BS EN IEC 60974-1:2018
$256.21
Arc welding equipment – Welding power sources
| Published By | Publication Date | Number of Pages |
| BSI | 2018 | 154 |
This part of IEC 60974 is applicable to power sources for arc welding and allied processes designed for industrial and professional use, and supplied by a voltage not exceeding 1 000 V, battery supplied or driven by mechanical means. This document specifies safety and performance requirements of welding power sources and plasma cutting systems. This document is not applicable to limited duty arc welding and cutting power sources which are designed mainly for use by laymen and designed in accordance with IEC 60974-6. This document includes requirements for battery-powered welding power sources and battery packs, which are given in Annex O. This document is not applicable to testing of power sources during periodic maintenance or after repair. This fifth edition cancels and replaces the fourth edition published in 2012 and constitutes a technical revision. The significant changes with respect to the previous edition are the following: – improvement of Figure 1 (6.1.1); – modification of Table 3 (6.1.4); – description of energy efficiency measurements in Annex M; – inclusion of battery supplied welding power sources in the scope. Requirements therefore are described in Annex O.
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 2 | undefined |
| 5 | Annex ZA(normative)Normative references to international publicationswith their corresponding European publications |
| 7 | English CONTENTS |
| 14 | FOREWORD |
| 16 | 1 Scope 2 Normative references |
| 17 | 3 Terms and definitions 3.1 General terms |
| 26 | 3.2 Terms related to battery systems |
| 29 | 4 Environmental conditions |
| 30 | 5 Tests 5.1 Test conditions 5.2 Measuring instruments 5.3 Conformity of components |
| 31 | 5.4 Type tests 5.5 Routine tests |
| 32 | 6 Protection against electric shock 6.1 Insulation 6.1.1 General |
| 33 | 6.1.2 Clearances Figures Figure 1 – Example of insulation configuration for Class I equipment |
| 34 | Tables Table 1 – Minimum clearances for overvoltage category III |
| 35 | 6.1.3 Creepage distances |
| 36 | Table 2 – Minimum creepage distances |
| 37 | 6.1.4 Insulation resistance 6.1.5 Dielectric strength Table 3 – Insulation resistance |
| 38 | Table 4 – Dielectric test voltages |
| 39 | 6.2 Protection against electric shock in normal service (direct contact) 6.2.1 Protection provided by the enclosure 6.2.2 Capacitors |
| 40 | 6.2.3 Automatic discharge of supply circuit capacitors 6.2.4 Isolation of the welding circuit 6.2.5 Welding circuit touch current |
| 41 | 6.2.6 Touch current in normal condition Figure 2 – Measurement of welding circuit touch current Figure 3 – Measurement of touch current in normal condition |
| 42 | 6.3 Protection against electric shock in case of a fault condition (indirect contact) 6.3.1 Protective provisions 6.3.2 Isolation between windings of the supply circuit and the welding circuit 6.3.3 Internal conductors and connections Table 5 – Minimum distance through insulation |
| 43 | 6.3.4 Additional requirements for plasma cutting systems 6.3.5 Movable coils and cores 6.3.6 Touch current in fault condition |
| 44 | 7 Thermal requirements 7.1 Heating test 7.1.1 Test conditions 7.1.2 Tolerances of the test parameters |
| 45 | 7.1.3 Duration of test 7.2 Temperature measurement 7.2.1 Measurement conditions 7.2.2 Surface temperature sensor 7.2.3 Resistance |
| 46 | 7.2.4 Embedded temperature sensor 7.2.5 Determination of the ambient air temperature 7.2.6 Recording of temperatures 7.3 Limits of temperature rise 7.3.1 Windings, commutators and slip-rings |
| 47 | 7.3.2 External surfaces Table 6 – Temperature limits for windings, commutators and slip-rings |
| 48 | 7.3.3 Other components 7.4 Loading test Table 7 – Temperature limits for external surfaces |
| 49 | 7.5 Commutators and slip-rings 8 Thermal protection 8.1 General requirements 8.2 Construction 8.3 Location 8.4 Operating capacity |
| 50 | 8.5 Operation 8.6 Resetting 8.7 Indication 9 Abnormal operation 9.1 General requirements |
| 51 | 9.2 Stalled fan test 9.3 Short circuit test Table 8 – Cross-section of the output short-circuit conductor |
| 52 | 9.4 Overload test 10 Connection to the supply network 10.1 Supply voltage 10.2 Multi-supply voltage 10.3 Means of connection to the supply circuit |
| 53 | 10.4 Marking of terminals 10.5 Protective circuit 10.5.1 Continuity requirement |
| 54 | 10.5.2 Type test 10.5.3 Routine test Table 9 – Current and time requirements for protective circuits Table 10 – Minimum cross-sectional area of the external protective copper conductor |
| 55 | 10.6 Cable anchorage Table 11 – Verification of continuity of the protective circuit |
| 56 | 10.7 Inlet openings 10.8 Supply circuit on/off switching device Table 12 – Pull |
| 57 | 10.9 Supply cables 10.10 Supply coupling device (attachment plug) |
| 58 | 11 Output 11.1 Rated no-load voltage 11.1.1 Rated no-load voltage for use in environments with increased risk of electric shock 11.1.2 Rated no-load voltage for use in environments without increased risk of electric shock 11.1.3 Rated no-load voltage for the use with mechanically held torches with increased protection for the operator 11.1.4 Rated no-load voltage for special processes for example plasma cutting |
| 59 | 11.1.5 Additional requirements Table 13 – Summary of allowable rated no-load voltages |
| 60 | 11.1.6 Measuring circuits Figure 4 – Measurement of r.m.s. values Figure 5 – Measurement of peak values |
| 61 | 11.2 Type test values of the conventional load voltage 11.2.1 Manual metal arc welding with covered electrodes 11.2.2 Tungsten inert gas 11.2.3 Metal inert/active gas and flux cored arc welding 11.2.4 Submerged arc welding 11.2.5 Plasma cutting 11.2.6 Plasma welding 11.2.7 Plasma gouging 11.2.8 Additional requirements |
| 62 | 11.3 Mechanical switching devices used to adjust output 11.4 Welding circuit connections 11.4.1 Protection against unintentional contact 11.4.2 Location of coupling devices 11.4.3 Outlet openings 11.4.4 Three-phase multi-operator welding transformer |
| 63 | 11.4.5 Marking 11.4.6 Connections for plasma cutting torches 11.5 Power supply to external devices connected to the welding circuit 11.6 Auxiliary power supply |
| 64 | 11.7 Welding cables 12 Control circuits 12.1 General requirement 12.2 Isolation of control circuits 12.3 Working voltages of remote control circuits |
| 65 | 13 Hazard reducing device 13.1 General requirements 13.2 Types of hazard reducing devices 13.2.1 Voltage reducing device 13.2.2 Switching device for AC to DC 13.3 Requirements for hazard reducing devices 13.3.1 Disabling the hazard reducing device Table 14 – Hazard reducing device requirements |
| 66 | 13.3.2 Interference with operation of a hazard reducing device 13.3.3 Indication of satisfactory operation 13.3.4 Fail to a safe condition 14 Mechanical provisions 14.1 General requirements 14.2 Enclosure 14.2.1 Enclosure materials |
| 67 | 14.2.2 Enclosure strength 14.3 Handling means 14.3.1 Mechanised handling 14.3.2 Manual handling |
| 68 | 14.4 Drop withstand 14.5 Tilting stability 15 Rating plate 15.1 General requirements |
| 69 | 15.2 Description Figure 6 – Principle of the rating plate |
| 70 | 15.3 Contents |
| 73 | 15.4 Tolerances 15.5 Direction of rotation 16 Adjustment of the output 16.1 Type of adjustment |
| 74 | 16.2 Marking of the adjusting device 16.3 Indication of current or voltage control |
| 75 | 17 Instructions and markings 17.1 Instructions |
| 76 | 17.2 Markings |
| 77 | Annexes Annex A (informative) Nominal voltages of supply networks |
| 78 | Annex B (informative) Example of a combined dielectric test Figure B.1 – Combined high-voltage transformers |
| 79 | Annex C (normative) Unbalanced load in case of AC tungsten inert-gas welding power sources C.1 General C.2 Unbalanced load Figure C.1 – Voltage and current during AC tungsten inert-gas welding |
| 80 | C.3 Example for an unbalanced load Figure C.2 – Unbalanced voltage during AC tungsten inert-gas welding Figure C.3 – AC welding power source with unbalanced load |
| 81 | Annex D (informative) Extrapolation of temperature to time of shutdown |
| 82 | Annex E (normative) Construction of supply circuit terminals E.1 Size of terminals E.2 Connections at the terminals Table E.1 – Range of conductor dimensions to be accepted by the supply circuit terminals |
| 83 | E.3 Construction of the terminals E.4 Fixing of the terminals |
| 84 | Annex F (informative) Cross-reference to non-SI units Table F.1 – Cross-reference for mm2 to American wire gauge (AWG) |
| 85 | Annex G (informative) Suitability of supply network for the measurement of the true r.m.s. value of the supply current |
| 86 | Annex H (informative) Plotting of static characteristics H.1 General H.2 Method H.3 Analysis of the results |
| 87 | Annex I (normative) Test methods for a 10 Nm impact I.1 Pendulum impact hammer Figure I.1 – Test set-up Table I.1 – Angle of rotation θ to obtain 10 Nm impact |
| 88 | I.2 Free fall spherical steel weight Table I.2 – Mass of the free fall weight and height of the free fall |
| 89 | Annex J (normative) Thickness of sheet metal for enclosures |
| 90 | Table J.1 – Minimum thickness of sheet metal for steel enclosures |
| 91 | Table J.2 – Minimum thickness of sheet metal for enclosures of aluminium, brass or copper |
| 92 | Annex K (informative) Examples of rating plates Figure K.1 – Single-phase transformer |
| 93 | Figure K.2 – Three-phase rotating frequency converter |
| 94 | Figure K.3 – Subdivided rating plate: single-/three-phase transformer rectifier |
| 95 | Figure K.4 – Engine-generator-rectifier |
| 96 | Figure K.5 – Single-/three-phase inverter type |
| 97 | Figure K.6 – Battery powered welding power source with integral battery |
| 98 | Figure K.7 – Battery powered welding power source with detachable / separable battery |
| 99 | Annex L (informative) Graphical symbols for arc welding equipment L.1 General L.2 Use of symbols L.2.1 General L.2.2 Selection of symbols L.2.3 Size of symbols L.2.4 Use of colour |
| 100 | L.3 Symbols L.3.1 General L.3.2 Letter symbols Table L.1 – Letters used as symbols |
| 101 | L.3.3 Graphical symbols |
| 121 | L.4 Examples of combinations of symbols |
| 123 | L.5 Examples of control panels |
| 124 | Figure L.2 – Arc force control potentiometer Figure L.1 – Input voltage power switch Figure L.3 – Remote receptacle and selector switches Figure L.4 – Terminals with inductance selector for MIG/MAG welding |
| 125 | Figure L.6 – Selector switch on AC/DC equipment Figure L.5 – Process switch (MMA, TIG, MIG) Figure L.7 – Panel indicator lights (overheat, fault, arc striking, output voltage) Figure L.8 – Setting pulsing parameters using digital display |
| 126 | Annex M (informative) Efficiency and idle state power measurement M.1 Measuring efficiency M.2 Measuring idle state power |
| 128 | Annex N (normative) Touch current measurement in fault condition Figure N.1 – Measuring network for weighted touch current |
| 130 | Figure N.2 – Diagram for touch current measurement on fault condition at operating temperature for single-phase connection of appliances other than those of class II |
| 132 | Figure N.3 – Diagram for touch current measurement on fault condition for three-phase four-wire system connection of appliances other than those of class II |
| 133 | Annex O (normative) Battery-powered welding power sources O.1 General |
| 134 | O.4 Environmental conditions O.5 Tests O.5.1 Test conditions |
| 135 | O.5.3 Conformity of components |
| 136 | O.6 Protection against electric shock O.6.1 Insulation O.6.1.1 General O.6.1.4 Insulation resistance |
| 137 | O.6.1.5 Dielectric strength O.6.2 Protection against electric shock in normal service |
| 138 | O.7 Thermal requirements O.7.1 Heating test O.7.1.1 Test conditions |
| 139 | O.7.1.3 Duration of test O.7.2 Temperature measurement O.7.2.1 Measurement conditions O.7.4 Loading test O.7.201 Normal charging of lithium-ion systems |
| 140 | O.8 Thermal protection O.8.1 General requirements O.8.4 Operating capacity O.9 Abnormal operation O.9.1 General requirements |
| 141 | O.9.2 Stalled fan test O.9.3 Short circuit test O.9.4 Overload test O.9.201 Welding power source – abnormal conditions |
| 142 | O.9.202 Welding circuit components – abnormal conditions O.9.203 Lithium-ion charging systems − abnormal conditions |
| 143 | O.9.204 Lithium-ion battery short circuit |
| 144 | O.9.205 Batteries other than lithium-ion – overcharging O.9.206 Battery pack disconnection O.9.207 General purpose batteries O.10 Connection to the supply network |
| 145 | O.10.5 Protective circuit O.10.8 Supply circuit on/off switching device |
| 146 | O.14 Mechanical provisions O.14.1 General requirements O.14.2 Enclosure O.14.4 Drop withstand |
| 147 | O.15 Rating plate O.15.3 Contents |
| 149 | O.17 Instructions and markings O.17.1 Instructions |
| 150 | O.17.2 Markings Figure O.1 – Marking of battery voltage class B electric components |
| 151 | Bibliography |
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BS EN IEC 60974-1:2018+A1:2019
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