Manuals / Lincoln Electric / Power Tools / Welder

Lincoln Electric IM420-D manual Connection of DC-1000 to NA-5, S16889 90F

Models: IM420-D

1 35
Download 35 pages 8.87 Kb
Page 26
Image 26

F-3

DIAGRAMS

F-3

 

CONNECTION OF DC-1000 to NA-5

 

 

 

 

 

 

 

 

 

 

T O N A - 5 I N P U T

 

 

 

 

N . J .

 

 

N . F .

C A B L E P L U G

 

 

 

 

 

 

 

 

 

C O N T R O L C A B L E

2 1

4

2

3 1

3 2

7 3

7 4

7 5

7 6

7 7

3 2

}

 

A

 

 

B

 

N . FE .

C

 

 

3 1

 

 

2

 

 

4

 

 

G N D

 

 

N E G A T I V E

 

P O S I T I V E

 

2 1

 

 

 

 

 

 

 

 

 

 

N . B . & N . C .

N . K .

 

 

N .

D .

 

 

 

 

 

 

 

 

B O L T T O C A B L E S

 

 

 

F R O M N A - 5 W I R E

 

 

N . A .

C O N T A C T A S S E M B L Y

 

 

}

 

 

 

 

 

C O N N E C T T O W O R K

 

 

 

 

N . C . &

N . H .

S16889

8-2-90F

Above diagram shows electrode connected positive. To change polarity turn power off, reverse the electrode and work leads at the power source, position the positive - negative switch on the power source to correspond to the polarity of the electrode cable connection. Refer to NA-5 operating manual for required NA-5 control box polarity connections.

N.A. Welding cables must be of proper capacity for the cur- rent and duty cycle of immediate and future applica- tions.

N.B. Extend lead 21 using #14 or larger insulated wire phys- ically suitable for the installation. An S16586-[ ] remote voltage sensing work lead is available for this purpose. Connect it directly to the work piece keeping it separate from the welding work cable connection to work piece.

For convenience, this extended #21 lead should be taped along the welding work cable.

N.C. Tape up bolted connection.

N.D. Connect the NA-5 control cable ground lead to the

frame terminal marked near the power source ter- minal strip. The power source must be properly ground- ed.

N.E. If using an older automatic control cable with leads 75, 76, 77: Connect lead 75 to #75 on terminal strip, con- nect lead #76 to #74 on terminal strip, connect lead #77 to #73 on terminal strip.

N.F. Connect the jumpers on the NA-5 voltage board as fol- lows: Connect RED jumper to pin “S”, Connect WHITE jumper to pin “B”.

N.G. Set the DC-1000 or DC-1500 controls as follows: Set the control switch to “Output Control Remote”. For Submerged Arc Processes set the switch to “C.V. Submerged Arc”. For Open Arc Processes, set the mode switch to “C.V. Innershield”.

N.H. For proper operation, the electrode cable must be snugged under the clamp bar on the left side of the NA- 5 control box.

N.J. Terminals #73 and #74 were not present on DC-1500

machines below code 8294. These earlier code machines are not suitable for use with the NA-5.

N.K. Alternative 500 amp positive terminal connection pro- vided on DC-1000 models above code 9500 only.

N.L. Alternate submerged arc mode available for improved arc stability in high current, large puddle, slow travel procedures by making special connections on both DC- 1500 and NA-5.

On DC-1500 Control Board (G1530-2 and superseding) remove red and blue jumpers from “FR” pins and reconnect to corresponding “SR” pins.

On NA-5 Voltage Board (G1556-1 and superseding) white jumper must be connected to pin “D”.

NA-5 pin “D” connection may also be used for some proce- dures on DC-1500 without control board jumpers, DC-1500 with control board jumpers on “FR” pins or DC-1000.

IDEALARC® DC-1000

Page 25 Page 27
Page 26
Image 26
Lincoln Electric IM420-D manual Connection of DC-1000 to NA-5, S16889 90F
Page 25 Page 27

IM420-D specifications

The Lincoln Electric IM420-D is a high-performance industrial welding machine that offers advanced features and technologies tailored for demanding welding environments. Designed for arc welding applications, the IM420-D is a versatile solution suitable for various welding processes, including MIG, TIG, and stick welding. This flexibility makes it an excellent choice for both professional welders and industries that require a reliable and efficient welding system.

One of the standout features of the IM420-D is its impressive output range. With a maximum output of 420 amps, this machine can handle thick materials and deliver deep penetration, making it ideal for heavy-duty applications. The machine also provides consistent arc stability, ensuring high-quality welds with minimal spatter. This functionality is essential in maintaining productivity and reducing the need for post-weld cleanup.

The IM420-D incorporates advanced digital control technology that enhances user experience and precision. The intuitive interface allows operators to quickly adjust settings for voltage, wire feed speed, and other parameters, ensuring optimal performance for diverse welding tasks. Additionally, the machine is equipped with a memory function that saves preferred settings, enabling quick setup for repetitive jobs.

Another notable characteristic of the IM420-D is its robust construction. Built to withstand the rigors of a manufacturing environment, the machine features a durable casing designed to protect key components from dust, moisture, and impact. This reliability results in fewer maintenance issues and extended service life, contributing to lower operational costs over time.

The IM420-D also includes a range of safety features that prioritize operator protection. Overheat protection, voltage fluctuation safeguards, and high-quality electrical insulation ensure a safe working environment, minimizing the risk of accidents during operation.

In conclusion, the Lincoln Electric IM420-D is an exceptional welding machine that combines high output, advanced digital technology, and robust design. With its user-friendly controls and safety features, it meets the needs of professional welders and industries seeking efficiency and quality in their welding operations. Whether for manufacturing, construction, or repair work, the IM420-D stands out as a top-tier choice in the welding equipment market.