Shutter Fire Damper Type FSD GFSD /./B/
Contents Description Description... Construction... Installation Details... Control Accessories... Technical Data... Order Details... 7 8 9 FSD-L GFSD-L FSD Fire dampers are constructed with a.mm galvanised steel casing with 0.8mm galvanised steel blades, fitted with catchplates and stainless steel closure springs and stainless steel side seals. Fusible links are fitted for a fusing temperature of 7ºC unless otherwise specified. GFSD Generally has the same construction as Type FSD except that the blades are manufactured from 0.8mm stainless steel. Note: The installer should note that all fire damper installations plus required access panels have to be to the satisfaction of the District Surveyor. Such approval will be deemed to have been obtained. FSD-L GFSD-L FSD-HR GFSD-HR
Construction Types FSD-L FSD-L FSD-L GFSD-L GFSD-L GFSD-L Types L.. L shutter fire dampers are for use in low pressure systems, the interlocking hinged blades are easily reset from the side of the damper to which the catchplate is fitted, an access panel must be installed on that side to allow for resetting the fusible link. The Type L can be used with a HVF (HEVAC) subframe. The installation method for multiple section installation must have the relevant local approvals. It should be noted that multiple installations may experience difficulty in establishing positive closure against airflow pressure when the fan is in operation. Type FSD-L GFSD-L B Type FSD-L GFSD-L B H H Y 0 0 Duct Size B or H 0 00 0 00 0 00 0 00 0 00 0 700 70 800 80 900 90 000 Dim X 0 0 0 0 70 7 80 8 90 9 00 0 0 Dim Y Type FSD-L GFSD-L Galvanised steel frame. Galvanised steel (FSD) or stainless steel (GFSD) blade assembly. Fusible link. Catchplates. Stainless steel closure springs. Stainless steel side seals. 0 x 8 77 8 H Y 0 B 0 0 0
Construction Types FSD-HR FSD-HC FSD-HO GFSD-HR GFSD-HC GFSD-HO Types FSD or GFSD-HR, -HC, -HO have a fully welded airtight casing and are applicable to high pressure systems. Each of these designs are intended to be used with an HVF (HEV AC) subframe and when ordered with this accessory they are delivered as a complete assembly. The hinged blades are easily reset from the side of the damper to which the catchplate is fitted, an access panel must be installed on that side to allow for resetting the fusible link. Type FSD-HR GFSD-HR 0 B 0 Type FSD-HC GFSD-HC 0 D Dia 0 Type FSD-HO GFSD-HO 0 H Y 0 Dia Y 0 D Y 8 8 8 7 8 7 Duct Size B or H or D 0 00 0 00 0 00 0 00 0 00 0 700 70 800 80 900 90 000 Dim Y All welded galvanised steel frame. Galvanised steel (FSD) or stainless steel (GFSD) blade assembly. Fusible link. Catchplates. Stainless steel closure springs. Stainless steel side springs. 0 B 0 7 8 7
Installation Details Installation with Sleeve and Peripheral Angles : As an alternative for use where the HEVAC frame is not desired, or cannot be fitted, peripheral sleeves and angle frames can be constructed in accordance with the following. The damper should be installed centrally within the surrounding wall or floor thickness such that the centre line of the frame is a minimum distance of 0mm from the nearest face of the wall or floor. The damper should be installed in a rectangular galvanised steel sleeve with a minimum thickness of.mm. This sleeve should be attached to the damper not to the builder s work by mm diameter bolts spaced at not more than mm centres. centres, and should form a complete frame around the sleeve and cover over the expansion gap (see note) required between sleeve and wall or floor opening. The expansion gap should be filled with compressible, non-combustible material (mineral wool). The cover angle should be of such a size as always to form a cover over the wall or floor opening by mm minimum, and should be manufactured from a minimum size of 8 x 8 x mm steel angle. All fixings of frames must be positioned clear of the damper blade path so as not to impede proper closure. The sleeve should be of a suitable length to extend through the wall or floor opening to enable the fitting of the cover angles and ductwork. The cover angles should be attached to the sleeve by mm diameter bolts at a maximum of mm FSD-L GFSD-L FSD-L GFSD-L FSD-L GFSD-L 0 H X B H X B H X B FSD-HR GFSD-HR FSD-HR GFSD-HR Multiple Assembly in Horizontal Duct Multiple Assembly in Vertical Duct B X H Total Clearance Clearance per side 0-00 mm mm 00-000 mm mm Type CC Channel Frame Installation requirements : The installer should note that the installation and location of access panels is to be to the satisfaction on the District Surveyor or Building Inspector. Note : Allowance for expansich between sleeve and builder s work in both horizontal and vertical planes.
Installation Details HEV AC Installation Frame Type HVF The HEV AC Installation Frame Type HVF is built to specification HVC /78. Various fire damper designs can be used with this installation frame, see below. Where more than one duct penetrates a fire wall or floor, adjacent fire dampers and frame assemblies must be separated by builder s work of a minimum thickness of mm. FSD and GFSD-L, HO, HC and HR can all be fitted in the HEV AC installation frame. The installation frame is factory assembled with its respective fire shutter damper and delivered to site as one unit. this unit. 0mm clearance between frame and fire damper to allow should be installed centrally within the thickness of the expansion. surrounding wall or floor such that the centre line of the frame is. Galvanised steel spacer to permit expansion. a minimum distance of 0mm from the nearest face of the wall. Galvanised steel building ties. or floor.. Aluminium rivets fix the corner angles to the frame.. Galvanised steel frame, the corners left open. On installation all fixing tabs, except those which are completely. Steel corner angles retain frame open corner. inaccessible, shall be bent into the surrounding wall or floor 7., mm clearance between mitre corner. then with cement mortar fill all joints solidly. HEV AC Installation Frame FSD-L FSD-HR FSD-HC FSD-HD GFSD-L GFSD-HR GFSD-HC GFSD-HD O /A Frame = H +mm upto 0 duct H or H + 07 mm from 00 to 000 duct H B B + 7 7 7
Control Accessories ACCESSORIES CODE FSD-L GFSD-L FSD-L GFSD-L FSD-L GFSD-L FSD-HR FSD-HC FSD-HO GFSD-HR GFSD-HC GFSD-HO Electrical Cut-out Switch Type MWB : Type MWB single pole, change over metal clad micro-switches are mounted on a bracket located on the bottom of the damper frame.the micro-switch operates when the blades have locked into the fully closed position. Switch ratings max 80V 0Hz 0A min vdc 00 ma. Protection system IP contact resistance 0mΩ. Z00 Electrical Cut-out Switch Type MWT: Type MWT single pole change over metal clad limit switches are mounted on a bracket located at the top of the damper frame. When the blades begin to move the micro-switch is operated. Applicable to type FSD-L construction only. Switch ratings max 80V 0Hz 0A min vdc 00mA. Protection system IP contact resistance 0mΩ. Z0 Solenoid Type SRA: Type SRA solenoid provides remote operation from an AC electrical signal, power on the damper closes. It incorporates a fusible link into the assembly to also provide normal closure in the event of increasing temperature. AC solenoid U = 0/0V 0Hz PΩ - 0VA inrush 8VA closed. 00% rated. Z0 Electro Magnet Type SRD : Type SRD electro-magnet provides remote operation from a DC electrical source, power of f the damper closes. It incorporates a fusible link into the assembly to provide normal closure in the event of increasing temperature within the duct. V = vdc DC Magnet PΩ W att 00% rated. Z0 CO Operation Type COT: Type COT provides remote operation with a CO actuated thruster. It incorporates a fusible link into the assembly to provide normal closure in the event of increasing temperature. working pressure p=0 to 80 bar Z0 7
Technical Data The fire dampers shown have been tested by an independent authority (Warrington Research Centre) according to British Standard 7 Part 8 : 97 for a period of hours. The time/ temperature curve required by this test procedure is shown below, after hours test the FSD/GFSD retained its integrity with no significant openings being formed. Pressure losses are shown below for units with blades either in or out of the airstream. 00 Blades in airstream FSD-L and GFSD-L 0 Fire Test 0 Static pressure drop Pascals (Pa) 00 80 0 0 0 0 0 0 8. 8 0 Duct velocity m/s 0 C Temperature rise (T-To) 00 000 900 800 700 00 00 0 Blades out of airstream FSD-L and GFSD-L 00 00 00 80 00 Static pressure drop Pascals (Pa) 0 0 0 0 0 00 0 0 0 90 0 80 0 0 Time (T) min 0 8 0 0 0 Duct velocity m/s 8
Order Details Order Code These codes do not need to be completed for standard products FSD-L 000 x 00 HVF Z00 Materials FSD GFSD (see page ) Duct Size B x H mm O : Standard (none) Control Accessories Z00 - Z0 (see page 7) Construction L L L HR HC HO (see pages &) Frames O : Standard (none) HVF : Hevac Sub-frame CC : U Channel for multiple assemblies of L- L Specification Text Square or rectangular shutter type fire dampers for the isolation of fire zones in air conditioning systems designed to maintain integrity and stability for hours when tested to BS 7 Part 8 : 97 (Warrington Research Centre Report /A). Order Example Make : TROX Type : FSD-L/HVF/Z00 Size 000 x 00 FSD Fire Dampers consist of rolled galvanised steel case and interlocking shutter type blades. Casing complete with catch plates, stainless steel side seals and constant tension closure springs. Suitable for either rectangular, circular or flat oval ducting available with high or low pressure construction. Standard release 7º C fusible link. Options stainless steel blades, HEVAC installation frame, electrical cut out switches, solenoid, electromagnet or CO release (in conjunction with fusible link) fusible links at other temperatures. 9