Fire curtains BLE FC2 (European Standards, automatic)
The active fire curtain barrier consists of a C41000WK wire inserted woven glass fibre fabric. The fabric is tested to withstand temperatures of up to 1000°C for a period of 240 minutes minimum (UL standard 120 minutes minimum) & an irradiance protection of up to 20 minutes, this is wound onto a steel tube, each of which will incorporate a 24 volt d.c. motor, a sealed heavy duty ball bearing assembly, and an electronic control circuit
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Performance & Classification
- 240 minutes integrity up to 1000 °C (1832°F)
- Insulating zone (if required) 340mm at 120 minutes & 670mm @ 240 minutes.
- Approved for spans unlimited in width, heights up to 8m minimum fabric overlap 600mm
- 28 minutes <15kW/m²
- E240 EW20 Class “0”
FC2 Compliance Parameters:
- tested for fire resistance to BS EN 1634-1
- tested for smoke leakage to BS EN1634-3
- tested for impact resistance to BSEN 949
- provides gravity fail safe operation
- tested to UL10D (complies with 120 minutes minimum)
- conforms to NFPA105:2007
- conforms to NFPA80
- motors within the assemblies tested to operate at temperatures up to 300 °C
- fabric tested to BS476-6+A1
- fabric tested to BS476-7
Complete product tested to BS EN1634-1:2008 BS EN1634-3:2004 and achieved up to 1000° C for 240 minutes and is ASB 1 and 3 classified. Designed to operate for 1500 cycles at normal ambient temperatures.
The fabric has a class 1 surface spread of flame when tested to BS 476: Part 7 and a fire propagation index I =3.2 when tested to BS 476: Part 6. The results of the tests demonstrate that the product complies with the requirements for Class 0, as defined in paragraph A13(b) of Approved Document B, ‘Fire Safety’, to the building Regulations 2000 edition consolidated with 2000 and 2002 amendments.
The active fire curtain barrier consists of a C41000WK wire inserted woven glass fibre fabric. The fabric is tested to withstand temperatures of up to 1000°C for a period of 240 minutes minimum (UL standard 120 minutes minimum) & an irradiance protection of up to 20 minutes, this is wound onto a steel tube, each of which will incorporate a 24 volt d.c. motor, a sealed heavy duty ball bearing assembly, and an electronic control circuit.
The active roller assembly, incorporating the fabric, is housed in galvanised mild-steel head box which is normally bolted to the fabric of the building. Standard head box sizes are 180mm x 180mm. Larger head boxes may be required where the curtain drop is in excess of three metres. Also, the lower edge of the curtains incorporates a twin inverted mild steel angle which acts as a weight bar to enable the curtain to unwind upon receipt of a signal from the fire alarm panel or total mains and battery failure. Various oversize assessments have been conducted.
Metal side guides with a fabric retaining system shall be installed to provide a seal between the curtain fabric and the building construction.
adjacent to the fire curtain head box within the ceiling void, allowing access for maintenance, or mounted in a remote position from the curtain.
The panel requires a local 230v ac supply rated at 3 amps via an un-switched fused spur on a maintained supply installed by others. For operational purposes the G.C.P. must be connected to a normally-closed volt-free contact within the fire alarm control panel configured to open on fire and fail safe.
Each control panel is capable of operating up to six rollers and includes battery back-up which will maintain the curtains in their retracted position for a period of three hours during a mains failure. It is also possible to manually operate the curtains during this period.
Should the battery voltage fall below a predetermined limit, a low voltage cut off circuit will activate the curtain, which will descend in a controlled manner under the force of gravity.
The roller motors, which are 24 volt d.c., must be wired from the G.C.P. in a ring main using suitably sized cable to ensure a voltage of 24v d.c -10%.
The curtains descend upon receipt of a signal from the fire-alarm panel and retract when the signal is removed. During ascent the motors are controlled via a synchronised speed circuit to ensure all curtains are raised at similar rates. In the event of mains and battery backup failure, the curtains descend under the force of gravity.
Limit switches are not used to control the upper and lower positions of the curtain.
There is a manual key operation from GCP to facilitate override and testing.
Split drop delay: An optional braking system is available to allow a two stage descent during gravity deployment. This provides partial descent to a predetermined level to permit preliminary escape and initial smoke containment. After delay the barrier descends to its full operational position.
Voice warning: Audio or spoken multi message facility.
Obstruction warning: A beam detector which will sound in the event of any obstruction being placed in the curtain drop line.
Visual alert system: Standard localised light or strobe light.
Emergency retract: Manual operation to momentarily retract for occupant escape and emergency service access
Walk through escape: A push-through overlap to provide means of passage through the barrier once deployed.
Others: Other variants are available such as manual reset, curtain decals and signage and delayed descent