AC THERM
Flexible hose made of polyester fabric coated with additivated polyolefin resins and steel wire helix. Thermo-insulating covering in polyester fibre (th. 25mm/16kg/m3). Outer anti-steam protection in additivated polyolefin resin.
Insulation:
- 25mm / 16kg/m3 – standard
- 50mm / 16kg/m3 – on request
Thermal resistivity at 20°C
- R = 0,58m2K/W (UNI EN 12664:2002)
SPECIFICATIONS
- COLOUR: Black, Green
- LENGTHS: from 10m standard
- PRODUCTION DIAMETERS: from 80 to 610mm
- WORKING TEMPERATURE: -20°C /+90°C (+110°C peaks)
- CURVATURE RADIUS: 0,8-1,5 x ø
- AIR SPEED: max 32m/sec
- PRESSURE: max 250mm wc
- FIRE REACTION:
CLASS IT: Class 1 (D.M. 26/06/84)
Omologation nr.: RE1205C20CD100004
GREEN BUILDING
Contribute to obtain the credits of the major international rating systems for sustainable
buildings:
- LEED: IP, EA, MR
- WELL: MATERIALS, COMMUNITY
- BREEAM: MAN, ENE, WST
CERTIFICATIONS
Fire reaction, Heat and sound absorption.
APPLICATIONS
Air conditioning, Single and double-flow mechanical ventilation, Reduction of condensation and heat dispersion.
DOWNLOAD TECHNICAL SHEET >>
Related products
-
DCSC
Circular diffuser with adjustable cones made up of concentric truncated cone profiles, adjustable in height by means of a screw in order to change the direction of the air jet in relation to the required
Read more -
DSR – DSRS
Variable geometry diffuser developped for rooms with high ceilings where a long throw and a high induction ratio are required. Made up of a housing in which individually or simultaneously adjustable deflectors are fitted (if required) in order to change the direction of the air jet in relation to the thermal conditions required.
Read more -
DSRQ – DSRSQ
Variable geometry diffuser on 597×597 mm panel developed for rooms with high ceilings where a long throw and a high induction ratio are required. Made up of a half-housing in which individually or simultaneously adjustable deflectors are fitted (if required) in order to change the direction of the air jet in relation to the thermal conditions required.
Read more -
DAM01C
Helical-effect diffuser with radially arranged adjustable deflectors with a high induction ratio (mixing capacity) between the injected and the ambient air. Made up of a plate with holes inside which adjustable plastic deflectors are housed suitable for use at high operating temperatures.
Read more
AC THERM
Flexible hose made of polyester fabric coated with additivated polyolefin resins and steel wire helix. Thermo-insulating covering in polyester fibre (th. 25mm/16kg/m3). Outer anti-steam protection in additivated polyolefin resin.
Insulation:
- 25mm / 16kg/m3 – standard
- 50mm / 16kg/m3 – on request
Thermal resistivity at 20°C
- R = 0,58m2K/W (UNI EN 12664:2002)
SPECIFICATIONS
- COLOUR: Black, Green
- LENGTHS: from 10m standard
- PRODUCTION DIAMETERS: from 80 to 610mm
- WORKING TEMPERATURE: -20°C /+90°C (+110°C peaks)
- CURVATURE RADIUS: 0,8-1,5 x ø
- AIR SPEED: max 32m/sec
- PRESSURE: max 250mm wc
- FIRE REACTION:
CLASS IT: Class 1 (D.M. 26/06/84)
Omologation nr.: RE1205C20CD100004
GREEN BUILDING
Contribute to obtain the credits of the major international rating systems for sustainable
buildings:
- LEED: IP, EA, MR
- WELL: MATERIALS, COMMUNITY
- BREEAM: MAN, ENE, WST
CERTIFICATIONS
Fire reaction, Heat and sound absorption.
APPLICATIONS
Air conditioning, Single and double-flow mechanical ventilation, Reduction of condensation and heat dispersion.
DOWNLOAD TECHNICAL SHEET >>
Related products
-
KF125
Synthetic flat filter cell tor fan coils with support frame in 3mm-diameter drawn rod and wire mesh that supports the FiltraSan™ sanitizing filter in AT100 series thermobonded polyester staple fibre with a basis weight of 100 g/m² and a thickness of 5-10 mm.
Read more -
KC35
Synthetic flat filter celi tor fan coils with U-section galvanised steel frame and double electrowelded galvanised wire mesh that supports the filter fabric in thermobonded synthetic polyester staple fibre impregnateci with AC CARBON series active carbons with a basis weight of 200 g/m² and a thickness of 5-10 mm.
Read more