BS EN 60519-12:2013

INTRODUCTION
1 Scope and object
2 Normative references
3 Terms and definitions
4 Classification of electroheating equipment
5 General requirements
6 Isolation and switching
7 Connection to the electrical supply network and
   internal connections
8 Protection against electric shock
9 Equipotential bonding
10 Control circuits and control functions
11 Protection against thermal influences
12 Protection against other hazards
13 Marking, labelling and technical documentation
14 Commissioning, inspection, operation and
   maintenance
Annex A (normative) - Protection against electric
        shock - special measures
Annex AA (normative) - Classification of infrared
         exposure
Annex BB (normative) - Measurement procedure
Annex CC (normative) - Qualified calculation of
         exposure
Annex DD (normative) - Protective measures against
         infrared radiation
Annex EE (informative) - Simplified measurement
         method for the assessment of thermal
         infrared radiation exposure
Annex FF (informative) - Measurement device for
         total irradiance
Annex GG (normative) - Marking of emission or
         exposure
Bibliography
Annex ZA (normative) - Normative references to
         international publications with their
         corresponding European publications

Describes safety requirements for industrial electroheating equipment and installations in which infrared radiation, usually generated by infrared emitters, is significantly dominating over heat convection or heat conduction as means of energy transfer to the material to be treated.

This clause of Part 1 is replaced by the following.

Replacement:

This part of IEC 60519 specifies safety requirements for industrial electroheating equipment and installations in which infrared radiation, usually generated by infrared emitters, is significantly dominating over heat convection or heat conduction as means of energy transfer to the material to be treated. A further limitation of the scope is that the infrared emitters have a maximum spectral emission at longer wavelengths than 780 nm in air or vacuum, and are emitting wideband continuous spectra such as by thermal radiation or high pressure arcs.

IEC 60519-1:2010 defines infrared as radiation within the frequency range between about 400 THz and 300 GHz. This corresponds to the wavelength range between 780 nm and 1 mm in vacuum. Industrial infrared heating usually uses infrared sources with rated temperatures between 500 °C and 3 000 °C; the emitted radiation from these sources dominates in the wavelength range between 780 nm and 10 μm.

Since substantial emission of e.g. blackbody thermal emitters may extend beyond 780 nm or 3 000 nm, the safety aspects of emitted visible light and emission at wavelengths longer than 3 000 nm are also considered in this standard.

This standard is not applicable to:

• infrared installations with lasers or light-emitting diodes (LEDs) as main sources – they are covered by IEC 62471:2006, IEC 60825-1:2007 [4] and IEC/TR 60825-9:1999 [5];

• appliances for use by the general public;

• appliances for laboratory use – they are covered by IEC 61010-1:2010 [6];

• electroheating installations where resistance heated bare wires, tubes or bars are used as heating elements, and infrared radiation is not a dominant side effect of the intended use, covered by IEC 60519-2:2006 [3];

• infrared heating equipment with a nominal combined electrical power of the infrared emitters of less than 250 W;

• handheld infrared equipment.

Industrial infrared electroheating equipment under the scope of this standard typically uses the Joule effect for the conversion of electric energy into infrared radiation by one or several sources. Radiation is then emitted from one or several elements onto the material to be treated. Such infrared heating elements are in particular:

• thermal infrared emitters in the form of tubular, plate-like or otherwise shaped ceramics with a resistive element inside;

• infrared quartz glass tube or halogen lamp emitters with a hot filament as a source;

• non insulated elements made from molybdenum disilicide, silicon carbide, graphite, iron-chromium-aluminium alloys like Kanthal^TM or comparable materials;

• wide-spectrum arc lamps.