Circular Fire Damper Cartridge

Clapets coupe-feu et Volets de désenfumage D.A.S. Organisme Certificateur AFNOR Certification - www.marque-nf.com SC Rf-Technologies nv - Lange Ambachtstraat - 9860 Oosterzele - Belgium - Tel +32 9 362 31 71 - Fax +32 9 362 33 07 - www.rft.be - info@rft.be

Declaration of Performance 2 DECLARATION OF PERFORMANCE SC CE_DoP_Rf t_s2_en C 1. Unique identification code of the product type: Circular fire damper cartridge 2. Identification of the construction product: SC 3. Intended use(s) of the construction product: Circular fire damper to be used in conjunction with partitions to maintain fire compartments in heating, ventilating and air conditioning installations. 4. Name and contact address of the manufacturer: Rf Technologies NV, Lange Ambachtstraat, B 9860 Oosterzele System 1 5. System of assessment and verification of constancy of performance of the construction product: Notified factory production control certification body BCCA with identification number 0749 performed the determination of the product type on the basis of type testing (including sampling), the initial inspection of the manufacturing plant and of factory production control and continuous surveillance, assessment and evaluation of factory production control under system 1 and issued the certificate of constancy of performance (BC1 606 0464 156.08 17) 6. In case of the declaration of performance concerning a construction product covered by a harmonised standard: 7. Declared performance according to EN 156: (Fire resistance according to EN 1366 2 and classifications according to EN 131 3) Essential characteristics Performance Range Type Wall Sealing Classification Rigid wall Reinforced concrete 110 mm Mortar E 1 (ve o i) S ( Pa) Rigid floor Reinforced concrete 1 mm Mortar E 1 (ho o i) S ( Pa) SC(V)0 mm Rigid wall Reinforced concrete 110 mm Mortar EI 60 (ve o i) S ( Pa) Rigid floor Reinforced concrete 110 mm Mortar EI 60 (ho o i) S ( Pa) Flexible wall Metal studs gypsum plasterboard GKB mm Mineral wool kg/m³ + cover plates EI 60 (ve o i) S ( Pa) SC(V)60 mm Rigid wall Reinforced concrete 110 mm Mortar EI 90 (ve o i) S ( Pa) Rigid floor Reinforced concrete 1 mm Mortar EI 90 (ho o i) S ( Pa) Flexible wall Metal studs gypsum plasterboard GKF mm Mineral wool kg/m³ + cover plates EI 90 (ve o i) S ( Pa) SC(V)90 80 mm Rigid wall Reinforced concrete 110 mm Mortar EI 1 (ve o i) S ( Pa) Harmonised standard EN 156 :10 Rigid wall Aerated concrete 1 mm Mortar EI 1 (ve o i) S ( Pa) Rigid floor Reinforced concrete 1 mm Mortar EI 1 (ho o i) S ( Pa) Flexible wall Metal studs gypsum plasterboard GKF mm Mineral wool kg/m³ + cover plates EI 1 (ve o i) S ( Pa) SC(V)1 mm Type of installation: built in, inside a duct Pass Nominal activation conditions/sensitivity: - sensing element load bearing capacity - sensing element response temperature Pass Response delay (response time) according to EN 1366 2: - closure time cycles Operational reliability according to EN 1366 2: - cycling Pass Durability of response delay according to EN 1366 2: - sensing element response temperature and load bearing capacity Pass Durability of operational reliability according to EN 156: - open and closing cycle Protection against corrosion according to EN 60068 2 52: NPD (no performance determined) Damper casing leakage according to EN 1751: NPD (no performance determined) 8. The performance of the product identified in points 1 and 2 is in conformity with the declared performance in point 7. This declaration of performance is issued under the sole responsibility of the manufacturer identified in point 4. Signed for and on behalf of the manufacturer by: Oosterzele, 16/ Barbara Willems, Technical Manager Download the up to date Rf t Declarations of Performance in your local language on www.rft.be/d Or scan this QR code:

Table of contents Declaration of performance... 2 Product Presentation Range... 3 Dimensions Option... 4 Installation... 5 Approval and test report Storing and handling Evolution kits Used abbreviations Maintenance... 7 Technical data... 8 Weights Selection graph... 9 Pressure loss coefficient ζ [-] Selection data...10 Correction factor L Selection graph SCV...12 Sample order...13 Product Presentation Circular fire damper cartridges SC(V) are installed in circular ventilation ducts passing through a construction element in order to stop the propagation of fire. The circular fire damper cartridge SC(V) has a fire resistance up to 1'. There are two types of circular fire damper cartridges: SC : especially used to close ventilation ducts passing through a construction element and SCV : is equipped with a finishing ventilation valve and is especially used for installation at the end of ventilation ducts passing through a construction element. The circular fire dampers cartridges are equipped with a common fusible link mechanism. 4 1 2 5 7 6 9 3 8 1. Steel tunnel 2. Two semi circular blades 3. Intumescent strip around the tunnel 4. Rubber sealing rings 5. Fusible link 72 C 6. Two blocking hooks 7. End of range switch 8. Finishing ventilation valve 9. Product identification fig. SC fig. SCV Range ØDn(mm) 80* 1 1** 160 *Only for SC90 **Only for SC(V)60 3

Dimensions ØD-1,5 y ØD-1,5 60 x fig. SC 110 x fig. SCV SC(V)0 SC(V)60 SC(V)90 SC(V)1 Y ØD (mm) x x x 80 / 10 / / 18 145 1 31 33 33 170 1 / / 185 160 49 51 51 195 69 71 71 235 Option End of range switch FCU: An end of range switch can be mounted on the metal body. The purpose is to determine the position of the circular fire damper cartridge from a distance.. COM: black Power supply: Max 0V NF : grey Power consumption: Max 6A NO : blue Degree of protection: IP65 Damper open Damper closed Length of cable: 0mm Grey Blue Black 4

Installation The damper can be mounted with the axis in any position (0-360 ) The damper has to be installed in conformity with the test report Air movement may be from either direction The SC(V) must be accessible for inspection and maintenance Fire side: opposite to fusible link 0-360 The circular fire damper cartridge SC(V) is always tested in standardized supporting constructions (rigid wall, floor as well as flexible wall) according to EN 1366-2: 1999 table 3/4/5 'standarized supporting constructions'. The achieved results are valid for similar supporting constructions with a fire resistance and/or thickness and/or density equal to or bigger than the supporting construction used during the test. Examples of similar supporting constructions reinforced concrete wall min. 110mm + density 2 kg/m³ + fire resistance 1' reinforced concrete floor 1 mm + density 2 kg/m³ + fire resistance 1' - 2' flexible wall: metal stud + gypsum plasterboard: mm + fire resistance 1' masonry in hollow or full bricks, reinforced concrete, aerated concrete, light concrete,... concrete elements, pre-stressed concrete,... metal stud + Rf-boards, several layers of gypsum cardboard Operation SC The fire damper cartridge is kept in the open position by a fusible link. When the temperature in the duct rises above 72 C, the fusible link melts and releases the two semi circular blades. The damper is now closed. The two blocking hooks keep these blades in their safety position which prevents any smoke or flames from passing through. 1. 1. 2. 2. Press the two blocking hooks carefully to unlock the blades. Click the fusible link into the holder to lock the blades. Unlock (close) the damper blades by pushing them towards each other. Carefully unlock the fusible link by pushing it sidewards. 5

Installation in rigid wall and floor SC+60 SC+90 SC+1 The circular fire damper cartridge was tested in a metal duct mounted in a reinforced concrete wall of 110mm, an aerated concrete wall of 1mm as well as in reinforced concrete floors of 110 or 1mm (fire resistance 1' up to 2'). 1. 2. Mortel / Mortier / Mortar 1. 2. Mortel / Mortier / Mortar Øn+ Øn Øn+ Øn 110/1mm 110/1mm SC+V 1mm (SC(V)0/90/1) 110mm (SC(V)60) 1mm (SC(V)0/90/1) 110mm (SC(V)60) SC+V Øn+ Øn+ Øn+ Øn+ 110 110 110 110 Installation in flexible wall- authorised for SC(V)60, SC(V)90 & SC(V)1 SC+60 The fire damper cartridge SC(V)60 was tested in a metal duct mounted in a metal stud plasterboard gypsum wall (fire resistance 60') with a minimal thickness of mm. The fire damper cartridges SC(V)90 and SC(V)1 were tested in a metal stud plasterboard gypsum wall (fire resistance 1') with a minimal thickness of mm. 1. 600 2. 3. 4. kg/m 3 On+ Øn+ Øn+5 type 212/ 2x12.5 On+ Jointfiller Øn+ Jointfiller GKA 60 GKF 1 kg/m 3 SC+V SC+V SC+V Øn+ Øn+ Øn+ Øn+ Øn+ Øn+Øn+ Option 1 or Option 2 6

Approvals and test reports All our circular fire damper cartridges are submitted to a number of tests by official test institutes. Reports of these tests form the basis for the approvals of our dampers. Europa : CE marking according to EN 156:10 (certificate BC1-606-0464-156.08-17) France : NF-approval : 05.27 ISO : Certification: ISO 9001:8 Storing and handling As the circular fire damper cartridge is a safety element it needs to be stored and handled with caution. Attention: Avoid any kind of damage Avoid contact with water Avoid deformation of the casing during the installation and sealing It is recommended: to unload in a dry area to avoid heavy shocks Evolution kits KITS FCU SC* KITS FT SC Unipolar end of range switch Fusible link (per set of 5) * Not covered by NF Used abbreviations E = integrity o i = fire side = side opposite to the fusible link MOD= Kit I = thermal insulation v e = damper mounted in a duct in a wall DAS MOD=Modular product S = smoke leakage h o = damper mounted in a duct in a floor/slab Pa=Pascal Maintenance - No particular maintenance required - Clean the whole unit before start-up - Follow the local maintenance regulations (i.e. BS9999 Annex V; NF S 61-933) and EN13306 - Attention, butterfly dampers, in their closed position, can move in the duct when placed under too high pressure. 7

Technical data Operating mechanism SC SCV Description Circular fire damper cartridge Circular fire damper cartridge with valve Certifications Classification See Declaration of Performance p. 2 Durability test After cycles the characteristics stay within the declared limit values. After cycles the characteristics stay within the declared limit values. Safety position Closed Closed Operation Automatically: by melting the fusible link 72 C Automatically: by melting the fusible link 72 C Unlocking Cold unlocking possible Cold unlocking possible Functioning With internal energy With internal energy Position indication Non Non Installation direction Horizontally or vertically Horizontally or vertically Fire side Side opposite of the fusible link Side opposite of the fusible link Air movement Random Random Test pressure Max Pa Max Pa Ambient temperature Max C Max C Environment For interior use For interior use Position switch * Option: FCU 1mA...6A DC 5V...AC0V Option: FCU 1mA...6A DC 5V...AC0V Degree of protection IP65 IP65 Maintenance Maintenance free Maintenance free * Not covered by NF The NF-label guarantees: - The conformity with the standard NF S 61-937 Parts 1 & 5: Systèmes de Sécurité Incendie Dispositifs Actionnés de Sécurité - The conformity with the national decree of March 22, 4, changed on 14th of March 11 for the classification of fire resistance - The values of the characteristics mentioned in this document Organisme Certificateur: AFNOR Certification 11 Rue Francis de Pressensé F93571 La Plaine Saint-Denis Cedex Website: http://www.afnor.org and http://www.marquage-nf.com Phone: +33 (0)1.41.62.80.00 Fax: +33 (0)1.49.17.90.00 Email: certification@afnor.org 8

Weights Weight SC0/ SC60 Ø[mm] 1 1 (pour SC60) 160 m [kg] 0.2 0.0 0.355 0.5 0.470 Weight SC90/SC1 Ø[mm] 80 (voor SC90) 1 160 m [kg] 0.130 0.230 0.280 0.390 0.510 Weight SCV0/ SCV60 Ø[mm] 1 1 (pour SCV60) 160 m [kg] 0.4 0.470 0.535 0.6 0.980 Weight SCV90/ SCV1 Ø[mm] 1 160 m [kg] 0.430 0.0 0.690 1.0 Selection graph p[pa] 80 D n [mm] 90 80 70 60 30 55 1 1 160 10 9 8 7 6 5 4 3 35 45 L WA [db(a)] 2 2 3 4 5 6 7 8 9 101112 v[m/s] 9

Pressure loss coefficient ζ [-] Pressure loss coefficicient SC0/ SC60 1 1 160 ξ [-] 2.08 1.36 1.09 0.97 0.78 Pressure loss coefficicient SC90/ SC1 80 1 160 ξ [-] 4.35 2,19 1.44 1.00 0.80 p = v² x 0,6 x ζ q v = A q = Air flow in the duct [m³/h] p = Static pressure drop [Pa] ζ = Pressure loss coefficient zeta [-] A = Internal surface of the duct [m²] v = Air speed in the duct [m/s] L WA = A-weighted sound power level D n = Nominale diameter of the damper Elaborated example of a pressure drop calculation p with air speed v = 4m/s SC0 / SC60 1 1 160 SC90 / SC1 80 1 160 p [Pa] 19.97 13.06 10.46 9.31 7.49 p [Pa] 127.89 64.39 42.34 29. 23.52 Elaborated example of a pressure drop calculation p with air speed v = 7m/s SC0 / SC60 1 1 160 SC90 / SC1 80 1 160 p [Pa] 61.15 39.98 32.05 28.52 22.93 p [Pa] 127.89 64.39 42.34 29. 23.52 Selection data A-weighted sound power level L WA of 60dB(A) in the duct SC0/ SC60 SC90/ SC1 Dn [mm] 1 1 160 Dn [mm] 80 1 160 Sn [m²] 0.00366 0.00698 0.011 0.01324 0.02279 Sn [m²] 0.0013 0.00322 0.00641 0.01249 0.02183 Sn [%] 46.60 56.88 63.09 65.90 72.58 Sn [%] 27.39 41.01 52.23 62.16 69.52 Q [m³/h] 295 518 801 9 1617 Q [m³/h] 162 291 9 939 1597 p [Pa] 136 112 104 95 p [Pa] 9 139 115 101 96 Sn = Free air passage Q = Air flow p = Pressure drop Every air flow lower than the above mentioned maximum value, will meet the listed A-weighted sound power level 60dB(A), for the respective dimension. 10

A-weighted sound power level L WA of 55dB(A) in the duct SC0/ SC60 SC90/ SC1 Dn [mm] 1 1 160 Dn [mm] 80 1 160 Sn [m²] 0.00366 0.00698 0.011 0.01324 0.02279 Sn [m²] 0.0013 0.00322 0.00641 0.01249 0.02183 Sn [%] 46.60 56.88 63.09 65.90 72.58 Sn [%] 27.39 41.01 52.23 62.16 69.52 Q [m³/h] 9 367 568 673 1146 Q [m³/h] 115 6 361 666 1132 p [Pa] 68 56 52 48 p [Pa] 105 70 68 51 48 Every air flow lower than the above mentioned maximum value, will meet the listed A-weighted sound power level 55dB(A), for the respective dimension. A-weighted sound power level L WA of db(a) in the duct SC0/ SC60 SC90/ SC1 Dn [mm] 1 1 160 Dn [mm] 80 1 160 Sn [m²] 0.00366 0.00698 0.011 0.01324 0.02279 Sn [m²] 0.0013 0.00322 0.00641 0.01249 0.02183 Sn [%] 46.60 56.88 63.09 65.90 72.58 Sn [%] 27.39 41.01 52.23 62.16 69.52 Q [m³/h] 148 260 2 477 812 Q [m³/h] 81 146 6 172 802 p [Pa] 34 28 26 24 p [Pa] 53 35 29 26 24 Every air flow lower than the above mentioned maximum value, will meet the listed A-weighted sound power level db(a), for the respective dimension. A-weighted sound power level L WA of 45dB(A) in the duct SC0/ SC60 SC90/ SC1 Dn [mm] 1 1 160 Dn [mm] 80 1 160 Sn [m²] 0.00366 0.00698 0.011 0.01324 0.02279 Sn [m²] 0.0013 0.00322 0.00641 0.01249 0.02183 Sn [%] 46.60 56.88 63.09 65.90 72.58 Sn [%] 27.39 41.01 52.23 62.16 69.52 Q [m³/h] 105 184 285 338 576 Q [m³/h] 58 104 181 334 569 p [Pa] 17 14 13 13 12 p [Pa] 26 18 15 13 12 Every air flow lower than the above mentioned maximum value, will meet the listed A-weighted sound power level 45dB(A), for the respective dimension. A-weighted sound power level L WA of db(a) in the duct SC0/ SC60 SC90/ SC1 Dn [mm] 1 1 160 Dn [mm] 80 1 160 Sn [m²] 0.00366 0.00698 0.011 0.01324 0.02279 Sn [m²] 0.0013 0.00322 0.00641 0.01249 0.02183 Sn [%] 46.60 56.88 63.09 65.90 72.58 Sn [%] 27.39 41.01 52.23 62.16 69.52 Q [m³/h] 74 131 2 2 8 Q [m³/h] 41 73 128 237 3 p [Pa] 9 7 7 6 6 p [Pa] 13 9 7 6 6 Every air flow lower than the above mentioned maximum value, will meet the listed A-weighted sound power level db(a), for the respective dimension. A-weighted sound power level L WA of 35dB(A) in the duct SC0/ SC60 SC90/ SC1 Dn [mm] 1 1 160 Dn [mm] 80 1 160 Sn [m²] 0.00366 0.00698 0.011 0.01324 0.02279 Sn [m²] 0.0013 0.00322 0.00641 0.01249 0.02183 Sn [%] 46.60 56.88 63.09 65.90 72.58 Sn [%] 27.39 41.01 52.23 62.16 69.52 Q [m³/h] 53 93 2 2 8 Q [m³/h] 41 73 128 237 3 p [Pa] 9 7 7 6 6 p [Pa] 13 9 7 6 6 Every air flow lower than the above mentioned maximum value, will meet the listed A-weighted sound power level 35dB(A), for the respective dimension. 11

Correction factor L To obtain the sound power level for the L W oct octave midband L WA = A-weighted sound power level L = Correction factor L W oct = Sound power level for each octave midband L W oct = L + L WA [Hz] 63 1 0 0 0 0 00 8000 2-4 m/s 3-7 -13-22 -27-28 -24 6-8 m/s 18 5 1-3 -8-11 -14-10-12 m/s 13 2 0-3 -7-9 -10-15 Deduct L WA from the selection graph on p. 10 Selection graph SCV a = amount of turns 10 V air supply a=-5 0 5 10 30 35 db[a] p[pa] 10 2 3 4 5 10 60 10 V 1 air supply a=-3 0 4 9 15 30 35 db[a] 12 p[pa] 10 2 3 4 5 10 80

10 V 160 air supply a=-5 0 5 10 15 35 db[a] 30 p[pa] 10 2 3 4 5 10 10 V air supply a=-3 10 15 35 db[a] 30 p[pa] 10 0 2 3 4 5 10 10 V air exhaust a=-6-4 0 4 8 12 15 35 30 db[a] p[pa] 10 2 3 4 5 10 80 13

10 a=-16-12 -10-6 0 5 10 35 30 db[a] p[pa] 10 V 1 air exhaust 2 3 4 5 10 60 10 V 160 air exhaust a=-5 0 15 5 10 35 db[a] 30 p[pa] 10 2 3 4 5 10 p[pa] Q 10 V air exhaust a=5 10 15 35 db[a] 30 14 p[pa] 10 2 3 4 5 10

Sample order Sample order = SC60 FCU 1 2 3 1 Type of damper cartridge 2 Diameter of the damper cartridge 3 Option: unipolar end of range switch If the damper is manipulated in any other way than described in this manual, Rf-Technologies will decline any responsibility and the guarantee will immediately expire 15