The document provides guidelines for safely locking out and tagging out equipment during maintenance or repairs. It describes shutting down equipment, applying individual locks and tags with identifying information, verifying the zero energy state, and procedures for removing locks and tags. Personal protective equipment is required and emergency stop buttons must be located before work. Only trained employees may perform lockout/tagout procedures.
1000 TON TRANSFER PRESS SAFE WORK PROCEDURE ;DIE SETUP/CHANGEOVERJulian Kalac P.Eng
The reviewer has developed a proper Safe Work Procedure for die changeovers and die setups, which lists the proper steps to be taken to lock out the press flywheel by locking out the master stop, and how to verify zero energy state.
1000 TON TRANSFER PRESS SAFE WORK PROCEDURE ;DIE SETUP/CHANGEOVERJulian Kalac P.Eng
The reviewer has developed a proper Safe Work Procedure for die changeovers and die setups, which lists the proper steps to be taken to lock out the press flywheel by locking out the master stop, and how to verify zero energy state.
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methodology to resolve complex design issues, improve quality controls for sustained improvement
Overview of Lean Manufacturing types of production , comparison between Batch vs Continuous Flow , how to convert batch to continuous flow and the savings
summary of 16 Lean Six Sigma improvement projects in manufacturing, bio-manufacturing, supply chain
including 2 machine safeguarding . Total savings over $8Mil
Legal Aspects of FMEA, overview of Canadian Law,
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www.6sengineering.com
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Current & Future State Machining VSM (Value Stream Map)Julian Kalac P.Eng
Current and Future State Value Stream Map in Machining. Before: Batch process, high Final Inspection rejects, 32% scrap costs
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COST TO IMPLEMENT = ZERO $$
Current & Future State Machining VSM (Value Stream Map)
LOTO LIVE WIRE CS
1. Page 1 of 3
SAFE WORK PROCEDURE
LOCK OUT TAG OUT
Created by Julian K. Approved by GEORGE A. Department Manufac. Eng.
Revision Date N/A Date Created: JUNE 14 2013 Document # WI-1XX-001
Dept. Version 2013-0 Page 1 of 4
GENERAL SAFETY
1.PERSONAL PROTECTIVE EQUIPMENT
CSA or ANSI equivalent personal protective equipment must be worn
2 EMERGENCY
In case of an emergency, stop the equipment by pressing the red emergency stop button.
All employees should be familiar with the location of the emergency stop buttons on the equipment they operate, as their
exact location can differ from location to location (branch to branch)
LOTO (Lock Out Tag Out) Reference LOTO STD
If any of these DISCONNECTS are in the “ON” position notify your supervisor.
ONLY THOSE WHO ARE TRAINED CAN LOCK OUT/TAG OUT
TRAINING:
Only those who have been trained on Lock Out/Tag out (LOTO) should perform LOTO.
Inform Supervisor and/or Safety Manager if any locks are missing or out of place
Please read the Corrosion Service Lock Out Tag Out Policy for more details, including disciplinary process
SAFE WORK PROCEDURE
LOCK OUT TAG OUT
Created by Julian K. Approved by GEORGE A. Department Manufac. Eng.
Implem Date N/A Date Created: JUNE 14 2013 Document # SWP-1XX-001
Dept. MFG Version 2013-0 Page 1 of 4
OFF POSITION
DIFFERENT POWER RATING DISCONNECTS
ON POSITION
2. Page 2 of 3
SAFE WORK PROCEDURE
LOCK OUT TAG OUT
Created by Julian K. Approved by GEORGE A. Department Manufac. Eng.
Revision Date N/A Date Created: JUNE 14 2013 Document # WI-1XX-001
Dept. Version 2013-0 Page 1 of 4
Lock Out Tag Out Procedure
1. Prepare For Shutdown
Everyone in the area must be informed that Lockout/Tagout will be performed and on which machines.
2. Identify Sources of Hazardous Energy on the machine/equipment
Assess equipment and identify the hazardous energy sources (figure 1.0), either potential or kinetic and
determine the most effective method to achieve a “ZERO ENERGY STATE”. Contact Manufacturing
Engineer (Julian Kalac) to help identify system shutdown procedures.
3. Shutdown
Follow proprietary equipment and system shutdown procedures normally used to stopping the
equipment and return equipment to a “ZERO ENERGY STATE” by methods described under “General
Lockout Guidelines” in Figure 1.0. This will likely mean turning or pressing the “stop” button
4. Apply Lock and Tag Information.
Locks
— Each worker will shall obtain his/her own individually keyed lock. This is the workers own safety
equipment is not to be loaned. (No duplicate or master keys).
— When more than one person use a multi-hinged hasp lockout device.
Tags
Lockout tags should include the following information:
— Date, Time. Workers Name(s), Department(s).
— Reason why equipment has been disconnected
5. Verify Effectiveness of Lockout
Ensure that all equipment energy sources are re-tested and a “ZERO ENERGY STATE” has ben achieved.
Use equipment specified testing devices for system shutdown confirmation such as Volt Meters, pressure
gauges, blocks, bleeding devices or cycling systems procedures.
6. Release From Lockout/Tagout
Before locks/tags are removed and energy is restored to the machine/equipment, inspect the work area
to ensure components are operationally intact. Each lock and tag should be removed from each energy-
isolating device by the worker who applied the lock and tag.
3. Page 3 of 3
SAFE WORK PROCEDURE
LOCK OUT TAG OUT
Created by Julian K. Approved by GEORGE A. Department Manufac. Eng.
Revision Date N/A Date Created: JUNE 14 2013 Document # WI-1XX-001
Dept. Version 2013-0 Page 1 of 4
FIGURE 1
ENERGY FORM ENERGY SOURCE GENERAL LOCKOUT GUIDELINE
Electricity
power transmission lines;
machine power cords;
motors;
solenoids;
capacitors (stored
electrical energy)
Turn off power at machine first (i.e., at point of operation
switch), and then at the main disconnect switch for the
machine; lock and tag main disconnect switch (or remove
fuses from box, and then lock and tag box).
Fully discharge all capacitive systems (e.g., cycle machine to
drain power from capacitors) according to manufacturer’s
instructions.
Fluid pressure
hydraulic systems (e.g.,
hydraulic presses, rams,
cylinders, hammers)
Shut off, lock (with chains, built-in lockout devices, or
lockout attachments) and tag valves; bleed off and blank
lines as necessary.
Air pressure
pneumatic systems (e.g.,
lines, pressure reservoirs,
accumulators, air surge
tanks, rams, cylinders)
Shut off, lock (with chains, built-in lockout devices, or
lockout attachments) and tag valves; bleed off excess air;
if pressure cannot be relieved, block any possible
movement of machinery.
Kinetic energy
blades;
flywheels;
materials in supply lines of
bins or silos
Stop and block machine parts (e.g., stop flywheels and
ensure that they do not recycle); review entire cycle of
mechanical motion, ensure that all motions are stopped.
Block material from moving into area of work;
Potential energy
springs (e.g., in air brake cylinders);
actuators; counter weights;
raised loads;
top or movable part of a
press or lifting device
If possible, lower all suspended parts and loads to the
lowers (rest) position, block parts that might be moved
by gravity; release or block spring energy.
Pressurized liquids
and gases
supply lines;
storage tanks and vessels
Shut off, lock (with chains, built-in lockout devices, or
lockout attachments) and tag valves; bleed off excess
liquids or gases; blank lines as necessary.