IMPORTANT: Before using this equipment, carefully read
SAFETY PRECAUTIONS, starting on page 1, and all instructions
in this manual. Keep this Service Manual for future reference.
Service Manual Price: $50.00 (U.S.)
Service Manual Price: $50.00 (U.S.)
Service Manual Price: $50.00 (U.S.)Service Manual Price: $50.00 (U.S.)
Before operating, maintaining or servicing any
Ransburg electrostatic coating system, read
and understand all of the technical and safety
literature for your Ransburg products. This
manual contains information that is important
for you to know and understand. This information relates to USER SAFETY and PREVENTING EQUIPMENT PROBLEMS. To help
you recognize this information, we use the following symbols. Please pay particular attention
to these sections.
A WARNING! states information to alert you
to a situation that might cause serious injury if instructions are not followed.
A CAUTION! states information that tells
how to prevent damage to equipment or
how to avoid a situation that might cause
minor injury.
A NOTE is information relevant to the procedure in progress.
While this manual lists standard specifications
and service procedures, some minor deviations may be found between this literature and
your equipment. Differences in local codes and
plant requirements, material delivery requirements, etc., make such variations inevitable.
Compare this manual with your system installation drawings and appropriate Ransburg
equipment manuals to reconcile such differences.
The user MUST read and be familiar
with the Safety Section in this manual and
the Ransburg safety literature therein
identified.
This manual MUST be read and thoroughly understood by ALL personnel who
operate, clean or maintain this equipment!
Special care should be taken to ensure that
the WARNINGS and safety requirements
for operating and servicing the equipment
are followed. The user should be aware of
and adhere to ALL local building and fire
codes and ordinances as well as NFPA-33 SAFETY STANDARD, LATEST EDITION,
prior to installing, operating, and/or servicing this equipment.
pages may occur during the normal use
of this equipment. Please read the hazard chart beginning on page 2.
!
!
The hazards shown on the following
W A R N I N G
W A R N I N G
Careful study and continued use of this manual
will provide a better understanding of the
equipment and process, resulting in more efficient operation, longer trouble-free service and
faster, easier troubleshooting. If you do not
have the manuals and safety literature for your
Ransburg system, contact your local
Ransburg representative or Ransburg.
1 LN-9267-11.3
RMA-303 Dual Purge Direct Charge - Safety
AREA
Tells where haz-
HAZARD
Tells what the hazard is.
ards may occur.
Spray Area Fire Hazard
Improper or inadequate operation and maintenance procedures will cause a fire hazard.
Protection against inadvertent
arcing that is capable of causing
fire or explosion is lost if any
safety interlocks are disabled
during operation. Frequent Power Supply or Controller shutdown indicates a problem in the
system requiring correction.
SAFEGUARDS
Tells how to avoid the hazard.
Fire extinguishing equipment must be present in
the spray area and tested periodically.
Spray areas must be kept clean to prevent the accumulation of combustible residues.
Smoking must never be allowed in the spray area.
The high voltage supplied to the atomizer must be
turned off prior to cleaning, flushing or maintenance.
When using solvents for cleaning:
• Those used for equipment flushing should
have flash points equal to or higher than those
of the coating material.
• Those used for general cleaning must have
flash points above 100°F (37.8°C).
Spray booth ventilation must be kept at the rates
required by NFPA-33, OSHA, country, and local
codes. In addition, ventilation must be maintained during cleaning operations using flammable
or combustible solvents.
Electrostatic arcing must be prevented. Safe
sparking distance must be maintained between the
parts being coated and the applicator. A distance
of 1 inch for every 10KV of output voltage is required at all times.
Test only in areas free of combustible material.
Testing may require high voltage to be on, but only
as instructed.
Non-factory replacement parts or unauthorized
equipment modifications may cause fire or injury.
If used, the key switch bypass is intended for use
only during setup operations. Production should
never be done with safety interlocks disabled.
Never use equipment intended for use in waterborne installations to spray solvent based materials.
The paint process and equipment should be set up
and operated in accordance with NFPA-33, NEC,
OSHA, local, country, and European Health and
Safety Norms.
LN-9267-11.3 2
RMA-303 Dual Purge Direct Charge - Safety
AREA
Tells where haz-
HAZARD
Tells what the hazard is.
ards may occur.
Spray Area Explosion Hazard
Improper or inadequate operation and maintenance procedures will cause a fire hazard.
Protection against inadvertent
arcing that is capable of causing
fire or explosion is lost if any
safety interlocks are disabled
during operation.
Frequent Power Supply or Controller shutdown indicates a
problem in the system requiring
correction.
SAFEGUARDS
Tells how to avoid the hazard.
Electrostatic arcing must be prevented. Safe
sparking distance must be maintained between the
parts being coated and the applicator. A distance
of 1 inch for every 10KV of output voltage is required at all times.
Unless specifically approved for use in hazardous
locations, all electrical equipment must be located
outside Class I or II, Division 1 or 2 hazardous
areas, in accordance with NFPA-33.
Test only in areas free of flammable or combustible materials.
The current overload sensitivity (if equipped)
MUST be set as described in the corresponding
section of the equipment manual. Protection
against inadvertent arcing that is capable of
causing fire or explosion is lost if the current overload sensitivity is not properly set. Frequent
power supply shutdown indicates a problem in the
system which requires correction.
General Use and
Maintenance
Improper operation or maintenance may create a hazard.
Personnel must be properly
trained in the use of this equipment.
Always turn the control panel power off prior to
flushing, cleaning, or working on spray system
equipment.
Before turning high voltage on, make sure no objects are within the safe sparking distance.
Ensure that the control panel is interlocked with the
ventilation system and conveyor in accordance
with NFPA-33, EN 50176.
Have fire extinguishing equipment readily available
and tested periodically.
Personnel must be given training in accordance
with the requirements of NFPA-33, EN 60079-0.
Instructions and safety precautions must be read
and understood prior to using this equipment.
Comply with appropriate local, state, and national
codes governing ventilation, fire protection, operation maintenance, and housekeeping. Reference
OSHA, NFPA-33, EN Norms and your insurance
company requirements.
3 LN-9267-11.3
RMA-303 Dual Purge Direct Charge - Safety
AREA
Tells where hazards may occur.
Spray Area / High
Voltage Equipment
HAZARD
Tells what the hazard is.
Electrical Discharge
There is a high voltage device
that can induce an electrical
charge on ungrounded objects
which is capable of igniting coating materials.
Inadequate grounding will cause
a spark hazard. A spark can
ignite many coating materials
and cause a fire or explosion.
SAFEGUARDS
Tells how to avoid the hazard.
Parts being sprayed and operators in the spray
area must be properly grounded.
Parts being sprayed must be supported on conveyors or hangers that are properly grounded. The
resistance between the part and earth ground must
not exceed 1 meg ohm. (Refer to NFPA-33.)
Operators must be grounded. Rubber soled insulating shoes should not be worn. Grounding straps
on wrists or legs may be used to assure adequate
ground contact.
Operators must not be wearing or carrying any
ungrounded metal objects.
When using an electrostatic handgun, operators
must assure contact with the handle of the applicator via conductive gloves or gloves with the palm
section cut out.
NOTE: REFER TO NFPA-33 OR SPECIFIC
COUNTRY SAFETY CODES REGARDING
PROPER OPERATOR GROUNDING.
All electrically conductive objects in the spray area,
with the exception of those objects required by the
process to be at high voltage, must be grounded.
Grounded conductive flooring must be provided in
the spray area.
Always turn off the power supply prior to flushing,
cleaning, or working on spray system equipment.
Unless specifically approved for use in hazardous
locations, all electrical equipment must be located
outside Class I or II, Division 1 or 2 hazardous
areas, in accordance with NFPA-33.
LN-9267-11.3 4
RMA-303 Dual Purge Direct Charge - Safety
AREA
Tells where hazards may occur.
Electrical
Equipment
HAZARD
Tells what the hazard is.
Electrical Discharge
High voltage equipment is utilized in the process. Arcing in
the vicinity of flammable or
combustible materials may occur. Personnel are exposed to
high voltage during operation
and maintenance.
Protection against inadvertent
arcing that may cause a fire or
explosion is lost if safety circuits
are disabled during operation.
Frequent power supply shutdown indicates a problem in the
system which requires correction.
An electrical arc can ignite coating materials and cause a fire or
explosion.
SAFEGUARDS
Tells how to avoid the hazard.
Unless specifically approved for use in hazardous
locations, the power supply, control cabinet, and all
other electrical equipment must be located outside
Class I or II, Division 1 and 2 hazardous areas in
accordance with NFPA-33 and EN 50176.
Turn the power supply OFF before working on the
equipment.
Test only in areas free of flammable or combustible material.
Testing may require high voltage to be on, but only
as instructed.
Production should never be done with the safety
circuits disabled.
Before turning the high voltage on, make sure no
objects are within the sparking distance.
Toxic Substances
Chemical Hazard
Certain materials may be harmful if inhaled, or if there is contact with the skin.
Follow the requirements of the Material Safety
Data Sheet supplied by coating material manufacturer.
Adequate exhaust must be provided to keep the
air free of accumulations of toxic materials.
Use a mask or respirator whenever there is a
chance of inhaling sprayed materials. The mask
must be compatible with the material being
sprayed and its concentration. Equipment must be
as prescribed by an industrial hygienist or safety
expert, and be NIOSH approved.
5 LN-9267-11.3
RMA-303 Dual Purge Direct Charge - Safety
AREA
Tells where haz-
HAZARD
Tells what the hazard is.
ards may occur.
Spray Area Explosion Hazard—
Incompatible Materials
Halogenated hydrocarbon solvents for example: methylene
chloride and 1,1,1,Trichloroethane are not chemically compatible with the aluminum that might be used in many
system components. The
chemical reaction caused by
these solvents reacting with aluminum can become violent and
lead to an equipment explosion.
SAFEGUARDS
Tells how to avoid the hazard.
Aluminum is widely used in other spray application
equipment - such as material pumps, regulators,
triggering valves, etc. Halogenated hydrocarbon
solvents must never be used with aluminum equipment during spraying, flushing, or cleaning. Read
the label or data sheet for the material you intend
to spray. If in doubt as to whether or not a coating
or cleaning material is compatible, contact your
coating supplier. Any other type of solvent may be
used with aluminum equipment.
LN-9267-11.3 6
RMA-303 Dual Purge Direct Charge - Safety
N O T E S
7 LN-9267-11.3
RMA-303 Dual Purge Direct Charge - Introduction
INTRODUCTION
FEATURES
Features which make the RMA-303 advantageous for use in electrostatic applications
include:
•
True dual purge capability. Spray one
color while cleaning the other paint line
with no loss of tip voltage.
•
Assembly components made of durable
engineered resin material for optimum
mechanical strength and solvent resistance.
•
Heavy duty design insures excellent
service life even when subjected to the
quick motions of robotic applications.
•
Proven long life turbine motor capable of
speeds up to 70 krpm. (See
“Specifications” in the “Introduction”
section of this manual for bell cup speed
ratings.)
•
Serrated and non-serrated bell cups are
available for application flexibility and color
match. All bell cups are made using
Titanium material. The 55mm bell cup is
also available in aluminum.
•
Aerodynamic design for ease of cleaning
external surfaces.
•
60° angled body provides more maneuverability and facilitates robotic programming.
•
Small light weight package allows better
maneuverability in tight areas.
•
The easily removable front and rear
shrouds, turbine assembly and the
internally mounted fluid valves, make off
-line maintenance more efficient and
economical.
•
Fast color changes are achieved using
center feed fluid delivery and the fluid
valves provide for simultaneous paint
push out while solvent washes the feed
tube and bell cup interior.
•
Internal and external bell wash is quick
and efficient. Solvent is controlled at the
feed tube with an internally mounted
solvent valve. Externally mounted
regulators control the flow.
•
Less waste to the spray booth, with the
dump valve located internally next to the
feed tube.
•
No external high voltage cable. The
internally mounted high voltage cascade
requires only low voltage control wiring.
•
Compact high voltage control system.
The MicroPak™ Cascade control takes
only 1/4 of the space in a 19-inch Euro
rack, leaving room for additional control
modules.
•
Various adapter plates available to match
most robotic mounting configurations.
•
Direct charging of fluid (solvent borne
paint) promotes high transfer efficiency.
•
Large range of fluid tip sizes available.
•
•
Negligible maintenance down time. With
the quick disconnect feature, an atomizer
can be exchanged in less than 2 minutes
for off-line maintenance.
LN-9267-11.3 8
Optional repulsion ring and shroud for
tighter pattern control and less overspray.
RMA-303 Dual Purge Direct Charge - Introduction
plate is the high voltage cascade.
Bell Plate Assembly
The bell plate assembly is designed to be at
ground potential when mounted to the robot
plate component within the tubing bundle assembly. The air and fluid ports are compactly
oriented for use in robotic applications. The
interior air supplies are ported through the five
support rods and also directly to the air manifold assembly. On the exterior side of the bell
Figure 1: RMA-303 Dual Purge Robot Mounted
Rotary Atomizer– Direct Charge. With and without
Repulsion Ring.
GENERAL DESCRIPTION
Bell Cup Assembly
All bell cups are made of high strength Titanium. They are available in 65mm serrated,
non-serrated for base coat applications. A
30mm and 55mm aluminum bell cup is available.
Air Bearing Turbine Assembly
The air bearing turbine assembly with bell cup
is mounted to the air manifold assembly with
a turbine retaining ring.
Air Manifold Assembly
The atomizer extension is angled at 60˚ for
robot applications. The fluid feed tube and
fiber optic turbine speed emitter are threaded
into the front of the manifold. The turbine,
fluid, and air manifolds are separated from the
bell plate assembly by five support rods.
Nested between the manifolds and the bell
plate, the ports are provided with O-ring seals
so that the atomizer can be quickly mated and
secured to the robot plate.
Robot Plate
The robot plate is a component of the tubing
bundle assembly and intended to be permanently mounted to the robot. A wrist adapter
is also available, which matches the robot’s
mounting configuration. The incoming air
lines, fluid lines, low voltage cable, and fiber
optic cable are connected to the fittings provided on the back of the robot plate. The bell
plate of the atomizer assembly is secured to
the robot plate with a threaded retaining ring.
Valve Manifold
Configured to allow two colors to be loaded at
one time. The manifold can be converted for
single paint supply by installing valve port
plugs (77620-00 Valve Plug Kit).
Break-Away Feature (Optional)
The RMA-303 can be converted to have a
break-away feature. By replacing the five (5)
stainless steel screws with five (5) special designed plastic screws (77524-00). This feature minimizes the damage to the atomizer,
robot, etc. If a collision occurs, the five (5)
plastic break-away screws fail and the atomizer will break free. This will leave the breakaway ring and the mounting ring attached to
the robot. (The applicator will fall to the booth
9 LN-9267-11.3
grate or floor).
Power Supply and Controls
The high voltage cascade is located inside the
applicator and is controlled by the MicroPak
control unit. The low voltage output of the MicroPak is multiplied by the internal cascade to
the high voltage level required. This eliminates the need for a high voltage cable. A low
voltage cable interconnects the cascade and
MicroPak control. The MicroPak format is designed to fit in a conventional 19-inch or 10inch rack and requires a 24V power input at a
maximum 3 amps. The MicroPak and the internal cascade will produce voltages up to
100,000 VDC.
RMA-303 Dual Purge Direct Charge - Introduction
The MicroPak is designed to electronically limit current to provide safe operation in a spray
booth. The voltage and current draw of the
atomizer are continuously displayed on the
MicroPak control panel. Voltage and overcurrent limits are adjustable on the front of the
MicroPak. MicroPak internal safety circuits
will shut down the system on over-current and
cable faults.
With additional control modules, all of the
functions of the RMA-303 and MicroPak can
be controlled by a programmable controller. A
Serial Atomizer Module pneumatically controls
the speed of the rotary atomizer with dynamic
feedback through a fiber optic transmitter located on the applicator. A Serial Digital Module pneumatically controls the paint, solvent,
and dump valves located on the atomizer. An
I/O module provides communication between
these modules and the PLC.
The above modules are mounted in one 19inch rack and interconnected through a common mother board.
LN-9267-11.3 10
RMA-303 Dual Purge Direct Charge - Introduction
SPECIFICATIONS - Electrical / Mechanical
Electrical
Power Supply Type: MicroPak
Charging Method: Direct
Output Voltage: 30-100 kV Variable
Output Current: 125 µA
Turbine Speed Control: Atomizer Module
Part Spray ability: Determine spray ability of part to be coated using Test
Equipment (76652) (Paint Conductivity Meter)
Mechanical
Length: (See RMA-303 Tool Point, Center of Gravity, and Enve -
lope Dim ensions (Single and Dual Flex) figure in the
“Introduction” section.)
Diameter: (See RMA-303 Tool Point, Center of Gravity, and Enve -
lope Dim ensions (Single and Dual Flex) figure in the
“Introduction” section.)
Approximate Weight
Atomizer Only: 17.3 lbs. (7.83 Kg) max.
Total Payload with
Robot Plate & Adapter: 20.1 lbs. (9.12 Kg) max.
Turbine Type: Air Bearing Impulse Drive
Turbine Air Supply: Variable (See “Pressure Flow Data Charts” in the
“Introduction” section.)
Maximum/Minimum Turbine Speed: Continuous 70K rpm max./20K rpm min.
Maximum Angular Velocity
for Turbine (Robot Motion): 250°/sec.
Tubing Bundle Max. Rotation: 450° in Either Direction
Bearing Air Supply at the Applicator: 90 psig (±10 psi)
(Nominal): 621 kPa ±69 kPa) 2.9 SCFM (82 slpm)
Shaping Air #1 (SAI) Supply: Variable (See “Pressure Flow Data Charts” in the
“Introduction” section.)
Shaping Air #2 (SAO) Supply: Variable (See “Pressure Flow Data Charts” in the Intro duction” section.)
Brake Air Supply (Nominal): 60-100 psig (414-689 kPa)