Over the years, BINGFENG groups have invested in technology and people. This has helped us become one of the trusted and popular DC AXIAL FAN manufacturers.We seeks to developed high-air-capacity, high-static-pressure, high-efficiency, as well as low-noise and low-vibration products, and offers a wide lineup of DC AXIAL FAN that meet recent years rapidly changing needs. DC AXIAL FAN size from 20-200mm. Click on the model below for specifications.
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TYPE | HEATSINK DIMENTION (mm) | FAN DIMENSION (mm) | FAN RATED VOLTAGE | AC/DC/EC | FAN AIR FLOW(cfm) | FAN AIR PRESSUIRE (mmh2O) | FAN RATED POWER | FAN SPEED | FAN NOISE | INQUIRE |
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EKA9238-1 | / | 92*92*38 | 115 | AC | 39/46 | / | 11/8.0 | 2300/2700 | 34/38 | Inquire |
EKA9225-2 | / | 92*92*25 | 230 | AC | 32/38 | / | 13/9.0 | 2300/2800 | 35/38 | Inquire |
EKA9225-1 | / | 92*92*25 | 115 | AC | 32/38 | / | 16/10 | 2300/2800 | 35/38 | Inquire |
EKA8038-2 | / | 80*80*38 | 230 | AC | 26/33 | / | 11.5/8.0 | 2350/2850 | 31/35 | Inquire |
EKA8038-1 | / | 80*80*38 | 115 | AC | 26/33 | / | 11.5/8.0 | 2350/2850 | 31/35 | Inquire |
EKA8025-2 | / | 80*80*25 | 230 | AC | 21/24 | / | 13/11 | 2300/2300 | 29/33 | Inquire |
EKA8025-1 | / | 80*80*25 | 115 | AC | 21/24 | / | 11/8.0 | 2300/2300 | 29/33 | Inquire |
AFB0612DH | / | 60*60*25 | 12 | DC | 50.4 | 23.52 | 10.08 | 9000 | 55 | Inquire |
PFC1412HE | / | 140*140*38 | 12 | DC | 348 | 46.126 | 50.4 | 7600 | 74.7 | Inquire |
DC AXIAL FAN Feature And Advantage
DC axial fans are common types of fans that are widely used for various cooling and ventilation applications. They have specific features and advantages that make them suitable for different purposes. Here are the key features and advantages of DC axial fans:
Features:
Axial Flow Design: DC axial fans have a design where air flows parallel to the shaft of the fan. This design is efficient for moving a large volume of air in a straight line, making them suitable for applications where a continuous airflow is needed.
Compact Size: DC axial fans are generally compact and have a flat profile, which makes them easy to install in tight spaces or where space is limited.
Simple Construction: They have a straightforward design with fewer components compared to some other fan types, making them cost-effective and reliable.
Efficiency: DC axial fans are known for their energy efficiency, especially at lower speeds. They provide a good airflow-to-power ratio, which helps reduce energy consumption.
Variable Speed Control: Many DC axial fans come with variable speed control options, allowing users to adjust the fan speed to meet specific cooling requirements, which can save energy and reduce noise when full speed is not necessary.
Low Noise Levels: At lower speeds, DC axial fans tend to produce relatively low noise levels, making them suitable for applications where quiet operation is essential.
Directional Flexibility: Some models of DC axial fans allow for directional adjustment, allowing users to direct the airflow precisely where it is needed.
Advantages:
Effective Cooling: DC axial fans are highly effective at cooling electronic components, such as computer CPU coolers, laptops, and home theater systems. They help dissipate heat and maintain optimal operating temperatures.
Ventilation: They are commonly used for general ventilation in buildings, greenhouses, and other enclosed spaces. DC axial fans can help improve air circulation and reduce the buildup of stale air.
Heat Dissipation: In industrial settings, DC axial fans are used to dissipate heat generated by machinery, helping to prevent overheating and prolonging equipment lifespan.
Agriculture: DC axial fans are used in agriculture for greenhouse ventilation and crop cooling, ensuring optimal conditions for plant growth.
Automotive Cooling: They are employed in automotive applications for radiator cooling, transmission cooling, and engine compartment ventilation.
Appliances: DC axial fans are found in household appliances like refrigerators and air conditioners, where they assist in heat removal and temperature control.
Server and Network Cabinets: DC axial fans help maintain the temperature inside server and network cabinets by expelling hot air generated by equipment and drawing in cool air.
Audio Equipment: In audio amplifiers and other audio equipment, DC axial fans prevent overheating by dissipating heat generated during operation.
Battery Cooling: They are used in electric vehicles (EVs) and hybrid vehicles for battery pack cooling to maintain battery performance and extend lifespan.
Personal Cooling: Portable fans, including handheld and desktop models, often use DC axial fans to provide personal cooling on hot days.
DC axial fans are versatile and find application in a wide range of industries and consumer products where efficient cooling and ventilation are essential. Their simple design, energy efficiency, and compact size make them valuable components in many devices and systems.
Dc Axial Fan Related Questions
1.What are the different types of DC fans?
DC fans come in various types, each with its own design features and advantages. The choice of DC fan type depends on the specific application and cooling requirements. Here are some common types of DC fans:
Sleeve Bearing DC Fans:
Advantages: Sleeve bearing fans are cost-effective and suitable for applications with moderate cooling needs. They are relatively quiet and have a long lifespan under normal operating conditions.
Applications: Commonly used in desktop computers, power supplies, and small appliances.
Ball Bearing DC Fans:
Advantages: Ball bearing fans are more durable and have a longer operational life than sleeve bearing fans. They can handle higher temperatures and are more resistant to dust and debris.
Applications: Found in industrial machinery, server systems, and electronics that require more robust and reliable cooling.
Fluid Dynamic Bearing (FDB) DC Fans:
Advantages: FDB fans offer low noise levels, extended operational life, and better performance in terms of airflow and static pressure. They provide a good balance between reliability and noise.
Applications: Used in gaming PCs, high-performance desktops, and applications where noise reduction is important.
Hydro-Dynamic Bearing (HDB) DC Fans:
Advantages: HDB fans are similar to FDB fans but offer even longer lifespan and improved performance. They are known for their quiet operation and reliability.
Applications: Commonly used in high-end gaming systems, audio equipment, and data centers.
Maglev (Magnetic Levitation) DC Fans:
Advantages: Maglev fans use magnetic levitation to reduce friction and noise while improving longevity. They are highly reliable, operate quietly, and can provide excellent airflow.
Applications: Found in premium computer components, high-performance graphics cards, and servers.
PWM (Pulse Width Modulation) Controlled DC Fans:
Advantages: PWM fans allow for precise control of fan speed and airflow by adjusting the duty cycle of the PWM signal. This results in more efficient cooling and quieter operation.
Applications: Used in applications where dynamic cooling control is needed, such as CPU and GPU cooling.
Variable Speed DC Fans:
Advantages: Variable-speed fans can be manually adjusted to different RPM levels, providing flexibility in balancing cooling performance and noise levels.
Applications: Suitable for custom cooling solutions and applications where user-adjustable fan speed is desirable.
High-Speed DC Fans:
Advantages: High-speed fans provide robust cooling performance and are designed to handle elevated temperatures and high airflow requirements.
Applications: Found in industrial and server environments where rapid heat dissipation is crucial.
Low-Profile DC Fans:
Advantages: Low-profile fans are designed to fit into tight spaces and low-clearance applications while providing sufficient cooling.
Applications: Used in slim laptops, compact desktops, and other space-constrained devices.
Specialized DC Fans:
Advantages: Specialized DC fans may include features such as IP-rated (ingress protection) enclosures for water and dust resistance, anti-vibration mounts, or custom designs tailored to specific industrial needs.
Applications: Found in specialized industries like automotive, aerospace, and medical equipment, where unique cooling requirements exist.
2.What are the three types of axial fan
Axial fans come in various configurations to suit different cooling and airflow requirements. The three primary types of axial fans are:
Tubeaxial Fans:
Tubeaxial fans have a cylindrical or tube-shaped housing that encloses the fan blades. The air is drawn in through one end of the tube and expelled from the other end.
These fans are designed for efficient, directed airflow and are often used in applications where space is limited, and airflow needs to be directed in a specific direction.
Tubeaxial fans are commonly found in electronic equipment cooling, HVAC systems, and industrial ventilation.
Vaneaxial Fans:
Vaneaxial fans have a similar design to tubeaxial fans but feature additional guide vanes or stator blades in front of the fan blades. These vanes help improve airflow efficiency and pressure.
Vaneaxial fans are known for their ability to produce higher static pressure, making them suitable for applications that require airflow against resistance, such as cooling electronic enclosures or ducted HVAC systems.
They are used in industrial settings, including chemical processing, power plants, and cleanrooms.
Propeller Fans (Axial Flow Fans):
Propeller fans, also known as axial flow fans, have a simple design with fan blades attached to a central hub. These blades generate airflow parallel to the fan's axis.
They are typically used in applications where high airflow volume and low pressure are required, such as in large open spaces, cooling towers, and exhaust ventilation.
Propeller fans are common in HVAC systems, agriculture (for ventilation in poultry houses and greenhouses), and industrial facilities where general ventilation is needed.
Each type of axial fan is designed to excel in specific scenarios based on factors like airflow direction, pressure requirements, and space limitations. The choice of the right type of axial fan depends on the application's cooling and ventilation needs.