Cartridge operation/features, Shade guide settings – Lincoln Electric IM10082 VIKING 1840 SERIES AUTO-DARKENING HELMETS User Manual

CARTRIDGE OPERATION/FEATURES

Variable Shade Control
The shade can be adjusted from shade 9 to 13 based upon welding process or
application (refer to Shade selection chart on page 6). The variable shade control
knob is mounted on the exterior of the helmet shell. Grind mode can be selected
by rotating the shade control knob counterclockwise till an audible click is heard.
Grind mode is intended for grinding only not for welding.

Sensitivity Knob
You can adjust the light sensor by turning the Sensitivity knob to the left or right as
shown in figure below. Generally, turning the knob all the way to the right, or the
highest setting, is selected for normal use. When the helmet is used in the pres-
ence of excess ambient light or with another welding machine close by, improved
helmet performance can be obtained with a lower setting turning the knob to the
left to reduce the sensitivity.

Delay Time Knob
This control is designed to protect the welder’s eyes from the strong residual
rays after welding. Changing the Delay Time knob will vary dark to light time
between 0.1 second (minimum) to 1.0 second (maximum). Turning the Delay
Time knob to the left is maximum (1.0 second). This setting is recommended for
high amperage applications where the weld puddle is still very bright after the
welding arc has ceased and for situations where the filter may be temporarily
blocked from seeing the welding arc.

Solar Power
This helmet is powered by solar energy. There are no user replaceable batteries.

Variable shade
Control Knob

5

ANSI Z87.1

CAN/CSA Z94.3

LABS

S

2

7

9

7

8

-6

SENSITIVITY

DELAY TIME

4/9-13 TM 1/1/1/2 EN379

700G / 1840 ADF

ANSI Z87.1

CAN/CSA Z94.3

LABS

S2

79

78

-6

SENSITIVITY

DELAY TIME

4/9-13 TM 1/1/1/2 EN379

700G / 1840 ADF

ALWAYS TEST TO BE SURE THE ADF CARTRIDGE IS CHARGED
BEFORE WELDING. The helmet can be placed in sunlight to charge. Do
not store the helmet in a dark cabinet or other storage area for long periods.
While welding, the arc also charges the ADF cartridge.

SHADE GUIDE SETTINGS

If your helmet does not include any one of the shades referenced above, it is
recommended you use the next darker shade.

6

NT1

GUIDE FOR SHADE NUMBERS

OPERATION

ELECTRODE SIZE

ARC

MINIMUM

SUGGESTED(1)

1/32 in. (mm)

CURRENT (A)

PROTECTIVE

SHADE NO.

SHADE

(COMFORT)

Shielded metal arc

Less than 3 (2.5)

Less than 60

7

–

welding

3-5 (2.5–4)

60-160

8

10

5-8 (4–6.4)

160-250

10

12

More than 8 (6.4)

250-550

11

14

Gas metal arc

Less than 60

7

–

welding and flux

60-160

10

11

cored arc welding

160-250

10

12

250-500

10

14

Gas tungsten arc

Less than 50

8

10

welding

50-150

8

12

150-500

10

14

Air carbon

(Light)

Less than 500

10

12

Arc cutting

(Heavy)

500-1000

11

14

Plasma arc welding

Less than 20

6

6 to 8

20-100

8

10

100-400

10

12

400-800

11

14

Plasma arc cutting

(Light)

(2)

(2)

(2)

Less than 300

8

9

(Medium)

300-400

9

12

(Heavy)

400-800

10

14

Torch brazing

–

–

3 or 4

Torch soldering

–

–

2

Carbon arc welding

–

–

14

PLATE THICKNESS

in.

mm

Gas welding

Light

Under 1/8

Under 3.2

4 or 5

Medium

1/8 to 1/2

3.2 to 12.7

5 or 6

Heavy

Over 1/2

Over 12.7

6 or 8

Oxygen cutting

Light

Under 1

Under 25

3 or 4

Medium

1 to 6

25 to 150

4 or 5

Heavy

Over 6

Over 150

5 or 6

(1) As a rule of thumb, start with a shade that is too dark, then go to a lighter shade which gives sufficient view of the weld zone without going

below the minimum. In oxyfuel gas welding or cutting where the torch produces a high yellow light, it is desirable to use a filter lens that absorbs

the yellow or sodium line the visible light of the (spectrum) operation

(2) These values apply where the actual arc is clearly seen. Experience has shown that lighter filters may be used when the arc is hidden by the

workpiece.

.

Data from ANSI Z49.1-2005

NT1

GUIDE FOR SHADE NUMBERS

OPERATION

ELECTRODE SIZE

ARC

MINIMUM

SUGGESTED(1)

1/32 in. (mm)

CURRENT (A)

PROTECTIVE

SHADE NO.

SHADE

(COMFORT)

Shielded metal arc

Less than 3 (2.5)

Less than 60

7

–

welding

3-5 (2.5–4)

60-160

8

10

5-8 (4–6.4)

160-250

10

12

More than 8 (6.4)

250-550

11

14

Gas metal arc

Less than 60

7

–

welding and flux

60-160

10

11

cored arc welding

160-250

10

12

250-500

10

14

Gas tungsten arc

Less than 50

8

10

welding

50-150

8

12

150-500

10

14

Air carbon

(Light)

Less than 500

10

12

Arc cutting

(Heavy)

500-1000

11

14

Plasma arc welding

Less than 20

6

6 to 8

20-100

8

10

100-400

10

12

400-800

11

14

Plasma arc cutting

(Light)

(2)

(2)

(2)

Less than 300

8

9

(Medium)

300-400

9

12

(Heavy)

400-800

10

14

Torch brazing

–

–

3 or 4

Torch soldering

–

–

2

Carbon arc welding

–

–

14

PLATE THICKNESS

in.

mm

Gas welding

Light

Under 1/8

Under 3.2

4 or 5

Medium

1/8 to 1/2

3.2 to 12.7

5 or 6

Heavy

Over 1/2

Over 12.7

6 or 8

Oxygen cutting

Light

Under 1

Under 25

3 or 4

Medium

1 to 6

25 to 150

4 or 5

Heavy

Over 6

Over 150

5 or 6

(1)

As a rule of thumb, start with a shade that is too dark, then go to a lighter shade which gives sufficient view of the weld zone without going

below the minimum. In oxyfuel gas welding or cutting where the torch produces a high yellow light, it is desirable to use a filter lens that absorbs
the yellow or sodium line the visible light of the (spectrum) operation

(2)

These values apply where the actual arc is clearly seen. Experience has shown that lighter filters may be used when the arc is hidden by the
workpiece.

.

Data from ANSI Z49.1-2005