Safety


Safety is the state of being "safe" (from French sauf), the condition of being protected against physical, social, spiritual, financial, political, emotional, occupational, psychological, educational or other types or consequences of failure, damage, error, accidents, harm or any other event which could be considered non-desirable. This can take the form of being protected from the event or from exposure to something that causes health or economical losses. It can include protection of people or of possessions.

Machine Safety

 


Requirements for Safeguards


Placing and keeping guards on exposed machinery is a major step in preventing lacerations and amputations of body parts. It is also a requirement of State or federal OSHA Safety and Health 

Standards. In general, these standards explain guarding requirements in the following terms:

  • Machines which have a grinding, shearing, punching, pressing, squeezing, drawing, cutting, rolling, mixing or similar action, including pinch points and shear points, whereas an employee comes within the danger zone, shall be guarded at the point of operation in a manner that provides protection for the employee.
  • Keys, set screws, projections or recesses which create a hazard not guarded by the frame of the machine or by location shall be removed, made flush or guarded.

Some people consider such guards a nuisance. Others consider them as a necessary evil. But how evil can they be if they help save precious fingers, hands and arms from injury or serious mutilation? 

In general, guards should have the following characteristics:

  1. They Should Prevent Contact: The safeguard must prevent hands, arms, or any other part of a worker's body from making contact with dangerous moving parts. A guard should not only prevent accidental contact but should prevent workers from intentionally going around or bypassing the guard.
  1. They Should Be Secure: If the guard is easily removable, this means it will be ineffective. The guards should be of durable material and most should be bolted or screwed on so that they require tools for removal.
  1. They Should Create No New Hazards: The guard itself should not create a new hazard. For example, sharp or jagged edges could cause lacerations. The guards should be affixed in a manner that eliminates sharp edges.
  1. They Should Create No Interference: A good guard should allow the employee to work comfortably and efficiently--since otherwise it may be removed.
  1. They Should Allow Safe Maintenance: If possible, guards should be designed so as to allow minor maintenance on the machines without either removing the safeguards or being exposed to the hazard. If the guard must be removed or deactivated, then lock-out procedures should be followed before any maintenance is performed.

Don't be another OSHA statistic--an employee who lost a finger, hand or an arm. Remember to always maintain the guards on the machines and to replace them if they must be removed for maintenance.

Have You Checked All The Guards On Your Machinery and Equipment Lately?