Center For Community and Economic Development

1
Center For Community and Economic Development

• Technical Training
• Opportunities

2
Training Benefits

• Basic and Advanced Skills
• Customization
• Quality Assurance
• Accountability Driven
• Objectivity
• Value Added Pricing
• KY WINS

3
Training Programs

• Mobile Manufacturing Training Units
• Industrial Training
• ITC Software Computerized Training
• Labor Upgrade Assessments
• Continuous Improvement Training

4
Mobile Manufacturing Training Units

• Allen Bradley PLC
• Panel View
• DC Drives
• Control Logix
• Print Reading
• CNC Courses
• CAD/AutoCad Courses

5
Industrial Training

• Maintenance Training
• Electrical Apprenticeship
• National Tool Machine Apprenticeship
• Safety Training
• Electrical Safety
• Precision Measurement
• Blueprint Reading
• Motor Controls

6
Industrial Training

• Welding
• Transformers
• Hydraulics
• Troubleshooting
• Rotating Equipment
• Preventative/Predictive Maintenance
• Bearings and Seals
• Shaft Alignment
• Blueprint Reading
• Vibration Analysis

7
ITC Software Computerized Training

• Hands on
• Instructor Assisted
• Pre-Test
• Post-Test
• Practice Lab

8
Labor Upgrade Assessments

• Bennet Mechanical
• NOCTI
• Valpar
• DAT
• GATB
• WorkKeys Profiles (EEOC Validated)

9
Continuous Improvement Training

• Introduction to Process Improvement
• Total Quality Management
• ASQ Quality
• Lean Manufacturing/Lean for Service

10
KY WINSCreating a Win-Win Situation for Kentucky
and Its Workers

• Funds 75 of total cost
• Company only pays 25 of total cost
• Plus 10 Administration Fee
• Approved Costs Include
• Instruction
• Assessments
• Job Profiling
• Equipment
• Materials

11
Electrical Motors I Class
College Credit Awarded WINS Funding Example

• Course hours 45 hours
• Rate per hour 150.00
• Training Cost 6,750.00
• Text and Materials
  112.38/student
• Example of 12 participants 1,348.00
• Total Project Cost 8,098.00
• KCTCS WINS Funding pays 75 of total project
  cost 6,073.50
• Network of Companies Pay (25) 2,024.00
• Network of Companies Pay (10 Admin. Fee)
  810.00
• Total Network Cost 2,834.00
• Company cost per person based on 12 in the
  program 236.17
• Cost per person based on 8 in the program
  354.25

12
Partial Client List

• Southwire
• Alcoa
• Unilever
• Kimberly Clark
• Century
• Dana Corporation
• Dart Polymers
• Swedish Match
• Barton Brands

13
National Tooling and Machining
AssociationApprenticeship Training
ProgramLevel I - 144 hours OCTC COLLEGE
CREDIT FOR MTT-110 Fundamental of Machine Tool

• Introduction
• Introduction Shop Safety
• Blueprint Reading Introduction
• Relative Motions Between Tool Workpiece Chip
  Formation
• Steel Rule
• Cutting Fluids General Information
• Principles of Orthographic Projection
• Saws Sawing General Information
• Steel Rules, Combination Sets Transfer Tools
• Drill Press General Information
• Line Projections
• Drill Press Drill Bits
• Micrometers
• Drill Press Reamers Drilling Operations
• Auxiliary Views
• Milling Machine Horizontal
• Vernier Instruments
• Milling Machine Vertical/General Safety
• Sectional Views

• Bevel Protractor
• Milling Machine Speeds Feeds/Problems
• Dimensioning
• Milling Machine Cutters Operations
• Indicators
• Engine Lathe Introduction
• Dimensioning Practices
• Engine Lathe Care Safety
• Gage Blocks Sine Bars
• Engine Lathe Types Functions
• Placement Test Whole Numbers
• Engine Lathe Cutting Tools Fluids
• Non-cutting Hand-tools
• Engine Lathe Accessories Work Holding Devices
• Fractions
• Engine Lathe Selecting Speeds Feeds
• Cutting Tools
• Engine Lathe Facing, Turning Boring
• Decimals

14
National Tooling and Machining
AssociationApprenticeship Training
ProgramLevel II - 144 hours OCTC COLLEGE
CREDIT FOR MTT-120 Applied Machining I

• Introduction
• Dimensioning
• Terminology Used in Sawing
• Reading Dimension
• Power Hacksaws Bandsaws
• Metric Measurement
• Sawing Practices, Speeds Feeds
• Reading Metric Drawings
• Saw Blade Preparation and Circular Saws
• Reading Two-Dimension Drawings
• Lathe Safety Sizing
• Machine Drawings
• Lathe-Types of Operation Work Holding Devices
• Casting Drawings and Assembly Drawings
• Lathe-Speeds and Feeds
• Sheet Metal Part Prints
• Lathe Tool Materials and Grinding
• Reading Gage Drawing
• Lathe Alignment Use of Centers and Center
  Holes

• Lathe-Facing
• Reading Jig Fixture Prints
• Lathe Parallel Turning Knurling
• Reading Prints of Machining Fixtures
• Lathe Chasing External Threads
• Reading Prints of Machined Casting
• Lathe Boring
• Miscellaneous Drawings
• Lathe Chasing Internal Threads
• Miscellaneous Prints
• Lathe-Taper Turning
• Die Prints Part Prints
• Lathe Drilling Reaming
• Template Gages
• Countersinking and Counterboring
• Layout Practice
• Lathe-Grooving Parting
• Square Root
• Lathe-Filing Polishing

15
National Tooling and Machining
AssociationApprenticeship Training
ProgramLevel III - 144 hours OCTC COLLEGE
CREDIT FOR MTT-210 Industrial Machining I

• Introduction
• Trigonometry Review-Part 1
• Trigonometry Review-Part 2
• Horizontal Milling Indicating Work holding
  Device
• Since Bar Calculations-Part 1
• Introduction to Geometric Tolerancing-Part 1
• Sine Bar Calculations-Part 2
• Horizontal Milling Plain or Slab Milling and
  Face Milling
• Sine Bar Calculations- Part 3
• Introduction to Geometric Tolerancing-Part 2
• Helix Angles
• Horizontal Milling End and Side Milling
• Triangles-Part I
• Geometric Characteristics and their Symbols-Part
  1
• Triangles-Part 2
• Horizontal Milling Straddle and Gang Milling
  and Slitting
• Indexing Calculations-Part 1
• Geometric Characteristics and their Symbols-Part
  2
• Indexing Calculation-Part 2

• Indexing Calculations-Part 3
• Datums, Datum Targets and Conditions
  Modifiers-Part 1
• Datums, Datum Targets and Conditions
  Modifiers-Part 2
• Horizontal Milling Gear Cutting
• Form Tolerances for Single Features- Part 1
• Vertical Milling Indicating Workholding Devices
• Form Tolerances for Single Features-Part 2
• CAD/CAM CAD-Coordinate Systems
• Orientation Tolerances-Part 1
• Vertical Milling Plain, Face, Side Milling and
  Slitting
• Orientation Tolerances-Part 2
• CAD/CAM CAD-Coordinate Systems
• Profiles of Lines Surfaces Runout-Part 2
• Vertical Milling End Milling-Part 1
• Profiles of Lines Surfaces Runout-Part 2
• CAD/Cam Accuracy, Repeatability and Resolution
• Location Tolerancing-Part 1
• Vertical Milling End Milling-Part 2
• Location Tolerancing-Part 2

16
APPRENTICESHIP TECHNOLOGY INDUSTRIAL ELECTRICIAN
DRAFT

• Required Specialty Core
• 17 Credits
• Computer Fundamentals 3
• Electrical Construction (Industrial) 2
• Electrical Construction
• Lab (Industrial) 1
• National Electric Code 3
• Electrical Motor Controls II 2
• Electrical Motor Controls II Lab 1
• Programmable Logic Controllers 2
• Programmable Logic Controllers Lab 1
• Fluid Power 2

• Required Technical core
• 18 Credits
• Direct Current Circuits 2
• Direct Current Circuits Lab 1
• Alternating Current Circuits 2
• Alternating Current Circuits
• Lab 1
• Electronics I 2
• Electronics I 1
• Digital Circuits 2
• Digital Circuits Lab 1
• Rotating Machinery Transformers 2
• Rotating Machinery Transformers
• Lab 1
• Electrical Motor Controls I 2
• Electrical Motor Controls I Lab 1

17
APPRENTICESHIP TECHNOLOGY INDUSTRIAL ELECTRICIAN
DRAFT

• Required Work Experience 16 Credits
• On the Job Training I 4
• On the Job Training II 4
• On the Job Training III 4
• On the Job Training IV 4
• General Education 6 Credits
• 150 MTH Technical Algebra I 3
• 170 MTH Circuit Mathematics 3

18
APPRENTICESHIP TECHNOLOGYINDUSTRIAL ELECTRICIAN
4 Year Academic Schedule
DRAFT

• LEVEL 1
• 150 MTH Technical Algebra I
  45 Hrs
• 150 CPU Computer Fundamentals 45 Hrs
• 170 MTH Circuit Mathematics 45 Hrs
• Direct Current Circuits 30 Hrs
• Direct Current Circuits
• Lab 30 Hrs
• Alternating Current Circuits 30 Hrs
• Alternating Current Circuits
• Lab 30 Hrs
• On the Job Training I 2000Hrs

• LEVEL 2
• Electrical Construction (Industrial) 30_ Hrs
• Electrical Construction Lab
• (Industrial) 30_ Hrs
• Rotating Machinery Transformers 30_ Hrs
• Rotating Machinery Transformers
• Lab 30_ Hrs
• Electrical Motor Controls I 30_ Hrs
• Electrical Motor Controls I
• Lab 30_ Hrs
• National Electric Code 45_ Hrs
• On the Job Training II 2000 Hrs

19
APPRENTICESHIP TECHNOLOGYINDUSTRIAL ELECTRICIAN
4 Year Academic Schedule
DRAFT

• LEVEL 3
• Electrical Motor Controls II 30 Hrs
• Electrical Motor Controls II Lab
• 30 Hrs
• Electronics I 30 Hrs
• Electronics I Lab 30 Hrs
• Digital Circuits 30 Hrs
• Digital Circuits Lab 30 Hrs
• On the Job Training III 2000 Hrs

• LEVEL 4
• Programmable Logic Controllers 30 Hrs
• Programmable Logic Controllers Lab 30
  Hrs
• Fluid Power 30 Hrs
• Fluid Power Lab 30 Hrs
• On the Job Training IV
• 2000 Hrs