4t.06 mechanized torch operation, 4t.06 mechanized torch operation t-7, Cutmaster 102 – Tweco 102 Cutmaster User Manual

CUTMASTER 102

Manual 0-4997

OPERATION

4T-7

Standoff Distance

The tip to work distance affects gouge quality and depth.

Standoff distance of 1/8 - 1/4 inch (3 - 6 mm) allows for

smooth, consistent metal removal. Smaller standoff dis-

tances may result in a severance cut rather than a gouge.

Standoff distances greater than 1/4 inch (6 mm) may result

in minimal metal removal or loss of transferred main arc.

Slag Buildup

Slag generated by gouging on materials such as carbon and

stainless steels, nickels, and alloyed steels, can be removed

easily in most cases. Slag does not obstruct the gouging

process if it accumulates to the side of the gouge path.

However, slag build - up can cause inconsistencies and

irregular metal removal if large amounts of material build

up in front of the arc. The build - up is most often a result

of improper travel speed, lead angle, or standoff height.

4T.06 Mechanized Torch Operation

Cutting With Mechanized Torch

The mechanized torch can be activated by remote control

pendant or by a remote interface device such as CNC.

1. To start a cut at the plate edge, position the center of

the torch along the edge of the plate.

Travel Speed

Proper travel speed is indicated by the trail of the arc which

is seen below the plate. The arc can be one of the following:

1. Straight Arc

A straight arc is perpendicular to the workpiece surface.

This arc is generally recommended for the best cut using

air plasma on stainless or aluminum.

2. Leading Arc

The leading arc is directed in the same direction as torch

travel. A five degree leading arc is generally recommended

for air plasma on mild steel.

3. Trailing Arc

The trailing arc is directed in the opposite direction as

torch travel.

Standoff Distance

Straight Arc

Trailing Arc

Leading Arc

Direction of Torch Travel

A-02586

Mechanized Torch Operation

For optimum smooth surface quality, the travel speed

should be adjusted so that only the leading edge of the arc

column produces the cut. If the travel speed is too slow,

a rough cut will be produced as the arc moves from side

to side in search of metal for transfer.

Travel speed also affects the bevel angle of a cut. When

cutting in a circle or around a corner, slowing down the

travel speed will result in a squarer cut. The power source

output should be reduced also. Refer to the appropriate

Control Module Operating Manual for any Corner Slow-

down adjustments that may be required.

Piercing With Machine Torch

To pierce with a machine torch, the arc should be started

with the torch positioned as high as possible above the

plate while allowing the arc to transfer and pierce. This

standoff helps avoid having molten metal blow back onto

the front end of the torch.

When operating with a cutting machine, a pierce or dwell

time is required. Torch travel should not be enabled until

the arc penetrates the bottom of the plate. As motion be-

gins, torch standoff should be reduced to the recommended

1/8 - 1/4 inch (3-6 mm) distance for optimum speed and

cut quality. Clean spatter and scale from the shield cup

and the tip as soon as possible. Spraying or dipping the

shield cup in anti - spatter compound will minimize the

amount of scale which adheres to it.