1. Incorporating Colt Engineering Handprints Leave a Handprint that You Are Proud Of!

2. Incorporating Colt Engineering Agenda  Why Hand Protection  Typical Hand Injuries  Project Hazard Assessment  Task Hazard Assessment  PPE – Hand Protection  Remember

3. Incorporating Colt Engineering Why Hand Protection is Important  You might remember coming home from school with a handprint.  You might remember when your child came home from school with a handprint.  You might remember when your grandchild came home from school with a handprint.  Why do we make handprints? Each handprint is unique. We make handprints to see how we grow and mature.

4. Incorporating Colt Engineering Why Hand Protection is Important  If you were to take a print of your hand today, how would it compare to the handprint you did in school? Would it be larger? Would it have more pronounced lines? Does it have scars? Is it missing a finger?  Why? Your hands are one of your greatest assets. And, as such, must be protected and cared for.

5. Incorporating Colt Engineering Why Focus on Hands?  We use our hands to assess: Strength Texture Solidity Shape  Your hands are the first point of contact, for any task you are doing.  As a result most injuries occur when your hands are improperly positioned, not protected, or when your hands are improperly protected.

6. Incorporating Colt Engineering Sharpening knife – 1995 Hammering nail – 1997 Filleting fish – 2002 Table saw – 2005 Various splinters – 1995 - 2009 Pinch Point (Scaffolding) – 2007 Frozen Hand – 2001 Wrench slips – 2001 Hand Injuries

7. Incorporating Colt Engineering Repetitive Motion Injuries  Whenever you repeat the same hand movement over a long period of time, you run the risk of repetitive motion problems  Repetitive motion problems often appear as a numbness or tingling sensation accompanied by pain and the loss of gripping power in your hands.  If you start having these symptoms, take a break. Also, simple hand exercises such as flexing the wrist and stretching the fingers will help.  If the problem persists, talk with your Supervisor.

8. Incorporating Colt Engineering Prevention – Hazard Assessments

9. Incorporating Colt Engineering Prevention – Hierarchy of Controls  In all hazard identification and risk assessments we utilize the hierarchy of controls to address these hazards. Elimination of the hazard Substitution: replacing the hazard with one which presents a lower risk. Engineering Controls: involves a barrier to interrupt the path between the worker and the hazard. Administrative / Procedural Controls: reduce or eliminate exposure by adherence to procedures or instructions. Personal Protective Equipment (PPE): is least effective as a control measure, as it does not eliminate the hazard.

10. Incorporating Colt Engineering Project Hazard Assessment  The project should: Assess the hazards, and key in on the tasks that have hand injury risks. Determine specific controls to deal with specific hazards: — Engineering Controls and the use of mechanical devices. — Administrative Controls and specific procedures for tasks including ergonomic requirements. — Coordinate with the contractors on site to establish a project standard regarding hand protection requirements. Issue Hazard Alerts when hand injury incidents occur. Trend hand injury incidents.

11. Incorporating Colt Engineering Contributing Factors in Hand Injury Incidents  Hand and powered tools Engineering Controls – e.g. guards in place Administrative Controls – specific procedures and training PPE  Vibration Engineering Controls – e.g. alternative equipment Administrative Controls - specific procedures and training PPE  Crushing/Pinch Points Engineering Controls – e.g. mechanical lifting devices Administrative Controls - specific procedures and training PPE

12. Incorporating Colt Engineering Contributing Factors in Hand Injury Incidents  Dropped objects Engineering Controls – e.g. falling object protection Administrative Controls - specific procedures and training PPE  Struck by moving parts Engineering Controls - e.g. guards Administrative Controls - specific procedures and training PPE  Contact with substances Engineering Controls – e.g. closed transfer systems Administrative Controls - specific procedures and training PPE

13. Incorporating Colt Engineering Contributing Factors in Hand Injury Incidents  Slips, trips & falls Engineering Controls – e.g. install no slip surfaces Administrative Controls - specific procedures and training PPE  Temperature extremes Engineering Controls – e.g. enclosures, HVAC systems Administrative Controls - specific procedures and training PPE  Electricity Engineering Controls – e.g. isolation systems Administrative Controls - specific procedures and training PPE

14. Incorporating Colt Engineering Contributing Factors in Hand Injury Incidents  Entanglement Engineering Controls – e.g. guards, isolation systems Administrative Controls - specific procedures and training PPE  Sharp objects Engineering Controls – e.g. designed barriers alternative equipment Administrative Controls - specific procedures and training PPE

15. Incorporating Colt Engineering Task Hazard Assessment  Prior to starting a task the project Task Hazard Assessment Process (FLHA, FLRA, PRA, THA) must be conducted.  Within the Task Hazard Assessment potential hand injury must be considered with the corresponding control requirements.

16. Incorporating Colt Engineering Task Hazard Assessment 1 Identify the Hazards x x x x x x x x x x x x x x x x x x x

17. Incorporating Colt Engineering Last Option PPE  Select and use the right kind of glove for the task.  Select gloves that fit.  Assess the risk any rings, watches, or bracelets that might snag the hand/fingers.  Wash your hands before and after wearing your gloves.  Inspect your gloves before you use them. Look for tears, holes or cracks that might leak.  Replace gloves that are worn or torn.  Look after your gloves and they will look after you

18. Incorporating Colt Engineering Last Option PPE  Some gloves may be chemical specified and have a life expectancy. Discard them after the recommended time has expired.  After working with chemicals, hold your gloved hands under running water to rinse away any chemicals or dirt before removing the gloves.  Wash cotton gloves as needed.  Avoid borrowing gloves. Gloves are Personal Protective Equipment. (PPE)  Store gloves right side out in a clean, cool, dry, ventilated area.  Never wear gloves around powered rotating equipment - drills, lathes, etc.

19. Incorporating Colt Engineering PPE - Hand Protection  Metal mesh and Kevlar gloves resist sharp edges and prevent cuts.  Leather gloves shield your hands from rough surfaces.  Vinyl and neoprene gloves protect your hands against toxic chemicals.

20. Incorporating Colt Engineering PPE - Hand Protection  Padded cloth gloves protect your hands from sharp edges, slivers, dirt, and vibration.  Heat resistant gloves protect your hands from heat and flames.  Latex disposable gloves are used to protect your hands from germs, bacteria and dermatitis.  Rubber gloves protect you when working around electricity.

21. Incorporating Colt Engineering Remember  Take time out, and take a fresh look at your procedures.  Think about how you can injure your hands. Think “what if” and be aware of the hazards and the risk of injury.  Consider the human factors including physical capabilities, competency and training  Take stock of the task, environment, weather and plan your task to suit  Ensure equipment and tools are fit for purpose.  Use the correct Hand Protection, and remember PPE is a last resort, it only protects when all else has failed.

22. Incorporating Colt Engineering Remember  Take time to discuss what the potential Hazards to hand’s are and any measures to reduce the Risk.  Take Hand Safety home with you.  What will your handprint look like at the end of the project? LEAVE A HANDPRINT THAT YOU ARE PROUD OF!