Model FC-IN Induction-Fans Performance Characteristics In these systems, the fan blade is directly connected to the electric motor. The mechanical thrust ranges from 60 to 90 Newtons. The diameter of the fan blades ranges from 400 to 500 millimeters. It is possible to install any accessories such as a bird screen, base frame, and various […]
Model FC-BMCS Single Inlet, Coupling Drive Performance Characteristics In these systems, the connection of the impeller to the motor is indirectly and coupling. The design of these types of fans is based on the impeller method in the middle of two bearings (Impeller Between Bearing) and also (Impeller Overhung) according to the AMCA standard. The […]
Model FC-BHCS Single Inlet, Coupling Drive Performance Characteristics In these systems, the connection of the impeller to the motor is indirectly and coupling-wise. The design of these types of fans is based on the impeller method with Impeller Between Bearing and Impeller Overhung configurations according to the AMCA standard. The air capacity can reach up […]
Model FC-BMBS Single Inlet-Belt Drive Performance Characteristics In these systems, the connection of the impeller to the motor is indirectly and via a pulley-belt. The design of these fan types is based on the impeller method between two bearings (Impeller Between Bearing) as well as (Impeller Overhung), according to the AMCA standard. The airflow capacity […]
Model FC-FLBS Single Inlet-Belt Drive Performance Characteristics In these systems, the connection of the impeller to the electric motor is done indirectly and via pulleys and belts. The design of these types of fans is based on the impeller method between two bearings (Impeller Between Bearing) and also (Impeller Overhung) according to the AMCA standard. […]
Model FA-W Double Inlet, Coupling Drive Performance Characteristics In these systems, the connection of the impeller to the electric motor is indirect and coupling-based. The design of these types of fans is based on the impeller method between two bearings (Impeller Between Bearing) according to the AMCA standard. The airflow capacity is up to approximately […]
Model FC-FLBD Single Inlet-Belt Drive Performance Characteristics In these systems, the connection of the impeller to the motor is indirectly and via a pulley-belt mechanism. The design of these types of fans is based on the impeller method, both with the impeller between bearings and overhung impeller, according to the AMCA standard. The airflow capacity […]
Model FC-FLDS Single Inlet-Direct Drive Performance Characteristics In these systems, the connection of the impeller to the motor is indirectly and via belt drive. The design of these types of fans is based on the impeller method, both between two bearings (Impeller Between Bearing) and also (Impeller Overhung), according to the AMCA standard. The air […]
Model FC-BHBS Single Inlet-Belt Drive Performance Characteristics In these systems, the connection between the impeller and the electric motor is indirect and belt-driven. The design of these types of fans is based on the impeller method, with the impeller positioned between two bearings (Impeller Between Bearing) and also overhung (Impeller Overhung), in accordance with the […]
Model FC-BMDS Single Inlet-Direct Drive Performance Characteristics In these systems, the connection between the impeller and the electric motor is primarily direct, ensuring efficient power transmission and operational integrity. This direct linkage fosters seamless coordination, akin to a well-synchronized dance between components. The design philosophy of these fan types adheres to the Impeller Overhung method, […]
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