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Blauberg Tower-SV 710 4/950

Roof-mounted centrifugal smoke extraction fan.
EAN codeEAN4058448064180
  • Description
  • Characteristics
  • Downloads
  • Designation key
  • Dimensions
  • Diagram
  • Operation of fans with frequency converters

Smoke extraction fans are used in emergency exhaust ventilation systems for forced extraction of smoke and heated gases and simultaneous transfer of heat away and beyond the limits of the serviced spaces in case of fire. Such units are used in production, public, residential, administrative and other spaces.


The fans are capable of handling smoke and air mixtures with temperatures up to +600 °C for 120 minutes. The fans can operate in conjunction with a frequency converter (hereinafter referred to as FC) or directly when connected to power supply. The relevant characteristics for these modes are listed in the products. The fan can be used for general exhaust ventilation at a rotational speed reduced by at least 25 % of the nominal speed of the electric motor. The fan can be designed for moderate (U) or tropical (T) climate conditions.


The fans are made of heat resistant steel with polymer coating providing weathering resistance. There are two types of roof-mounted smoke extraction fans: with horizontal air discharge (Tower-SH) and vertical air discharge (Tower-SV). The models with vertical air discharge are equipped with a backdraft damper. The fan has a protective grille to prevent accidental contact and penetration of foreign objects. The impeller with backward curved blades is painted with powder coating.


The fans are equipped with three-phase electric motors rated for 400 V.The motor is located in the compartment offset from the transported air stream. Motor ingress protection rating is IP54.


The roof fans are installed on the MRDL (simplified version) or MIRDL mounting frame (heat-insulated version). The MRDL and MIRDL mounting frames are designed for mounting the fan on the roof without a slope. Make sure that the location provides for sufficient space as required for the fan maintenance.

MRDL 630MRDL 710-800MRDL 900MRDL 1000-1100
Parameter Tower-SV 710 4/950 Measurement unit
Voltage 400 V
Phase 3 ˜
Frequency 50 Hz
Maximum frequency when operating from FC 60 Hz
Current 8.4 A
RPM 950 min-1
Maximum RPM when operating from FC 1140 min-1
Installed power capacity Ny 4 kW
Max. operating temperature 600 °С
Motor IP rating IP54 -
Weight 253 kg
Casing material polymer coated heat resistant steel -
Air duct for round air ducts -
Connection diameter 710 mm
Design centrifugal -
Type Exhaust -
Mounting for roof -
Curve number at the diagram when operating from FC 3 -
Curve number at the diagram when operating from supply network 8 -
Documents archieve
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Tower-S - data sheet (pdf 886.64Kb)
Tower-SV/SH - image (png 326.74Kb)
Tower-SV - image (png 326.04Kb)
Tower-SV/SH - user's manual (pdf 1.38Mb)
Designation key
Designation key


Model Overall dimensions [mm]
H H1 L1 L2 L3 Ø D Ø D1 Ø D2 Ø d1 Ø d2 n
Tower-SV 710 4/950 1186 322 1508 840 1040 633 674 730 12 21 16


Model Overall dimensions [mm] Weight MRDL [kg] Weight MIRDL [kg]
MRDL/MIRDL 710-800 1262 962 840 600 M18 68.5 89.04

Operation of fans with frequency converters
Operation of fans with frequency converters

Ventilation systems produce a heavy load on the electrical systems of a building.


As a rule, smoke extraction systems utilize large high-performance fans.During starting the high inertia of the shaft causes a substantial increase in the start-up time – i.e. the time from the application of power to reaching the rated speed.As a result the motor is subjected to high starting current for a prolonged period of time.

Current diagram with direct on-line starting

Standard switchgear (automatic circuit breakers, contactors and motor starters) is not designed to withstand prolonged overloads causing the fan to shut down automatically during starting. Using switchgear with a higher maximum current rating renders the electric motor protection system less sensitive.As a result the switchgear will not be able to detect motor overload in time due to a higher current sensing threshold.Such challenges can only be addressed by utilizing a soft starter or a frequency converter to start the fan without causing a prolonged overload.

Torque diagram with direct on-line starting


Using an FC or a soft starter allows to reduce the starting current thereby avoiding a loss of voltage in the electrical mains. In addition to that the starting torque and mechanical strain on equipment are also reduced which translates into extended maintenance and repair intervals. General exhaust ventilation (GV) systems and emergency smoke extraction (SE) systems of car parks, warehouses, utility and industrial spaces can be integrated into a single system at the design level. As the air flow rate a GV system is considerably lower than that in an SE system a high-capacity fan rated for smoke extraction duty runs in partial load mode. Frequency converters can be programmed for several fixed-speed settings to enable operation in GV and SE modes. The fan operating modes can be switched upon receiving an external signal from the control system. Such integration of ventilation systems allows overall cost savings.


This catalogue features two series of frequency converters: FC-51 and FC-101. The FC-51 series is only suitable for general ventilation systems. If intended for a smoke extraction system, the fans should be fitted with the FC-101 series units as they feature an integrated fire mode. When activated the integrated protection equipment of the frequency converter is overridden enabling the unit to continue operation despite the possibility of sustaining irreparable damage due to overheating or overloading. In case of a fire, the FC-101 series frequency converters are capable of maintaining a higher air pressure level at landings compared to other areas of the building in order to keep the landings smoke-free.


Therefore, reducing the power consumption is among the top priorities for construction project designers.


A frequency converter (FC) consists of two main component blocks. One converts alternating current (50 or 60 Hz) into direct current. The other converts direct current into alternating current of variable frequency ranging from 0 to 250 Hz. By controlling the frequency output the FC offers a broad range of motor speed regulation.

Current diagram with FC starting

During the starting the FC raises the frequency from 0 Hz to the electrical mains frequency (50 or 60 Hz). As the frequency is increased gradually, the motor can be assumed to operate at its nominal speed for a given frequency value. Furthermore, on the assumption that the motor runs at its nominal speed the nominal torque should be immediately available whereas the current will be approximately equal to the nominal value.

Torque diagram with FC starting


Unlike an FC, a soft starter does not change the frequency of speed. Instead it gradually increases the voltage supplied to the motor – from the initial level to the nominal level.The very low voltage initially supplied to the motor during starting helps avoid sudden jolts. Both voltage and torque increase gradually.

Current diagram with soft starter
Torque diagram with soft starter
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