In today’s fast-paced automobile manufacturing environment, quality is no longer just a function—it is a culture. Organizations that succeed are those that empower their workforce to think, analyze, and solve problems systematically. This training module introduces the 7 QC Tools, simple yet powerful techniques developed to make problem-solving accessible to everyone—from shopfloor operators to supervisors.
Rooted in the principles of Quality Circles and continuous improvement, these tools enable teams to identify issues, analyze root causes, and implement practical solutions using real-time scenarios and everyday examples . Through interactive activities and relatable situations, this program transforms employees from task performers into effective problem solvers, driving both quality and performance excellence.
π― Program Objective
Enable employees to:
- Understand
quality mindset
- Apply
Kaizen & 5S in shopfloor
- Use simple
problem-solving tools
- Improve
teamwork & performance
π DURATION: 1 DAY (or 2
Half Days)
|
Session |
Topic |
|
1 |
Quality Mindset |
|
2 |
5S (Japanese
Concept) |
|
3 |
Kaizen &
Continuous Improvement |
|
4 |
Teamwork &
QC Circles |
|
5 |
Problem Solving (7 QC
Tools Basics) |
|
6 |
Performance
& Feedback |
πΉ SESSION 1: QUALITY
MINDSET (1 hr)
π¬ Movie Clip Suggestion:
- “3 Idiots – Rancho explains machine vs understanding” -
- Concept:
Doing work vs understanding work
π‘ Key Message:
“Quality is not checking… it is building right the first
time”
π Real-Time Example:
- Bolt
tightening in assembly line
- If
torque is wrong → customer complaint → recall
π― Activity: “Defect Game”
- Give
10 nuts/bolts (some wrong size)
- Ask
team to assemble quickly
- Then
check errors
π Learning:
- Speed
without quality = failure
πΉ SESSION 2: 5S –
WORKPLACE ORGANIZATION (1.5 hrs)
π¬ Movie Clip:
- “Enthiran
(Robot) – Lab organization vs chaos scenes”
π Concept:
- Sort
(Seiri) – Remove unnecessary
- Set
in Order (Seiton) – Arrange tools
- Shine
(Seiso) – Clean workplace
- Standardize
- Sustain
π Real Example:
- Spanner
missing → 5 min delay → production loss
- Oil
spill → safety hazard
π― Activity: “Messy Desk Challenge”
- Which is faster?
π Hands-on:
- Teams
organize tools in 5 mins
πΉ SESSION 3: KAIZEN –
SMALL IMPROVEMENTS (1 hr)
π¬ Movie Clip:
- “Chak De India – Continuous improvement in team practice” -
π‘ Concept:
“Small improvements daily = Big results yearly”
π Real Example:
- Worker
bends 100 times/day → fatigue
- Suggestion:
Raise part height → productivity ↑
π― Activity: “1%
Improvement”
Ask each participant:
- What
small improvement can you do tomorrow?
πΉ SESSION 4: TEAMWORK
& QC CIRCLES (1.5 hrs)
π¬ Movie Clip:
π‘ Concept:
- Small
group solving problems
- Bottom-up
approach (as shown in PDF)
π Real Example:
- Paint
defects increasing
- QC
Circle identifies:
- Dust
issue
- Humidity
problem
π― Activity: “Marshmallow
Tower”
- Teams
build structure using:
- Paper
+ tape + marshmallow
π Learning:
- Planning
+ teamwork > individual effort
π§ SESSION 5: PROBLEM
SOLVING USING 7 QC TOOLS (2 HOURS)
π― SESSION OBJECTIVE
Participants will learn:
- How
to identify problems clearly
- How
to analyze causes logically
- How
to take correct action (not guesswork)
π§ INTRO ACTIVITY (10
mins)
π― Problem:
“Bike is not starting in the morning”
Ask participants:
- What
will you do?
Typical answers:
- Change
battery
- Kick
multiple times
- Call
mechanic
π Trainer Insight:
❌
Guessing
✔ Need structured problem solving
π THE 7 QC TOOLS
(Simplified)
1️⃣ CHECK SHEET (DATA COLLECTION
TOOL)
π‘ Concept:
Simple tool to collect data in a structured way
π Automobile Example:
Problem: Car service complaints
|
Issue |
Count |
|
Brake noise |
|
|
Engine vibration |
|
|
AC not cooling |
π Common Man Example:
Problem: Water leakage at home
Track:
- Morning
- Afternoon
- Night
π You identify pattern
π― Activity:
Ask participants:
- Track
how many times they use mobile in 1 hour
π Awareness through data
2️⃣ PARETO CHART (80/20 RULE)
π‘ Concept:
80% problems come from 20% causes
π Automobile Example:
Complaints:
- Brake
issue → 50
- Engine
noise → 20
- AC
issue → 10
π Focus on Brake issue
first
π Common Man Example:
Monthly expenses:
- Rent
- Food
- Fuel
π Fuel cost high →
optimize travel
π― Activity:
Ask:
“What causes most delay in your work?”
3️⃣ FISHBONE DIAGRAM (CAUSE
ANALYSIS)
π‘ Concept:
Break problem into causes:
- Man
- Machine
- Method
- Material
π Example:
Problem: Vehicle not starting
Causes:
- Battery
weak
- Fuel
empty
- Wiring
issue
π Example:
Problem: Late to office
Causes:
- Wake
up late
- Traffic
- Vehicle
issue
π― Activity:
Problem: “Late production”
Groups identify causes
4️⃣ HISTOGRAM (VARIATION ANALYSIS)
π‘ Concept:
Shows variation in data
π Example:
Bolt size variation
- Some
too tight
- Some
too loose
π Quality inconsistency
π Example:
Daily travel time:
- 20
mins
- 45
mins
- 1
hour
π Not consistent
π― Activity:
Ask:
“How much time you take daily to reach office?”
Plot variation
5️⃣ FLOWCHART (PROCESS
UNDERSTANDING)
π‘ Concept:
Step-by-step process mapping
π Example:
Vehicle assembly:
- Frame
- Engine
- Wiring
- Testing
π Identify where delay
occurs
π Example:
Morning routine:
- Wake
up → Bath → Breakfast → Travel
π Delay point = waking up
late
π― Activity:
Draw:
“How you come to work daily”
6️⃣ CONTROL CHART (PROCESS
STABILITY)
π‘ Concept:
Check if process is stable or out of control
π Example:
Engine temperature:
- Normal
range: 70–90°C
If 110°C → problem
π Example:
Monthly electricity bill:
- ₹1000–₹1500
normal
- ₹4000
→ abnormal
π― Activity:
Ask:
“What is your normal daily expense?”
7️⃣ SCATTER DIAGRAM (RELATIONSHIP
ANALYSIS)
π‘ Concept:
Shows relationship between two variables
π Example:
Speed vs fuel consumption
π Higher speed → more
fuel used
π Example:
Mobile usage vs sleep
π More mobile → less
sleep
π― Activity:
Ask:
“Hours of sleep vs productivity”
π₯ FINAL INTEGRATION
ACTIVITY (30 mins)
π― Problem:
“Production delay in automobile plant”
Step-by-step:
- Check
Sheet → Collect delay data
- Pareto
→ Find major cause
- Fishbone
→ Analyze root cause
- Flowchart
→ Identify process gap
- Control
Chart → Check stability
- Histogram
→ Check variation
- Scatter
→ Find relationships
π‘ Output:
Each group presents:
- Problem
- Cause
- Solution
π§ KEY MESSAGE TO END
SESSION
“Problem is not the issue…
Not understanding the problem is the issue”
π¬ Movie Clip:
π Simplified Tools:
- Check
Sheet
- Pareto
(80/20 rule)
- Fishbone
(Root cause)
- Histogram
- Flowchart
- Control
Chart
- Scatter
Diagram
π Real Example:
Problem: Engine noise complaint
Use:
- Check
sheet → frequency
- Pareto
→ top cause
- Fishbone
→ root cause
π― Activity: “Why-Why
Analysis”
Problem: Vehicle not starting
Ask:
- Why?
→ Battery dead
- Why?
→ Charging issue
- Why?
→ Alternator fault
π Learning: Root cause vs
symptoms
πΉ SESSION 6: PERFORMANCE
& FEEDBACK (1 hr)
π¬ Movie Clip:
- “Dangal
– Coaching & feedback scenes”
π‘ Concept:
- Feedback
= Improvement tool (not criticism)
π Real Example:
Supervisor says:
❌
“You are slow”
✅
“You can improve cycle time by 10 sec if
you follow this method”
π― Activity: “Feedback
Practice”
- Pair
participants
- One
gives feedback
- One
receives
π₯ FINAL ACTIVITY: MINI QC
PROJECT (45 mins)
Groups:
- Identify
1 real shopfloor problem
- Apply:
- Problem
→ Cause → Solution
Present to class
π TRAINING OUTCOME
Participants will:
✔ Improve workplace discipline (5S)
✔ Understand quality responsibility
✔ Work better in teams
✔ Solve problems systematically
✔ Give & receive feedback professionally
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