ESAB 251cv Power Source Instruction manual

Download

INSTRUCTION MANUAL

251cv

POWER SOURCE

F-15-358

July, 1998

251cv shown with optional Meter Kit and MT-250SG Spool-On-Gun Torch

This manual provides complete instructions for the following packages starting with Serial No. MORI808001:

36696 - 251cv, 200/230/460 Vac 60 Hz 36697 - 251cv, 230/460/575 Vac 60 Hz 36698 - 251cv, 220/400 (380/415) Vac 50 Hz

These INSTRUCTIONS are for experienced operators. If you are not fully familiar with the principles of operation and safe practices for arc welding equipment, we urge you to read our booklet, "Precautions and Safe Practices for Arc Welding, Cutting and Gouging." Form 52-529. Do NOT permit untrained persons to install, operate, or maintain this equipment. Do NOT attempt to install or operate this equipment until you have read and fully understand these Instructions. If you do not fully understand these Instructions, contact your supplier for further information.

Be sure this information reaches the operator. You can get extra copies through your supplier.

USER RESPONSIBILITY

This equipment will perform in conformity with the description thereof contained in this manual and accompanying labels and/or inserts when installed, operated, maintained and repaired in accordance with the instructions provided. This equipment must be checked periodically. Malfunctioning equipment should not be used. Parts that are broken, missing, worn, distorted or contaminated should be replaced immediately. Should such repair or replacement become necessary, the manufacturer recommends that a telephone or written request for service advice be made to the Authorized Distributor from whom purchased.

This equipment or any of its parts should not be altered without the prior written approval of the manufacturer. The user of this equipment shall have the sole responsibility for any malfunction which results from improper use, faulty maintenance, damage, improper repair or alteration by anyone other than the manufacturer or a service facility designated by the manufacturer.

TABLE OF CONTENTS

SECTION NO

PARAGRAPH TITLE PAGE NO.

SECTION 1 DESCRIPTION..................................................... 7

1.1 General................................................................. 7

1.2 Receiving-Handling .............................................. 7

1.3 Description ........................................................... 7

1.3.1 251cv Power Source............................................ 7

1.3.2 Optional Controls ................................................. 7

1.4 Optional Accessories ........................................... 7

1.4.1 MT-250SG Spool-on-Gun .................................... 7

1.4.2 ST-23A Spool-On-Gun Torch and Adaptor Kit .... 7

1.4.3 TR-24 and TR-251cv Trucks ............................... 7

1.4.4 Torch/Wire Feed Accessories ............................. 7

1.5 Safety ................................................................... 7

1.6 Duty Cycle and Curves ........................................ 7

1.7 Volt/Ampere Curves ............................................. 8

SECTION 2 INSTALLATION................................................... 9

2.1 Location................................................................ 9

2.1.1 Lifting Eyebolt....................................................... 9

2.2 Electrical Input Connections ................................ 9

2.2.1 Input Electrical Requirements.............................. 9

2.2.2 Input Conductor Connections ............................ 10

2.3 Output Welding Connections ............................. 10

2.4 Control Connections .......................................... 10

2.4.1 Wire Feeder Control........................................... 10

2.4.2 42V Circuit Breaker ............................................ 10

2.4.3 24V Circuit Breaker ............................................ 10

SECTION NO

PARAGRAPH TITLE PAGE NO.

SECTION 3 OPERATION ...................................................... 11

3.1 Controls .............................................................. 11

3.1.1 Power Switch (ON-OFF) .................................... 11

3.1.2 Contactor Control ............................................... 11

3.1.3 Voltage Panel/Remote Switch ........................... 11

3.1.4 Voltage Control .................................................. 11

3.1.3 Feeder Selector Switch ...................................... 11

3.2 Operating Procedures ........................................ 12

3.2.1 Operating Safety Precautions ............................ 12

3.2.2 Pre-Weld Requirements..................................... 12

3.2.3 Set-Up Procedure .............................................. 13

3.2.4 Welding Operation ............................................. 13

SECTION 4 MAINTENANCE................................................. 15

4.1 General............................................................... 15

4.2 Inspection and Service....................................... 15

4.3 Power Source..................................................... 15

4.3.1 Fan Motor ........................................................... 15

4.3.2 Transformer........................................................ 15

4.3.3 Over Temperature Protection ............................ 15

SECTION 5 TROUBLESHOOTING....................................... 16

5.1 General............................................................... 16

SECTION 6 PARTS ............................................................... 21

6.1 General............................................................... 21

6.2 Ordering ............................................................. 21

SAFETY PRECAUTIONS

WARNING: These Safety Precautions are for

your protection. They summarize precautionary information from the references listed in

Additional Safety Information section. Before performing any installation or operating procedures, be sure to read and follow the safety precautions listed below as well as all other manuals, material safety data sheets, labels, etc. Failure to observe Safety Precautions can result in injury or death.

PROTECT YOURSELF AND OTHERS -- Some welding, cutting, and gouging processes are noisy and require ear protection. The arc, like the sun, emits

ultraviolet (UV) and other radiation and can injure skin and eyes. Hot metal can cause burns. Training in the proper use of the processes and equipment is essential to prevent accidents. Therefore:

1. Always wear safety glasses with side shields in any work

area, even if welding helmets, face shields, and goggles are also required.

2. Use a face shield fitted with the correct filter and cover

plates to protect your eyes, face, neck, and ears from sparks and rays of the arc when operating or observing operations. Warn bystanders not to watch the arc and not to expose themselves to the rays of the electric-arc or hot metal.

3. Wear flameproof gauntlet type gloves, heavy long-sleeve

shirt, cuffless trousers, high-topped shoes, and a welding helmet or cap for hair protection, to protect against arc rays and hot sparks or hot metal. A flameproof apron may also be desirable as protection against radiated heat and sparks.

4. Hot sparks or metal can lodge in rolled up sleeves,

trouser cuffs, or pockets. Sleeves and collars should be kept buttoned, and open pockets eliminated from the front of clothing

5. Protect other personnel from arc rays and hot sparks

with a suitable non-flammable partition or curtains.

6. Use goggles over safety glasses when chipping slag or

grinding. Chipped slag may be hot and can fly far. Bystanders should also wear goggles over safety glasses.

FIRES AND EXPLOSIONS -- Heat from flames and arcs can start fires. Hot slag or sparks can also cause fires and explosions. Therefore:

1. Remove all combustible materials well away from the

work area or cover the materials with a protective nonflammable covering. Combustible materials include wood, cloth, sawdust, liquid and gas fuels, solvents, paints and coatings, paper, etc.

2. Hot sparks or hot metal can fall through cracks or

crevices in floors or wall openings and cause a hidden smoldering fire or fires on the floor below. Make certain that such openings are protected from hot sparks and metal.“

3. Do not weld, cut or perform other hot work until the

workpiece has been completely cleaned so that there are no substances on the workpiece which might produce flammable or toxic vapors. Do not do hot work on closed containers. They may explode.

4. Have fire extinguishing equipment handy for instant use,

such as a garden hose, water pail, sand bucket, or portable fire extinguisher. Be sure you are trained in its use.

5. Do not use equipment beyond its ratings. For example, overloaded welding cable can overheat and create a fire hazard.

6. After completing operations, inspect the work area to make certain there are no hot sparks or hot metal which could cause a later fire. Use fire watchers when necessary.

7. For additional information, refer to NFPA Standard 51B, "Fire Prevention in Use of Cutting and Welding Processes", available from the National Fire Protection Association, Batterymarch Park, Quincy, MA 02269.

ELECTRICAL SHOCK -- Contact with live electrical parts and ground can cause severe injury or death. DO NOT use AC welding current in damp areas, if movement is confined, or if there is danger of falling.

1. Be sure the power source frame (chassis) is connected to the ground system of the input power.

2. Connect the workpiece to a good electrical ground.

3. Connect the work cable to the workpiece. A poor or missing connection can expose you or others to a fatal shock.

4. Use well-maintained equipment. Replace worn or damaged cables.

5. Keep everything dry, including clothing, work area, cables, torch/electrode holder, and power source.

6. Make sure that all parts of your body are insulated from work and from ground.

7. Do not stand directly on metal or the earth while working in tight quarters or a damp area; stand on dry boards or an insulating platform and wear rubber-soled shoes.

8. Put on dry, hole-free gloves before turning on the power.

9. Turn off the power before removing your gloves.

10. Refer to ANSI/ASC Standard Z49.1 (listed on next page) for specific grounding recommendations. Do not mistake the work lead for a ground cable.

ELECTRIC AND MAGNETIC FIELDS — May be dangerous. Electric current flowing through any conductor causes localized Electric and Magnetic Fields (EMF). Welding and cutting current creates EMF around welding cables and welding machines. Therefore:

1. Welders having pacemakers should consult their physician before welding. EMF may interfere with some pacemakers.

2. Exposure to EMF may have other health effects which are unknown.

3. Welders should use the following procedures to minimize exposure to EMF: A. Route the electrode and work cables together. Secure

them with tape when possible. B. Never coil the torch or work cable around your body. C. Do not place your body between the torch and work

cables. Route cables on the same side of your body. D. Connect the work cable to the workpiece as close as

possible to the area being welded. E. Keep welding power source and cables as far away

from your body as possible.

11/95

FUMES AND GASES -- Fumes and gases, can cause discomfort or harm, particularly in confined spaces. Do not breathe fumes and gases. Shielding gases can cause asphyxiation. Therefore:

1. Always provide adequate ventilation in the work area by natural or mechanical means. Do not weld, cut, or gouge on materials such as galvanized steel, stainless steel, copper, zinc, lead, beryllium, or cadmium unless positive mechanical ventilation is provided. Do not breathe fumes from these materials.

2. Do not operate near degreasing and spraying operations. The heat or arc rays can react with chlorinated hydrocarbon vapors to form phosgene, a highly toxic gas, and other irritant gases.

3. If you develop momentary eye, nose, or throat irritation while operating, this is an indication that ventilation is not adequate. Stop work and take necessary steps to improve ventilation in the work area. Do not continue to operate if physical discomfort persists.

4. Refer to ANSI/ASC Standard Z49.1 (see listing below) for specific ventilation recommendations.

CYLINDER HANDLING -- Cylinders, if mishandled, can rupture and violently release gas. Sudden rupture of cylinder, valve, or relief device can injure or kill. Therefore:

1. Use the proper gas for the process and use the proper pressure reducing regulator designed to operate from the compressed gas cylinder. Do not use adaptors. Maintain hoses and fittings in good condition. Follow manufacturer's operating instructions for mounting regulator to a compressed gas cylinder.

2. Always secure cylinders in an upright position by chain or strap to suitable hand trucks, undercarriages, benches, walls, post, or racks. Never secure cylinders to work tables or fixtures where they may become part of an electrical circuit.

3. When not in use, keep cylinder valves closed. Have valve protection cap in place if regulator is not connected. Secure and move cylinders by using suitable hand trucks. Avoid rough handling of cylinders.

4. Locate cylinders away from heat, sparks, and flames. Never strike an arc on a cylinder.

5. For additional information, refer to CGA Standard P-1, "Precautions for Safe Handling of Compressed Gases in Cylinders", which is available from Compressed Gas Association, 1235 Jefferson Davis Highway, Arlington, VA 22202.

EQUIPMENT MAINTENANCE -- Faulty or improperly maintained equipment can cause injury or death. Therefore:

perform any electrical work unless you are qualified to perform such work.

2. Before performing any maintenance work inside a power source, disconnect the power source from the incoming electrical power.

3. Maintain cables, grounding wire, connections, power cord, and power supply in safe working order. Do not operate any equipment in faulty condition.

4. Do not abuse any equipment or accessories. Keep equipment away from heat sources such as furnaces, wet conditions such as water puddles, oil or grease, corrosive atmospheres and inclement weather.

5. Keep all safety devices and cabinet covers in position and in good repair.

6. Use equipment only for its intended purpose. Do not modify it in any manner.

ADDITIONAL SAFETY INFORMATION -- For more information on safe practices for electric arc welding and cutting equipment, ask your supplier for a copy of "Precautions and Safe Practices for Arc Welding, Cutting and Gouging", Form 52-529.

The following publications, which are available from the American Welding Society, 550 N.W. LeJuene Road, Miami, FL 33126, are recommended to you:

1. ANSI/ASC Z49.1 - "Safety in Welding and Cutting"

2. AWS C5.1 - "Recommended Practices for Plasma Arc Welding"

3. AWS C5.2 - "Recommended Practices for Plasma Arc Cutting"

4. AWS C5.3 - "Recommended Practices for Air Carbon Arc Gouging and Cutting"

5. AWS C5.5 - "Recommended Practices for Gas Tungsten Arc Welding“

6. AWS C5.6 - "Recommended Practices for Gas Metal Arc Welding"“

7. AWS SP - "Safe Practices" - Reprint, Welding Handbook.

8. ANSI/AWS F4.1, "Recommended Safe Practices for Welding and Cutting of Containers That Have Held Hazardous Substances."

This symbol appearing throughout this manual means Attention! Be Alert! Your safety is

involved.

The following definitions apply to DANGER, WARNING, CAUTION found throughout this manual:

Used to call attention to immediate hazards which, if not avoided, will result in immediate, serious personal injury or loss of life.

Used to call attention to potential hazards which could result in personal injury or loss of life.

1. Always have qualified personnel perform the installation, troubleshooting, and maintenance work. Do not

Used to call attention to hazards which could result in minor personal injury.

PRÉCAUTIONS DE SÉCURITÉ

AVERTISSEMENT: Ces règles de sécurité ont pour objet d’ assurer votre protection. Veillez à lire et à observer les précautions énoncées ci-dessous avant de monter l’ équipement ou de commercer à l’utiliser. Tout défaut d’observation de ces précautions risque d’entraîner des blessures graves ou mortelles.

1. PROTECTION INDIVIDUELLE-- Les brûlures de la peau et des yeux dues au rayonnement de l’arc électrique ou du métal incandescent, lors du soudage au plasma ou à l’électrode ou lors du gougeage à l’arc, peuvent s’avérer plus graves que celles résultant d’une exposition prolongée au soleil. Aussi convient-il d’observer les précautions suivantes:

a. Portez un écran facial adéquat muni des plaques

protectrices et des verres filtrants appropriés afin de vous protéger les yeux, le visage, le cou et les oreilles des étincelles et du rayonnement de l’arc électrique lorsque vous effectuez des soudures ou des coupes ou lorsque vous en observez l’exécution.

AVERTISSEZ les personnes se trouvant à proximité

de façon à ce qu’elles ne regardent pas l’arc et à ce qu’elles ne s’exposent pas à son rayonnement, ni à celui du métal incandescent.

b. Portez des gants ignifugés à crispins, une tunique

épaisse à manches longues, des pantalons sans rebord, des chaussures à embout d’acier et un casque de soudage ou une calotte de protection, afin d’éviter d’exposer la peau au rayonnement de l’arc électrique ou du métal incandescent. ll est également souhaitable d’utiliser un tablier ininflammable de façon à se protéger des étincelles et du rayonnement thermique.

c. Les étincelles ou les projections de métal incandes-

cent risquent de se loger dans des manches retroussées, des bords relevés de pantalons ou dans des poches. Aussi convient-il de garder boutonnés le col et les manches et de porter des vêtements sans poches à l’avant.

d. Protégez des étincelles et du rayonnement de l’arc

électrique les autres personnes travaillant à proximité à l’aide d’un écran ininflammable adéquat.

e. Ne jamais omettre de porter des lunettes de sécurité

lorsque vous vous trouvez dans un secteur où l’on effectue des opérations de soudage ou de coupage à l’arc. Utilisez des lunettes de sécurité à écrans ou verres latéraux pour piquer ou meûler le laitier. Les piquetures incandescentes de laitier peuvent être projetées à des distances considérables. Les personnes se trouvant à proximité doivent également porter des lunettes de protection.

f. Le gougeage à l’arc et le soudage à l’arc au plasma

produisent un niveau de bruit extrêmement élevé (de 100 à 114 dB) et exigent par conséquent l’emploi de dispositifs appropriés de protection auditive.

2. PRÉVENTION DES INCENDES-- Les projections de laitier incandescent ou d’étincelles peuvent provoquer de graves incendies au contact de matériaux combustibles solides, liquides ou gazeux. Aussi faut-il observer les précautions suivantes:

a. Éloigner suffisamment tous les matériaux combus-

tibles du secteur où l’on exécute des soudures ou des coupes à l’arc, à moins de les recouvrir complètement d’une bâche non-inflammable. Ce type de matériaux comprend notamment le bois, les vêtements, la sciure, l’essence, le kérosène, les peintures, les solvants, le gaz naturel, l’acétylène, le propane et autres substances combustibles semblables.

b. Les étincelles ou les projections de métal incandes-

cent peuvent tomber dans des fissures du plancher ou dans des ouvertures des murs et y déclencher une ignition lente cachée. Veiller à protéger ces ouvertures des étincelles et des projections de métal.

c. N’exécutez pas de soudures, de coupes, d’opérations

de gougeage ou autres travaux à chaud à la surface de barils, bidons, réservoirs ou autres contenants usagés, avant de les avoir nettoyés de toute trace de substance susceptible de produire des vapeurs inflammables ou toxiques.

d. En vue d’assurer la prévention des incendies, il

convient de disposer d’un matériel d’extinction prêt à servir immédiatement, tel qu’un tuyau d’arrosage, un seau à eau, un seau de sable ou un extincteur portatif.

e. Une fois le travail à l’arc terminé, inspectez le secteur

de façon à vous assurer qu’aucune étincelle ou projection de métal incandescent ne risque de provoquer ultérieurement un feu.

3. CHOC ÉLECTRIQUE-- Le gougeage à l’arc et à l’arc au plasma exige l’emploi de tensions à vide relativement importantes; or, celles-ci risquent de causer des dommages corporels graves et même mortels en cas d’utilisation inadéquate. La gravité du choc électrique reçu dépend du chemin suivi par le courant à travers le corps humain et de son intensité.

a. Ne laissez jamais de surfaces métalliques sous ten-

sion venir au contact direct de la peau ou de vêtements humides. Veillez à porter des gants bien secs.

b. Si vous devez effectuer un travail sur une surface

métallique ou dans un secteur humide, veillez à assurer votre isolation corporelle en portant des gants secs et des chaussures à semelles de caoutchouc et en vous tenant sur une planche ou une plate-forme sèche.

c. Mettez toujours à la terre le poste de soudage/coupage

en le reliant par un câble à une bonne prise de terre.

d. N’utilisez jamais de câbles usés ou endommagés. Ne

surchargez jamais le câble. Utilisez toujours un équipement correctement entretenu.

e. Mettez l’équipement hors tension lorsqu’il n’est pas en

service. une mise à la masse accidentelle peut en effet provoquer une surchauffe de l’équipement et un danger d’incendie. Ne pas enrouler ou passer le câble autour d’une partie quelconque du corps.

f. Vérifiez si le câble de masse est bien relié à la pièce en

un point aussi proche que possible de la zone de travail. Le branchement des câbles de masse à l’ossature du bâtiment ou en un point éloigné de la zone de travail augmente en effet le risque de passage d’un courant de sortie par des chaînes delevage

9/97

des câbles de grue ou divers chemins électriques.

g. Empêchez l’apparition de toute humidité, notamment

sur vos vêtements, à la surface de l’emplacement de travail, des câbles, du porte-électrode et du poste de soudage/coupage. Réparez immédiatement toute fuite d’eau.

4. VENTILATION-- La respiration prolongée des fumées résultant des opérations de soudage/coupage, à l’intérieur, d’un local clos, peut provoquer des malaises et des dommages corporels. Aussi convient-il d’observer les précautions suivantes:

a. Assurez en permanence une aération adéquate de

l’emplacement de travail en maintenant une ventilation naturelle ou à l’aide de moyens mécaniques. N’effectuez jamais de travaux de soudage ou de coupage sur des matériaux de zinc, de plomb, de beryllium ou de cadmium en l’absence de moyens mécaniques de ventilation capables d’empêcher l’inhalation des fumées dégagées par ces matériaux.

b. N’effectuez jamais de travaux de soudage ou de

coupage à proximité de vapeurs d’hydrocarbure chloré résultant d’opérations voisines de dégraissage ou de pulvérisation. La chaleur dégagée ou le rayonnement de l’arc peut déclencher la formation de phosgène -- gaz particulièrement toxique -- et d’autres gaz irritants, à partir des vapeurs de solvant.

c. Une irritation momentanée des yeux, du nez ou de la

gorge constatée au cours de l’utilisation de l’équipement dénote un défaut de ventilation. Arrêtezvous de travailler afin de prendre les mesures nécessaires à l’amélioration de la ventilation. Ne poursuivez pas l’opération entreprise si le malaise persiste.

d. Certaines commandes comportent des canalisations

où circule de l’hydrogène. L’armoire de commande est munie d’un ventilateur destiné à empêcher la formation de poches d’hydrogène, lesquelles présentent un danger d’explosion; ce ventilateur ne fonctionne que si l’interrupteur correspondant du panneau avant se trouve placé en position ON (Marche). Veillez à manœuvrer cette commande en vérifiant si le couvercle est bien en place, de façon à assurer l’efficacité de la ventilation ainsi réalisée. Ne jamais débrancher le ventilateur.

e. Les fumées produites par l’opération de soudage ou

de coupage peuvent s’avérer toxiques. Aussi est-il nécessaire de disposer en permanence d’un dispositif adéquat de ventilation de type aspirant, afin d’éliminer du voisinage de l’opérateur tout dégagement de fumée visible.

f. Consultez les recommandations particulières en

matière de ventilation indiquées à l’alinéa 6 de la norme Z49.1 de l’AWS.

5. ENTRETIEN DE L’ÉQUIPEMENT-- Un équipement entretenu de façon défectueuse ou inadéquate risque non seulement de réaliser un travail de mauvaise qualité mais, chose plus grave encore, d’entraîner

des dommages corporels graves, voire mortels en déclenchant des incendies ou des chocs électriques. Observez par conséquent les précautions suivantes:

a. Efforcez-vous de toujours confier à un personnel qua-

lifié l’installation, le dépannage et l’entretien du poste de soudage et de coupage. N’effectuez aucune réparation électrique sur l’équipement à moins d’être qua-lifié à cet effet.

b. Ne procédez jamais à une tâche d’entretien

quelconque à l’intérieur du poste de soudage/ coupage, avant d’avoir débranché l’alimentation électrique.

c. Maintenez en bon état de fonctionnement les câbles,

le câble de masse, les branchements, le cordon d’alimentation et le poste de soudage/coupage. N’utilisez jamais le poste ou l’équipement s’il présente une défectuosité quelconque.

d. Prenez soin du poste de soudage et de coupage et

des équipements accessoires. Gardez-les à l’écart des sources de charleur, notamment des fours, de l’humidité, des flaques d’eau maintenez-les à l’abri des traces d’huile ou de graisse, des atmosphères corrosives et des intempéries.

e. Laissez en place tous les dispositifs de sécurité et tous

les panneaux de l’armoire de commande en veillant à les garder en bon état.

f. Utilisez le poste de soudage/coupage conformément à

son usage prévu et n’effectuez aucune modification.

6. INFORMATIONS COMPLÉMENTAIRES RELATIVES À LA SÉCURITÉ--

Pour obtenir des informations complémentaires sur les

règles de sécurité à observer pour le montage et l’utilisation d’équipements de soudage et de coupage électriques et sur les méthodes de travail recommandées, demandez un exemplaire du livret N° 52529 “Precautions and Safe Practices for Arc Welding, Cutting and Gouging” publié par ESAB. Nous conseillons également de consulter les publications sui-vantes, tenues à votre disposition par l’American Welding Society, 550 N.W. LeJuene Road, Miami, FL 32126:

a. “Safety in Welding and Cutting” AWS Z49.1 b. “Recommended Safe Practices for Gas-Shielded Arc

Welding “AWS A6. 1.

c. “Safe Practices for Welding and Cutting Containers

That Have Held Combustibles” AWS-A6.0.

d. “Recommended Safe Practices for Plasma Arc Cut-

ting” AWS-A6. 3.

e. “Recommended Safe Practices for Plasma Arc Weld-

ing” AWS-C5. 1.

f. “Recommended Safe Practices for Air Carbon Arc

Gouging and Cutting” AWS-C5. 3.

g. “Code For Safety in Welding and Cutting”

CSA-Standard W117. 2.

9/97

SECTION 1 DESCRIPTION

1.1 GENERAL

This manual has been prepared especially for use in familiarizing personnel with the design, installation, operation, maintenance, and troubleshooting of this equipment. All information presented here in should be given careful consideration to assure optimum performance of this equipment.

1.2 RECEIVING-HANDLING

Prior to installing this equipment, clean all packing material from around the unit and carefully inspect for any damage that may have occurred during shipment. Any claims for loss or damage that may have occurred in transit must be filed by the purchaser with the carrier. A copy of the bill of lading and freight bill will be furnished by the carrier on request if occasion to file claim arises.

When requesting information concerning this equipment, it is essential that Part, Serial and Model Numbers of the equipment be supplied.

1.3 DESCRIPTION

The 251cv Power Source has been designed for fine wire, (0.023, 0.030, 0.035 and 0.045 in.) welding using the short arc method, as well as for spray arc aluminum, short arc and spray arc stainless steel and spray arc cored wires. It also has a built-in control for operating an optional spool-on-gun and has provisions for an optional undercarriage with single cylinder rack or a dual cylinder rack.

1.3.1 251cv POWER SOURCE

The power source consists of a single phase transformer, single phase full wave controlled rectifier, stabilizing reactor, filtering capacitors and internal output connections for polarity reversal. See front cover for list of available 251cv power sources.

1.3.2 OPTIONAL CONTROLS

The 251cv can be used to weld hard and aluminum wire with an optional MT-250SG spool-on-gun torch. The optional spool-on-gun adaptors and control, when used in conjunction with the optional MT-250SG torch, permits aluminum wire welding with the machine.

1.4 OPTIONAL ACCESSORIES

1.4.1 MT-250SG SPOOL-ON-GUN TORCH, P/N 36779

The 251CV unit is equipped with a control for the MT250SG Spool-On-Gun welding torch. This is a high performance, 250 ampere continuous duty spool-on-

gun torch designed for the mig welding process. It is completely portable (up to 30-ft.), air-cooled and hand operated, and weighs less than three (3) pounds which allows for great maneuverability and operator convenience. The gun is equipped with three thirty (30) foot service lines; control cable with amphenol plug, power cable with twist-lock connector, gas hose for direct connection to gas cylinder.

1.4.2 ST-23A SPOOL-ON-GUN TORCH, P/N 19164; ADAPTOR KIT ST-23A TO 251cv P/N 37301

The ST-23A Spool-On-Gun torch can also be used with the 251cv but the adaptor kit, P/N 37301, will be required. The adaptor is equipped with a gas hose for hooking up to a flowmeter.

1.4.3 TR-24 SINGLE CYLINDER TRUCK KIT, P/N 37300 or TR-251cv DUAL CYLINDER TRUCK KIT, P/N 36700

Provides complete mobility for power source. Each kit includes handle, 4 castors, and 1 or 2 gas cylinder brackets.

1.4.4 METER KIT, P/N 36699

LCD meter has volt/amp selector switch to display actual welding voltage or current. Mounts easily to the front control panels of 251cv power source.

1.5 SAFETY

Before the equipment is put into operation, the safety section at the front of this manual should be read completely. This will help avoid possible injury due to misuse or improper welding applications.

The symbol which precedes safety notes appearing throughout this manual means “Attention! Be Alert! Your safety is involved.” The definitions relating to the DANGER, WARNING and CAUTION safety notations are described at the end of the Safety Section in the front of this manual -- read them and their specific text references carefully.

1.6 DUTY CYCLE AND CURVES (Figure 1.1)

The duty cycle of the equipment is the percentage of a 10 minute period which it can operate at a given output current without overheating. The 251cv Power Source is rated at 40% duty cycle. This means that the equipment can be operated at 250 amperes for four minutes out of every 10. This cycle can be repeated indefinitely (See Figure 1.1).

SECTION 1 DESCRIPTION

TABLE 1-1. SPECIFICATIONS

POWER SOURCE 251cv

Rated Output 250 Amps @ 30 Volts d.c. Duty Cycle, 40%

Primary Input, Volts AC 200/230/460; 230/460/575; 220/400(380/415) Primary Input, Amperes 52/58/31; 58/31/25; 59/34(36/32) Output Current Range 30 to 300 Amps. Maximum Open Circuit Volts 36 v.d.c.

PHYSICAL

Net Weight 138 lbs (63 Kg.) Height 20.9 inches (530 mm) Width 12.9 inches (330 mm) Depth 26.1 inches (660 mm)

1.7 VOLT/AMPERE CURVES (Figure 1.2)

The Volt/Ampere curves show the output voltage available at any given output current for the various Voltage Selector positions.

RATED OUTPUT

300

250

200

The actual operating point of load voltage and current is determined by type of process, electrode, shield gas, wire feed speed, and operating technique.

VOLTS

WELDING AMPERES

150

20 25 30 35 40 50 60 70 80 90 100

% DUTY CYCLE

Fig. 1.1 Duty Cycle Curves

AMPS

Figure 1.2 Volt/Ampere Curves

SECTION 2 INSTALLATION

2.1 LOCATION

A proper installation site should be selected for the welding machine, if the unit is to provide dependable service and remain relatively maintenance free.

A proper installation site permits freedom of air movement into and out of the welding machine, and also least subjects the unit to dust, dirt, moisture, and corrosive vapors. A minimum of 18 inches (46 cm) unrestricted space must be maintained between the welding machine side and rear panels and the nearest obstruction.

The installation site should also permit easy removal of the welding machine outer enclosure for maintenance functions.

CAUTION: Do not place any filtering device over the

intake air passages of the welding machine as this would restrict the volume of intake air and thereby subject the welding machine internal components to an overheating condition and subsequent failure. Warranty is void if any type of filtering device is used.

If a forklift vehicle is used for lifting the unit, be sure that the lift forks are long enough to extend completely under the base.

2.1.1 LIFTING EYEBOLT

To install lifting eyebolt furnished with the power source, proceed as follows.

A. Remove the hole plug from the nut in the cover. B. Install the eyebolt and fully tighten with a suitable

tool.

The lifting eyebolt is to be used for lifting power source only. Do not use when additional accessories are attached to the power source.

If lifting eyebolt is not installed, the hole must be plugged to prevent entry of dirt and water.

2.2 ELECTRICAL INPUT CONNECTIONS

It is recommended that a line disconnect switch be installed in the input circuit to the welding machine. This would provide a safe and convenient means to completely remove all electrical power from the welding machine whenever it is necessary to perform any internal function on the unit.

Before making electrical input connections to the welding machine, “Machinery Lockout Procedures” should be employed. If the connections are to be made from a line disconnect switch, the switch should be padlocked in the off position. If the connection is made from a fusebox, remove the fuses from the box and padlock the cover in the closed position. If locking facilities are not available, attach a red tag to the line disconnect switch (or fuse box) to warn others that the circuit is being worked on.

2.2.1 INPUT ELECTRICAL REQUIREMENTS

The power source is a single-phase unit and must be connected to a single-phase power supply. The unit should be operated on a dedicated circuit to prevent impairment of performance due to an overloaded circuit. The primary input voltage requirements are noted on the unit’s rating plate.

Customers Fused Line Disconnect Switch (See Table 2.1 for recommended fuses)

Figure 2.1 Primary Voltage Diagram

SECTION 2 INSTALLATION

DANGER

HIGH

VOLTAGE

* Double Links

Figure 2.2 - Input Terminal Board

(208/230/460V Illustrated in the 460 Volt Configuration)

2.2.2 INPUT CONDUCTOR CONNECTIONS

The unit is provided with a three conductor primary input cable without plug. The ground lead (green) of this cable should be connected to a reliable ground and the two remaining wires (black and white) should be connected to the separately fused lines of the disconnect or breaker. See Table 2.1 for recommended fuse sizes to use in the disconnect.

All units leave the factory with their primary electrical input requirements internally-connected for the highest voltage rating available (e.g.: 460-volt for the 200/230/ 460-volt units; and 575-volt for the 230/460/575-volt units).

Remove right side panel from unit and locate the input terminal board (see Figure 2.2). If the unit is to be operated from another input voltage, the links on the input terminal board must be reset for that particular input voltage. Always verify the input voltage and check the link arrangement regardless of factory setting. The voltage links are setup by reconfiguring the copper link bars to the silkscreened voltage designation for the desired voltage.

TABLE 2.1 Recommended Input Fuse Size

Full

Primary Load

Input Line Fuse Volts Amperes Size

208 52 90 230 58 90 380 36 50 400 34 50 415 32 50 460 31 40 575 25 30

2.3 OUTPUT WELDING CONNECTIONS (SECONDARY)

Before making any connections to the power source output terminals, make sure that all primary input power to the machine is off.

The output terminals are located on the front panel (Figure 2-3). Two output terminals are provided. The NEGATIVE (-) terminal is located on the left side and the POSITIVE (+) terminal is located on the right side. The output cable connections will depend on the materials to be welded and on the welding process desired. Table 22 provides the recommended cable output sizes. Keep welding cables as short as possible.

Table 2-2. Output Cable Sizes (Secondary)

Welding Total Length (Feet) of Current Cable in Weld Circuit*

50 100 150 200 250

100 6 4 3 2 1/0 150 4 3 1 1/0 2/0 200 3 1 1/0 2/0 3/0 250 2 1/0 2/0 3/0 4/0 300 1 2/0 3/0 4/0 4/0 400 2/0 3/0 4/0 4/0 2-2/0 500 3/0 3/0 4/0 2-2/0 2-3/0

* Total cable length includes work and electrode cables. Cable size

is based on direct current, insulated copper conductors, 100percent duty cycle and a voltage drop of 4 or less volts. The welding cable insulator must have a voltage rating that is high enough to withstand the open circuit voltage of the machine.

2.4 CONTROL CONNECTIONS

Refer to Figure 2-3.

2.4.1 Wire Feeder Control

The Wire feeder control cable connection is provided by a 19-pin receptacle (J1) located at the center of the power source front panel. This receptacle will operate ESAB wire feeders with 19 pin control cables including the Mig 2E, Mig 4HD, Mobile Master 2cv and Mobile Master 2cvcc.

2.4.2 - 42V Circuit Breaker (CB2)

The 42V resettable circuit breaker (CB2) located on the power source front panel protects the 42 volt wire feeder/ control circuitry against over current. (Table 5-1 provides troubleshooting information).

2.4.3 - 24V Circuit Breaker (CB1)

The 24V resettable circuit breaker located on the power source front panel (CB1) protects the 24 volt control circuitry against over current. (Table 5-1 provides troubleshooting information.

SECTION 3 OPERATION

3.1 CONTROLS (See Figure 3.1)

3.1.1 POWER SWITCH (ON-OFF) (I-O)

The power switch on the front panel energizes the primary of the main transformer and the low voltage circuity with the switch in the "ON" ("I") position. The white READY light will light up.

When the unit overheats or exceeds the duty cycle, the white light will shut off and output operations will shut down. The fan will continue to run to cool the unit down.

3.1.2 CONTACTOR CONTROL

The solid state contactor is used to energize the output terminals. This contactor is controlled on and off with the torch trigger.

Because of the charged capacitor bank in the secondary circuit, the output voltage will take a few seconds before falling to zero volts.

3.1.3 VOLTAGE, PANEL/REMOTE SWITCH

With this switch in the "Panel" position, output voltage is controlled by adjusting the voltage control knob on the front panel to the desired output. In the "Remote" position, output is controlled at the wire feeder or remote control.

3.1.4 VOLTAGE CONTROL

This control allows the operator to adjust the output voltage. Placing the Panel/Remote switch in the "Remote" position disables the voltage control on the front panel

3.1.5 FEEDER SELECTOR SWITCH

This switch selects the control for either a wire feeder connected to receptacle J1 or the spool gun connected to J2.

Power source contactor becomes energized the moment the torch trigger is depressed. Arcing can occur if the wire is brought to a ground or workpiece. Always keep the torch away from ground or the workpiece until welding is to begin.

LOCATION FOR OPTIONAL METER KIT

READY LIGHT

NEGATIVE OUTPUT CABLE CONNECTION

5A CIRCUIT BREAKERS

POWER ON/OFF SWITCH

OUTPUT VOLTAGE CONTROL

PANEL/REMOTE SWITCH

SPOOL GUN/

WIRE FEEDER SWITCH

3A FUSE

SPOOL GUN CONNECTION

POSITIVE OUTPUT CABLE CONNECTION

WIRE FEEDER CONTROL CABLE CONNECTION

Figure 3.1 - Control and Cable Connections

SECTION 3 OPERATION

3.2 OPERATING PROCEDURES

3.2.1 OPERATING SAFETY PRECAUTIONS

Comply with all ventilation, fire and other safety requirements for arc welding as established in the SAFETY Section at the front of this manual.

Also remember the following:

A. Because of the radiant energy of the welding arc and

the possibility of drawing an arc before the helmet is lowered over the face, the operator should wear flash goggles with filter lenses under his helmet. The helmet filter plate should be shade number 11 (nonferrous) or 12 (ferrous). All those viewing the arc should use helmets with filter plates, as well as flash goggles. Nearby personnel should wear flash goggles.

B. The radiant energy of the arc can decompose

chlorinated solvent vapors, such as trichloroethylene and perchlorethylene, to form phosgene, even when these vapors are present in low concentrations. DO NOT weld where chlorinated solvents are present in atmospheres in or around the arc.

C. DO NOT touch the electrode, nozzle or metal parts

in contact with them when power is ON: all are electrically energized (HOT) and can possibly cause a fatal shock. DO NOT allow electrode to touch grounded metal: it will create an arc flash that can injure eyes. It may also start a fire or cause other damage.

D. When working in a confined space, be sure it is safe

to enter. The confined space should be tested for adequate oxygen (at least 19%) with an approved oxygen measuring instrument. The confined space should not contain toxic concentrations of fumes or gases. If this cannot be determined, the operator should wear an approved air supplied breathing apparatus.

Avoid gas leaks in a confined space, as the leaked gas can dangerously reduce oxygen concentration in the breathing air.

E. Never operate the equipment at currents greater

than the rated ampere capacity. Overheating will occur.

F. Never operate equipment in a damp or wet area

without suitable insulation for protection against shock. Keep hands, feet and clothing dry at all times.

G. Whenever the equipment is left unattended, turn all

control and power source switches and gas supplies OFF and open the main line switch.

H. Wear dark substantial clothing to protect exposed

skin from arcburn, sparks and flying hot metal.

I. Turn off welding power before adjusting or replacing

electrodes.

Never operate the welding machine with any portion of the outer enclosure removed. In addition to an electrical shock hazard, improper cooling may result in damage to the welding transformer and the welding machine components. Warranty is void if the machine is operated with any portion of the outer enclosure removed.

3.2.2 PRE-WELD REQUIREMENTS

Before welding commences, with all power OFF, check the following:

A. All safety requirements have been read and under-

stood.

B. All hoses and cables are in good condition, safely

insulated and securely connected.

C. Turn on gas supply by slowly opening cylinder valve

to full ON.

D. Correct size wire accessories have been installed on

the wire feeder, wire pressure set, and guide tube is installed for type and size wire you plan to use, refer to Tables 1.2 and 1.3.

DO NOT bring gas cylinders into confined spaces.

When leaving a confined space, shut OFF gas supply at the source to prevent gas from leaking into the space, if the switch is accidently kept depressed. Check the breathing atmosphere in the confined space to be sure it is safe to reenter.

E. Spool of correct size wire is locked in place, brake

tension is set, and wire is properly threaded through the inlet guide to the torch tip.

F. Make sure that the metal to be welded is properly

prepared:

a. Remove loose surface rust, scale or paint with

wire brush or sander.

SECTION 3 OPERATION

b. Attempting to weld over grease or oil can cause

weld defects.

c. Before welding on aluminum, be sure to clean

surface thoroughly using a stainless steel brush.

3.2.3 SET-UP PROCEDURE

A. Determine the base plate material, wire type and

plate thickness to be welded.

B. Set VOLTAGE control and WIRE FEED speed con-

trol (ipm) on the wire feeder to the recommended settings. If fine tuning is required while welding, adjust the VOLTAGE control.

Only qualified personnel should make these changes. Make certain the primary power has been disconnected and all safety procedures have been followed before proceeding with these instructions.

3.2.4 WELDING OPERATION

A. Turn Power switch (on unit) to ON (I) position -- be

careful not to operate the torch switch.

NOTE: The 251cv features an automatic fan that ener-

gizes only to protect components from overheating. The fan will continue to run until the components are cooled sufficiently.

B. Before starting the weld, the welding wire should

extend about 1/2-inch beyond the end of the nozzle. Adjust this length by either clipping off the end of the wire with insulated cutters or by using the torch switch.

Power source solid state contactor becomes energized the moment the torch trigger is depressed. Arcing can occur if the wire is brought to a ground. Keep the torch away from ground until welding is to begin.

C. To start the weld, hold the torch so the welding wire

is approximately 1/4-in. from the work, then press the torch trigger.

D. The welding wire should be pointed into the joint

at angles of approximately 45° for fillet welds, and approximately 90° for butt welds, (Fig 3.2).

E. The torch angle relative to the length of the weld

should be approximately 10° from the vertical (Fig.

3.3).

F. When welding in the vertical position, traveling either

up or down, it is very important to keep the arc on the leading edge of the puddle to ensure complete penetration.

G. Some welders who are accustomed to welding with

stick electrodes may tend to push the torch into the weld. This is neither necessary nor desirable, since the wire electrode is being mechanically fed into the weld.

H. To stop the weld, release the trigger and pull the torch

from the work. When leaving equipment unattended, always shut OFF and disconnect all input power and shut off shielding gas at source.

This equipment is provided with a thermostat in the transformer windings which will open and prevent the contactor from closing if the transformer windings are overheated. If the thermostat opens, the ready light will go out. Allow the equipment to idle with fan running until the light comes back on before attempting to weld again.

SECTION 3 OPERATION

45°

90°

FILLET WELD BUTT WELD

Figure 3.2 - Continuous Weld Conditions

10° 10°

TRAVEL

Figure 3.3 - Angle of Welding Wire with Joint

SECTION 4 MAINTENANCE

Keep power cables dry, free of oil and grease, and

4.1 GENERAL

Be sure the branch circuit or main disconnect switch is off or electrical input circuit fuses are removed before attempting any inspection or work on the inside of the welding machine. Placing the power switch on the welding machine in the OFF position does not remove all power from inside of the equipment.

protected at all times from damage by hot metal and sparks.

Clean dirt and metal particles from drive roll groove weekly; replace roll if badly worn.

4.3 POWER SOURCE

It is recommended that the rectifier be cleaned occasionally by blowing it out with compressed air. This cleaning operation is necessary so that maximum cooling will be accomplished by the air stream. This should be done periodically, depending upon the location of the unit and the amount of dust and dirt in the atmosphere.

Inspection, troubleshooting and repair of this equipment may ordinarily be undertaken by a competent individual having at least general experience in the maintenance and repair of semi-conductor electronic equipment. Maintenance or repair should not be undertaken by anyone not having such qualifications.

Shut OFF shielding gas supply at source.

To aid in checking and servicing, use Schematic, Figure

5.1.

4.2 INSPECTION AND SERVICE

Keep Equipment in clean and safe operating condition free of oil, grease, and (in electrical parts) liquid and metallic particles which can cause short-circuits.

Regularly check cylinder valves, regulators, hoses, and gas connections for leaks with soap solution.

Check for and tighten loose hardware including electrical connection. Loose power connections overheat during welding.

Immediately replace all worn or damaged power cables and connectors. Check for frayed and cracked insulation, particularly in areas where conductors enter Equipment.

The hermetically sealed silicon rectifiers are specially designed for welding machine use and will not age or deteriorate in use. The diodes are mounted on a heat sink. A periodic cleaning of dust and dirt from these is necessary to insure cooling of the rectifiers. Access is by removal of top cover and side panels. Should any rectifier accidentally be damaged and need replacement, it can be quickly removed from the heat sink. The replacement should be of the same type as the one removed, and should be locked securely to the sink, preferably with a torque wrench set for maximum of 25 ft. lbs. and a minimum of 20 ft. lbs. Excessive torque will distort the mechanical structure and may break the hermetic seal, whereas too little torque will result in improper electrical connections.

4.3.1 FAN MOTOR

All models are equipped with an exhaust fan and rely on forced draft for adequate cooling for high duty cycles and overloads.

4.3.2 TRANSFORMER

Occasional blowing out of the dust and dirt from around the transformer is recommended. This should be done periodically depending upon the location of the unit and the amount of dust and dirt in the atmosphere. The welding machine case cover should be removed and a clean, dry air stream should be used for this cleaning operation.

The electrode wire and all metal parts in contact with it are electrically energized while welding. Inspect these parts periodically for defective insulation and other electrical hazards.

If uninsulated cable and parts are not replaced, an arc caused by a bared cable or part touching a grounded surface may damage unprotected eyes or start a fire. Body contact with a bared cable, connector, or uncovered conductor can shock, possible fatally.

If it should become necessary to replace this or any other circuit breaker in the welding machine, ensure that the proper size is used as a replacement.

4.3.3 OVER-TEMPERATURE PROTECTION

The machine is equipped with 2 over-temperature thermostats. On continued high current application, if a thermostat reaches an abnormally high temperature, it will deenergize the contactor, the READY light on the front panel will go off and the fan will continue to run. This thermostat will reset itself automatically after the transformer windings have cooled to a safe level and the READY light will come back on. While deenergized, neither the contactor nor wire feeder can be operated.

SECTION 5 TROUBLESHOOTING

5.1 GENERAL TROUBLESHOOTING

If welding equipment doesnt work right despite compliance with checklist inspect as follows:

A. With all power controls ON and other operating

controls at required settings, visually check all power cables and connections for evidence of overheating or sparking.

To avoid shock, do NOT touch electrode wire or parts in contact with it, or uninsulated cable or

connections.

B. Isolate trouble to one part of the welding installation:

primary power supply, power source, Feeder or wire guide train (casing, drive rolls, liners and contact tip).

If this inspection indicates trouble in the Feeder, use Troubleshooting Guide, in the feeder manual.

Many troubleshooting situations require that the power remain On and that power terminals in the equipment carry voltage. Exercise extreme caution when working on LIVE equipment. Avoid contact with electrical components, except when testing with an appropriate instrument.

Do not make any repairs to equipment unless you are fully qualified, as described in the maintenance section.

SECTION 5 TROUBLESHOOTING

TABLE 5.1 TROUBLESHOOTING GUIDE

WELD CONDITION POSSIBLE CAUSE REMEDY

1. No weld or control power. a. Primary input power not available. a. Check for Voltage at primary input. b. Faulty connection, primary input b. Repair or replace cable or switch

cable, or power switch as necessary.

c. Blown line fuse. c. Replace fuse. If it blows again,

contact ESAB representative.

2. No welding power. a. Thermostat has opened. a. Wait 15 minutes with fan running. If

still no power, contact ESAB repre-

sentative. b. Shorted S.C.R. in main rectifier. b. Check S.C.R. and replace if reqd. c. Open in wiring c. Check all wiring.

3. Fan does not run. No a. See Weld Condition 1. a. Repair or replace cable or switch problem - thermostatically as necessary. controlled fan.

b. Defective fan motor (MTR1) b. Replace fan motor (MTR1).

4. Erratic welding current. a. Poor workpiece connection. a. Check workpiece connection.

b. Loose welding connections. b. Check all connections. c. Wrong polarity. c. Check for correct polarity.

5. Welding output Voltage a. Low line Voltage. a. Use correct voltage. and/or current too low. b. Welding cables too long or too b. Use correct cable size.

small.

c. Loose connection. c. Check all welding cable

connections.

d. Defective capacitor bank. d. Check capacitors for low

leakage resistance.

6. Stringy irregular bead, a. Torch moved too fast. a. Move torch slower along seams. poor penetration. b. Controls are not set properly for b. Reset control properly.

metal gauge thickness.

c. Wrong polarity. c. Check for correct polarity.

7. Bead not centered. a. Nozzle not aligned. a. Move torch nozzle parallel to

and centered over seam.

8. Bead too large. a. Torch moved too slowly. a. Move torch faster along seam.

9. Unstable arc, excess a. Incorrectly set controls. a. Reset controls. spatter, weld porous.

b. Shield gas flow is too low or b. See Condition 10.

stopped.

c. Torch nozzle is too far from work. c. Maintain 1/4" (6 mm) wire

tip to work; hold closer to work.

d. Faulty regulator or adapter. d. Check flow at outlet;

replace faulty item.

e. Faulty gas solenoid valve. e. Replace solenoid valve.

f. Wrong polarity. f. Check polarity.

SECTION 5 TROUBLESHOOTING

TABLE 5.1 TROUBLESHOOTING GUIDE (cont.)

WELD CONDITION POSSIBLE CAUSE REMEDY

10.Shield gas flow low or a. Cylinder valve closed. a. Turn off regulator. Slowly open stopped cylinder valve, until regulator gauge

indicates pressure. b. Cylinder empty. b. Replace cylinder if gauge so indicates. c. Faulty regulator or adaptor. c. Check flow at outlet; replace

faulty item. d. Faulty gas solenoid valve. d. Replace solenoid valve.

11.Wire stubs on work a. Controls not set properly for a. Reset controls properly. while welding. metal gauge, thickness.

12.Wire burns back into a. Contact tip loose. a. Firmly tighten with pliers. contact tip. b. Tip too close to work. b. Maintain 1/4" (.6 cm) wire

protrusion; hold Torch further from work.

c. Wire feed slipping. c. Increase pressure on pressure

roll by adjusting pressure knob.

d. Contact tip damaged. d. Trim back tip 1/16" (1.6 cm) max.

Replace if still faulty. e. Voltage setting too high. e. Adjust setting. f. Drive or pressure roll dirty or worn. f. Clean rolls or replace.

13.Wire does not feed; motor a. Kink, etc. in wire, or wire bound a. Straighten; or feed wire until running (drive roll turns). on reel. clear and cut off.

b. Wire freezing to contact tip b. Free freeze, or remove contact

(burnback). tip feed wire until clear cut end free,

and replace tip.

c. Clogged liner. c. Replace liner.

14.Wire does not feed; a. Motor a. With wire speed dial on 700, motor NOT running press trigger. If voltage (drive roll does not turn). appears across motor leads

but motor does not run, check motor gears and commutator areas.

b.Power switch SW1 and fuses. b. With SW1 ON, if voltage

across terminal 1 and 3 is 24 VAC, switch and fuses are good.

c. Speed Potentiometer. c. Check for 10K ohms across

POT outside terminals.

d. Malfunctioning main control board. d. Replace main control board.

15.Wire feed does not stop. a. Torch trigger switch. a. Check continuity of Torch trigger

circuit; check to see if trigger lever is stuck in ON position.

b. Main PCB. b. Check for proper operation.

16.Gas continues to flow a. Gas solenoid valve stuck open. a. Tap solenoid or click on and off after trigger release. to clear valve.

Figure 5.1 - Schematic Diagram, 251cv Power Source, All Models

D-37309-B

Figure 5.2 - Wiring Diagram, 251cv Power Source, All Models

D-37310-B

SECTION 6 REPLACEMENT PARTS

6.1 GENERAL

Always provide the series or serial number of the unit on which the parts will be used. The serial number is stamped on the unit nameplate.

6.2 ORDERING

To assure proper operation, it is recommended that only genuine ESAB parts and products be used with this equipment. The use of non-ESAB parts may void your warranty.

Replacement parts may be ordered from your ESAB distributor or from:

ESAB Welding & Cutting Products Attn: Customer Service Dept. PO Box 100545, Ebenezer Road Florence, SC 29501-0545

Be sure to indicate any special shipping instructions when ordering replacement parts.

To order parts by phone, contact ESAB at 1-843-664-

5540. Orders may also be faxed to 1-800-634-7548. Be sure to indicate any special shipping instructions when ordering replacement parts.

Refer to the Communication Guide on the back page for a list of customer service phone numbers.

SECTION 6 REPLACEMENT PARTS

11, 19

9, 10

7, 8

Figure 6-1. 251cv Power Source, Front View

(20) - Male Plug, not shown (21) - Eye Bolt, not shown

SECTION 6 REPLACEMENT PARTS

Parts List for Figure 6-1. 251cv Power Source, Front View

Item Qty. Part Circuit No. Req. No. Description Symbol

1 1 36795GY Base 2 1 32284GY Front Panel 3 2 13733935 Terminal Assembly, Output OTB 4 1 952209 Receptacle, 19-Pin J1 5 1 647233 Receptacle J2 6 2 634518 Switch, SPDT, 2 Pos, 15A (Seal, Black-951474) S1, S2 7 1 634709 Fuseholder 8 1 950553 Fuse, 3 Amp F1 9 1 950584 Knob Skirted 10 1 13730632 Potentiometer, 10K 2W R1 11 1 37306YL Cover, Top 12 1 34141GY Cover, Option (optional Meter Kit shown) 13 1 952206 Light Indicator 28V White PL1 14 2 2062161 Circuit Breaker 5A CB1, 2 15 1 36107 Switch, Power 600V 63A with knob S3 16 1 954008 Label, Danger High Voltage 17 2 13734588 Logo, ESAB, Clear 18 1 2091514 Label, Warning 19 1 954747 Label, Schematic (Inside Top Cover) 20 2 13733936 Quick Connector L Male 2 AWG - 1/0 (supplied; not shown)

21 1 952080 Eye Bolt Lifting (supplied; not shown)

SECTION 6 REPLACEMENT PARTS

36, 37

41, 42

Figure 6-2. 251cv Power Source, Right Side View

43, 44

SECTION 6 REPLACEMENT PARTS

Parts List for Figure 6-2. 251cv Power Source, Right Side View

Item Qty. Part Circuit No. Req. No. Description Symbol

31 1 954699 Label, Fan Hazard 32 1 951939 Blade, Fan 33 1 13732226 Fan Motor 1/16 HP M1 34 1 36744 Transformer 200/230/460 V T1/L1

1 36753 Transformer 230/460/575 V T1/L1

1 36754 Transformer 220/400 V T1/L1 35 1 38111 PC Board, Main Control PCB1 36 1 13730583 Term. Bushing .687 37 1 952683 Fuse Solid State F2 38 1 32261 Board Term. Input 200/230/460 V TB1

1 32265 Board Term. Input 230/460/575 V TB1

1 32266 Board Term. Input 220/400 V TB1 39 2 or 3 672065 Strap Terminal 40 1 36800GY Fan Bracket 41 1 37304GY Rear Panel 42 1 954743 Label Rating 200/230/460 V

1 954744 Label Rating 230/460/575 V

1 954745 Label Rating 220/400 V 43 1 950711 Switch Thermal 194 °F TS2 44 1 950710 Switch Thermal 131 °F TS3 45 1 673038 Snap Bushing

SECTION 6 REPLACEMENT PARTS

60, 61 (Bottom of 58)

Figure 6-3. 251cv Power Source, Left Side View

SECTION 6 REPLACEMENT PARTS

Parts List for Figure 6-3. 251cv Power Source, Left Side View

Item Qty. Part Circuit No. Req. No. Description Symbol

51 1 36799 Shunt Flexible SH1 52 1 37454 Shunt Meter SH2 53 1 37313 Bus Cap Neg. 54 4 952565 Capacitor 35000µf 50WV C1, 2, 3, 4 55 1 951041 Term Block 4 Pos. TB2 56 1 950760 Relay Enclosed DPDT 24V 10A K1 57 1 23604891 Label, High Voltage Warning 58 1 952566 Heatsink SCR 59 2 952564 SCR 180A SCR1, 2 60 1 950710 Switch Thermal 130 °F (not shown - front) TS4 61 1 950711 Switch Thermal 194 °F (not shown - rear) TS1 62 1 36806 Bus Cap Pos 63 1 17250200 Resistor 20 Ohm 50W R3 64 1 36810 Cable Power Input 65 1 97W63 Connector Cable Grip

ESAB Welding & Cutting Products, Florence, SC Welding Equipment

COMMUNICATIONS GUIDE - CUSTOMER SERVICES

A. CUSTOMER SERVICE QUESTIONS: Telephone (843) 664-5540/Fax: (800) 634-7548

Order Entry Product Availability Pricing Hours: 8:30 AM to 5:00 PM EST Order Changes Saleable Goods Returns Delivery Shipping Information

B. ENGINEERING SERVICE: Telephone: (843) 664-4416 / Fax : (800) 446-5693

Welding Equipment Troubleshooting Hours: 7:30 AM to 5:00 PM EST Warranty Returns Authorized Repair Stations

C. TECHNICAL SERVICE: Telephone: (800) ESAB-123/ Fax: (843) 664-4452

Part Numbers Technical Applications Hours: 8:00 AM to 5:00 PM EST Performance Features Technical Specifications Equipment Recommendations

D. LITERATURE REQUESTS: Telephone: (843) 664-5501 / Fax: (843) 664-5548

E. WELDING EQUIPMENT REPAIRS: Telephone: (843) 664-4469 / Fax: (843) 664-5557

Repair Estimates Repair Status Hours: 7:30 AM to 3:30 PM EST

F. WELDING EQUIPMENT TRAINING:

Telephone: (843)664-4428 / Fax: (843) 664-4476 Training School Information and Registrations Hours: 7:30 AM to 4:00 PM EST

G. WELDING PROCESS ASSISTANCE:

Telephone: (843) 664-4248 / Fax: (843) 664-4454 Hours: 7:30 AM to 4:00 PM EST

H. TECHNICAL ASST. CONSUMABLES:

Telephone: (800) 934-9353 Hours: 7:30 AM to 5:00 PM EST

Hours: 7:30 AM to 4:00 PM EST

IF YOU DO NOT KNOW WHOM TO CALL

Telephone: (800) ESAB-123/ Fax: (843) 664-4452/Web: http://www.esab.com

Hours: 7:30 AM to 5:00 PM EST

F-15-358 7/98 1M Printed in U.S.A.

ESAB 251cv Power Source Instruction manual

Specifications and Main Features

Frequently Asked Questions

User Manual