MHI HASEG Worm Gear Reducer SEHA125L-63
Technical Specifications:
- Model: SEHA125L-63
- Type: Worm Gear Reducer
- Reduction Ratio: 63:1
- Input Speed: 1500 RPM
- Output Speed: 23.8 RPM
- Output Torque: 400 Nm
- Efficiency: 72%
- Mounting Position: Horizontal
- Housing Material: High-strength Cast Iron
- Lubrication: Synthetic Oil
- Weight: 120 kg
- Temperature Range: -10°C to 60°C
- Protection Class: IP55
Benefits:
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Enhanced Durability:
- The SEHA125L-63 is constructed from high-strength cast iron, ensuring it can withstand demanding environments and heavy-duty tasks, providing long-term reliability and reducing the need for frequent replacements.
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Precise Speed Control:
- With a high reduction ratio of 63:1, the gear reducer allows for accurate speed control, making it ideal for applications requiring precise torque and speed adjustments, ensuring optimal performance.
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Energy Efficiency:
- Operating with an efficiency of 72%, the SEHA125L-63 minimizes energy losses during power transmission, leading to reduced operational costs and better energy utilization.
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Versatility:
- The SEHA125L-63’s robust design and performance characteristics make it versatile enough to be used in various applications, including heavy machinery, industrial conveyors, and automated systems, offering flexible solutions for different industrial needs.
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Ease of Maintenance:
- Designed with maintenance in mind, the SEHA125L-63 features accessible lubrication points and inspection areas, facilitating straightforward servicing and reducing downtime, which helps in extending the operational life of the gear reducer.
Summary:
The MHI HASEG Worm Gear Reducer SEHA125L-63 is a powerful and efficient gear reduction solution designed for demanding industrial applications. With its high torque capacity, substantial reduction ratio, and durable construction, it is well-suited for heavy machinery, processing equipment, and automated systems. Its efficient performance and ease of maintenance make it a valuable asset for ensuring reliable and effective operation in various settings.
