Lockout... Tagout... Tryout ! Failure to lock, tag and try electrical equipment is one of the top 5 causes of all fatal mining accidents.

Metal and Nonmetal Safety & Health A presentation of... Metal and Nonmetal Safety & Health

Metal-Nonmetal Electrical Lockout Injuries over 10 Years: Count the Cost of Not Locking Out... Metal-Nonmetal Electrical Lockout Injuries over 10 Years: 30 Fatalities 6 Permanent disabilities 257 Lost time injuries 45 Restricted day injuries

A miner was fatally injured in this log roller when the motor was started while he worked inside. Electrical power had not been disconnected. This tragedy could have been avoided had the victim locked out the power to the machine.

A miner was electrocuted when his hand came in contact with 480 volts. He did not lock, tag & try, nor was he wearing electrically rated gloves.

had not been disconnected and locked out. Two men were injured when this distribution panel shorted out during a repair. Electrical energy had not been disconnected and locked out.

Energy Sources to Control Electricity Machinery Pressure lines & vessels Sliding / falling material Miscellaneous

Hazardous energy must be controlled when: Removing guards, covers, shields Performing maintenance Inspecting equipment internally Troubleshooting Unchoking

Workers At-Risk The vast majority of electrical accidents occurs while work is being performed on energized circuits during maintenance or troubleshooting. Even the most qualified personnel sometimes seem to disregard the dangers and risks involved.

Reasons Given for Not Locking Out Waste of time - lost production time Supervisor praise for fast repair Only takes a ‘minute’ for repair on “energized” equipment Fatigue: too far or too much trouble to turn off power Finish undesirable task quickly Finish before going home

For myself For my family For my co-worker For my profession Why to Lock Out For myself For my family For my co-worker For my profession For my company

Federal Regulations

Distribution Boxes 30 CFR 56/57.12006 Distribution boxes shall be provided with a disconnecting device for each branch circuit. Such disconnecting devices shall be equipped or designed in such a manner that it can be determined by visual observation when such a device is open and that the circuit is deenergized, and the distribution box shall be labeled to show which circuit each device controls.

A “distribution box” is an enclosed portable apparatus through which an electric circuit is carried to one or more cables from a single incoming feed line. Each cable circuit must be connected through an individual overcurrent protective device.

The distribution box should be observable to indicate when the device is open and the circuit is deenergized. Where plugs are used to provide power, the plugs and cables need to be positively identified prior to any work on the equipment. Positive identification is essential to prevent an accident from occurring. The following photo displays why this is so important.

Many distribution boxes and power centers have a window at each individual circuit where circuit deenergization can be visually determined

Work on power circuits 30 CFR 56/57.12017 Power circuits shall be deenergized before work is done on such circuits unless hot-line tools are used. Suitable warning signs shall be posted by the individuals who are to do the work. Switches shall be locked out or other measures taken which shall prevent the power circuits from being energized without the knowledge of the individuals working on them.

Work on electrically powered equipment 30 CFR 56/57.12016 Electrically powered equipment shall be deenergized before mechanical work is done on such equipment. Power switches shall be locked out or other measures taken which shall prevent the equipment from being energized without the knowledge of the individuals working on it.

30 CFR 56/57.12016, continued Suitable warning notices shall be posted at the power switch and signed by the individuals who are to do the work. Such locks or preventive devices shall be removed only by the persons who installed them or by authorized personnel.

Electrically Powered Equip. De-energize before mechanical work Lock out power switches Post warning notice ID tag on lock is OK Lock must be installed and removed only by person to whom it is issued

BRANCH CIRCUIT DISCONNECTING DEVISES 30 CFR 57.12084. Disconnecting switches that can be opened safely under load shall be provided underground at all branch circuits extending from primary power circuits near shafts, adits, levels and boreholes.

Lockout Hardware

Locks

Multi-lock adapters

Tags To quickly identify the worker who is using the lock

Lockout Procedures

Prepare Pre-plan Coordinate w/ others Erect barricades / warning signs Operators, co-workers, contractors Erect barricades / warning signs

Shutdown Use stop switch If multiple switches, use one closest to equipment Do not use disconnect switch to stop: arcing could cause injury / damage

Isolate Disconnect from all energy sources Insulate self from electrical power non-conductive platform, gloves, dry clothes Stand to side of disconnect device, not in front Avert eyes & face

Left Hand Disconnect Eyes Averted, Insulating Platform for Wet Conditions

Right Hand MCC Disconnect Stand Aside, Eyes Averted Insulated Gloves for Higher Voltage

Lockout Affix lock or appropriate device to disconnect switch Do not lock out start / stop switch Latch shackle & remove key Personal locks: keep key System locks: key placed in system lock box

Field Disconnect Lockout Right Wrong

Main Disconnect Lockout This shows how a main disconnect should be locked and tagged.

Motor Starter Lockout This shows how a motor starter should be locked and tagged.

Single Pole Circuit Breaker Lockout This shows how a single pole circuit breaker should be locked and tagged.

Double Pole Circuit Breaker Lockout This shows how a double pole circuit breaker should be locked and tagged.

Single Pole Switch Lockout This shows how a single pole switch should be locked out and tagged.

This shows how a cable plug should be locked and tagged. Cable Plug Lockout This shows how a cable plug should be locked and tagged.

Latch the Lock’s Shackle !! But don’t lock through another person’s lock !

Independent Power Sources Lock out all independent, related parts of unit or system being repaired Valves: lock or chain Tag & sign Block parts that may drop, creep, drift or turn

System Lockout For related equipment groups Provide marked locks & keys in lockable box in central location Person in charge confirms all necessary equipment has its lock installed & key is returned to system box Install personal locks on system box

System Lock Boxes

System Locks in Use #3 #1 #2

Tagout

Tryout Verify & Test Push “Start” switch Equipment should not start If equipment starts, shut down & verify proper equipment is locked out If starts & proper equipment is locked out, warn, post guard & notify immediately

Release Stored Energy Block non-electrical devices that could release stored energy Release spring, hydraulic or pneumatic pressures

Machinery Guards Keep them in place until: Machine is stopped Power supply de-energized Padlocks installed by each person

Start Up Authority After Repairs Reinstall guards first Do not start without authority & training Communicate with co-workers and contractors Be certain no one is in position to be injured

Lock Removal Personal lock to be removed only by person to whom it is issued System locks may be removed by authorized persons

Emergency Lock Removal Locks may be removed if a person has been positively determined to be in the clear. Suggestions if person is absent: Contact via telephone at home Time card punched out ? Vehicle gone from parking lot ? Complete written lock removal report

Summary Lockout energy source. Tagout the disconnecting device. Turn off equipment and disconnect power. Lockout energy source. Tagout the disconnecting device. Tryout - test to assure the power is off. Release any stored energy. When complete… restore power and remove tag.