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Infrared heat is transmitted directly in the form of electromagnetic rays, at a velocity of approx. 300, 000 km/sec i.e. at the speed of light.
IR is therefore not only the "fastest form of heat", but is also suitable for particularly demanding applications such as vacuum technology and clean room conditions.
Infrared heat is particularly economical on energy compared to other heat sources because it acts quickly, directly on product.
Short Wave IR emitters are suitable for all applications in which the attainment of high temperatures in the shortest possible time is what counts.Infrared heat is transmitted directly in the form of electromagnetic rays, at a velocity of approx. 300, 000 km/sec i.e. at the speed of light.
IR is therefore not only the "fastest form of heat", but is also suitable for particularly demanding applications such as vacuum technology and clean room conditions.
Infrared heat is particularly economical on energy compared to other heat sources because it acts quickly, directly on product.
Short Wave IR emitters are suitable for all applications in which the attainment of high temperatures in the shortest possible time is what counts.Infrared heat is transmitted directly in the form of electromagnetic rays, at a velocity of approx. 300, 000 km/sec i.e. at the speed of light.
IR is therefore not only the "fastest form of heat", but is also suitable for particularly demanding applications such as vacuum technology and clean room conditions.
Infrared heat is particularly economical on energy compared to other heat sources because it acts quickly, directly on product.
Short Wave IR emitters are suitable for all applications in which the attainment of high temperatures in the shortest possible time is what counts.
APPLICATIONS
Code | Heated Length HL (mm) |
Overall Length OL (mm) |
Wattage (w) | Voltage (v) |
SW 500 | 127 | 212 | 500 | 240 |
SW 1000 | 254 | 348 | 1000 | 240 |
SW 1600 | 406 | 500 | 1600 | 240 & 415 |
SW 2000 | 508 | 626 | 2000 | 240 & 415 |
SW 2000/950 | 850 | 950 | 2000 | 240 |
SW 2000/1120 | 1120 | 1020 | 2000 | 240 & 415 |
SW 2500 | 635 | 728 | 2500 | 240 & 415 |
SW 3000 S | 508 | 626 | 3000 | 240 |
SW 3000 D | 765 | 875 | 3000 | 415 |
SW 4000 | 1120 | 1020 | 4000 | 415 |
All the above heaters are with round cap and 100 mm long lead wire at both ends. For horizontal mounting application only
Overall Dimensions (mm) | Lamp Specification | ||||||
Module Code |
Length | Width | Depth | Lamp Used |
Heated Length |
Watts | Volt |
IRN 500 | 310 | 80 | 55 | IRN 500 | 127 | 500 | 240 |
IRN 1000 | 460 | 80 | 55 | IRN 1000 | 254 | 1000 | 240 |
IRN 1600 S | 610 | 80 | 55 | IRN 1600 S | 406 | 1600 | 240 |
IRN 1600 D | 610 | 80 | 55 | IRN 1600 D | 406 | 1600 | 415 |
IRN 2000 S | 725 | 80 | 55 | IRN 2000 S | 508 | 2000 | 240 |
IRN 2000 D | 725 | 80 | 55 | IRN 2000 D | 508 | 2000 | 415 |
IRN 2000 D | 825 | 80 | 55 | IRN 2000 D | 635 | 2500 | 415 |
IRN 3000 S | 725 | 80 | 55 | IRN 3000 S | 508 | 3000 | 240 |
IRN 3000 D | 975 | 80 | 55 | IRN 3000 D | 765 | 3000 | 415 |
Wider Module IRW type is available in above specifications with same lengths x 145 mm (width) x 80 mm (depth)
Open Cartridge Heaters are widely used as immersion heaters or as air heater selecting appropriate sheath materials for heating various types of chemicals, oils & water OR air & gases.
These elements are used in quick air heating processes and where quick cooling is also required. These can also be used in oven and dryers with cover guard.
CONSTRUCTIONHelical coil of nichrome wire is inserted into porcelain blocks uniformly mounted on insulated metal sheet. Straight wire can also be wound around insulators as required in different applications
CAUTIONThis element cannot be used where corrosive vapour, or moisturised atmosphere is there. There should be proper guards in front of open wires
Thermocouples & thermo resistances Mgo insulation with grounded or ungrounded junctions. Sheathes & types available for all temperatures. Special shapes & fittings can be offered
Cast-iron clamps, for ring elements, retain their strength at elevated temperatures to assure maximum sheath-to-surface contact. Resulting uniform efficient heat transfer from internal resistance wire to the heated material minimize hot spots on the element, contributing to long service life.