We offer you various infrared radiators in the wavelength spectra short-wave, fast medium-wave and medium-wave. The IR radiators range from round tube radiators to twin tube radiators or double tube radiators. In addition, our product range includes specially designed Omega- and contoured infrared radiators . These infrared heaters are the basis from which we construct and build for you IR heating system, infrared module, infrared heating field, infrared dryer, shrink tube and much more.
DOUBLE TUBE INFRARED EMITTERS
Details
- Material: quartz glass
- Produced length: up to 3.000 mm
- Tube size: 22 x 11 mm and 33 x 14 mm
- Power densities: up to 30 W/cm
- Radiation output: up to 60 kW/m.
- Wave length: maximum of 2,4 to 2,7 μm
- Burning temperature: 800 to 950 °C
Design of emitters
- Heating section (lb = heated length)
- 2 unheated ends, where the clamps will be placed.
- Power: supplied on one or both sides
- Reflector: gold- or alu-oxide (white) coating on the rear side, in order to double the effective radiation.
- Emitters designed for horizontal use.
SINGLE TUBE INFRARED EMITTERS
Details
- Material: quartz glass
- Produced length: up to 2.500 mm
- Tube size: Ø 10 up to Ø 20 mm
- Power densities: up to 15 W/cm
- Wave length: maximum of 2,4 to 2,7 µm
- Burning temperature: filament 800 to 950 °C
Design of emitters
- Heating section (lb = heated length)
- 2 unheated ends, where the clamps will be placed.
- Power: supplied on both sides
- Design of sockets: R7S, Metal socket, round- ceramic with wire or pin, square-ceramic with wire.
- Reflector: gold- or alu-oxide (white) coating on the rear side, in order to double the effective radiation.
- Emitters designed for horizontal and vertical use.
Gallery
We offer you various infrared radiators in the wavelength spectra short-wave, fast medium-wave and medium-wave. The IR radiators range from round tube radiators to twin tube radiators or double tube radiators. Even specially shaped infrared radiators can refer to us in high quality. In addition, our product range includes specially designed Omega- and contoured infrared radiators . These infrared heaters are the basis from which we construct and build for you IR heating system, infrared module, infrared heating field, infrared dryer, shrink tube and much more. Our plants are, on the one hand, independent infrared heaters which are used as production heating systems for the production of our customers' products.
DOUBLE TUBE INFRARED EMITTERS
Details
- Material: quartz glass
- Produced length: up to 3.000 mm
- Tube size: 22 x 11 mm and 33 x 14 mm
- Power densities: up to 60 W/cm
- Radiation output: up to 90 kW/m.
- Wave length: maximum of 1,4 to 1,7 μm
- Burning temperature: 1.300 to 1.700 °C
Design of emitters
- Heating section (lb = heated length)
- 2 unheated ends, the clamps will be placed.
- Power: supplied on one or both sides
- Reflector: gold- or alu-oxide (white) coating on the rear side, in order to double the effective radiation.
- Emitters designed for horizontal and vertical use.
SINGLE TUBE INFRARED EMITTERS
Details
- Material: quartz glass
- Produced length: up to 2.500 mm
- Tube size: Ø 10 up to Ø 20mm
- Power densities: up to 70 W/cm
- Radiation output: up to 90 kW/m²
- Wave length: maximum of 1,4 to 1,7 µm
- Burning temperature: 1.300 to 1.700 °C
Gallery
We offer you various infrared radiators in the wavelength spectra short-wave, fast medium-wave and medium-wave. The IR radiators range from round tube radiators to twin tube radiators or double tube radiators. Even specially shaped infrared radiators can refer to us in high quality. In addition, our product range includes specially designed Omega- and contoured infrared radiators . These infrared heaters are the basis from which we construct and build for you IR heating system, infrared module, infrared heating field, infrared dryer, shrink tube and much more. Our plants are, on the one hand, independent infrared heaters which are used as production heating systems for the production of our customers' products.
DOUBLE TUBE INFRARED EMITTERS
Details
- Material: quartz glass
- Produced length: up to 3.000 mm
- Tube size: 22 x 11 mm and 33 x 14 mm
- Power densities: up to 30 W/cm
- Radiation output: up to 60 kW/m.
- Wave length: maximum of 2,4 to 2,7 μm
- Burning temperature: 800 to 950 °C
Design of emitters
- Heating section (lb = heated length)
- 2 unheated ends, the clamps will be placed.
- Power: supplied on one or both sides
- Reflector: gold- or alu-oxide (white) coating on the rear side, in order to double the effective radiation.
- Emitters designed for horizontal and vertical (up to 800 mm length) use
SINGLE TUBE INFRARED EMITTERS
Details
- Material: quartz glass
- Produced length: 60 mm up to 2.500 mm (standardized length and power solutions are available)
- Tube size: Ø 10 up to Ø 20 mm
- Power densities: up to 70 W/cm
- Radiation output: up to 150 kW/m²
- Wave length: maximum of 0,8 to 1,2 µm
- Burning temperature: 2.200 to 2.600°C
Design of emitters
- Heizbereich (lb = beheizte Länge)
- Heating section (lb = heated length)
- 2 unheated ends, where the clamps will be placed.
- Power: supplied on both sides
- Design of sockets: R7S, Metal socket, round- ceramic with wire or pin, square-ceramic with wire
- Reflector: gold- or alu-oxide (white) coating on the rear side, in order to double the effective radiation.
- Emitters designed for horizontal and vertical use.
Gallery
Double tube and single tube emitters on stock.
Any questions? Please contact
Phone: +49 (0) 6181 / 709 364
Fax. +49 (0) 6181 / 709 365
DOUBLE TUBE INFRARED EMITTERS
DOUBLE TUBE INFRARED EMITTERS SHORT WAVE, FAST MEDIUM WAVE AND MEDIUM WAVE
- Material: quartz glass
- Produced length and contour design: on request
- Tube size: 22 x 10 mm and 33 x 15 mm
- Power densities: up 20 W/cm to 60 W/cm
- Radiation output: up to 90 kW/m.
- Wave length: up 0,8 to 1,4 µm
- Burning temperature : up 800 to 2.600 °C
Design of emitters
- Heating section (lb = heated length)
- 2 unheated ends, the clamps will be placed.
- Power: supplied on one or both sides
- Reflector: gold- or alu-oxide (white) coating on the rear side, in order to double the effective radiation.
- Emitters designed for horizontal and vertical use.
SINGLE TUBE INFRARED EMITTERS
SINGLE TUBE INFRARED EMITTERS SHORT WAVE, FAST MEDIUM WAVE AND MEDIUM WAVE
- Material: quartz glass
- Produced length and contour design: on request
- Tube size: D10, 13 and 18 mm
- Power densities: up 20 W/cm to 60 W/cm
- Wave length: up 0,8 to 2,4 m
- Burning temperature: up 800 to 2.600 °C
Design of emitter
- Heating section (lb = heated length)
- 2 unheated ends, where the clamps will be placed.
- Power: supplied on both sides
- Design of sockets: R7S, Metal socket, round- ceramic with wire or pin, square-ceramic with wire
- Reflector: gold- or alu-oxide (white) coating on the rear side, in order to double the effective radiation.
- Emitters designed for horizontal and vertical use.
Gallery
Ø10 MM
Fixation clamp with twist stop
Fixation clamp
Retaining clamp
Clamp standard
Ø13 MM
Fixation clamp
Fixation clamp
FAST MEDIUM WAVE INFRARED EMITTERS
Fixation clamp
Retaining clamp
Retaining – and Support clamp
MEDIUM WAVE EMITTER
Fixation clamp with bracket
Retaining – and Support clamp
Retaining clamp with bracket
MEDIUM WAVE INFRARED EMITTERS
Fixation clamp with twist stop
Fixation clamp
Retaining clamp
FAST MEDIUM WAVE / SHORT WAVE EMITTERS
Clamp standard
Fixation clamp
ISO-Rings : Ø 6,4 / 15
SO-Pearls: Ø 4 / 8 und Ø 7 / 14
Information about standard and customer specified ceramics please contact:
E-Mail:
Phone: +49 (0) 6181 / 709 364
Fax. +49 (0) 6181 / 709 365
BUSHING CERAMICS (DFR- CERAMICS)
DFR – 32 / 26 / 20
DFR – 19 / 15 / 10
DFR – 15 / 11 / 7
Quartz glass plates:
Grinded plates, available in max. size 500 x 500 mm, thickness 3 - 5 mm
Pulled plates, available in sizes from ca. 100 - 180 mm width and 1.200 - 2.000 mm length, thicknes 3 - 5 mm
Quartz glass tubes in different sizes and length
Any questions? Please contact
E-Mail:
Tel: +49 (0) 6181 / 709 364
Fax. +49 (0) 6181 / 709 365
Infrared radiation is applied for…
- Heating
- Welding
- Soldering
- Sintering
- Tempering
- Drying
- Evaporation
- Dehydration
- Adhesives
- Fixation
- Drying
- Activation
- Curing
- Thermoforming
- Blow Molding
- Deep Drawing
- Foaming
- Imprinting
- Shrinking
- Concealing
- Vulcanization
- Lamination
Infrared Radiation...
- has due to the specific features.a varied and individual range of applications.
- depending on the wave length of the light can be divided into long-wave, medium-wave, fast response medium-wave, short-wave and near-UV infrared.
- used in countless applications in Plastics-,Chemical-, Printing-, Wood-, Metal-, Paper-, Textile-, Food- and Automotive Industries.
- can be absorbed directly, reflected or transmitted through the body. All this depending upon the material’s nature. That’s why it is essentially important to find out the optimal emitter type for your specific heating purpose.
- and temperature gradients produce a controllable energy output, adjusted to match the heating requirements.
- the heating modules as well as the controlling and measuring technique are optimally designed. This guarantees optimum efficiency and quality.
- offers a wide range of possibilities to match temperature profiles with customer’s needs. The heat region zoning saves energy and money.
Provides following benefits…
- the process is economical and allows highly efficient heating processes.
- is a clean electrical heat source.
- is fast and immediately ready to use.
- is compact and has a small footprint.
- high heating up rates, due to the large power densities.
- an individually shaped and targeted heat section.
- requires no contact with the material.
- repeatable results can be achieved for consistent process outputs.
The emitter wavelength.....
- is customized for industrial applications.The diagram on the left shows the most productive wavelength coverage of 1 – 4 µm.
- and the different designs and burning temperatures of the heating filament on infrared emitters.
- Medium Wave Infrared Emitters: Filament temperature: approx. 850 °C Emissions maximum: 2,0-2,6 µm
- Star Shape Infrared Emitters: Filament temperature: up to 1400°C Emissions maximum: 1,8-2,2 µm
- Fast Medium Wave Infrared Emitters: Filament temperature: up to 1600 °C Emissions maximum: 1,4-1,9 µm (Filament in Star Shape design)
- Short Wave Emitters (double tube/twin tube): Filament temperature: up to 2100 °C Emissions maximum: 0,9-1,6 µm Short Wave Emitters (single tube): Filament temperature: above 2500 °C Emissions maximum: 0,8-1,6 µm
Heating up of plastic by infrared...... During the heating up process it should be considered that…
- only the appropriate emitter type achieves efficient and economically advantages.
- Absorption-Diagram on the right shows: Material: Polyethylene 0,1 mm As lined purple Material: PVC 0,02 mm As lined blue Wave length range: 1 – 4 µm Substantial effect of the infrared emitter: 3,2 – 3,8 µm.
- physically seen, the emission behavior should,as accurately as, match the absorption behavior. The diagram shows that the directly usable portions of the radiating power obtain a higher efficiency if the emission maximum of an infrared emitter is as congruent as possible with the curves represented in purple or in blue.
- the red curve represents short wave emitters, in light blue is drawn the spectrum Star Shape emitters and the dark blue curve shows medium wave emitter types.
Drying water-based paint by infrared…… During the drying process it should be considered that…
- only the appropriate emitter type achieves efficient and economically advantages.
- Absorption Diagram on the left shows: Water, as lined aquamarine.Wave length range: 1 – 4 µm Substantial effect of the infrared emitter: 2,5 – 3,5µm
- physically seen, the emission behavior should,as accurately as, match the absorption behavior. The diagram shows that the directly usable portions of the radiating power obtain a higher efficiency if the emission maximum of an infrared emitter is as congruent as possible with the in aquamarine represented curve.
- the red curve represents short wave emitters, in light blue is drawn the spectrum Star Shape emitters and the dark blue curve shows medium wave emitter types.