
3 Phase Industrial Motor
3 phase industrial motor
High efficiency: This three-phase industrial motor is carefully designed to maximize energy efficiency. Its high efficiency design not only reduces energy loss, but also significantly improves operating efficiency, allowing the motor to produce more mechanical output with less energy input during operation. This design optimization allows the motor to maintain high operating efficiency under different load conditions and avoid unnecessary energy waste. By reducing energy consumption, companies can significantly reduce operating costs while also reducing environmental impact. This high-efficiency motor is particularly suitable for industrial equipment that needs to run continuously for a long time, such as pumps, fans, and compressors. In the context of rising energy prices, choosing a high-efficiency motor not only brings economic benefits, but also improves the economy and sustainability of the overall production system.
Durable structure: The motor uses high-strength cast iron or steel as the housing material. This material selection gives the motor excellent impact and corrosion resistance. The cast iron or steel housing can withstand the impact from mechanical operation or the environment, preventing structural damage caused by accidental collisions or vibrations. In addition, these materials have excellent corrosion resistance and can resist the erosion of moisture, chemicals and other corrosive media in industrial environments. Even under extreme working conditions, such as high temperature, low temperature or high humidity, the motor can maintain stable operation, reducing failures and downtime caused by environmental factors. This durable structure makes the motor particularly suitable for industrial applications that require high reliability and long-term durability, such as mining, metallurgy and chemical industries.
Totally Enclosed Fan Cooling (TEFC): The motor adopts a fully enclosed fan cooling (TEFC) structure. This design effectively prevents dust, dirt and moisture from entering the motor and protects the key components of the motor. The fully enclosed structure means that the windings and other important components inside the motor are not directly exposed to the outside environment, thereby reducing the impact of external contaminants on the motor. This protection not only increases the service life of the motor, but also reduces maintenance requirements and reduces failures caused by internal contaminants. While ensuring effective heat dissipation of the motor, the fan cooling system is not easily hindered by dust or moisture in the external environment, maintaining the efficient heat dissipation performance of the motor. In long-term use, this design can ensure the stable operation of the motor in different operating environments, reduce failures or performance degradation caused by overheating, and thus improve overall work efficiency.



Technical specifications
| Parameter | Specification |
|---|---|
| Power Rating | 30 HP |
| Voltage | 230/460 V |
| Frequency | 60 Hz |
| Current | 72 A (230 V) / 36 A (460 V) |
| Speed | 1750 RPM |
| Efficiency | 93.6% |
| Power Factor | 0.87 |
| Frame Size | 286T |
| Insulation Class | F |
| Enclosure Type | Totally Enclosed Fan Cooled (TEFC) |
| Service Factor | 1.15 |
| Mounting Type | Foot-mounted (Horizontal) |
| Bearing Type | Ball Bearings |
| Ambient Temperature | -20°C to 40°C |
| Protection Class | IP55 |
| Weight | Approximately 350 lbs |
| Thermal Protection | Built-in thermal overload protection |
| Rotation | Counterclockwise (CCW) |
| Duty Type | Continuous (S1) |
Application areas of 3 phase industrial motor

Compressed Air Systems: In industries requiring compressed air, such as manufacturing and automotive, the motor is used to drive air compressors. It provides the necessary power for both reciprocating and rotary screw compressors, ensuring the delivery of compressed air for various applications, including powering pneumatic tools, equipment, and machinery. The motor's high starting torque and efficiency are beneficial for handling the demands of frequent compressor cycles.
Material Handling Equipment: This motor powers various material handling devices, such as conveyor belts, hoists, and elevators. In manufacturing facilities, it drives conveyor systems that move products along production lines, enhancing operational efficiency. For warehouse automation, it operates lifts and hoists used for moving goods between different levels. Its reliability and performance are essential for ensuring smooth and continuous material handling processes.

Installation Method:
| Structure and installation type (IM code)) |
IM B3 | IM B8 | IM B5 | IM B6 | IM V5 | IM V1 | IM B7 | IM V6 | IM V3 |
| Installation diagram | ![]() |
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| Frame size | 63-450 | 63-160 | 63-280 | 63-160 | 63-160 | 63-450 | 63-160 | 63-160 | 63-160 |
| Structure and installation type (IM code)) |
IM V37 | IM V17 | IM B34 | IM V19 | IM V18 | IM B14 | IM V35 | IM V15 | IM B35 |
| Installation diagram | ![]() |
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| Frame size | 63-132 | 63-13 | 63-132 | 63-132 | 63-132 | 63-132 | 63-160 | 63-160 | 63-450 |
FAQ
1: What are the key advantages of using this motor in heavy-duty applications?
This motor is specifically designed for heavy-duty applications, offering several key advantages. Its high efficiency reduces energy consumption, which is crucial for applications involving continuous or high-load operations. The motor's robust construction, often made from high-strength materials, ensures durability and reliability even under demanding conditions. Additionally, the motor's high starting torque allows it to handle heavy loads and frequent starts without performance degradation, making it ideal for driving equipment such as pumps, compressors, and conveyors in industrial settings.
2: How does the motor perform in different environmental conditions?
The motor is designed to perform reliably across a range of environmental conditions. With an enclosure that is typically rated for protection against dust and moisture (e.g., IP55), it is suitable for use in both dry and damp environments. The motor can operate effectively in ambient temperatures ranging from -20°C to 40°C, which covers a broad spectrum of operational environments. Its rugged construction helps it withstand the harsh conditions often found in industrial environments, including exposure to dust, chemicals, and varying temperatures.
3: Can the motor handle varying loads and operational demands?
Answer: Yes, the motor is built to handle varying loads and operational demands efficiently. It features a high service factor, which means it can manage occasional overloads beyond its rated capacity without sustaining damage. This flexibility is important in applications where load conditions can fluctuate, such as in conveyor systems or pumping operations. The motor's design allows it to maintain stable performance even under changing load conditions, ensuring consistent operation and reducing the likelihood of performance issues or downtime.
4: What are the maintenance requirements for this motor?
The motor is designed to minimize maintenance requirements through its durable construction and advanced features. It typically uses ball bearings that are low-maintenance and have a long service life. The fully enclosed design helps protect internal components from dust and contaminants, reducing the need for frequent cleaning and inspection. However, routine maintenance such as checking for wear and tear, ensuring proper lubrication, and monitoring for unusual vibrations or noises is recommended to ensure optimal performance and longevity.
5: How does the motor's efficiency impact operational costs?
The motor's high efficiency has a significant impact on operational costs. By converting a higher percentage of electrical energy into mechanical energy, it reduces energy losses and operational expenses. In applications where the motor runs continuously or for long periods, the efficiency directly translates into lower electricity bills. This is particularly beneficial in industrial settings where energy consumption is a major cost factor. Investing in a high-efficiency motor can lead to substantial savings over its operational lifetime.
6: What are the installation considerations for this motor?
Installation considerations for this motor include ensuring proper alignment with the driven equipment and providing adequate space for ventilation and maintenance. The motor's mounting options, such as foot-mounted or flange-mounted configurations, should be chosen based on the specific application and available space. Additionally, proper electrical connections and grounding are essential for safe and effective operation. The motor's installation manual provides detailed instructions to ensure that it is installed correctly and performs optimally.
7: What safety features are included with this motor?
The motor is equipped with several safety features to protect both the equipment and operators. It typically includes built-in thermal overload protection that automatically shuts off the motor if it overheats, preventing damage and ensuring safe operation. The fully enclosed design protects internal components from external contaminants, reducing the risk of electrical shorts or mechanical failures. Additionally, the motor's robust construction and high-quality materials contribute to its overall safety and reliability, minimizing the risk of accidents or malfunctions in industrial environments.
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