Introduction, Ransburg, The ransburg electrostatic vector aa90 process – Ransburg Vector AA90 79581 Classic User Manual

Vector AA90 Applicators - Introduction

Ransburg

11

AH-07-01.9

THE RANSBURG

ELECTROSTATIC

VECTOR AA90 PROCESS

This is a combined air/airless method for electro-

statically applying coatings to objects. The

Vector

AA90 system applies a high voltage DC charge to

the applicator electrode, creating an electrostatic

field between the electrode and the grounded tar-

get. The target is electrically grounded through its

support which may be either stationary or moving.

A regulated high pressure fluid system delivers

coating material to the fluid nozzle and is atomized

by passing through an orifice under pressure.

The atomized spray particles become electrically

charged under the influence of the electrostatic

field surrounding the nozzle. The air supply to

the applicator aids in shaping the coating material

into a desired pattern. The charged particles are

attracted to and deposited on the target object.

The forces between the charged particles and the

grounded target are sufficient to turn most normal

overspray around and deposit it on the back sur-

face of the target. Therefore, a high percentage

of the coating is deposited on the target.

One of the many features of the Vector AA90

applicator system is that the electrical energy,

which is available from the resistive charging

electrode, is limited to the optimum level of safety

and efficiency. The system is incapable of releas-

ing sufficient electrical or thermal energy during

normal operating conditions to cause ignition of

specific hazardous materials in their most easily

ignited concentrations in air

.

The power supply provides voltage output to the

applicator and contains controls for AC on/off,

high voltage adjust, "one touch" triple setpoint,

and displays kV and µA in real time.

As the applicator electrode approaches ground,

INTRODUCTION

>

When more than one waterborne

applicator is fed from a common isolat-

ed fluid supply, there is a potential for

electrical energy discharge through any

other applicators when one applicator is

triggered. Depending upon the system

capacity, this discharge could be hazard-

ous. Install only one spray applicator per

isolated fluid supply system.

W A R N I N G

!

the power supply and applicator circuitry cause

the high voltage to approach zero while the current

approaches its maximum value.