Technical Specifications; Hf/Lift; General Notes - Welbach IOTA 200S Manuel D'utilisation

EN
The operation manual must be read carefully.
The product must be recycled.
Satisfies the requirements of applicable safety
standards.
Use full body protective clothes.
Attention! Wear protective gloves.
Safety goggles must be worn.
Protective footwear must be worn.
Attention! Hot surface may cause burns.
Attention! Risk of fire or explosion.
Attention! Harmful fumes, danger of poisoning.
Gases and vapours may be hazardous to health.
Welding gases and vapours are released during
welding. Inhaling these substances may be
hazardous to health.
Use a welding mask with appropriate filter
shading.
CAUTION! Harmful welding arc radiation.
Do not touch the parts that are under voltage/
power.
PLEASE NOTE! Drawings in this manual are for
illustration purposes only and in some details may
differ from the actual machine.
The original operation manual is in German. Other
language versions are translations from German.

1. TECHNICAL SPECIFICATIONS

Product name TIG Welder
– 200A – 230V
Model IOTA 200S
Voltage/frequency 230~V/50 Hz
Rated input current [A] TIG 34
MMA 43
No-load voltage [V] 89
Rated duty cycle [%] 35
Welding current at 35% 200
duty cycle [A]
Welding current at 60% 155
duty cycle [A]
Welding current at 100% 120
duty cycle [A]
Gas pre-flow time [s] 0-2
Start Amps – (only in 4T 5-200
mode) Start Amps – value
of output current upon arc
striking
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U S E R M A N U A L
Up Slope – time over which the 0-10
value of the output current increases
from the initial current value to the
welding current value [s]
WELDING CURRENT / PEAK 5-200
CURRENT – peak current value in
PULS mode [A]
Down Slope – time over which 0-10
the value of the output current
decreases from the welding current
value to the initial current value [s]
End Amps (only in 4T mode) 5-200
– output current value prior to
welding completion [A]
Post Flow – gas post-flow time 0-10
Function used in order to cool down
the weld and to protect it against
oxidation [s]
PULSE WIDTH – this is the relation of 5-95
the impulse duration to the impulse
period. Parameter selected in TIG
PULSE mode [%]
PULSE FREQ – impulse frequency 0,5-200
during PULS mode welding [Hz]
BASE AMP. current sustaining the 5-200
arch in the PULS mode [A]
TIG ignition

HF/LIFT

ARC FORCE (MMA) Yes (0-10)
HOT START (MMA) Yes (0-10)
ANTI STICK (MMA) Yes
Insulation class F
Efficiency (in nominal conditions) [%] ≥85
Power coefficient 0,75
Protection class IP IP21S
Weight [kg] 7,65
2. GENERAL DESCRIPTION
The user manual is designed to aid safe and trouble-
free use. The product is designed and manufactured in
accordance with strict technical guidelines, using state-of-
the-art technologies and components and in compliance
with the most stringent quality standards.
DO NOT USE THE DEVICE UNLESS YOU HAVE
THOROUGHLY READ AND UNDERSTOOD THE
PRESENT USER MANUAL.
To extend the device durability and to ensure its trouble-
free operation, use it and perform maintenance tasks
in accordance with this user manual. The technical
data and specifications in this user manual are current.
The manufacturer reserves the right to make changes
associated with quality improvements.
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Taking into account technological progress and noise
reduction opportunities, the device was designed to reduce
noise emission risks to the minimum.
3. SAFETY OF USE
ATTENTION! Read all safety warnings and all
instructions.
Failure to follow the warnings and instructions may result in
an electric shock, fire and/or serious injury or death.

3.1. GENERAL NOTES

• Take care of your own safety and the one of third
parties by reviewing and strictly following the
instructions, included in the operating manual of the
device.
• Only qualified and skilled personnel can be allowed
to start, operate, maintain and repair the machine.
• The machine must never be operated contrary to its
intended purpose.
3.2. PREPARATION OF WELDING WORK SITE
WELDING OPERATIONS MAY CAUSE FIRE
EXPLOSION!
• Strictly follow the occupational health and safety
regulations applicable to welding operations and
make sure to provide appropriate fire extinguishers
at the welding work site.
• Never carry out welding operations in flammable
places that pose the risk of material ignition.
• Never carry out welding operations in an atmosphere
containing flammable particles or vapours of
explosive substances.
• Remove all flammable materials within 12 meters
from the welding operations site and if removal is
not possible, cover the flammable materials with fire
retardant covering.
• Use safety measures against sparks and glowing
particles of metal.
• Make sure that sparks or hot metal splinters do
not penetrate through the slots or openings in the
coverings, shields or protective screens.
• Do not weld tanks or barrels that contain or have
contained flammable substances. Do not weld in the
vicinity of such containers and barrels.
• Do not weld pressure vessels, pipes of pressurised
installations or pressure trays.
• Always ensure adequate ventilation.
• It is recommended to take a stable position prior to
welding.
3.3. PERSONAL PROTECTION EQUIPMENT
ELECTRIC ARC RADIATION CAN CAUSE DAMAGE TO
EYES AND SKIN!
• When welding, wear clean, oil stain free protective
clothing made of non-flammable and non-
conductive materials (leather, thick cotton), leather
gloves, high boots and protective hood.
• Before welding remove all flammable or explosive
items, such as propane butane lighters or matches.
• Use facial protection (helmet or shield) and eye
protection, with a filter featuring a shade level
matching the sight of the welder and the welding
current. The safety standards suggest colouring No.
9 (minimum No. 8) for each current below 300 A.
A lower colouring of the shield can be used if the arc
is covered by the workpiece.
• Always use approved safety glasses with side
protection under the helmet or any other cover.
• Use guards for the welding operations site in order
to protect other people from the blinding light
radiation or projections.
• Always wear earplugs or another type of hearing
protection to protect against excessive noise and to
avoid spatter entering the ears.
• Bystanders should be warned to not look at the arc.
3.4. PROTECTION AGAINST ELECTRIC SHOCK
ELECTRIC SHOCK CAN BE LETHAL!
• The power cable must be connected to the nearest
socket and placed in a practical and secure position.
Positioning the cable negligently in the room and on
a surface which was not checked must be avoided as
it can lead to electrocution or fire.
• Touching electrically charged elements can cause
electrocution or serious burns.
• Electrical arc and the working area are electrically
charged during the power flow.
• Input circuit and inner power circuit of the devices
OR
are also under voltage charge when the power
supply is turned on.
• The elements under the voltage charge must not be
touched.
• Dry, insulated gloves without any holes and
protective clothing must be worn at all times.
• Insulation mats or other insulation layers that are
big enough as not to allow for body contact with an
object or the floor, must be placed on the floor.
• The electrical arc must not be touched.
• Electrical power must be shut down prior to cleaning
or electrode replacement.
• It must be checked if the earthing cable is properly
connected or the pin is correctly connected to the
earthed socket. Incorrect connection of the earthing
can cause life or health hazard.
• The power cables must be regularly checked for
damage or lack of insulation. Damaged cables must
be replaced. Negligent insulation repair can cause
death or serious injury.
• The device must be turned off when it is not in use.
• The cable must not be wrapped around the body.
• A welded object must be properly grounded.
• Only equipment in good condition can be used.
• Damaged device elements must be repaired or
replaced. Safety belts must be used when working
at height.
• All fitting and safety elements must be stored in one
place.
• From the moment of turning on the release, the
handle end must be kept away from the body.
• The chassis ground must be mounted to the welded
element or as close to it as possible (e.g. to a work
table).
THE DEVICE CAN STILL BE UNDER VOLTAGE UPON
FEEDER DISCONNECTION!
• The voltage in the input capacitor must be checked
upon turning off the device and disconnecting it
from the power source. One must make sure that the
voltage value is equal to zero. Otherwise, the device
elements must not be touched.
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EN
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