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Mechanical & machinery hazards & their control

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Salman Ahmed

A hazard is any agent that can cause harm or damage to humans, property, or the environment. Mechanical hazards are those associated with power-driven machines, whether automated or manually operated. In an industry, people interact with machines that are designed to drill, cut, shear, punch, etc. If appropriate safeguards are not in place or if workers fail to follow safety precautions, these machines can apply the same procedures to humans. Which can cause major human injuries.

Engineering
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 SALMAN AHMED BSTM-023R14-50  USMAN ARSHAD BSTM-023R14-23  WAQAR HAMEED BSTM-023R14-33  HAFIZ ALI RAZA BSTM-023R14-32  MUBASHIR ANEES BSTM-023R14-08
MECHANICAL & MACHINERY HAZARDS & THEIR CONTROL
INTRODUCTION  A HAZARD IS ANY AGENT THAT CAN CAUSE HARM OR DAMAGE TO HUMANS, PROPERTY, OR THE ENVIRONMENT  MECHANICAL HAZARDS ARE THOSE ASSOCIATED WITH POWER-DRIVEN MACHINES, WHETHER AUTOMATED OR MANUALLY OPERATED.  IN AN INDUSTRY, PEOPLE INTERACT WITH MACHINES THAT ARE DESIGNED TO DRILL, CUT, SHEAR, PUNCH, ETC. IF APPROPRIATE SAFEGUARDS ARE NOT IN PLACE OR IF WORKERS FAIL TO FOLLOW SAFETY PRECAUTIONS, THESE MACHINES CAN APPLY THE SAME PROCEDURES TO HUMANS. WHICH CAN CAUSE MAJOR HUMAN INJURIES.  ALSO MACHINES CAN CAUSE DAMAGE TO THE PROPERTY AND MACHINES CAN ALSO HARM THE ENVIRONMENT.
HAZARDS • A HAZARD IS ANY BIOLOGICAL, CHEMICAL, MECHANICAL, ENVIRONMENTAL OR PHYSICAL AGENT THAT IS REASONABLY LIKELY TO CAUSE HARM OR DAMAGE TO HUMANS, OTHER ORGANISMS, OR THE ENVIRONMENT IN THE ABSENCE OF ITS CONTROL. • MOST HAZARDS ARE DORMANT OR POTENTIAL, WITH ONLY A THEORETICAL RISK OF HARM; HOWEVER, ONCE A HAZARD BECOMES "ACTIVE", IT CAN CREATE AN EMERGENCY. A HAZARDOUS SITUATION THAT HAS COME TO PASS IS CALLED AN INCIDENT. HAZARD AND POSSIBILITY INTERACT TOGETHER TO CREATE RISK. • THE TYPES OF INJURIES RESULTS ARE: CUTTING , TEARING , SHEARING , CRUSHING , BREAKING, STRAINING OR PUNCTURING
MECHANICAL HAZARDS • MACHINES HAVE MOVING PARTS. THE ACTION OF MOVING PARTS MAY HAVE SUFFICIENT FORCE IN MOTION TO CAUSE INJURY TO PEOPLE. • WHEN REVIEWING MACHINERY AND EQUIPMENT FOR POSSIBLE MECHANICAL HAZARDS, CONSIDER:  MACHINERY AND EQUIPMENT WITH MOVING PARTS THAT CAN BE REACHED BY PEOPLE.  MACHINERY AND EQUIPMENT THAT CAN EJECT OBJECTS (PARTS, COMPONENTS, PRODUCTS OR WASTE ITEMS) THAT MAY STRIKE A PERSON WITH SUFFICIENT FORCE TO CAUSE HARM.  MACHINERY AND EQUIPMENT WITH MOVING PARTS THAT CAN REACH PEOPLE SUCH AS BOOMS OR MECHANICAL APPENDAGES (ARMS).  MOBILE MACHINERY AND EQUIPMENT, SUCH AS FORKLIFTS, PALLET JACKS, EARTH MOVING EQUIPMENT, OPERATED IN AREAS WHERE PEOPLE MAY GAIN ACCESS.
COMMON MECHANICAL HAZARDS AND ASSOCIATED RISKS FOR MACHINERY AND EQUIPMENT ARE SHOWN BELOW.
NON-MECHANICAL HAZARDS • NON-MECHANICAL HAZARDS ASSOCIATED WITH MACHINERY AND EQUIPMENT CAN INCLUDE HARMFUL EMISSIONS, CONTAINED FLUIDS OR GAS UNDER PRESSURE, CHEMICALS AND CHEMICAL BY-PRODUCTS, ELECTRICITY AND NOISE, ALL OF WHICH CAN CAUSE SERIOUS INJURY IF NOT ADEQUATELY CONTROLLED. IN SOME CASES, PEOPLE EXPOSED TO THESE HAZARDS MAY NOT SHOW SIGNS OF INJURY OR ILLNESS FOR YEARS. WHERE PEOPLE ARE AT RISK OF INJURY DUE TO HARMFUL EMISSIONS FROM MACHINERY AND EQUIPMENT, THE EMISSIONS SHOULD BE CONTROLLED AT THEIR SOURCE. • WHEN REVIEWING MACHINERY AND EQUIPMENT FOR POSSIBLE NON-MECHANICAL HAZARDS, CONSIDER HOW MACHINES AND EQUIPMENT CAN AFFECT THE AREA (ENVIRONMENT) AROUND THEM.
COMMON NON-MECHANICAL HAZARDS ARE SHOWN BELOW:
RISK CONTROL OF MACHINERY AND EQUIPMENT HAZARDS • WHERE EXPOSURE TO MACHINERY AND EQUIPMENT HAZARDS CANNOT BE ELIMINATED FOR MACHINERY AND EQUIPMENT OF IMPROVED DESIGN, RISK CONTROLS MUST BE APPLIED TO THE HAZARDS THAT PREVENTS OR REDUCES THE RISK CHANCE OF INJURY OR HARM. HEALTH AND SAFETY LAWS REQUIRE THE HIGHEST ORDER CONTROL BE APPLIED SO FAR AS IS REASONABLY PRACTICABLE. • HIGHER ORDER MACHINERY AND EQUIPMENT RISK CONTROLS ARE PREVENTATIVE BY NATURE, ARE EFFECTIVE AND DURABLE FOR THE ENVIRONMENT IT IS USED IN, AND DEAL DIRECTLY WITH THE HAZARD AT ITS SOURCE.
• LOWER ORDER MACHINERY AND EQUIPMENT RISK CONTROLS, SUCH AS PERSONAL PROTECTIVE EQUIPMENT (PPE), CAN PREVENT INJURIES, BUT ARE GENERALLY NOT AS EFFECTIVE AS HIGHER ORDER CONTROLS, AS THEY RELY MORE ON EMPLOYEE BEHAVIOR, MAINTENANCE PROGRAMS SUPERVISION. • ADMINISTRATIVE CONTROLS USE SYSTEMS OF WORK TO REDUCE RISK BY PROVIDING A FRAMEWORK OF EXPECTED BEHAVIORS. EXAMPLES ARE ROTATION OF STAFF TO REDUCE TO A HAZARD, OR A DOCUMENTED SAFE SYSTEM OF WORK, SUCH AS ‘LOCK OUT-TAG OUT’. TYPES OF CONTROLS RELY ON EXTENSIVE INSTRUCTION, INFORMATION, TRAINING AND SUPERVISION. IN TERMS OF TIME AND ONGOING ADMINISTRATION BY MANAGERS AND EMPLOYERS TO ENSURE THE DESIRED BEHAVIOR OCCURS, ADMINISTRATIVE CONTROLS CAN BE MOST EXPENSIVE AND LEAST EFFECTIVE FORM OF HAZARD CONTROL.
RISK CONTROL OF MECHANICAL HAZARDS  SEPARATION IS A SIMPLE AND EFFECTIVE MACHINERY AND EQUIPMENT RISK CONTROL.  SEPARATION MAY BE ACHIEVED BY DISTANCE, BARRIER OR TIME.  DISTANCE SEPARATION MEANS A PERSON CANNOT REACH THE HAZARD DUE TO DISTANCE.  BARRIER SEPARATION MEANS AN EFFECTIVE BARRIER OR GUARD DENIES ACCESS AND CONTROLS EJECTION OF PARTS, PRODUCTS OR WASTE.  TIME SEPARATION MEANS AT THE TIME OF ACCESS, THE MACHINERY OR EQUIPMENT IS DISABLED.
EXAMPLES INCLUDE: • PHYSICAL BARRIERS AND GUARDS SUCH AS FENCES, SCREENS OR FIXED PANELS OF VARIOUS MATERIALS. • MAKING THE HAZARD INACCESSIBLE BY REACH WHERE THE DISTANCE BETWEEN A PERSON AND THE HAZARD FORMS AN EFFECTIVE BARRIER.
GUARDING • A GUARD CAN PERFORM SEVERAL FUNCTIONS: IT CAN DENY BODILY ACCESS, CONTAIN EJECTED PARTS, TOOLS, OFF-CUTS OR SWATH, PREVENT EMISSIONS ESCAPING OR FORM PART OF A SAFE WORKING PLATFORM. GUARDING IS COMMONLY USED WITH MACHINERY AND EQUIPMENT TO PREVENT ACCESS TO:  ROTATING END DRUMS OF BELT CONVEYORS  MOVING AUGERS OF AUGER CONVEYORS  ROTATING SHAFTS  MOVING PARTS THAT DO NOT REQUIRE REGULAR ADJUSTMENT  MACHINE TRANSMISSIONS, SUCH AS PULLEY AND BELT DRIVES, CHAIN DRIVES, EXPOSED DRIVE GEARS  ANY DANGEROUS MOVING PARTS, MACHINES OR EQUIPMENT.
• ADJUSTABLE GUARDING INCORPORATES MOVABLE SECTIONS OR PANELS OF THE GUARD AND ALLOWS FOR MATERIAL OR PARTS TO BE FED INTO THE GUARDED AREA WHILE STILL BODILY CONTACT. • TUNNEL GUARDS PROVIDE A TUNNEL, APERTURE OR CHUTE IN WHICH MATERIAL CAN BE INSERTED INTO THE MACHINERY AND EQUIPMENT, BUT DUE TO THE RESTRICTIVE DESIGN AND DEPTH OF THE OPENING, FINGERS, HANDS, ARMS OR THE ENTIRE PERSON IS PREVENTED FROM INTRUDING INTO THE DANGER AREA. • INTERLOCK GUARDING OCCURS WHEN THE ACT OF MOVING THE GUARD OPENING, SLIDING OR REMOVING TO ALLOW ACCESS STOPS THE ACTION OF THE HAZARDOUS MECHANISM. INTERLOCK GUARDING WORKS BY:  MECHANICALLY DISCONNECTING THE DRIVE MECHANISM (APPLIES A BRAKE OR DISENGAGES A CLUTCH OR GEARED MECHANISM)  ISOLATING THE POWER SOURCE OF THE DRIVE MECHANISM (STOPS THE MOTOR)  A COMBINATION OF MECHANICAL AND POWER DISCONNECTION.
HIGH INTEGRITY/FAIL-SAFE CONTROL • ALL SAFETY CONTROL SYSTEMS SHOULD BE DESIGNED AND BUILT TO PREVENT FAILURE OR, IN THE EVENT OF FAILURE, DE-ACTIVATE THE OPERATION OF THE MACHINERY AND EQUIPMENT. MANY DIFFERENT TYPES OF MACHINERY AND EQUIPMENT USE HIGH INTEGRITY SAFETY SYSTEMS THAT DISABLE A MECHANISM AT THE TIME OF ACCESS. SOME EXAMPLES INCLUDE:  BRAKE PRESS  POWER PRESS  ROBOTIC MACHINE (AUTOMATED MACHINES)  INJECTION MOULDERS  POWERED GUILLOTINES  PROGRAMMABLE LATHE AND MILLING EQUIPMENT  INDUSTRIAL MIXERS  MINCING EQUIPMENT  PLASMA CUTTING TABLES  LASER CUTTING TABLES
WORKING AT HEIGHT • PROVIDING PEOPLE WITH A SUITABLE WORK PLATFORM FOR THE TASK BEING UNDERTAKEN REDUCES THE RISK OF INJURY FROM FALLING FROM MACHINERY AND EQUIPMENT. • SAFE ACCESS AT HEIGHT CAN BE BROKEN INTO THREE CATEGORIES. EACH CATEGORY HAS IN COMMON THE NEED TO PROVIDE A STABLE, SAFE PLATFORM SUITABLE FOR THE WORK TO BE UNDERTAKEN, AND TO BE EQUIPPED TO SUPPORT AND RETAIN A PERSON WITHIN THE CONFINES OF THE PLATFORM. 1. FIXED OR PERMANENTLY INSTALLED ACCESS PLATFORMS:  GANTRIES  MEZZANINE FLOORS  FIXED PLATFORMS  STAIRWAYS.
2. MOBILE ELEVATED WORK PLATFORMS (EWPS):  SCISSOR LIFTS  KNUCKLE BOOMS. 3. TEMPORARY PLATFORMS:  SCAFFOLDING  LADDERS.
GENERAL PRECAUTIONS • ALL THE OPERATOR SHOULD BE TRAINED IN THE SAFE OPERATION AND MAINTENANCE OF THEIR MACHINE. • ALL MACHINE OPERATORS SHOULD BE TRAINED IN THE EMERGENCY PROCEDURES TO TAKE WHEN ACCIDENT OCCUR. • ALL EMPLOYEE SHOULD KNOW HOW TO ACTIVATE EMERGENCY SHUT DOWN CONTROLS. • INSPECTION, MAINTENANCE, ADJUSTMENT, REPAIR AND CALIBRATION OF SAFE GUARDS SHOULD BE CARRIED OUT REGULARLY.
• SUPERVISORS SHOULD ENSURE THE SAFE GUARDS AND PROPERLY IN PLACE WHEN MACHINE ARE IN USE. • SHORT-CUTS THAT VIOLATE SAFETY PRINCIPLE AND PRACTICE SHOULD BE AVOIDED.
Mechanical & machinery hazards & their control

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Mechanical & machinery hazards & their control

  • 1.
  • 2.  SALMAN AHMED BSTM-023R14-50  USMAN ARSHAD BSTM-023R14-23  WAQAR HAMEED BSTM-023R14-33  HAFIZ ALI RAZA BSTM-023R14-32  MUBASHIR ANEES BSTM-023R14-08
  • 3. MECHANICAL & MACHINERY HAZARDS & THEIR CONTROL
  • 4. INTRODUCTION  A HAZARD IS ANY AGENT THAT CAN CAUSE HARM OR DAMAGE TO HUMANS, PROPERTY, OR THE ENVIRONMENT  MECHANICAL HAZARDS ARE THOSE ASSOCIATED WITH POWER-DRIVEN MACHINES, WHETHER AUTOMATED OR MANUALLY OPERATED.  IN AN INDUSTRY, PEOPLE INTERACT WITH MACHINES THAT ARE DESIGNED TO DRILL, CUT, SHEAR, PUNCH, ETC. IF APPROPRIATE SAFEGUARDS ARE NOT IN PLACE OR IF WORKERS FAIL TO FOLLOW SAFETY PRECAUTIONS, THESE MACHINES CAN APPLY THE SAME PROCEDURES TO HUMANS. WHICH CAN CAUSE MAJOR HUMAN INJURIES.  ALSO MACHINES CAN CAUSE DAMAGE TO THE PROPERTY AND MACHINES CAN ALSO HARM THE ENVIRONMENT.
  • 5. HAZARDS • A HAZARD IS ANY BIOLOGICAL, CHEMICAL, MECHANICAL, ENVIRONMENTAL OR PHYSICAL AGENT THAT IS REASONABLY LIKELY TO CAUSE HARM OR DAMAGE TO HUMANS, OTHER ORGANISMS, OR THE ENVIRONMENT IN THE ABSENCE OF ITS CONTROL. • MOST HAZARDS ARE DORMANT OR POTENTIAL, WITH ONLY A THEORETICAL RISK OF HARM; HOWEVER, ONCE A HAZARD BECOMES "ACTIVE", IT CAN CREATE AN EMERGENCY. A HAZARDOUS SITUATION THAT HAS COME TO PASS IS CALLED AN INCIDENT. HAZARD AND POSSIBILITY INTERACT TOGETHER TO CREATE RISK. • THE TYPES OF INJURIES RESULTS ARE: CUTTING , TEARING , SHEARING , CRUSHING , BREAKING, STRAINING OR PUNCTURING
  • 6. MECHANICAL HAZARDS • MACHINES HAVE MOVING PARTS. THE ACTION OF MOVING PARTS MAY HAVE SUFFICIENT FORCE IN MOTION TO CAUSE INJURY TO PEOPLE. • WHEN REVIEWING MACHINERY AND EQUIPMENT FOR POSSIBLE MECHANICAL HAZARDS, CONSIDER:  MACHINERY AND EQUIPMENT WITH MOVING PARTS THAT CAN BE REACHED BY PEOPLE.  MACHINERY AND EQUIPMENT THAT CAN EJECT OBJECTS (PARTS, COMPONENTS, PRODUCTS OR WASTE ITEMS) THAT MAY STRIKE A PERSON WITH SUFFICIENT FORCE TO CAUSE HARM.  MACHINERY AND EQUIPMENT WITH MOVING PARTS THAT CAN REACH PEOPLE SUCH AS BOOMS OR MECHANICAL APPENDAGES (ARMS).  MOBILE MACHINERY AND EQUIPMENT, SUCH AS FORKLIFTS, PALLET JACKS, EARTH MOVING EQUIPMENT, OPERATED IN AREAS WHERE PEOPLE MAY GAIN ACCESS.
  • 7. COMMON MECHANICAL HAZARDS AND ASSOCIATED RISKS FOR MACHINERY AND EQUIPMENT ARE SHOWN BELOW.
  • 8. NON-MECHANICAL HAZARDS • NON-MECHANICAL HAZARDS ASSOCIATED WITH MACHINERY AND EQUIPMENT CAN INCLUDE HARMFUL EMISSIONS, CONTAINED FLUIDS OR GAS UNDER PRESSURE, CHEMICALS AND CHEMICAL BY-PRODUCTS, ELECTRICITY AND NOISE, ALL OF WHICH CAN CAUSE SERIOUS INJURY IF NOT ADEQUATELY CONTROLLED. IN SOME CASES, PEOPLE EXPOSED TO THESE HAZARDS MAY NOT SHOW SIGNS OF INJURY OR ILLNESS FOR YEARS. WHERE PEOPLE ARE AT RISK OF INJURY DUE TO HARMFUL EMISSIONS FROM MACHINERY AND EQUIPMENT, THE EMISSIONS SHOULD BE CONTROLLED AT THEIR SOURCE. • WHEN REVIEWING MACHINERY AND EQUIPMENT FOR POSSIBLE NON-MECHANICAL HAZARDS, CONSIDER HOW MACHINES AND EQUIPMENT CAN AFFECT THE AREA (ENVIRONMENT) AROUND THEM.
  • 9. COMMON NON-MECHANICAL HAZARDS ARE SHOWN BELOW:
  • 10. RISK CONTROL OF MACHINERY AND EQUIPMENT HAZARDS • WHERE EXPOSURE TO MACHINERY AND EQUIPMENT HAZARDS CANNOT BE ELIMINATED FOR MACHINERY AND EQUIPMENT OF IMPROVED DESIGN, RISK CONTROLS MUST BE APPLIED TO THE HAZARDS THAT PREVENTS OR REDUCES THE RISK CHANCE OF INJURY OR HARM. HEALTH AND SAFETY LAWS REQUIRE THE HIGHEST ORDER CONTROL BE APPLIED SO FAR AS IS REASONABLY PRACTICABLE. • HIGHER ORDER MACHINERY AND EQUIPMENT RISK CONTROLS ARE PREVENTATIVE BY NATURE, ARE EFFECTIVE AND DURABLE FOR THE ENVIRONMENT IT IS USED IN, AND DEAL DIRECTLY WITH THE HAZARD AT ITS SOURCE.
  • 11. • LOWER ORDER MACHINERY AND EQUIPMENT RISK CONTROLS, SUCH AS PERSONAL PROTECTIVE EQUIPMENT (PPE), CAN PREVENT INJURIES, BUT ARE GENERALLY NOT AS EFFECTIVE AS HIGHER ORDER CONTROLS, AS THEY RELY MORE ON EMPLOYEE BEHAVIOR, MAINTENANCE PROGRAMS SUPERVISION. • ADMINISTRATIVE CONTROLS USE SYSTEMS OF WORK TO REDUCE RISK BY PROVIDING A FRAMEWORK OF EXPECTED BEHAVIORS. EXAMPLES ARE ROTATION OF STAFF TO REDUCE TO A HAZARD, OR A DOCUMENTED SAFE SYSTEM OF WORK, SUCH AS ‘LOCK OUT-TAG OUT’. TYPES OF CONTROLS RELY ON EXTENSIVE INSTRUCTION, INFORMATION, TRAINING AND SUPERVISION. IN TERMS OF TIME AND ONGOING ADMINISTRATION BY MANAGERS AND EMPLOYERS TO ENSURE THE DESIRED BEHAVIOR OCCURS, ADMINISTRATIVE CONTROLS CAN BE MOST EXPENSIVE AND LEAST EFFECTIVE FORM OF HAZARD CONTROL.
  • 12. RISK CONTROL OF MECHANICAL HAZARDS  SEPARATION IS A SIMPLE AND EFFECTIVE MACHINERY AND EQUIPMENT RISK CONTROL.  SEPARATION MAY BE ACHIEVED BY DISTANCE, BARRIER OR TIME.  DISTANCE SEPARATION MEANS A PERSON CANNOT REACH THE HAZARD DUE TO DISTANCE.  BARRIER SEPARATION MEANS AN EFFECTIVE BARRIER OR GUARD DENIES ACCESS AND CONTROLS EJECTION OF PARTS, PRODUCTS OR WASTE.  TIME SEPARATION MEANS AT THE TIME OF ACCESS, THE MACHINERY OR EQUIPMENT IS DISABLED.
  • 13. EXAMPLES INCLUDE: • PHYSICAL BARRIERS AND GUARDS SUCH AS FENCES, SCREENS OR FIXED PANELS OF VARIOUS MATERIALS. • MAKING THE HAZARD INACCESSIBLE BY REACH WHERE THE DISTANCE BETWEEN A PERSON AND THE HAZARD FORMS AN EFFECTIVE BARRIER.
  • 14. GUARDING • A GUARD CAN PERFORM SEVERAL FUNCTIONS: IT CAN DENY BODILY ACCESS, CONTAIN EJECTED PARTS, TOOLS, OFF-CUTS OR SWATH, PREVENT EMISSIONS ESCAPING OR FORM PART OF A SAFE WORKING PLATFORM. GUARDING IS COMMONLY USED WITH MACHINERY AND EQUIPMENT TO PREVENT ACCESS TO:  ROTATING END DRUMS OF BELT CONVEYORS  MOVING AUGERS OF AUGER CONVEYORS  ROTATING SHAFTS  MOVING PARTS THAT DO NOT REQUIRE REGULAR ADJUSTMENT  MACHINE TRANSMISSIONS, SUCH AS PULLEY AND BELT DRIVES, CHAIN DRIVES, EXPOSED DRIVE GEARS  ANY DANGEROUS MOVING PARTS, MACHINES OR EQUIPMENT.
  • 15. • ADJUSTABLE GUARDING INCORPORATES MOVABLE SECTIONS OR PANELS OF THE GUARD AND ALLOWS FOR MATERIAL OR PARTS TO BE FED INTO THE GUARDED AREA WHILE STILL BODILY CONTACT. • TUNNEL GUARDS PROVIDE A TUNNEL, APERTURE OR CHUTE IN WHICH MATERIAL CAN BE INSERTED INTO THE MACHINERY AND EQUIPMENT, BUT DUE TO THE RESTRICTIVE DESIGN AND DEPTH OF THE OPENING, FINGERS, HANDS, ARMS OR THE ENTIRE PERSON IS PREVENTED FROM INTRUDING INTO THE DANGER AREA. • INTERLOCK GUARDING OCCURS WHEN THE ACT OF MOVING THE GUARD OPENING, SLIDING OR REMOVING TO ALLOW ACCESS STOPS THE ACTION OF THE HAZARDOUS MECHANISM. INTERLOCK GUARDING WORKS BY:  MECHANICALLY DISCONNECTING THE DRIVE MECHANISM (APPLIES A BRAKE OR DISENGAGES A CLUTCH OR GEARED MECHANISM)  ISOLATING THE POWER SOURCE OF THE DRIVE MECHANISM (STOPS THE MOTOR)  A COMBINATION OF MECHANICAL AND POWER DISCONNECTION.
  • 16. HIGH INTEGRITY/FAIL-SAFE CONTROL • ALL SAFETY CONTROL SYSTEMS SHOULD BE DESIGNED AND BUILT TO PREVENT FAILURE OR, IN THE EVENT OF FAILURE, DE-ACTIVATE THE OPERATION OF THE MACHINERY AND EQUIPMENT. MANY DIFFERENT TYPES OF MACHINERY AND EQUIPMENT USE HIGH INTEGRITY SAFETY SYSTEMS THAT DISABLE A MECHANISM AT THE TIME OF ACCESS. SOME EXAMPLES INCLUDE:  BRAKE PRESS  POWER PRESS  ROBOTIC MACHINE (AUTOMATED MACHINES)  INJECTION MOULDERS  POWERED GUILLOTINES  PROGRAMMABLE LATHE AND MILLING EQUIPMENT  INDUSTRIAL MIXERS  MINCING EQUIPMENT  PLASMA CUTTING TABLES  LASER CUTTING TABLES
  • 17. WORKING AT HEIGHT • PROVIDING PEOPLE WITH A SUITABLE WORK PLATFORM FOR THE TASK BEING UNDERTAKEN REDUCES THE RISK OF INJURY FROM FALLING FROM MACHINERY AND EQUIPMENT. • SAFE ACCESS AT HEIGHT CAN BE BROKEN INTO THREE CATEGORIES. EACH CATEGORY HAS IN COMMON THE NEED TO PROVIDE A STABLE, SAFE PLATFORM SUITABLE FOR THE WORK TO BE UNDERTAKEN, AND TO BE EQUIPPED TO SUPPORT AND RETAIN A PERSON WITHIN THE CONFINES OF THE PLATFORM. 1. FIXED OR PERMANENTLY INSTALLED ACCESS PLATFORMS:  GANTRIES  MEZZANINE FLOORS  FIXED PLATFORMS  STAIRWAYS.
  • 18. 2. MOBILE ELEVATED WORK PLATFORMS (EWPS):  SCISSOR LIFTS  KNUCKLE BOOMS. 3. TEMPORARY PLATFORMS:  SCAFFOLDING  LADDERS.
  • 19. GENERAL PRECAUTIONS • ALL THE OPERATOR SHOULD BE TRAINED IN THE SAFE OPERATION AND MAINTENANCE OF THEIR MACHINE. • ALL MACHINE OPERATORS SHOULD BE TRAINED IN THE EMERGENCY PROCEDURES TO TAKE WHEN ACCIDENT OCCUR. • ALL EMPLOYEE SHOULD KNOW HOW TO ACTIVATE EMERGENCY SHUT DOWN CONTROLS. • INSPECTION, MAINTENANCE, ADJUSTMENT, REPAIR AND CALIBRATION OF SAFE GUARDS SHOULD BE CARRIED OUT REGULARLY.
  • 20. • SUPERVISORS SHOULD ENSURE THE SAFE GUARDS AND PROPERLY IN PLACE WHEN MACHINE ARE IN USE. • SHORT-CUTS THAT VIOLATE SAFETY PRINCIPLE AND PRACTICE SHOULD BE AVOIDED.