The following are some examples of machines requiring point of operation guarding: Guillotine cutters. Shears. Alligator shears.
What is the OSHA standard for guarding the point of operation for machinery?
29 CFR 1910.212(a)(1) states that one or more methods of machine guarding must be used to protect operators and other employees from hazards, including those created by point of operation, in-running nip points, rotating parts, flying chips and sparks.
Is machine guarding training required by OSHA?
OSHA requires any worker who uses hazardous machines to undergo specific and detailed training in the following: a description and identification of the hazards associated with particular machines. the safeguards themselves, how they provide protection, and the hazards for which they are intended.
What is point of operation guarding?
OSHA’s Code of Federal Regulations 1910.212 General Requirements For All Machines states that “Point of operation is the area of a machine where work is actually performed upon the material being processed. The point of operation of machines whose operation exposes an employee to injury, shall be guarded.”
What is an example of guarding?
Examples of guarding methods are-barrier guards, two-hand tripping devices, electronic safety devices, etc. General requirements for machine guards. Guards shall be affixed to the machine where possible and secured elsewhere if for any reason attachment to the machine is not possible.
What are the fundamental machine safety rules?
Always follow the instructions given. Always wear machine-appropriate personal protection equipment (PPE). Closed toe shoes protect your feet from impact and falling items and also reduce the risk of slips. Full wrap goggles shield your eyes from debris that may escape the guarding.
What are the minimum requirements for protection and guards?
Guards must meet these minimum general requirements:
- Prevent contact. The guard must prevent hands, arms, and any other part of a operator’s body from making contact with dangerous moving parts.
- Secure. …
- Protect from falling objects. …
- Create no new hazards. …
- Create no interference. …
- Allow safe lubrication.
What is the principle of machine guarding?
Any machine part, function, or process which may cause injury must be safeguarded. Where the operation of a machine or accidental contact with it can injure the operator or others in the vicinity, the hazards must either be eliminated or controlled. If it moves, it merits your attention!
What are the 2 types of primary safeguarding methods?
Two primary methods are used to safeguard machines: guards and some types of safeguarding devices. Guards provide physical barriers that prevent access to danger areas.
What is meant by machine guarding?
Machine guarding is a safety feature on or around manufacturing or other engineering equipment consisting of a shield or device covering hazardous areas of a machine to prevent contact with body parts or to control hazards like chips or sparks from exiting the machine.
Do boring or drilling machines need safeguards?
Dangerous moving parts in three basic areas require safeguarding: The point of operation: that point where work is performed on the material, such as cutting, shaping, boring, or forming of stock.
What are some basic safeguarding methods?
Methods of Machine Safeguarding
- Guards. Guards are barriers which prevent access to danger areas. …
- Devices. Aside from guards, another common safeguarding method is that of safety devices, a few of which include: …
- Safeguarding By Location Or Distance. …
- Feeding And Ejection Methods. …
- Miscellaneous Aids.
What is the machine safety?
Safeguards are essential to protect workers from injury. Any machine part, function, or process that might cause injury should be safeguarded. When the operation of a machine may result in a contact injury to the operator or others in the area, the hazard should be removed or controlled.