Automatic gun applications, Error log (f11), Dynamic flow rate set point control – Ransburg DynaFlow User Manual User Manual

LN-9400-00.9

ERROR LOG (F11)

- Also See Section on Error Codes

Each ERROR CODE can represent a CHANNEL,

GUN or system error. See the Troubleshooting

section for list of error codes. It is possible for

more than one code to be issued at the same time.

The Interface Module stores ten (10) previous

error codes until they are read by the Local

Operator Interface program at which time they

are automatically purged from its log. The Local

Operator Interface program stores one hundred

(100) previous error codes until they are manu-

ally cleared by the operator. The operator may

also save the error codes to a floppy diskette for

later analysis.

A PLC may obtain the current error conditions via

RIO at any time, but it must maintain its own log.

AUTOMATIC GUN

APPLICATIONS

Automatic applicators use automatic means to

vary the fluid flow through the use of transducers

and material regulators. When used with single-

component materials and an automatic spray

applicator, the DynaFlow controller regulates total

material flow.

When used with two-component materials, the

DynaFlow controller regulates both the total fluid

flow rates to the applicator and the mixing ratios.

Each CHANNEL of the two-component material

is programmed with predetermined values.

The following conditions must be met in order for

the GUN to allow fluid flow:

1. There must be no system faults or GUN

faults active.

2. There must be valid GUN configurations.

3. The proper inputs must be supplied.

When a GUN is placed in the RUN MODE, the

controller sends a signal to the transducer to open

to the MVR LOW setting (default = 0 VDC). On the

first receipt of a trigger signal, the master channel

immediately starts its closed loop (PID) control

and updates the information to the transducer at

a rate determined by the PID Update Time (default

= 30ms) to adjust the actual flow rate to match

the target flow.

At the same time, in a two-component system, the

slave channel (catalyst) also closes its PID control

loop and matches the actual flow rate to the target

flow rate as determined by the requested flow rate

ratio of the Master CHANNEL (resin) and slaved

CHANNEL (catalyst).

Both channels run closed loop, independently

of each other. If either CHANNEL is not able to

achieve the required target flow rate, a FLOW TOO

LOW or FLOW TOO HIGH fault will be issued by

the controller for the offending channel.

After an amount of material has passed through

the Master CHANNEL (set by the TOLERANCE

VOLUME parameter), the DynaFlow controller

compares that volume with the volume of the

catalyst that flowed during that volume interval. If

the ratio is outside of the tolerance as set by the

FLOW TOLERANCE parameter, the DynaFlow

controller will issue an OUT OF TOLERANCE

fault for the offending GUN.

Dynamic Flow Rate Set Point Control

Dynamic Flow Rate Set Point Control is useful

for changing flow rates of a material to achieve

different coating thickness over different areas of

the same part. Several examples are shown in

the "Analog Control Settings chart" in this section.

In automatic GUN applications, the total flow rate

set point for the GUN may be varied in real time

using either of two methods; Remote I/O (RIO)

or Analog Input. If the RIO Set Point is zero and

Analog Input Set Point is less than 0.25 volts, the

Total Flow Rate set point comes from the JOB.

DynaFlow

TM

User Manual - Operation

44