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Electrical Enclosure Cooling Fans(Maximum Air Flow (AC Input Voltage, when 60Hz):1.8(AC100, 110, 115V))
A fan is a machine that gives energy to gas by rotating an impeller. Used for air purifiers, inkjet printers, vending machines, communication equipment, etc. It mainly provides the function of discharging the heat generated inside the device to the outside and cooling it. Depending on the type of motor used, there are three main types: DC brush motors using permanent magnets for magnetic fields, DC brushless motors using permanent magnets for rotors, and AC motors using AC power supplies. There is also a difference in the shape of the blade. There is a propeller fan that causes a flow in the axial direction of the rotating body, a sirocco fan and a cross flow fan that flow from the end face to the side face of the rotating body, etc. Depending on the product, it has low power consumption, long life, low noise, environmental resistance, etc.
[Features] · This AC-powered blower is optimal for localized cooling due to its ability to produce a strong local wind. · Can also be used for cooling equipment through which air does not easily pass.
Type
Input Voltage
Size
Thickness
Properties
Sensor output
Representative Standard
Maximum Air Flow (AC Input Voltage, when 50 Hz)(m3/min)
Maximum Air Flow (AC Input Voltage, when 60Hz)(m3/min)
Maximum air flow (DC input voltage)(m3/min)
Volume (DC input voltage)(dB)
Volume (AC input voltage, 50 Hz)(dB)
Volume (AC input voltage, 60Hz)(dB)
Maximum Static Pressure (AC Input Voltage, 50 Hz)(Pa)
Maximum Static Pressure (AC Input Voltage, 60Hz)(Pa)
Maximum static pressure (DC input voltage)(Pa)
Blower
Other
Other
Other
-
-
CE / UL / CSA
1.6(AC100V)
1.8(AC100, 110, 115V)
-
-
55(AC100V)
58(AC100V), 59(AC110, 115V)
152(AC100V)
221(AC100V), 226(AC110, 115V)
-
From:
₹ 8,344.95
Days to Ship:
5 Day(s) or more
5 Day(s) or more
Brand
Product Series
From
Days to Ship
Type
Input Voltage
Size
Thickness
Properties
Sensor output
Representative Standard
Maximum Air Flow (AC Input Voltage, when 50 Hz)(m3/min)
Maximum Air Flow (AC Input Voltage, when 60Hz)(m3/min)
Maximum air flow (DC input voltage)(m3/min)
Volume (DC input voltage)(dB)
Volume (AC input voltage, 50 Hz)(dB)
Volume (AC input voltage, 60Hz)(dB)
Maximum Static Pressure (AC Input Voltage, 50 Hz)(Pa)
Maximum Static Pressure (AC Input Voltage, 60Hz)(Pa)
Maximum static pressure (DC input voltage)(Pa)
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Question: What distinguishes an industrial fan from a standard equipment fan, and what applications are they used for?
Answer:
Items
Industrial Fan
Standard Equipment Fan
Design and Construction
Robust, heavy-duty materials
Compact, designed for power supply units
Size
Larger sizes
Varied sizes
Performance
High airflow capacity, variable speeds
Efficient cooling for power supplies
Applications
Ventilation, process cooling in industries
Cooling power supply units and electronic equipment
Specialized Types
Centrifugal, axial fans
Designed for power supply applications
Noise Levels
Can be noisy
Designed for quiet operation
In summary, industrial fans excel in heavy-duty ventilation, while standard equipment power supply fans are specialized for cooling power supply units in various electronic equipment, emphasizing compact designs and quieter operation.
Question: How do AC and DC fans differ in functionality, and which is more suitable for electrical control systems?
Answer: AC and DC fans differ in their motor type and power source. AC fans use alternating current motors, while DC fans use direct current motors. AC fans are more common and less expensive, but they are also less energy efficient than DC fans. DC fans can be controlled more precisely, making them a better choice for applications where consistent airflow is crucial. Additionally, DC fans can handle lower voltage and can be used in a wider range of applications.
In terms of suitability for electrical control systems, DC fans are generally more suitable. This is because they offer greater controllability, energy efficiency, and compatibility with a wider range of control systems. DC fans are often used in applications such as CNC machines, robotics, and industrial automation.
Question: Can you explain how cooling fans contribute to the maintenance and performance of machinery?
Answer: Cooling fans play a vital role in maintaining the performance and extending the lifespan of machinery by effectively removing excess heat generated during operation. Overheating can lead to component damage, reduced efficiency, and premature equipment failure. Cooling fans actively circulate air around the machinery, dissipating heat and preventing overheating. This consistent cooling helps maintain optimal operating temperatures, ensuring smooth operation, consistent performance, and reduced wear and tear.
Question: What are the benefits of using energy-efficient cooling solutions for industrial equipment, and what options does MISUMI Thailand offer?
Answer: Implementing energy-efficient cooling solutions for industrial equipment offers a multitude of benefits, including:
1.Reduced Energy Consumption: Significant energy savings, lowering operational costs and environmental impact.
2.Extended Equipment Lifespan: Reduced wear and tear, minimizing downtime and maintenance expenses.
3.Improved Process Efficiency: Optimized cooling ensures consistent performance and product quality.
4.Enhanced Safety: Reduced risk of overheating and potential hazards.
MISUMI Thailand provides a comprehensive range of energy-efficient cooling solutions for industrial equipment, including High-efficiency Fans. which Low-energy consumption fans with optimized airflow for various applications.
Question: In what ways are waterproof and oilproof fans critical to the operations of industrial environments?
Answer: Waterproof and oilproof fans play a crucial role in industrial settings due to their ability to withstand harsh environmental conditions and maintain optimal performance. These fans are essential for applications involving water exposure, dust, and airborne contaminants, ensuring proper ventilation and temperature control in various industrial environments, including manufacturing plants, power plants, and chemical processing facilities.
Question: How has technology advanced the control and efficiency of electric fans used in mechanical ventilation?
Answer: Technology has revolutionized the control and efficiency of electric cooling fans in mechanical ventilation systems, leading to more intelligent, adaptable, and energy-efficient systems. These advancements encompass various aspects, including smart sensors, Variable Frequency Drives (VFDs), improved blade designs, energy-efficient motors, remote monitoring, and Artificial Intelligence (AI) integration.
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