fair Trade Commission Based on
the Subcontractors Law and the Anti-monopoly Law
.........72
How Toyota Is Coping with Criticism
...............................74
§ 6
Supplier
Kanban
Circulation
in the Paternal Manufacturer
..................................................79
Inventory Quantity of Purchased Parts
.............................82
§ 7
Practical Examples of Delivery System and
Delivery Cycle
............................................................................83
Number of Supply Runs and Delivery Schedule
of Each Plant
..........................................................................83
Kanban
System and Adaptation to Emergency
...............86
Chapter
5
Smoothed Production Helps Toyota Adapt to
Demand Changes and Reduce Inventory
.......................89
§ 1
Smoothing of the Total Production Quantity
.................89
Demand Fluctuation and Production Capacity Plan
......92
Adapting to Increased Demand
.....................................92
Adapting to Decreased Demand
...................................93
§ 2
Smoothing Each Model s Production Quantity
.............93
Sequence Schedule for Introducing Models
......................94
Sequence Schedule Sheet Sample
........................................97
Contents · ix
Sequenced Withdrawal of Engines
....................................97
Two Phases of Production Smoothing
..............................99
Flexible Machinery Supporting Smoothed Production
... 99
§ 3
Comparison of the
Kanban
System with MRP
.............101
§ 4
Summary of the Concept of Production Smoothing...
102
Chapter
6
The Information System for Supply Chain
Management between Toyota, Its Dealers, and Parts
Manufacturers
................................................................105
§ 1
The Order Entry Information System
............................105
Monthly Production System
.............................................105
Master Production Schedule and Parts
Requirement Forecast
....................................................105
Daily Production System
...................................................106
The Product Delivery Schedule and Sequence
Schedule
..........................................................................106
The Sequenced Production Schedule
...............................109
Online System at the Distribution Stage
.........................109
§ 2
The Information System between Toyota and
Parts Manufacturers
...............................................................110
Parts Requirement Forecast Table
....................................110
Network System within Toyota Group Using VAN
.......112
The Parts Distribution System
..........................................113
§ 3
New Toyota Network System (TNS)
...............................114
Establishment of Type II Carrier by Toyota
....................114
Toyotas New TNS (Toyota Network System)
.................116
Parts Procurement Networks: JNX and WARP
.............117
§ 4
Production Planning System at Nissan
..........................118
Nissan s Ordering Systems from Parts Suppliers
...........121
Daily Order
.....................................................................121
10-Day Order
..................................................................121
Synchronized Order
.....................................................122
Special Order
.................................................................122
Chapter
7
How Toyota Shortened Production Lead Time
............123
§ 1
Four Advantages of Shortening Lead Time
..................123
§ 2
Components of Production Lead Time in a
Narrow Sense
..........................................................................124
χ
· Contents
§ 3
Shortening Processing Time through Single-Unit
Production and Conveyance
..................................................125
Functional Division of Labor Using Specialized
Workers with Lot Production and Conveyance
.........127
Product-Flow Layout with Multi-Skilled Workers
for One-Piece Production
..................................................127
Comparison between Functional Division of
Processes and Multi-Process Handling: A Summary
...129
Outline of Toyotas Plants
..................................................131
Shortening Processing Time through Small-Sized
Lot Production
....................................................................131
Advantages of Small Lots in the Production
of Different Products
..........................................................132
Control Chart of Lot Size Reduction
...............................133
§ 4
Shortening Waiting Time and Conveyance Time
.......134
How to Balance Each Process
..........................................134
Shortening Waiting Time Caused by Pre-Process
Lot Size
.................................................................................135
Two Steps for Conveyance Improvement
........................136
§ 5
A Broad Approach to Reducing Production Lead
Time
..........................................................................................137
Five Principles for the Ideal Factory Automation
..........138
Chapter
8
Machine Layout, Multi-Functional Workers, and
Job Rotation Help Realize Flexible Workshops
............143
§ 1
Shojinka: Meeting Demand through Flexibility
...........143
§ 2
Layout Design: The U-Turn Layout
................................144
Improper Layouts
...............................................................146
Bird Cage Layouts
..........................................................146
Isolated Island Layouts
..................................................147
Linear Layouts
................................................................148
Combining U-Form Lines
.................................................149
Cellular Manufacturing
.....................................................151
§ 3
Attaining Shojinka through Multi-Functional
Workers
.....................................................................................152
Cultivating Multi-Functional Workers through
Job Rotation
.........................................................................153
Step
1:
Rotation of Supervisors
....................................153
Contents · xi
Step
2: Rotation
of Workers within Each Shop
.........154
Step
3:
Job Rotation Several Times per Day
...............156
Additional Advantages of Job Rotation
...........................158
Importance of the Line Chief: Giving Rest Time
and Job Rotation to Workers
.............................................159
Chapter
9
One-Piece Production in Practice
.................................161
§ 1
Requirements for One-Piece Production
.......................161
§ 2
Resistance to Working Standing Up
..............................162
§ 3
Resistance to Multi-Skilling
............................................164
§ 4
Barriers to Autonomation
................................................164
How to Achieve Autonomation (in the Sense
of Decoupling Operators from Their Machines)
............165
§ 5
Attaching Castors
..............................................................167
§ 6
Smoothed Production
.......................................................168
§ 7
An Example of Improvement for One-Piece
Flow: A Factory Producing Cabinets
for Use as Flat-Screen Television Stands
..............................169
Chapter
10
Standard Operations Can Attain Balanced
Production with Minimum Labor
................................171
§ 1
Goals and Elements of Standard Operations
................171
§ 2
Determining the Components of Standard
Operations
................................................................................172
Determining the Cycle Time
............................................173
Determining the Completion Time per Unit
.................173
Determining the Standard Operations Routine
.............175
Yo-i-don System
..................................................................178
One-Shot Setup
...................................................................182
Determining the Standard Quantity
of Work-in-Process
.............................................................183
Preparing the Standard Operations Sheet
......................184
§ 3
Proper Training and Follow-Up: The Key
to Implementing a Successful System
...................................185
Chapter
11
Reduction of Setup Time
—
Concepts and Techniques
.....187
§ 1
Effects of Shortening the Setup Time
.............................187
xii · Contents
§ 2 Setup
Concepts..................................................................
188
Concept
1: Separate
the Internal Setup from the
External Setup
.....................................................................188
Concept
2:
Convert as Much as Possible of the
Internal Setup to the External Setup
...............................188
Concept
3:
Eliminate the Adjustment Process
...............189
Concept
4:
Abolish the Setup Step Itself
.........................191
§ 3
Concept Application
.........................................................192
Technique
1:
Standardize the External Setup Actions..
192
Technique
2:
Standardize Only the Necessary
Portions of the Machine
....................................................192
Technique
3:
Use a Quick Fastener
..................................192
Technique
4:
Use a Supplementary Tool
.........................194
Technique
5:
Use Parallel Operations
..............................195
Technique
6:
Use a Mechanical Setup System
................196
Chapter
12
5S
—
Foundation for Improvements
...............................197
§ 1
5S Is to Remove Organizational Slack
............................197
§ 2
Visual Control
..................................................................200
Visual Seiri
...........................................................................201
Indicator Plate for Visual Seiton
......................................203
Step
1—
Decide Item Placement
..................................204
Step
2—
Prepare the Container
...................................204
Step
3—
Indicate the Position for Each Item
.............204
Step
4—
Indicate the Item Code and Its Quantity....
204
Step
5—
Make Seiton a Habit
.......................................205
§ 3
Practical Rules for Seiton
................................................207
Seiton of
WIP
.....................................................................207
Rule
1:
First-In, First-Out
............................................207
Rule
2:
Setup for Easy Handling
.................................207
Rule
3:
Regard Stock Space as Part of
Manufacturing Line
.....................................................208
Seiton of Jigs and Tools
......................................................210
Seiton of the Cutting Instruments, Measures, and Oil
...211
Visual Controls for Limit Standards
................................213
§ 4
Seiso, Seiketsu, Shitsuke
...................................................214
§ 5
Promotion of 5S System
...................................................216
Point Photography
..............................................................217
Contents · xiii
Chapter
13
Autonomous Defect Control Ensures Product Quality...
219
§ 1
Development of Quality Management Activities
.........219
§ 2
Statistical Quality Control
...............................................221
§ 3
Autonomation
...................................................................223
§ 4
Autonomation and the Toyota Production System
.....225
Methods for Stopping the Line
........................................225
Mechanical Checks in Aid of Human Judgment
..........227
Mistake-Proofing Systems for Stopping the Line
..........228
Contact Method
............................................................229
Altogether Method
.......................................................229
Action Step Method
......................................................229
Visual Controls
...................................................................231
Andon and Call Lights
..................................................231
Standard Operations Sheets and
Kanban
Tickets
.....232
Digital Display Panels
..................................................234
Store and Stock Indicator Plates
.................................234
§ 5
Robotics
..............................................................................235
Robots and the Toyota Production System
....................236
§ 6
Company-Wide Quality Control
...................................236
All Departments Participate in QC
.................................237
All Employees Participate in QC
.....................................238
QC Is Fully Integrated with Other Related
Company Functions
..........................................................238
Chapter
14
Cross-Functional Management to Promote
Company-Wide Quality Assurance and
Cost Management
..........................................................239
§ 1
Introduction
.......................................................................239
§ 2
Quality Assurance
............................................................240
§ 3
Cost Management
.............................................................241
Relations among Departments, Steps in Business
Activities, and Functions
..................................................244
§ 4
Organization of the Cross-Functional
Management System
..............................................................245
Business Policy and Functional Management
...............250
Business Policy Development
...........................................252
Critical Considerations for Functional Management
...253
Advantages of Functional Management
.........................254
xiv · Contents
Chapter
15 Kaizen
Costing
...............................................................257
§ 1
Concept of Kaizen Costing
..............................................257
§ 2
Two Types of Kaizen Costing
.........................................258
§ 3
Preparing the Budget
........................................................259
§ 4
Determination of the Target Amount of Cost
Reduction
.................................................................................262
§ 5
Kaizen Costing through Management by
Objectives
...............................................................................263
§ 6
Measurement and Analysis
of Kaizen Costing Variances
.................................................266
Chapter
16
Material Handling in an Assembly Plant
.....................271
§ 1
The Parts Supply System in an Assembly Plant
............271
§ 2
A System for Supplying Parts in Sets
(the SPS, or Set Parts System)
................................................271
The SPS System
...................................................................271
The Rationale for SPS, and Its Benefits
............................273
§ 3
Empty-Handed Transportation
...................................275
Rationalizing the Reception of Outsourced Parts
and the Removal of Empty Boxes
.....................................275
Movement of the Site Materials Handler
........................275
Area for Storing Each Parts Manufacturer s
Empty Pallets, and Trolleys with Tractor
...................275
Movement of the Parts Manufacturers Drivers:
Coupling Station for the Trolleys Used to Bring the
Parts in to Each of the Assembly Lines
..........................277
Chapter
17
Further Practical Study of the
Kanban
System
............279
§ 1
Maximum Number of Production
Kanban
to be Stored
...............................................................................279
§ 2
Triangular
Kanban
and Material Requisition
Kanban
on a Press Line
.........................................................282
The Roulette System
..........................................................283
§ 3
Control of Tools and Jigs through the
Kanban
System
.......................................................................285
§ 4
JIT Delivery System Can Ease Traffic Congestion
and the Labor Shortage
..........................................................286
Contents · xv
JIT Will Contribute to Rationalization of Physical
Distribution
........................................................................286
Genuine JIT System Has Prerequisite Conditions
........287
External Environment for Physical Distribution
Should Be Rationalized
.....................................................288
Chapter
18
Smoothing
Kanban
Collection
......................................291
§ 1
Obstacles to Collecting Smoothed Numbers
of
Kanban
.................................................................................291
§ 2
Relationship between Smoothed Collection
of
Kanban
and Parts Delivery
..............................................292
§ 3
Smoothing Schedule for the Timing of
Kanban
Collection
.................................................................................293
§ 4
Inventions of
Kanban
Posts at the Production Site
......295
Parts Storage Site in the Assembling Factory
.................295
§ 5
Post-Office Mechanism for Outgoing Supplier
Kanban
.....................................................................................296
Chapter
19
Applying the Toyota Production System Overseas
......299
§ 1
Conditions for Internationalizing the Japanese
Production System
.................................................................300
§ 2
Advantages of the Japanese
Maker-Supplier Relationship
.................................................301
§ 3
Reorganization of External Parts Makers in
the United States
.....................................................................302
§ 4
Solution for Geographical Problems Involving
External Transactions
............................................................305
§ 5
External Transactions of
NUMMI
................................306
§ 6
Industrial Relations Innovations
...................................308
Prerequisites of Flexible Labor Systems
..........................308
Prerequisites of Workplace Improvements
.....................310
Features of New Labor Contracts
.....................................310
Point
1..............................................................................310
Point
2..............................................................................312
Point
3..............................................................................312
§ 7
Conclusion
.........................................................................314
xvi · Contents
SECTION
3
Quantitative Techniques
Chapter
20
Sequencing Method for the Mixed-Model Assembly
Line to Realize Smoothed Production
..........................317
§ 1
Goals of Controlling the Assembly Line
........................317
Goal One: Work Load Streamlining
................................318
Goal Two and the Sequencing Model for Parts
Usage Streamlining
............................................................318
§ 2
Goal-Chasing Method: A Numerical Example
...........320
Evaluation of the Goal-Chasing Method
.......................324
§ 3
The Toyota Approach: A Simplified Algorithm
...........326
Sequence Scheduling in the Practice: An Example
......328
§ 4
Simultaneous Achievement of Two
Simplifying Goals
...................................................................329
Chapter
21
New Sequence Scheduling Method for Smoothing
......331
§ 1
Basic Logic of Sequence Scheduling
...............................331
Assisting Rules
....................................................................333
§ 2
Sequence Scheduling Using Artificial Intelligence
......337
Five Patterns for Deciding the Sequence Schedule
.......340
§ 3
Diminishing Differences between Product Lead
Times
........................................................................................342
Chapter
22
Computation of the Number of
Kanban
......................347
§ 1
Computation of the Number of
Kanban
......................347
§ 2
The Constant-Cycle Withdrawal System for
Computing the Number of Inter-Process Withdrawal
Kanban
.....................................................................................348
Numerical Example: Number of Inter-Process
Withdrawal
Kanban
in the Constant-Cycle System
.....349
§3
Computation of the Number of Supplier
Kanban
........354
Supplier
Kanban
Using the Constant-Cycle
Withdrawal System
..........................................................354
Computation of Supplier
Kanban
...................................354
Numerical Example for Computing the Number
of Supplier
Kanban
.............................................................357
Contents · xvii
§ 4
Constant-Quantity Withdrawal System for
Computing the Number of Inter-Process Withdrawal
Kanban
......................................................................................358
General Formula for the Constant-Quantity
Withdrawal System
...........................................................358
Numerical Example for Computing the Number
of Inter-Process Withdrawal
Kanban
Based
on the Constant-Quantity Withdrawal System
.............359
Effect of Lead Time Reduction through Kaizen
Activities on the Number of
Kanban
..............................360
Effect of Increasing the Capacity of Parts Boxes
Because of Smaller Parts Size
...........................................360
§ 5
Computation of the Number
of Production-Ordering
Kanban
..........................................361
Computation of the Number of Production
Kanban
Under the Constant-Cycle Withdrawal System
...........361
Computation of the Number of Production
Kanban
under the Constant-Quantity Withdrawal System
......362
Ping-Pong Ball as a Production
Kanban
........................362
Use of Production
Kanban
as a Two-Bin System
..........363
Triangular
Kanban
of the Stamping Process
................365
§ 6
Computation of the Re-order Point
...............................365
§ 7
Determination of Lot-Size
..............................................365
§ 8
Changes in the Number of
Kanban
...............................366
Changes in the Number of Supplier
Kanban
.................367
§ 9
Maintaining the Necessary Number of
Kanban
.........368
Maximum and Minimum Numbers of the Parts
Boxes on the Indicator Plate at the Parts Shelf
..............368
Automatic System for Pushing Aside Excess
Kanban....
369
Discovery of Lost
Kanban
............................................370
Chapter
23
New Developments in
е
-Kanban
...................................
371
§ 1
The Two Types of
е
-Kanban
............................................
371
§ 2
Sequenced Withdrawal Method e-Kanban:
Sequenced Withdrawal of Parts Matched to the
Vehicle Loading Sequence Schedule
.....................................371
The Evolution of the
Kanban
............................................371
е
-Kanban
..............................................................................
372
xviii · Contents
§ 3
е
-Kanban
in
the Later-Replenishment System:
е
-Kanban
for the Parts Needed on Engine Assembly
Lines, and So On
......................................................................374
§ 4
Sequence Information for Main, Unit, and Sub-Lines..
.376
§ 5
е
-Kanban
Passing through a Collection Center
(an Intermediate Warehouse)
................................................379
Chapter
24
Kanban
Supporting Information Systems
....................381
§ 1
Toyota Production System Is Supported by Many
Information Systems
...............................................................381
§ 2
Material Requirement Planning Subsystem
.................382
§ 3
Kanban
Master Planning Subsystem
............................384
Internally Produced Parts
................................................385
Externally Produced Parts
................................................385
Material Usage
...................................................................385
§ 4
Process-Load Planning Subsystem
................................386
§ 5
Accounts Payable and Accounts Receivable
Subsystem via Electronic
Kanban
........................................387
§ 6
Actual Performance Measurement Subsystem
............388
SECTION
4
Humanized Production Systems
Chapter
25
Cultivating the Spontaneous Kaizen Mind
..................393
§ 1
Developing the Spontaneous Kaizen Mindset:
Toward Embedding TPS
.........................................................393
§ 2
How Taiichi Ohno Came to Be Daihatsu s
Consultant
...............................................................................394
§ 3
Create a Difficult Situation and Give People a
Problem to Solve
.....................................................................394
Case
1:
Mixed Assembly of the Starlet (the
Successor to the
Publica)
and Daihatsu s Own
Popular Car
.........................................................................395
Case
2:
Development of the Ready, Set, Go! System
in the Body Welding Process
...........................................396
Case
3:
You Mustn t Think, What Am I Going to
Teach Them?
....................................................................397
Contents · xix
§ 4
Conclusions
.......................................................................398
1.
Get People to Exercise Their Ingenuity by
Creating a Difficult Situation and Giving Them a
Problem to Solve
................................................................398
2.
Never Lead People by Their Noses to the Solution
of the Problem but Always Make Them Come
Up with Their Own Improvement Strategies,
and Encourage Them to Develop Their Own
Problem-Solving Abilities
................................................400
3.
Even If Your Subordinates Fail, Do Not
Communicate a Feeling of Frustration to Them;
Lend Them a Helping Hand
—
Leaders Should
Become Charismatic People on Whom Others
Can Rely
..............................................................................400
Chapter
26
Improvement Activities Help Reduce the Workforce
and Increase Worker Morale
.........................................403
§ 1
Resolving the Conflict between Productivity and
Human Factors
.......................................................................403
§ 2
Improvements in Manual Operations
...........................404
§ 3
Reduction of the Workforce
...........................................406
§ 4
Improvements in Machinery
...........................................410
Policies in Promoting Jidoka
.............................................410
§ 5
Job Improvements and Respect for Humanity
.............412
Give Workers Valuable Jobs
..............................................412
Keep the Lines of Communication within the
Organization Open
.............................................................412
§ 6
The Suggestion System
.....................................................413
§ 7
Kanban
and Improvement Activities
.............................418
§ 8
QC Circles
..........................................................................421
Structure of the QC Circle
.................................................421
QC Topics and Achievements
...........................................421
Commendation Systems
...................................................423
Education Systems for QC Circles
...................................425
§ 9
New Technical Personnel System
..................................426
Labor-Management System for Toyota Shop-Floor
Technicians from
1990s
Onward
.....................................426
Introduction of Technical Specialists
.............................426
xx · Contents
Specialized Skills Acquisition System
.............................427
Get-Up-and-Go Action Program
.................................428
New Personnel System for Technical Personnel
...........429
The Discussion System Using Development
Evaluation Sheets
................................................................431
Chapter
27
Respect-for-Humanity Subsystem in the JIT
Production System
.........................................................433
§ 1
Toward Respect for Humanity Based on Ergonomics
...433
§ 2
Conventional JIT Systems for
Respect-for-Humanity Realization
.......................................433
§ 3
Process Improvements
.....................................................435
Facility Investments Incorporating Automation
..........435
Facility Investments Incorporating Respect for
Humanity
............................................................................436
Worker-Compatible Machines
....................................436
Improving Working Conditions
.................................437
Work Strain Avoidance
................................................437
§ 4
Need for Objective Evaluation of Workload
................442
§ 5
Conclusion
........................................................................443
§ 6
Appendix:
Τ
VAL
Model for Measuring Workload
.....444
The Model
...........................................................................444
Applying the TVAL Model to Assembly Operations
... 446
Author s Comment on the Model
....................................447
Acknowledgments
..................................................................447
Chapter
28
Motivational and Productivity Effects of
Autonomous Split-Lines in the Assembly Plant
...........449
§ 1
Why Can Split-Lines Enhance Morale and
Productivity?
...........................................................................449
§ 2
Problem with the Conventional Assembly Line
..........450
§ 3
Structure of the Functionally Diversified
Autonomous Line
....................................................................452
Physical Structure of Split-Lines
.......................................452
Personnel Structure of Split-Lines
...................................454
Training of Line Workers and the Role
of the Foreman
...................................................................454
Contents · xxi
Training Corner
and the Assembly Skill
Master
Program
..................................................................455
§ 4
The Merits of Autonomous Split-Lines
.........................456
Worker Motivation
............................................................456
Productivity and Autonomy Based on Risk Spreading...
458
Size of Buffer Stocks
..........................................................462
Line Stop Causes
................................................................462
Unnecessary Inventory Eliminated as Waste
................463
Chapter
29
Mini Profit Centers and the JIT System
.......................465
§ 1
Why Do
MPC
and JIT Systems Fit Each Other Well?
.....465
§ 2
Comparison and Mutual Extension of Merits
between JIT and
MPC
Systems
............................................466
Motivating People in an
MPC
through the Single
Goal of Profit
......................................................................467
Delegation of Larger and Wider Authority
....................468
Authority for Flexible Exchange of Workers
among Various MPCs
..................................................468
Decentralized Authorities of Each MPD
...................468
Deployment of Target Profit
..............................................472
§ 3
Computation Formula for
MPC
Profit
..........................473
§ 4
Another Type of Mini Profit Center
...............................475
NEC s Line-Company
........................................................475
§ 5
Local Optimization and Global Optimization
.............476
§ 6
JIT Production System as a Prerequisite for
MPC
Accounting
.....................................................................478
MPC
Accounting Is Cash-Basis Accounting
..............478
§ 7
MPC
Accounting Will Provide Motivation
to Reduce Excess Inventory
...................................................479
§ 8
Conclusion
........................................................................480
Appendix: Reinforcing the JIT System after the Disasters
of
3/11/2011,
Japan
...........................................................481
Bibliography and References
..............................................................487
English Language Literature
.................................................487
Japanese Literature
.................................................................492
Index
....................................................................................................501
|
| any_adam_object | 1 |
| author | Monden, Yasuhiro 1940- |
| author_GND | (DE-588)12069817X |
| author_facet | Monden, Yasuhiro 1940- |
| author_role | aut |
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| author_variant | y m ym |
| building | Verbundindex |
| bvnumber | BV037297687 |
| classification_rvk | QP 500 QP 380 QP 543 |
| ctrlnum | (OCoLC)711873330 (DE-599)BVBBV037297687 |
| discipline | Wirtschaftswissenschaften |
| edition | 4. ed. |
| format | Book |
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| id | DE-604.BV037297687 |
| illustrated | Illustrated |
| indexdate | 2024-09-27T16:26:41Z |
| institution | BVB |
| isbn | 9781439820971 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-021210160 |
| oclc_num | 711873330 |
| open_access_boolean | |
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| owner_facet | DE-739 DE-634 DE-473 DE-BY-UBG DE-2070s DE-1050 DE-703 DE-526 |
| physical | XLVI, 520 S. Ill., graph. Darst. |
| publishDate | 2012 |
| publishDateSearch | 2012 |
| publishDateSort | 2012 |
| publisher | CRC Press |
| record_format | marc |
| spellingShingle | Monden, Yasuhiro 1940- Toyota production system an integrated approach to just-in-time Toyota-Jidōsha-Kōgyō-KK (DE-588)136030-9 gnd Lean Production (DE-588)4287302-2 gnd Fertigungssystem (DE-588)4154150-9 gnd |
| subject_GND | (DE-588)136030-9 (DE-588)4287302-2 (DE-588)4154150-9 |
| title | Toyota production system an integrated approach to just-in-time |
| title_alt | Shin Toyota shisutemu |
| title_auth | Toyota production system an integrated approach to just-in-time |
| title_exact_search | Toyota production system an integrated approach to just-in-time |
| title_full | Toyota production system an integrated approach to just-in-time Yasuhiro Monden |
| title_fullStr | Toyota production system an integrated approach to just-in-time Yasuhiro Monden |
| title_full_unstemmed | Toyota production system an integrated approach to just-in-time Yasuhiro Monden |
| title_short | Toyota production system |
| title_sort | toyota production system an integrated approach to just in time |
| title_sub | an integrated approach to just-in-time |
| topic | Toyota-Jidōsha-Kōgyō-KK (DE-588)136030-9 gnd Lean Production (DE-588)4287302-2 gnd Fertigungssystem (DE-588)4154150-9 gnd |
| topic_facet | Toyota-Jidōsha-Kōgyō-KK Lean Production Fertigungssystem |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=021210160&sequence=000004&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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