Fan
CIT 160T
Description
Constructive Details
Fixing Bracket
Facilitates the support, stabilization, and alignment of the unit to a wall or other surfaces.
Forward-curved blades
The design features blades that curve in the direction of rotation, enabling it to provide a high airflow at low to medium pressure while ensuring quiet operation and a compact form factor.
Motor Insulation Class F
The F insulation class permits the motor insulation to function safely at a maximum temperature of 155°C.
Fan Type
Axial
It uses a magnetic flux parallel to the rotor axis, offering significant advantages such as high efficiency, small size, and high performance.
Motor
AC Brushless
A brushless AC fan motor is an advanced and energy-efficient electric motor. It eliminates the need for carbon brushes and features electronic control, resulting in quieter operation, enhanced longevity, and accurate speed regulation.
Technical Data
Turbionaire CIT ensures an efficient airflow in a compact design, ideal for professional applications, offering high efficiency, quiet operation, and long-term stability. Its robust construction guarantees wear resistance and durability in demanding environments.
Constructive Details
Fixing Bracket
Facilitates the support, stabilization, and alignment of the unit to a wall or other surfaces.
Forward-curved blades
The design features blades that curve in the direction of rotation, enabling it to provide a high airflow at low to medium pressure while ensuring quiet operation and a compact form factor.
Motor Insulation Class F
The F insulation class permits the motor insulation to function safely at a maximum temperature of 155°C.
Fan Type
Axial
It uses a magnetic flux parallel to the rotor axis, offering significant advantages such as high efficiency, small size, and high performance.
Motor
AC Brushless
A brushless AC fan motor is an advanced and energy-efficient electric motor. It eliminates the need for carbon brushes and features electronic control, resulting in quieter operation, enhanced longevity, and accurate speed regulation.