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Protecting
your welding assets Scheduled
maintenance and safety are key concerns for your often overlooked welding
equipment. Here’s what to look for, plus a general schedule for routine
maintenance of engine-driven welders. By Mike Pankratz,
technical support specialist, Miller Electric Mfg. Co. Because most welding
equipment finds its way into the rigours of construction, farming,
automotive, fabrication and other “rough use” industries, aspects of
routine maintenance are often postponed or even overlooked. This article
is intended to provide a brief and practical overview of arc welding
equipment maintenance and safety. Aside from protecting
your investment in welding equipment, perhaps the best argument for a
program of ongoing and thorough maintenance is operator safety. This
article covers the most common safety issues to be aware of, but does not
cover all of them. Always read and follow the safety information in the
operator's manual or contact the manufacturing company when in doubt. There are three key areas
that a conscientious maintenance program should focus on. These include: 1. The Power Source and
Primary Power Line 2. The Gas Cylinder and
Distribution System (Shielding Gas System) 3. Ongoing Procedure
Controls/Recommended Safety Practices 1.
The Power Source and Primary Power Line: Grounding
the Equipment Welders must be concerned
at all times about the possibility of electrical shock. Wet working
conditions must be avoided, because water is an excellent conductor and
electricity will always follow the path of least resistance. Even a
person’s perspiration can lower the body’s resistance to electrical
shock. Standing on a dry rubber
mat or, when welding outdoors, standing on a dry board is always
advisable. Poor connections and bare spots on cables further increase the
possibility of electrical shock, and therefore, daily inspection of these
items is also recommended. Aside from these more
obvious shock hazards, equipment operators should routinely inspect for
proper ground connections. A proper ground connection is always necessary
because it provides a safety connection from a welding machine frame to
the earth. Connections typically used for grounding an engine-driven
welding machine include a cable connected from a ground stud on the
welding machine to a metal stake placed in the ground. The workpiece being
welded and the frame or chassis of all electrically powered machines must
be connected to a good electrical ground. This can be accomplished by
connecting it to a properly grounded building frame or other appropriate
ground. Chains, wire ropes, cranes,
hoists and elevators must never be used as grounding connectors. The work lead is not the
grounding lead. The work lead connects the work terminal on the power
source to the workpiece. A separate lead is required to ground the
workpiece or power source. When arc welding
equipment is properly grounded according to the National Electrical Code,
and to ANSI Z49.1 “Safety in Welding and Cutting” standards, a voltage
may safely exist between the electrode and any conducting object. Examples
of conducting objects include buildings, power tools, work benches,
welding power source cases and workpieces. Never
touch the electrode and any metal object unless the welding power source
is off. When installing a welding
system, connect the frames of each unit such as welding power source,
control, work table and water circulator to the building ground.
Conductors must be adequate to carry ground currents safely. Equipment
made electrically hot by stray current may deliver a powerful shock. Never
ground to an electrical conduit, or to a pipe carrying any gas or
flammable liquid such as oil or fuel. For a three-phase
connection, check the phase requirements of equipment before installing.
If only three-phase power is available, connect single-phase equipment to
only two wires of the three-phase line. Do not connect the equipment
ground lead to the third (live) wire, or the equipment will become
electrically hot. Also, before welding,
check the ground for continuity. Make sure conductors are touching bare
metal of equipment frames at connections. If a line cord with a
ground lead is provided with the equipment for connection to a switchbox,
connect the ground lead to the grounded switchbox. If a three-prong plug
is added for connection to a grounded mating receptacle, the ground lead
must be connected to the ground prong only. If the line cord comes with a
three-prong plug, connect to a grounded mating receptacle. Never
remove the ground prong from a plug, or use a plug with a broken ground
prong. Electrical
“Hardware” Poor electrical weld
circuit connections can yield any number of problems, including excessive
resistance in the weld circuit resulting in arc wanders, or an arc that
won’t start or is difficult to start. The following items
require routine inspection: • Power sources
– Approximately every six months, disconnect the power to the unit and
blow out or vacuum the inside of the machine. In heavy service conditions,
cleaning monthly may be necessary. • Wire feeders
– Periodically inspect the electrode wire drive rolls. If dirty, remove
the drive rolls and clean with a wire brush. If the drive rolls are
deformed, replace them. Drive rolls should be changed, adjusted or cleaned
only when the wire feeder is shut off. In addition, check the inlet and
outlet guides and replace if they are deformed from wire wear. Remember
that when power is applied to a wire feeder, fingers should be kept away
from the drive roll area. • The Gun and Liner
Assembly – Guns/torches should be kept in good working order and
serviced at regular intervals by qualified technicians. A gun or torch
must be used only with the gases for which they are designed. Shielding
gas pressures should be those recommended for the weld process used. MIG
gun liners should be cleaned periodically. • Electrode Holders
– Fully insulated electrode holders should be used. Do not use holders
with protruding screws. • Connectors –
Fully insulated lock-type connectors should be used to join welding cable
lengths. • Cables –
Frequently inspect cables for wear, cracks and damage. Immediately replace
those with excessively worn or damaged insulation to avoid the possibility
of lethal shock from bared cable. Also, keep cable dry,
free of oil and grease, and protected from hot metal and sparks. • Terminals and
other exposed parts – Terminals and other exposed parts of
electrical units should have insulating covers secured before operation. • Electrodes –
Welding power sources for use with MIG and TIG welding normally are
equipped with devices that permit on/off control of the welding power
output. If so, the electrode becomes electrically hot when the power
source switch is on and the welding gun switch is closed. Never touch the
electrode wire or any conducting object in contact with the electrode
circuit, unless the welding power source is off. Welding power sources
used for shielded metal arc welding (SMAW or stick welding) may not be
equipped with welding power output on/off control devices. With such
equipment, the electrode is electrically hot when the power switch is
turned ON. Never touch the electrode unless the welding power source is
off. •
Electrical safety devices
– Safety devices, such as interlocks and circuit breakers, should not be
disconnected or shunted out. Before installation, inspection or service of
equipment, shut off all power (or lock or “red-tag” switches) and
remove line fuses to prevent power from being turned on accidentally.
Disconnect all cables from the welding power source, and disconnect all
115 volt line-cord plugs. 2.
The Gas Cylinder and Distribution System (Shielding Gas System): Cylinders Cylinders should be
securely fastened at all times. Chains are usually used to secure a
cylinder to a wall or cylinder cart. When moving or storing a cylinder, a
threaded protector cap must be fastened to the top of the cylinder. This
protects the valve system should it be bumped or dropped. Cylinders should not be
stored or used in a horizontal position. This is because some cylinders
contain a liquid which would leak out or be forced out if the cylinder was
laid in a flat position. Also, welding guns and other cables should not be
hung on or near cylinders. A gun could cause an arc against the cylinder
wall or valve assembly, possibly resulting in a weakened cylinder or even
a rupture. Regulators Remove a faulty regulator
from service immediately for repair (but remember to first close the
cylinder valve.) The following symptoms
indicate a faulty regulator: • Leaks – if gas
leaks externally • Excessive Creep –
if delivery pressure continues to rise with the downstream valve closed • Faulty Gauge – if
gauge pointer does not move off the stop pin when pressurized, nor returns
to the stop pin after pressure release. Do not attempt to repair
a faulty regulator. It should be sent to the manufacturer’s designated
repair centre, where special techniques and tools are used by trained
personnel. Hoses Use only ferrules or
clamps designed for the hose, never ordinary wire or other substitutes, as
a binding to connect hoses to fittings. Avoid long runs to prevent kinks
and abuse. Suspend hose off the ground to keep it from being run over,
stepped on or otherwise damaged. Coil up excess hose to prevent kinks and
tangles. Examine hose regularly for leaks, wear and loose connections.
Immerse pressured hose in water to check for leaks, (bubbles will indicate
leaks.) Repair a leaky or worn hose by cutting out the damaged area and
splicing. Do NOT use tape. 3.
Ongoing Procedure Controls/Recommended Practices Cooling
of Equipment All welding operators
should be well-acquainted with the duty cycle of the particular piece of
equipment they are using. A machine’s duty cycle is based on the number
of minutes out of a 10-minute time period an arc welding machine can be
operated at its rated output. An example would be 60% duty cycle at 300
amps. This would mean that at 300 amps, the welding machine can be used
for six minutes and then must be allowed to cool with the fan motor
running for four minutes. (Note: Some foreign welding machines are based
on a five-minute cycle.) Electrode oxidation
during cooling can result in excessive electrode consumption. This can be
prevented by keeping shielding gas flowing 10-15 seconds after arc
stoppage. Preparation
of Shielding Gas Hoses The welding operator
should purge the gas hoses to expel all air and moisture condensation from
lines before welding. Porosity in the weld bead and poor bead colour can
result from entrapped gas impurities in the line. Condensation or loose
fittings in the gun or TIG torch can also cause porosity in the weld bead,
as can a defective gas hose or loose hose connection. These should be
inspected regularly. Proper
Safety Procedures or “Operator” maintenance • Arc Rays and Eye
Protection – Arc rays produce intense visible and invisible (ultraviolet
and infrared) rays that can burn eyes and skin. Any exposed skin can be
burned quickly by these rays. Welding helmets should be fitted with a
proper filter shade to protect the operator’s face and eyes when welding
or watching, and approved safety glasses with side shields should also be
worn. Screens or barriers to protect others from flash and glare should be
installed where appropriate and maintained. • Clothing – Gloves
and clothing should be flame-resistant. Clothing made from a dark-coloured,
tightly woven material is best suited for welding. Gauntlet-type leather
gloves should be worn to protect the hands and wrists. Shirt collars and
shirt cuffs should be buttoned, and open front pockets are not advisable
as they may catch sparks. Also, operators should
never store matches or lighters in their pockets. Pants cuffs are not
recommended, as they will also catch sparks. Tennis shoes do not qualify
as adequate foot protection. High-top leather shoes or boots are
absolutely necessary. • Environment – The
area surrounding the welder will be subjected to light, heat, smoke,
sparks and fumes. Permanent booths or portable partitions can be used to
contain light rays in one area. The heat and sparks given off are capable
of setting flammable materials on fire. Therefore, welding should not be
done in areas containing flammable gases, vapours, liquids or dusty
locations where explosions are a possibility. Metals with plating,
coatings or paint that come near the region of the arc may give off smoke
and fumes during welding. These fumes may pose a health hazard to the
lungs, therefore an exhaust hood or booth should be used to remove fumes
from the area. When welding in confined spaces, such as inside tanks,
large containers or even compartments of a ship, toxic fumes may gather.
Also, in an enclosed room, breathable oxygen can be replaced by shielding
gases used for welding or purging. Care must be taken to ensure enough
clean air for breathing. In many companies, it is routine to provide
welders with air masks or self-contained breathing equipment. A
GENERAL SCHEDULE FOR
ROUTINE MAINTENANCE OF ENGINE-DRIVEN WELDERS The following is a general
routine maintenance schedule, but should be modified according to a
company's specific conditions. 8 HOURS • Wipe up oil and fuel
spills immediately • Check fluid levels
(oil & fuel) • Service the air
filter (refer to engine manual for specifics) 50 HOURS • Service air filter
element (refer to engine manual for specifics) • Clean and tighten
weld terminals 100 HOURS • Change oil • Change oil filter
(refer to engine manual for specifics) • Clean and tighten
battery connections • Clean cooling system
(refer to engine manual for specifics) 200 HOURS • Replace unreadable
labels (order from parts list) • Replace fuel filter • Check valve clearance
(refer to engine manual for specifics) 250 HOURS • Check and clean spark
arrestor 500 HOURS • Tape or replace
cracked cables • Clean/Set injectors
(refer to engine manual for specifics) 1000 HOURS • Blow out or vacuum
inside equipment. During heavy service, do this monthly. Conclusion By following a regimen of
appropriate and thorough maintenance and safety, a
good welder from one of the major manufacturers can run dependably for
decades. Designed to withstand rough use, these machines typically use
high quality components and are tested for durability. Always refer to the
equipment manufacturer's owner manual for a thorough explanation of safety
and maintenance. This article does not give complete coverage of all the
maintenance and safety issues in existence. This
article was written by Mike Pankratz, technical support specialist, Miller
Electric Mfg. Co. of Appleton, IL. Miller manufactures arc welding
equipment and related systems. For more information on welder maintenance,
call 1-800-426-4553 or visit http://www.MillerWelds.com.
Posted to mro-esource.com June 1, 2000. ©
2000 mro-esource.com/Machinery & Equipment MRO magazine.
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Helping machinery & equipment maintenance professionals in Canada
Tuesday, July 8, 2008
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