Ransburg, Fluid valve control, Turbine speed – Ransburg RMA Indirect A11600 User Manual

FLUID VALVE CONTROL

(Trigger, Dump, and Solvent)

(See "Figure 2 - Circuit Diagram" in the "Intro-duc-

tion" section.) The fluid valves in the RMA-303

are actuated by an air signal. The air pressure

must be greater than 70 psi (482.6 kPa) to assure

proper actuation of the valve. Applying air to the

valve actuator turns on the fluid or air for that valve.

The paint trigger valve controls the paint flow to

the bell. When actuated, paint flows through the

valve to the fluid tube, and into the rear of the

bell cup. The bell cup must be spinning at least

30,000 rpm when fluid is turned on to enable the

fluid to flow through the bell paint passage and

be atomized.

The dump valve controls the paint flow through the

dump line. When actuated, paint flow is directed

to the dump return line. This provides a method

of rapidly removing paint from the incoming line

for cleaning and/or color change. Normally, the

dump valve is not actuated at the same time as

the paint trigger valve since the trigger valve is

intended to cause the fluid to flow to the bell at

the prescribed input pressure.

The solvent valve controls the flow of cup wash

solvent. When actuated, solvent flows through a

seperate fluid tube passage and into the bell cup

. This provides cleaning of the inside of the bell

cup. The outside of the cup is simultaneously

cleaned by a nozzle mounted on the shaping air

ring and shroud. The solvent valve should never

be triggered at the same time as the paint trigger

valve to prevent solvent from flowing backward

into the paint line.

The cup wash air valve controls the flow of air. It

is recommended that this valve and the solvent

TURBINE SPEED

Turbine speed is determined by the input air pres-

sure/flow at the rear of the atomizer.

Turbine speed is intended to be closed loop

controlled using the fiber optic speed transmitter,

located on the turbine manifold. A speed input

to a remote speed controller, such as the Serial

Atomizer module, is required. (See "Speed and

Pressure" charts in the "Introduction" section.)

valve be controlled to create an air/solvent chop

sequence for superior internal and external cup

cleaning.

To color change the applicator, a solvent/air chop

must be provided through the main paint line. (See

"Figure 5 - Typical Installation" in the "Installation"

section.)

> The normal fluid flow range is 25-700 cc/

min. During a color change or when flush-

ing the system, higher flow rates may be

required. However, the maximum flow rate

through the bell cup must not exceed 700 cc/

min. to avoid solvent or paint from flooding

into the internal portion of the air bearing

motor assembly or front shroud.

W A R N I N G

!

> Never perform the interior/exterior cup

clean process with high voltage on (direct

charge only).

W A R N I N G

!

NOTE

> The bell rotational speed determines

the quality of atomization and can be

varied for various paint flow rates and

paint formulations. For optimum transfer

efficiency and spray pattern control, the

bell rotational speed should be set at

the minimum required to achieve proper

atomization.

Excessive speed reduces

transfer efficiency!

RMA-303 Indirect Charge - Operation

Ransburg

33

LN-9252-06.4