Mandik FDMQ 120 Manual
www.mandik.co.uk
MANDÍK, a. s. • Dobříšská 550 • 267 24 Hostomice • Czech Republic • Tel.: +420 311 706 742 • E-Mail: [email protected]
Manufacturer
MANDIK UK Ltd • 130 Aztec West • Bristol BS32 4UB • United Kingdom • Tel.: +44 117 4526376 • E-Mail: [email protected]
Authorized representative
FDMQ 120
Fire damper
Technical Documentation
Installation, Commissioning, Operation, Maintenance and Service Manual
TPM 166/22
Version 2022-12-20
FDMQ 120 - Fire damperPage 2 Version 2022-12-20
TPM 166/22
These technical specifications state a row of manufactured sizes and models of fire dampers FDMQ 120
It is valid for production, designing, ordering, delivery, maintenance and operation.
CONTENT
I. GENERAL.....................................................................................................................................................................................3
Description..............................................................................................................................................................................3
Design.....................................................................................................................................................................................4
Design with mechanical control..........................................................................................................................................4
Design with actuating mechanism.......................................................................................................................................6
Communication and control module MDCM.....................................................................................................................11
Dimensions...........................................................................................................................................................................12
Technical parameters............................................................................................................................................................14
Placement and Assembly......................................................................................................................................................20
Statement of installations.....................................................................................................................................................22
Installation in solid wall construction................................................................................................................................23
Installation outside solid wall construction.......................................................................................................................27
Installation in gypsum wall construction...........................................................................................................................29
Installation outside gypsum wall construction..................................................................................................................33
Installation in solid ceiling construction............................................................................................................................35
Shaft wall...........................................................................................................................................................................36
Suspension systems..............................................................................................................................................................38
Duct connection....................................................................................................................................................................40
II. TECHNICAL DATA.....................................................................................................................................................................41
Pressure loss.........................................................................................................................................................................41
Noise data.............................................................................................................................................................................43
III. MATERIAL, FINISHING.............................................................................................................................................................44
Material................................................................................................................................................................................44
IV. INSPECTION, TESTING.............................................................................................................................................................44
V. TRANSPORTATION AND STORAGE...........................................................................................................................................45
Logistic terms........................................................................................................................................................................45
VI. ASSEMBLY, ATTENDANCE AND MAINTENANCE......................................................................................................................45
Assembly...............................................................................................................................................................................45
Entry into service and revisions.........................................................................................................................................49
Spare parts.........................................................................................................................................................................50
VII. PRODUCT DATA.....................................................................................................................................................................51
Data label..............................................................................................................................................................................51
VIII. ORDERING INFORMATION....................................................................................................................................................51
Ordering key.........................................................................................................................................................................51
Page 3Version 2022-12-20 FDMQ 120 - Fire damper
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I. GENERAL
Description
Working conditions
■Exact damper function is provided under the following conditions
■maximum air velocity 12 m/s
■underpressure max. -1200 Pa
■the air circulation in the whole damper section must be secured as steady on whole surface.
■Dampers can be installed in position with horizontal or vertical blade axis.
■Dampers can be installed in position with actuating mechanism on top or on the side of damper.
■Dampers are suitable for systems without abrasive, chemical and adhesive particles.
■Dampers are designed for macroclimatic areas with mild climate according to EN 60 721-3-3, class 3K22.
■Temperature in the place of installation is permitted to range from -30°C to +50°C.
Fire dampers are shutters in ducts of air-conditioning devices
that prevent spreading the fire and combustion products
from one fire segment to the other one by means of closing
the duct in the points of fire separating constructions.
Dampers blade automatically closes air duct using a shutting
spring or an actuating mechanism back spring. Closing spring
is released either by pushing of the button or by thermal fuse.
The back spring of the actuating mechanism is started when
the thermoelectrical starting mechanism BAT is activated,
when a reset button on BAT is pushed or when a power
supply of the actuating mechanism is stopped.
The damper is sealed with a silicon packing against smoke
penetration after closing the blade. At the same time, the
damper blade is bedded in a material which enlarges its
capacity and air proofs the air duct.
Dampers have two inspection holes.
Damper FDMQ 120 with actuating mechanism Damper FDMQ 120 with mechanical control
Damper characteristics
■CE certified acc. to EN 15650
■Tested in accordance with EN 1366-2
■Classified acc. to EN 13501-3+A1
■External Casing leakage class min. C acc. to EN 1751
■Internal leakage min. class 2 acc. to EN 1751
■Cycling test in class C10000 acc. to EN 15650
■Corrosion resistant acc. to EN 15650
■Certificate of constancy of performance UKCA No. TBD* & UKNI No. TBD*
■Certificate of constancy of performance CE No. 1391-CPR-2022/0153
■Declaration of Perfomance UKCA & UKNI No. PM/FDMQ 120/02/22/1
■Declaration of Perfomance CE No. PM/FDMQ 120/01/22/1
■Hygienic assessment of fire dampers - Report No. 1.6/pos/19/19c * Document in process
FDMQ 120 - Fire damperPage 4 Version 2022-12-20
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Design
Design with mechanical control
■Design .01 with mechanical control can be complemented
with a limit switch signalling of the damper blade position
"CLOSED".
■Cable is connected directly to limit switch.
■Limit switch detail → see page 5
Design .11
■Design .01 with mechanical control can be complemented
with a terminal switches signaling of the damper blade
position "CLOSED" and "OPEN".
■Limit switches are connected via damper casing, cables
are connected directly to limit switches.
■Limit switch detail → see page 5
Design .80
■Design with mechanical control with a thermal protective
fuse which actuates the shutting device, after the nominal
start temperature 72°C has been reached.
■Automatic initiation of the shutting device is not activated
if the temperature does not exceed 70°C.
■In case that other start temperatures are required,
thermal fuses with nominal start temperature +104°C or
+147°C can be supplied (this requirement must be
specified in the order).
Design .01
ATTENTION:
■Mechanisms are produced in five designs M1 to M5, dif-
ference is only in size of inner spring, which closes the fire
damper.
■For the size of fire dampers is always assigned the size of
mechanism → see pages 14 to 19
■It is not recommended to use different size of mechanism,
than given by the manufacturer, otherwise, there is a risk
of fire damper destruction.
Design .01
Design .11
Limit switch
“CLOSED”
Design .80
Limit switch
“CLOSED”
Limit switch
“OPEN”
Page 5Version 2022-12-20 FDMQ 120 - Fire damper
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Nominal voltage and maximal current AC 230V / 5A
Class of protection IP 67
Working temperature
-25°C … +120°C
Limit switch G905-300E03W1
This limit switch is possible to connect in following two versions
■CUT-OFF if the arm is moving … connect wire 1+2
■SWITCH-ON if the arm is moving … connect wire 1+4
1(COM) - black wire
2(NC) - gray wire
4(NO) - blue wire
Mechanical control
Fusible link
FDMQ 120 - Fire damperPage 6 Version 2022-12-20
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Design with actuating mechanism
■The dampers are equipped by Belimo actuators with
spring return and thermoelectric activation device of BFL,
BFN or BF depending on the damper size (further mentio-
ned as „actuators“).
■After being connected to power supply 230V or AC/DC
24V, the actuating mechanism displaces the damper
blade into operation position "OPEN" and at the same
time it pre-stretches its back spring.
■When the actuating mechanism is under voltage, the
damper blade is in the position "OPEN" and the back
spring is pre-stretched.
■Time needed for full opening of the flap blade from the
position "CLOSED" to the position "OPEN" is maximum
120 sec. If the actuating power supply is cut off (due to
loss of supply voltage, or pushing the reset button on the
thermoelectrical starting mechanism BAT), the back
spring displaces the damper blade into the breakdown
position "CLOSED".
■The time of displacing the blade from the position "OPEN"
to the position "CLOSED" takes maximum 20 sec.
■In case that the power supply is restored again (the blade
can be in any position), the actuating mechanism starts to
re-displace the damper blade into the position "OPEN".
■A thermoelectrical starting mechanism BAT, which
contains two thermal fuses Tf1 and Tf2, is a part of the
actuating mechanism.
■These fuses are activated when temperature +72°C has
been exceeded (the fuse Tf1 when the temperature
around the damper and the fuses Tf2 when the
temperature inside the air-conditioning ducting has been
exceeded).
■After the thermal fuse Tf1 or Tf2 has been activated, the
power supply is permanently and irreversibly cut off and
the actuating mechanism, by means of the pre-stretched
spring, displaces the damper blade into the breakdown
position "CLOSED".
■Signalisation of damper blade position "OPEN" a "CLOSE"
is provided by two limit switches.
Design .40 and .50
Design .40 and .50
Actuating mechanism
Thermoelectrical starting
mechanism BAT
Page 7Version 2022-12-20 FDMQ 120 - Fire damper
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Actuator BELIMO BFL 230-T
Actuator BELIMO BFL 24-T(-ST)
BELIMO - 4 N.m
Actuator BELIMO BFL 230-T, BFL 24-T(-ST)
Actuator BELIMO - 4 Nm BFL 230-T BFL 24-12(-ST)
Power voltage AC 230 V
50/60Hz
AC/DC 24 V
50/60Hz
Power consumption - motoring
- holding
3,5/5 W
1,1/2,1 W
2,5/4 W
0,8/1,4 W
Dimensioning 6,5/10 VA (Imax 4 A @ 5 ms) 4/6 VA (Imax 8,3 A @ 5 ms)
Protection class II III
Degree of protection IP 54
Running time - motor
- spring return
< 60 s
~ 20 s
Ambient temperature
- normal duty
- safety duty
- non-operating temperature
-30°C … +55°C
The safe position will be attained up to max. +75°C
-40°C … +55°C
Connection - motor
- auxiliary switch
cable 1 m, 2 x 0,75 mm² (BFL 24-T-ST) with 3-pin plug-in connectors
cable 1 m, 6 x 0,75 mm² (BFL 24-T-ST) with 6-pin plug-in connectors
Thermal trips duct outside temperature +72°C
duct inside temperature +72°C
S2S1 S3 S5S4 S6
2
1
<5° <80°
N L1
BAT
Tf Tf LED
S2S1 S3 S5S4 S6
2
1
<5° <80°
BAT
Tf Tf LED
FDMQ 120 - Fire damperPage 8 Version 2022-12-20
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Actuator BELIMO BFN 24-T(-ST)
BELIMO - 9 N.m
Actuator BELIMO BFN 230-T, BFN 24-T(-ST)
Actuator BELIMO - 9 Nm BFN 230-T BFN 24-12(-ST)
Power voltage AC 230 V
50/60Hz
AC/DC 24 V
50/60Hz
Power consumption - motoring
- holding
3,5/5 W
1,1/2,1 W
2,5/4 W
0,8/1,4 W
Dimensioning 6,5/10 VA (Imax 4 A @ 5 ms) 4/6 VA (Imax 8,3 A @ 5 ms)
Protection class II III
Degree of protection IP 54
Running time - motor
- spring return
< 60 s
~ 20 s
Ambient temperature
- normal duty
- safety duty
- non-operating temperature
-30°C … +55°C
The safe position will be attained up to max. +75°C
-40°C … +55°C
Connection - motor
- auxiliary switch
cable 1 m, 2 x 0,75 mm² (BFN 24-T-ST) with 3-pin plug-in connectors
cable 1 m, 6 x 0,75 mm² (BFN 24-T-ST) with 6-pin plug-in connectors
Thermal trips duct outside temperature +72°C
duct inside temperature +72°C
Actuator BELIMO BFN 230-T
S2S1 S3 S5S4 S6
2
1
<5° <80°
N L1
BAT
Tf Tf LED
S2S1 S3 S5S4 S6
2
1
<5° <80°
BAT
Tf Tf LED
Page 9Version 2022-12-20 FDMQ 120 - Fire damper
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Actuator BELIMO BF 230-TN
Actuator BELIMO BF 230-TN, BF 24-TN(-ST)
Actuator BELIMO - 40 Nm BF 230-TN BF 24-TN(-ST)
Power voltage AC 230 V
50/60Hz
AC/DC 24 V
50/60Hz
Power consumption - motoring
- holding
8 W
3 W
7 W
2 W
Dimensioning 12,5 VA (Imax 500 mA @ 5 ms) 10 VA (Imax 8,3 A @ 5 ms)
Protection class II III
Degree of protection IP 54
Running time - motor
- spring return
120 s
~ 16 s
Ambient temperature
- normal duty
- safety duty
- non-operating temperature
-30°C … +50°C
The safe position will be attained up to max. +75°C
-40°C … +50°C
Connection - motor
- auxiliary switch
cable 1 m, 2 x 0,75 mm²
cable 1 m, 6 x 0,75 mm²
(BF 24-T-ST) with plug-in connectors
Thermal trips Tf1: duct outside temperature Duct +72°C
Tf2/Tf3: duct intside temperature Duct +72°C
BELIMO - 40 N.m
Actuator BELIMO BF 24-TN (-ST)
S2S1 S3 S5S4 S6
2
1
<5° <80°
N L1
BAT
Tf Tf LED
S2S1 S3 S5S4 S6
2
1
<5° <80°
BAT
Tf Tf LED
FDMQ 120 - Fire damperPage 10 Version 2022-12-20
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Thermoelectrical starting mechanism BAT 72
Power voltage AC/DC 24 V
50/60Hz
Rated current 1 A
AC/DC throughput resistance <1 Ω
Protection class III
Degree of protection IP 54
Probe length 65 mm
Ambient temperature
Storage temperature
Ambient humidity
-30°C … +50°C
-40°C … +50°C
Max. 95% RH, non-condensing
Connection supply Cable 1 m, 2 x 0.5 mm², Betaflam cable heatresistant up to 145°C
Response temperature thermal fuse Duct inside temperature 72°C
Duct outside temperature 72°C
Thermoelectrical starting mechanism BAT
■If the thermal fuse Tf1 breaks (for a temperature close to
the fire damper), it is necessary to replace the actuating
mechanism. Thermoelectric starting mechanism BAT is
integral part of the actuating mechanism.
■If the thermal fuse Tf2 (for temperature in the duct) is
interrupted, it is enough to replace only the spare part
ZBAT72.
■When one of the thermal fuses responds, the supply
voltage is interrupted permanently and irreversibly.
■The function (interruption of the supply voltage) can be
checked by pressing the test button.
■Installation is carried out with the pre-assembled, self-
drilling and self-tapping screws.
Temperature thermal fuse
Spare parts are only supplied on the basis of an order.
BELIMO ZBAT 72
Black (BK) = 72°C (standard)
Page 11Version 2022-12-20 FDMQ 120 - Fire damper
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■The MDCM damper control module is connected on a bi
directional communication loop back to a control panel, typically
located at the FCC.
■Each MDCM has a 230v local spur to power the damper actuator.
■Up to 96x MDCM's can be connected on one loop and multiple
loops can be incorporated.
■This accessory is only required with MANDIK control systems.
OVERRIDE MDCM
6 5 4 3 2 1 L N N L+ +
MOTOR POWERCOMMS
S S - -
F1
S5
S6
S4
S3
S2
S1
COMMS
OPEN
CLOSED
COMMAND
L
L
N L
+
S90C CONTROLLER
S90 mounted in an addressablesmoke
control damper control panel to BS
ISO 21927-9
Cable glands
Comms cable
Damper control module PCB mounted on plastic rail
Earth stud
230v 50hz 3A fused supply (by others)
Switches 6 core
Drive open / close 230v
Damper actuator
Power
Comms IN
Comms OUT
MDCM
160mm x 160mm x 62mm deep steel
enclosure powder coated red - IP 54
-
56
+-
78
S E
Communication and control module MDCM
FDMQ 120 - Fire damperPage 12 Version 2022-12-20
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Dimensions
FDMQ 120 with actuating mechanism
93
24
258
375
30A
B30
35
A - 10
35 B - 10
75
1 Damper casing
2 Actuating mechanism
3 Damper blade
4
Inspection hole covering
5 BAT thermoelectrical
starting mechanism
6 Hole for camera
FDMQ 120 with mechanical control
1 Damper casing
2 Mechanics
3 Damper blade
4
Inspection hole covering
5 Sensor sticker
6 Hole for camera
130
93
24
123
258
375
30A
B30
35
A - 10
35 B - 10
75
X=72 mm (BFL)
X=76 mm (BFN)
X=83 mm (BF)
X
Page 13Version 2022-12-20 FDMQ 120 - Fire damper
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a
c
Damper blade overlaps
■Open damper blade overlaps the damper body by the
value “c” or “a”. These values are specified in chapter
Technical parameters → see pages 14 to 19
Values "a" and "c" has to be respected when
projecting related air-conditioning ducts.
Flange of Damper - OPERATORS SIDE
Flanges of dampers are 30 mm wide with oval hole.
35
15
A-10 (B-10)
22
10
Flange of Damper - INSTALLATIONS SIDE
FDMQ 120 - Fire damperPage 14 Version 2022-12-20
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Technical parameters
A x B
[mm]
Damper blade
overlaps
Weight Effective
area Sef
[m2]
Actu.
mech.
Mech.
contr.
A x B
[mm]
Damper blade
overlaps
Weight Effective
area Sef
[m2]
Actu.
mech.
Mech.
contr.
a
[mm]
c
[mm]
mech
[kg]
servo
[kg]
a
[mm]
c
[mm]
mech
[kg]
servo
[kg]
150
x
150 - - 8 8,1 0,0106
BFL
M1
200
x
650 3 248 19,5 22,5 0,1024 BFL
M2
180 - 13 8,5 8,6 0,0144 700 28 273 20,5 25 0,1111
BFN
200 - 23 8,9 9 0,0169 710 33 278 21 24 0,1129
225 - 35,5 9,4 9,5 0,0200 750 53 298 21,5 24,5 0,1199
250 - 48 9,9 10 0,0231 800 78 323 23 26 0,1286
280 - 63 10,5 10,6 0,0269
225
x
150 - - 9,5 9,7 0,0170
BFL
M1
300 - 73 11,1 11,2 0,0294 180 - 13 10 11,5 0,0230
315 - 80,5 11,4 11,5 0,0313 200 - 23 10,5 12 0,0270
355 - 100,5 12,4 12,6 0,0363 225 - 36 11 12,5 0,0320
400 - 123 13,5 13,6 0,0419 250 - 48 11,5 13 0,0370
450 - 148 14,5 14,6 0,0481 280 - 63 12 13,5 0,0430
500 - 173 15,5 15,6 0,0544 300 - 73 12,5 14 0,0470
550 - 198 16,4 16,6 0,0606 315 - 80,5 13 14,5 0,0500
560 - 203 16,6 16,8 0,0619
M2
355 - 100,5 14 15,5 0,0580
600 - 223 17,4 17,5 0,0669 400 - 123 15 16,5 0,0670
630 - 238 18 18,1 0,0706 450 - 148 16 17,5 0,0770
180
x
150 - - 8,8 8,9 0,0132
BFL
M1
500 - 173 17 18,5 0,0870
M2
180 - 13 9 10,5 0,0178 550 - 198 18 19,5 0,0970
200 - 23 9,5 11 0,0209 560 - 203 18 19,5 0,0990
225 - 36 10,0 11,5 0,0248 600 - 223 19 20,5 0,1070
250 - 48 10,5 12 0,0287 630 - 238 19,5 21 0,1130
BFN
280 - 63 11 12,5 0,0333 650 3 248 20 21,5 0,1170
300 - 73 11,5 13 0,0364 700 28 273 21 22,5 0,1270
315 - 80,5 12 13,5 0,0388 710 33 278 21 22,5 0,1290
355 - 100,5 13 14,5 0,0450 750 53 298 22 23,5 0,1370
400 - 123 14 15,5 0,0519 800 78 323 23 24,5 0,1470
450 - 148 15 16,5 0,0597
250
x
150 - - 10 10,1 0,0191
BFL
M1
500 - 173 16 17,5 0,0674
M2
180 - 13 10,5 12 0,0259
550 - 198 17 18,5 0,0752 200 - 23 10,5 12,5 0,0304
560 - 203 17 18,5 0,0767 225 - 36 11 13 0,0360
600 - 223 18 19,5 0,0829 250 - 48 12 13,5 0,0416
630 - 238 18,5 20 0,0876 280 - 63 13 14,5 0,0484
650 3 248 19 20,5 0,0907 300 - 73 13 15 0,0529
700 28 273 20 21,5 0,0984
BFN
315 - 80,5 13,5 15 0,0563
710 33 278 20 21,5 0,1000 355 - 100,5 14,5 16 0,0653
750 53 298 21 22,5 0,1062 400 - 123 15,5 17 0,0754
800 78 323 22 23,5 0,1139 450 - 148 16,5 19,5 0,0866
200
x
150 - - 9,1 9,2 0,0149
BFL
M1
500 - 173 18 21 0,0979
M2
180 - 13 9,5 11 0,0201 550 - 198 19 22 0,1091
200 - 23 10 11,5 0,0236 560 - 203 19 22 0,1114
225 - 36 10,5 13,5 0,0280 600 - 223 20 23 0,1204
BFN
250 - 48 11 12,5 0,0324 630 - 238 21 24 0,1271
280 - 63 11,5 14,5 0,0376 650 3 248 21,5 24,5 0,1316
300 - 73 12 13,5 0,0411 700 28 273 22,5 25,5 0,1429
315 - 80,5 12,5 14 0,0438 710 33 278 23 26 0,1451
355 - 100,5 13 15 0,0508 750 53 298 23,5 26,5 0,1541 M3
400 - 123 14 16 0,0586 800 78 323 25 28 0,1654
450 - 148 15 18 0,0674
280
x
150 - - 10,5 10,6 0,0217
BFL M1
500 - 173 16,5 18 0,0761
M2
180 - 13 11 12,5 0,0293
550 - 198 17,5 20,5 0,0849 200 - 23 11,5 13,5 0,0344
560 - 203 17,5 20,5 0,0866 225 - 36 12 14 0,0408
600 - 223 18,5 23 0,0936 250 - 48 13 14,5 0,0472
630 - 238 19 22 0,0989 280 - 63 14 15,5 0,0548
Sizes listed within the maximum/minimum sizes can be manufactured on request.
Page 15Version 2022-12-20 FDMQ 120 - Fire damper
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A x B
[mm]
Damper blade
overlaps
Weight Effective
area Sef
[m2]
Actu.
mech.
Mech.
contr.
A x B
[mm]
Damper blade
overlaps
Weight Effective
area Sef
[m2]
Actu.
mech.
Mech.
contr.
a
[mm]
c
[mm]
mech
[kg]
servo
[kg]
a
[mm]
c
[mm]
mech
[kg]
servo
[kg]
280
x
300 - 73 14 16 0,0599
BFL
M1
315
x
710 33 278 25 28 0,1871
BFN
M2
315 - 80,5 14,5 16,5 0,0638 750 53 298 26 29 0,1987 M3
355 - 100,5 15,5 17,5 0,0740 800 78 323 27,5 30,5 0,2132
400 - 123 17 18,5 0,0854
355
x
150 - - 11,8 11,9 0,0281
BFL M1
450 - 148 18 21 0,0982 180 - 13 13 14,5 0,0380
500 - 173 19,5 22,5 0,1109
M2
200 - 23 13 14,5 0,0446
550 - 198 20,5 23,5 0,1237 225 - 36 13,5 15 0,0528
560 - 203 21 24 0,1262
BFN
250 - 48 14 16 0,0611
600 - 223 22 25 0,1364 280 - 63 15 17 0,0710
630 - 238 22,5 25,5 0,1441 300 - 73 15,5 17 0,0776
650 3 248 23 26 0,1492 315 - 80,5 16 17,5 0,0825
700 28 273 24,5 27,5 0,1619 355 - 100,5 17 18,5 0,0957
710 33 278 24,5 27,5 0,1645 400 - 123 18 20 0,1106
750 53 298 25,5 28,5 0,1747 M3 450 - 148 19,5 22,5 0,1271
800 78 323 27 30 0,1874 500 - 173 21 24 0,1436
BFN M2
300
x
150 - - 10,8 11 0,0234
BFL M1
550 - 198 22,5 25,5 0,1601
180 - 13 11,5 13 0,0316 560 - 203 22,5 25,5 0,1634
200 - 23 11,5 13,5 0,0371 600 - 223 23,5 26,5 0,1766
225 - 36 12 14 0,0440 630 - 238 24,5 27,5 0,1865
250 - 48 13 14,5 0,0509 650 3 248 25 28 0,1931
280 - 63 14 15,5 0,0591 700 28 273 26,5 29,5 0,2096
300 - 73 14 16 0,0646 710 33 278 26,5 29 0,2129
315 - 80,5 14,5 16,5 0,0688 750 53 298 27,5 30,5 0,2261 M3
355 - 100,5 15,5 17,5 0,0798 800 78 323 29 32 0,2426 BF
400 - 123 17 18,5 0,0921
400
x
150 - - 12,6 12,7 0,0319
BFL M1
450 - 148 18 21 0,1059 180 - 13 13,5 15,5 0,0431
500 - 173 19,5 22,5 0,1196
M2
200 - 23 14 15,5 0,0506
550 - 198 20,5 23,5 0,1334
BFN
225 - 36 14,5 16,5 0,0600
560 - 203 21 24 0,1361 250 - 48 15 17 0,0694
600 - 223 22 25 0,1471 280 - 63 16 18 0,0806
630 - 238 22,5 25,5 0,1554 300 - 73 16,5 18 0,0881
650 3 248 23 26 0,1609 315 - 80,5 17 18,5 0,0938
700 28 273 24,5 27,5 0,1746 355 - 100,5 18 20 0,1088
710 33 278 24,5 27,5 0,1774 400 - 123 19,5 21 0,1256
750 53 298 25,5 28,5 0,1884 M3 450 - 148 21 24 0,1444
800 78 323 27 30 0,2021 500 - 173 22,5 25,5 0,1631
BFN M2
315
x
150 - - 11,8 11,9 0,0281
BFL M1
550 - 198 23,5 26,5 0,1819
180 - 13 12 13,5 0,0334 560 - 203 24 27 0,1856
200 - 23 12 13,5 0,0392 600 - 223 25,5 28,5 0,2006
225 - 36 12,5 14 0,0464 630 - 238 26 29 0,2119
250 - 48 13,5 15 0,0537 650 3 248 26,5 29,5 0,2194
280 - 63 14,5 16 0,0624 700 28 273 28 31,5 0,2381
300 - 73 14,5 16,5 0,0682 710 33 278 28,5 31,5 0,2419
315 - 80,5 15 16,5 0,0725 750 53 298 29,5 32,5 0,2569 BF M3
355 - 100,5 16 17,5 0,0841 800 78 323 31 34 0,2756
400 - 123 17 19 0,0972
450
x
150 - - 13,5 13,6 0,0361
BFL M1
450 - 148 18,5 21,5 0,1117 180 - 13 14,5 16,5 0,0489
500 - 173 19,5 22,5 0,1262
M2
200 - 23 15 16,5 0,0574
550 - 198 21 24 0,1407
BFN
225 - 36 15,5 17,5 0,0680
560 - 203 21,5 24,5 0,1436 250 - 48 16 18 0,0786
600 - 223 22,5 25,5 0,1639 280 - 63 17 19 0,0914
630 - 238 23 26 0,1697 300 - 73 17,5 19,5 0,0999
650 3 248 23,5 26,5 0,1712 315 - 80,5 18 20 0,1063
700 28 273 25 28 0,1842 355 - 100,5 19,5 21 0,1233
Sizes listed within the maximum/minimum sizes can be manufactured on request.
FDMQ 120 - Fire damperPage 16 Version 2022-12-20
TPM 166/22
Sizes listed within the maximum/minimum sizes can be manufactured on request.
A x B
[mm]
Damper blade
overlaps
Weight Effective
area Sef
[m2]
Actu.
mech.
Mech.
contr.
A x B
[mm]
Damper blade
overlaps
Weight Effective
area Sef
[m2]
Actu.
mech.
Mech.
contr.
a
[mm]
c
[mm]
mech
[kg]
servo
[kg]
a
[mm]
c
[mm]
mech
[kg]
servo
[kg]
450
x
400 - 123 20,5 22,5 0,1424 BFL M1
560
x
150 - - 15,4 15,5 0,0455
BFL M1
450 - 148 22 25 0,1636
BFN
M2
180 - 13 16,5 18,5 0,0615
500 - 173 24 27 0,1849 200 - 23 17 18,5 0,0722
550 - 198 25,5 28,5 0,2061 225 - 36 17,5 19,5 0,0856
560 - 203 25,5 28,5 0,2104 250 - 48 18,5 20 0,0990
600 - 223 27 30 0,2274 280 - 63 19,5 21 0,1150
630 - 238 27,5 30,5 0,2401 300 - 73 20 22 0,1257
650 3 248 28,5 31,5 0,2486 315 - 80,5 20,5 22,5 0,1338
700 28 273 30 33 0,2699
BF
355 - 100,5 22 23,5 0,1552
710 33 278 30 33 0,2741 400 - 123 23,5 25,5 0,1792
BFN
M2
750 53 298 31,5 34,5 0,2911 M3 450 - 148 25,5 28,5 0,2060
800 78 323 33 36 0,3124 500 - 173 27 30 0,2327
500
x
150 - - 14,3 14,5 0,0404
BFL M1
550 - 198 29 32 0,2595
180 - 13 15,5 17 0,0546 560 - 203 29,5 32,5 0,2648
200 - 23 16 17,5 0,0641 600 - 223 31 34 0,2862
225 - 36 16,5 18 0,0760 630 - 238 31,5 34,5 0,3023
BF
250 - 48 17 19 0,0879 650 3 248 32 35 0,3130
280 - 63 18 20 0,1021 700 28 273 34 37 0,3397
300 - 73 19 20,5 0,1116 710 33 278 34,5 37,5 0,3451
315 - 80,5 19,5 21 0,1188 750 53 298 35,5 38,5 0,3665 M3
355 - 100,5 20,5 22,5 0,1378 800 78 323 37,5 40,5 0,3932
400 - 123 22 23,5 0,1591
M2
600
x
150 - - 16,1 16,2 0,0489
BFL M1
450 - 148 23,5 26,5 0,1829 BFN 180 - 13 17,5 19,5 0,0661
500 - 173 25,5 28,5 0,2066 200 - 23 18 20,5 0,0776
550 - 198 27 30 0,2304
BFN
225 - 36 18,5 21,5 0,0920
560 - 203 27 30 0,2351 250 - 48 19 22 0,1064
600 - 223 28,5 31,5 0,2541 280 - 63 20 23 0,1236
630 - 238 29,5 32,5 0,2684 300 - 73 21 24 0,1351
650 3 248 30 33 0,2779
BF
315 - 80,5 21,5 24,5 0,1438
700 28 273 32 35 0,3016 355 - 100,5 23 26 0,1668
M2
710 33 278 32 35 0,3064 400 - 123 24,5 27,5 0,1926
BFN
750 53 298 33,5 36,5 0,3254 M3 450 - 148 26,5 29,5 0,2214
800 78 323 35 38 0,3491 500 - 173 28,5 31,5 0,2501
550
x
150 - - 15,2 15,3 0,0446
BFL M1
550 - 198 30 33 0,2789
180 - 13 16,5 18 0,0604 560 - 203 30,5 33,5 0,2846
200 - 23 17 18,5 0,0709 600 - 223 32 35 0,3076
BF
225 - 36 17,5 19 0,0840 630 - 238 33 36 0,3249
250 - 48 18 20 0,0971 650 3 248 33,5 36,5 0,3364
280 - 63 19 21 0,1129 700 28 273 35,5 38,5 0,3651
300 - 73 20 21,5 0,1234 710 33 278 36 39 0,3709
315 - 80,5 20,5 22 0,1313 750 53 298 37,5 40,5 0,3939 M3
355 - 100,5 22 23,5 0,1523 800 78 323 39 42 0,4226
400 - 123 23,5 25 0,1759
BFN
M2
630
x
150 - - 16,6 16,7 0,0514
BFL M1
450 - 148 25 28 0,2021 180 - 13 18 20 0,0696
500 - 173 27 30 0,2284 200 - 23 18,5 21 0,0817
550 - 198 28,5 31,5 0,2546 225 - 36 19 22 0,0968
560 - 203 29 32 0,2599 250 - 48 20 23 0,1119
600 - 223 30,5 33,5 0,2809 280 - 63 21 24 0,1301
630 - 238 31 34 0,2966
BF
300 - 73 21,5 24,5 0,1422
650 3 248 32 35 0,3071 315 - 80,5 22,5 25,5 0,1513
700 28 273 34 37 0,3334 355 - 100,5 24 27 0,1755
M2
710 33 278 34 37 0,3386 400 - 123 25,5 28,5 0,2027
BFN750 53 298 35,5 38,5 0,3596 M3 450 - 148 27,5 30,5 0,2329
800 78 323 37 40 0,3859 500 - 173 29 32 0,2632
Page 17Version 2022-12-20 FDMQ 120 - Fire damper
TPM 166/22
Sizes listed within the maximum/minimum sizes can be manufactured on request.
A x B
[mm]
Damper blade
overlaps
Weight Effective
area Sef
[m2]
Actu.
mech.
Mech.
contr.
A x B
[mm]
Damper blade
overlaps
Weight Effective
area Sef
[m2]
Actu.
mech.
Mech.
contr.
a
[mm]
c
[mm]
mech
[kg]
servo
[kg]
a
[mm]
c
[mm]
mech
[kg]
servo
[kg]
630
x
550 - 198 31 34 0,2934 BFN
M2
710
x
225 - 36 21,5 23,5 0,1096
BFL
M1560 - 203 31,5 34,5 0,2995 250 - 48 22 24,5 0,1267
600 - 223 33 36 0,3237
BF
280 - 63 23 26 0,1473
630 - 238 34 37 0,3418 300 - 73 23,5 26,5 0,1610
M2
650 3 248 34,5 37,5 0,3539 315 - 80,5 24 27 0,1713
700 28 273 36,5 39,5 0,3842 355 - 100,5 25,5 28,5 0,1987
BFN
710 33 278 37 40 0,3902 400 - 123 27,5 30,5 0,2295
750 53 298 38,5 41,5 0,4144 M3 450 - 148 29,5 32,5 0,2637
800 78 323 40,5 43,5 0,4447 M4 500 - 173 31,5 34,5 0,2980
650
x
150 - - 17 17,1 0,0531
BFL
M1
550 - 198 33,5 36,5 0,3322
BF
180 - 13 19 20,5 0,0719 560 - 203 34 37 0,3391
200 - 23 20 21,5 0,0844 600 - 223 35,5 38,5 0,3665
225 - 36 21 22,5 0,1000 630 - 238 36,5 39,5 0,3870
250 - 48 22 23,5 0,1156 650 3 248 37,5 40,5 0,4007
280 - 63 23 24,5 0,1344 700 28 273 39,5 42,5 0,4350
300 - 73 24 25,5 0,1469 710 33 278 40 43 0,4418 M3
315 - 80,5 24,5 26 0,1563
M2
750 53 298 41,5 44,5 0,4692
355 - 100,5 26 27,5 0,1813 800 78 323 43,5 46,5 0,5035 M4
400 - 123 28 29,5 0,2094
BFN
750
x
150 - - 18,7 18,8 0,0616
BFL
M1
450 - 148 30 31,5 0,2406 180 - 13 21 22,5 0,0834
500 - 173 32 33,5 0,2719 200 - 23 22 23,5 0,0979
550 - 198 34 35,5 0,3031 225 - 36 22,5 24,5 0,1160
560 - 203 34,5 37,5 0,3094
BF
250 - 48 23 25,5 0,1341
600 - 223 36 39 0,3344 280 - 63 24 27 0,1559
M2
630 - 238 37 40 0,3531 300 - 73 24,5 27,5 0,1704
650 3 248 38 41 0,3656 315 - 80,5 25 28 0,1813
700 28 273 40 43 0,3969 355 - 100,5 26,5 29,5 0,2103
BFN
710 33 278 40,5 43,5 0,4031 400 - 123 28,5 31,5 0,2429
750 53 298 42 45 0,4281 M3 450 - 148 30,5 33,5 0,2791
800 78 323 44 47 0,4594 M4 500 - 173 32,5 35,5 0,3154
700
x
150 - - 17,8 18 0,0574
BFL
M1
550 - 198 35 38 0,3516
BF
180 - 13 20 21,5 0,0776 560 - 203 35 38,5 0,3589
200 - 23 21 22,5 0,0911 600 - 223 37 40,5 0,3879
225 - 36 22 23,5 0,1080 630 - 238 38 41 0,4096
250 - 48 23 24,5 0,1249 650 3 248 39 42 0,4241
280 - 63 24,5 26 0,1451 700 28 273 41,5 44,5 0,4604
M3300 - 73 25,5 27 0,1586
M2
710 33 278 41,5 44,5 0,4676
315 - 80,5 26 27,5 0,1688 750 53 298 43 46 0,4966
355 - 100,5 27,5 29 0,1958
BFN
800 78 323 45 48 0,5329 M4
400 - 123 29,5 31 0,2261
800
x
150 - - 19,6 19,7 0,0659
BFL
M1
450 - 148 31,5 33 0,2599 180 - 13 22 23,5 0,0891
500 - 173 33,5 35 0,2936 200 - 23 23 24,5 0,1046
550 - 198 35,5 38,5 0,3274
BF
225 - 36 23,5 25,5 0,1240
560 - 203 36 39 0,3341 250 - 48 24 26,5 0,1434
M2
600 - 223 37,5 40,5 0,3611 280 - 63 25 28 0,1666
630 - 238 39 42 0,3814 300 - 73 25,5 28,5 0,1821
650 3 248 40 43 0,3949 315 - 80,5 26,5 29,5 0,1938
700 28 273 42 45 0,4286 355 - 100,5 28 31 0,2248
BFN
710 33 278 42,5 45,5 0,4354 400 - 123 30 33 0,2596
750 53 298 44 47 0,4624 M3 450 - 148 32 35 0,2984
800 78 323 46 49 0,4961 M4 500 - 173 34 37 0,3371
710
x
150 - - 18 18,1 0,0582
BFL M1
550 - 198 36,5 39,5 0,3759
BF180 - 13 20 21,5 0,0788 560 - 203 37 40 0,3836
200 - 23 21 22,5 0,0925 600 - 223 39 42 0,4146
FDMQ 120 - Fire damperPage 18 Version 2022-12-20
TPM 166/22
Sizes listed within the maximum/minimum sizes can be manufactured on request.
A x B
[mm]
Damper blade
overlaps
Weight Effective
area Sef
[m2]
Actu.
mech.
Mech.
contr.
A x B
[mm]
Damper blade
overlaps
Weight Effective
area Sef
[m2]
Actu.
mech.
Mech.
contr.
a
[mm]
c
[mm]
mech
[kg]
servo
[kg]
a
[mm]
c
[mm]
mech
[kg]
servo
[kg]
800
x
630 - 238 40 43 0,4379
BF M3
1100
x
315 - 80,5 36 37,5 0,2688
BFN M2
650 3 248 40,5 43,5 0,4534 355 - 100,5 38 40 0,3118
700 28 273 43 46 0,4921 400 - 123 38,5 41 0,3601
710 33 278 43,5 46,5 0,4999 450 - 148 40,5 43,5 0,4139
BF
750 53 298 45 48 0,5309 500 - 173 43 46 0,4676
M3
800 78 323 47 50 0,5696 M4 550 - 198 46 49 0,5214
900
x
150 - - 21,3 21,5 0,0744
BFL
M1
560 - 203 46,5 49,5 0,5321
180 - 13 24 25,5 0,1006 600 - 223 49 52 0,5751
200 - 23 25 26,5 0,1181 630 - 238 50 53 0,6074
225 - 36 26,5 28 0,1400
M2
650 3 248 51,5 54,5 0,6289
250 - 48 28 29,5 0,1619 700 28 273 54,5 57,5 0,6826
280 - 63 29,5 31 0,1881 710 33 278 54,5 57,5 0,6934
300 - 73 30 31,5 0,2056 750 53 298 56,5 59,5 0,7364
315 - 80,5 30,5 32 0,2188
BFN
800 78 323 59,5 62,5 0,7901 M4
355 - 100,5 31 33,5 0,2538
1250
x
180 - 13 31 32,5 0,1409
BFL
M2
400 - 123 32,5 35,5 0,2931 200 - 23 32,5 34 0,1654
450 - 148 35 38 0,3369 225 - 36 34 35,5 0,1960
500 - 173 37 40 0,3806
BF
250 - 48 35,5 37 0,2266
550 - 198 39,5 42,5 0,4244 280 - 63 37,5 39 0,2634
BFN
560 - 203 40 43 0,4331
M3
300 - 73 39 40,5 0,2879
600 - 223 42 45 0,4681 315 - 80,5 40 41,5 0,3063
630 - 238 43,5 46,5 0,4944 355 - 100,5 42,5 45,5 0,3553
650 3 248 44,5 47,5 0,5119 400 - 123 45,5 48,5 0,4104
700 28 273 47 50 0,5556 450 - 148 49 52 0,4716
BF
M3
710 33 278 47 50 0,5644 500 - 173 47,5 50,5 0,5329
750 53 298 49 52 0,5994 550 - 198 50,5 53,5 0,5941
800 78 323 51,5 54,5 0,6431 M4 560 - 203 51,5 54,5 0,6064
1000
x
150 - - 23,1 23,2 0,0829
BFL
M1 600 - 223 54 57 0,6554
180 - 13 26 27,5 0,1121 630 - 238 55,5 58,5 0,6921
200 - 23 27 28,5 0,1316
M2
650 3 248 56,5 59,5 0,7166
225 - 36 28,5 30 0,1560 700 28 273 60 63 0,7779 M4
250 - 48 30 31,5 0,1804 710 33 278 60 63 0,7901
280 - 63 31,5 33 0,2096 750 53 298 62,5 65,5 0,8391 M5
300 - 73 32,5 34 0,2291
BFN
800 78 323 65,5 68,5 0,9004
315 - 80,5 33,5 35 0,2438
1400
x
180 - 13 34 35,5 0,1581
BFL
M2
355 - 100,5 35,5 37 0,2828 200 - 23 35,5 37 0,1856
400 - 123 35 38 0,3266 225 - 36 37,5 39 0,2200
450 - 148 37,5 40,5 0,3754 250 - 48 39,5 41 0,2544
BFN
500 - 173 40 43 0,4241
BF
280 - 63 41,5 43 0,2956
550 - 198 42,5 45,5 0,4729
M3
300 - 73 43 44,5 0,3231
560 - 203 43 46 0,4826 315 - 80,5 44 47 0,3438
600 - 223 45 48 0,5216 355 - 100,5 47 50 0,3988
630 - 238 47 50 0,5509 400 - 123 50 53 0,4606
BF
M3
650 3 248 48 51 0,5704 450 - 148 53,5 56,5 0,5294
700 28 273 51 54 0,6191 500 - 173 52 55 0,5981
710 33 278 51 54 0,6289 550 - 198 55,5 58,5 0,6669
750 53 298 53 56 0,6679 560 - 203 56 59 0,6806
800 78 323 55,5 58,5 0,7166 M4 600 - 223 59 62 0,7356
1100
x
180 - 13 28 29,5 0,1236
BFL
M1 630 - 238 60,5 63,5 0,7769 M4
200 - 23 29 30,5 0,1451
M2
650 3 248 62 65 0,8044
M5
225 - 36 30,5 32 0,1720 700 28 273 65,5 68,5 0,8731
250 - 48 32 33,5 0,1989 710 33 278 66 69 0,8869
280 - 63 34 35,5 0,2311 750 53 298 68,5 71,5 0,9419
300 - 73 35 36,5 0,2526 BFN 800 78 323 71,5 74,5 1,0106
Page 19Version 2022-12-20 FDMQ 120 - Fire damper
TPM 166/22
Sizes listed within the maximum/minimum sizes can be manufactured on request.
A x B
[mm]
Damper blade
overlaps
Weight Effective
area Sef
[m2]
Actu.
mech.
Mech.
contr.
A x B
[mm]
Damper blade
overlaps
Weight Effective
area Sef
[m2]
Actu.
mech.
Mech.
contr.
a
[mm]
c
[mm]
mech
[kg]
servo
[kg]
a
[mm]
c
[mm]
mech
[kg]
servo
[kg]
1500
x
180 - 13 36 37,5 0,1696
BFL
M2
1500
x
500 - 173 57 60 0,6416
BF
M3200 - 23 37,5 39 0,1991 550 - 198 58,5 61,5 0,7154
225 - 36 39,5 41 0,2360 560 - 203 59,5 62,5 0,7301
250 - 48 41,5 43 0,2729
BFN
600 - 223 62,5 65,5 0,7891 M4
280 - 63 44 45,5 0,3171 630 - 238 64 67 0,8334
M5
300 - 73 45,5 48,5 0,3466 650 3 248 65,5 68,5 0,8629
315 - 80,5 46,5 49,5 0,3688 700 28 273 69,5 72,5 0,9366
355 - 100,5 49,5 52,5 0,4278
M3
710 33 278 69,5 79,5 0,9514
400 - 123 53 56 0,4941 BF 750 53 298 72,5 75,5 1,0104
450 - 148 55 58 0,5679 800 78 323 75,5 78,5 1,0841
FDMQ 120 - Fire damperPage 20 Version 2022-12-20
TPM 166/22
■The fire dampers are suitable for installation in arbitrary
position in vertical and horizontal passages of fire separ-
ating structures. The damper assembly procedures must
be done so that all load transfer from the fire separating
constructions to the damper body is absolutely excluded.
The back-to-back air-conditioning ducting must be susp-
ended or supported so that all load transfer from the
back-to-back ducting to the damper flanges is absolutely
excluded. The gap between the installed damper and the
building structure must be perfectly filled with approved
material all over its volume.
■To provide the necessary space for access to the control
device, all other items must be situated at least 350 mm
from the control parts of the damper. At least one inspec-
tion hole must be accessible.
■The damper must be installed so that the damper blade
(in closed position) is situated in the fire separating
structure - marked by the label BUILT-IN EDGE on the
damper body. If such solution is not possible, the ducting
between the fire separating structure and the damper
blade must be protected according to the certified install-
ation method → see pages 23 to 37
■During the installation and plastering process, the control
mechanism must be protected (covered) against damage
and pollution. The damper body should not be deformed
during bricking in. Once the damper is built in, the damper
blade should not grind on the damper body during
opening or closing.
■The distance between the fire damper and the structure
(wall, ceiling) must be 75 mm at the minimum. If two or
more dampers are to be installed in one fire separating
structure, the distance between adjacent dampers must
be 200 mm at the minimum, according to EN 1366-2.
The distance between the fire damper and the construction
■minimum distance 200 mm between dampers installed in the duct;
■minimum distance 75 mm between damper and construction (wall/ceiling).
■This is the EN 1366-2 test standard distances. They are
considered as minimum. Actual location should be
based on wall manufacturers requirements.
■Always consult the wall manufacturers specific guide-
lines for deflection heads, penetration size, location to
other services, fire stopping and load bearing capacity.
■No other services should pass through the dampers
building work opening.
■For lightweight walls always consult the wall manufac-
turer specific guidelines for penetrations sizes and dis-
tances.
Placement and Assembly
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