to be worked in order to distance hands from the electrode danger area.
- When using a portable spot welder: solidly grasp the clamp with both hands
placed on the relative handles; always keep hands away from the electrodes.
- Whenever the shape of the piece allows it, adjust the electrode distance so
that the stroke does not exceed 6 mm.
- Do not allow more than one person to work on the same spot welder at the
same time.
- Unauthorised persons should not be allowed in the working area.
- Do not leave the spot welder unattended: in such a case it should be
disconnected from the power supply; for pneumatic cylinder-operated spot
welders turn the main switch to "O" and lock it with the supplied padlock,
take out the key and leave it with the person in charge.
- Only use electrodes that are recommended for the machine (see spare parts
list) without altering their shape.
-
RISK OF BURNS
Some parts of the spot welder (electrodes arms and nearby areas) may reach
temperatures of over 65°C: suitable protective clothing must be worn.
Allow newly-welded pieces to cool before touching them.
-
RISK OF TIPPING AND FALLING
- Place the spot welder on a level horizontal surface that is able to support
its weight; confine the spot welder to the support surface (when required
in the "INSTALLATION" section of this manual). Otherwise with inclined
or uneven floors or moveable supporting surfaces there is the danger of
tipping.
- Never lift the spot welder unless explicitly required by the "INSTALLATION"
section of this handbook.
- When using machines on wheels: disconnect the spot welder from the
electric and pneumatic (if present) power supplies before moving the unit
to another work area. Pay attention to obstacles and unevenness on the
ground (for example cables and piping).
-
UNINTENDED USE
It is dangerous to use the spot welder for any purpose other than that for
which it is intended (see INTENDED USE).
PROTECTIONS
The safeguards and moveable parts of the spot welder casing should all be in
position before connection to the power supply.
WARNING: All manual operations on moveable accessible parts of the spot
welder, for example:
-
Electrode replacement or maintenance
- Adjusting the position of the arms or electrodes
MUST BE CARRIED OUT WITH THE SPOT WELDER SWITCHED OFF AND
DISCONNECTED FROM THE ELECTRIC AND PNEUMATIC (if present) POWER
SUPPLY.
MAIN SWITCH LOCKED AT "O" WITH LOCK CLOSED AND KEY REMOVED in the
models with PNEUMATIC CYLINDER movement).
STORAGE
- Place the machine and its accessories (with or without packaging) in closed
areas.
- The relative humidity of the air must not exceed 80%.
- The environmental temperature must be between -15°C and 45°C.
If the machine has a water cooling unit and the environmental temperature is
lower than 0°C: add the indicated antifreeze liquid or completely empty the
hydraulic circuit and the water tank.
Always use suitable measures for protecting the machine from humidity, dirt
and corrosion.
2. INTRODUCTION AND GENERAL DESCRIPTION
2.1 Introduction
Mobile system for resistance welding (spot welder) controlled by a microprocessor,
medium frequency inverter technology, three-phase power supply and direct output
current.
The spot welder is equipped with a pneumatic clamp that contains the transforming
and rectifying unit. In this way higher welding currents are obtained than from
traditional spot welders, with reduced network absorption and fewer magnetic fields
near the cables. Longer, lighter cables can be used to improve handling and give a
wider working range.
The spot welder can work on iron plates with a low carbon content, galvanized iron plates,
high resistance steel plates and boron steel plates. Equipped with quick couplings for
use with the accessory equipment (Studder, X Clamp), it can be used for many different
types of hot machining on panels and all the specific work of car body shops.
The main system characteristics are:
-
Backlit LCD display that shows the controls and the set parameters;
-
Spot welding mode (continuous or pulsed) selection from the panel;
-
Choice of manual, semi-automatic or fully automatic spot welding parameters;
-
Panel pre-heating and post-heating can be set to optimise the welding of high
resistance and galvanized material;
-
Different types of electrode can be set;
-
Automatic recognition of the tool being used;
-
Automatic recognition of the "C" type arm;
-
Automatic spot welding current control;
-
Manual and automatic control of the power to the electrodes;
- Double "USB" port (for PC and USB flash drive).
2.2 STANDARD ACCESSORIES
-
Arm support;
-
Clamp cable support;
-
Front wheel support;
- Regulator filter group (supply of compressed air);
-
"C" clamp with standard arms, complete with cable with a plug that can be
disconnected from the generator and built-in sensors for automatic spot;
2.3 ACCESSORIES ON DEMAND
-
Arms and electrodes with a different length and/or shape for "C" clamp (see spare
parts list);
-
Supporting pole and weight discharger for the clamp;
-
"X" clamp;
-
Studder kit;
-
"C" clamp ring kit.
3. TECHNICAL DATA
3.1 Data plate (Fig. A)
The main data regarding welding machine performance and use are given briefly in
the characteristics plate with the following meaning.
1 - Number of phases and frequency of the power supply line.
2 - Power supply cable.
3 - Permanent regime network power (100%).
4 - Network nominal power with 50% intermittence ratio.
5 - Maximum loadless voltage at the electrodes.
6 - Maximum current with electrodes in short-circuit.
7 - Permanent regime secondary current (100%).
8 - Safety symbols explained in chapter 1 "General safety for resistance welding".
Note: The meaning of the symbols and figures given in the example plate shown are
indicative; the exact values of the technical data of the spot welder in your possession
must be looked for directly on the plate of the spot welder itself.
3.2 OTHER TECHNICAL DATA
3.2.1 Spot welder
General features
- Power supply voltage and frequency
- Electric protection rating
- Insulation rating
- Casing protection rating
- Cooling type
- (*) Overall size (LxWxH)
- (**) Weight
Input
- Max. power in short-circuit (Scc)
- Delayed network fuses
- Automatic circuit breaker
- Power supply cable (L≤4m)
Output
- Loadless secondary voltage (U
- Max. spot welding current (I
- Spot welding capacity
- Intermittence ratio
- Maximum power at electrodes
- Length of "C" arm
- Spot welding current adjustment
- Spot welding current time adjustment
- Squeeze time adjustment
- Slope time adjustment
- Maintenance time adjustment
- Cold time adjustment
- Adjustment of number of impulses
- Adjustment of power at electrodes
- Pre-heating time adjustment
- Post-heating time adjustment
(*) NOTE: the overall dimensions do not include the cables and the supporting pole.
(**) NOTE: the generator weight does not include the clamp and the supporting pole.
4. DESCRIPTION OF THE SPOT WELDER
4.1 SPOT WELDER AND MAIN COMPONENTS (Fig. B)
On front:
1 - Control panel;
2 - USB port;
3 - Outlet for clamp connection;
4 - Outlet for connecting the sensors used with the automatic spot;
5 - Clamp cable support.
On the back:
6 - Main switch;
7 - Power cable input;
8 - Arm support;
9 - Pressure regulator, gauge and air input filter group;
4.2 CONNECTION AND ADJUSTMENT DEVICES
4.2.1 Control panel (Fig. C)
Description of the spot welding parameters (fig. C-1):
%
Power: percentage of the power issued during spot welding – range from 5
POWER
to 100%.
Force at the electrodes (automatic mode): force with which the pneumatic
clamp electrodes move against the panels to be spot welded; the machine
automatically adjusts the set force before making the spot.
Squeeze time (manual mode): time during which the pneumatic clamp
electrodes remain on the panels to be spot welded without emitting current;
in this way the electrodes reach maximum pressure, set with the pressure
regulator, before emitting current – range from 200 ms to 1 second.
Pre-heat time (Pre-spot): time during which the current is kept at a lower
level than the spot welding current to heat the panels before spot welding.
This parameter is useful for eliminating the panel coating if present
(galvanizing). The parameter can be excluded by setting the value at zero.
Cold time or Pause: (only if the Pre-spot is active or with impulse spot
welding) time between one current impulse and the next one – range from 10
ms to 400 ms.
Slope time: time used by the current to reach the maximum set value. This
time is applied to the first impulse only when in the pneumatic clamp impulse
function – range from 0 to 1 second.
Spot welding time: time during which the spot welding current is kept almost
constant. This time refers to the duration of a single impulse when in the
pneumatic clamp impulse function – range from 10 ms to 1 second (*).
Number of impulses: (only for impulse spot welding) number of spot
welding current impulses, each one lasting the same time as the set spot
welding time – range from 1 to 10 (**).
Post heating time (Post spot): time during which the current is kept at a
level that is lower than the spot welding current to slow panel cooling after
spot welding. This parameter is useful for increasing the spot seal in high-
resistance panels. The parameter can be excluded by setting the value at
zero.
(*) NOTE: the sum of the slope cycles and spot welding cycles cannot exceed 1
second.
(**) NOTE: the maximum number of settable impulses depends on the duration of
the individual impulse: the total effective spot welding time cannot exceed 1 second.
- 6 -
:
400V (±15%) ~ 3-ph-50/60 Hz
:
:
:
:
:
:
:
:
:
16A ("C"- IEC60947-2)
:
d)
:
2
max)
:
2
:
:
:
:
:
automatic and programmable
:
automatic and programmable
:
automatic and programmable
:
automatic and programmable
:
automatic and programmable
:
automatic and programmable
:
automatic and programmable
:
:
automatic and programmable
:
automatic and programmable
I
H
IP 20
Compressed air
710 x 450 x 910 mm
48 kg
43 kVA
16 A
4 x 6 mm²
8.4V
9kA
max 3 + 3 + 3 mm
1.2%
400 daN
95 mm standard
automatic or manual.