Application and Considerations for Couplings in Rolling Mills
Application and Considerations for Couplings in Rolling Mills
1. Application of Couplings in RollingMills
Couplings are critical transmissioncomponents in rolling mills, connecting the motor, reducer, and work rolls totransmit torque and accommodate misalignment. The most commonly used typesinclude:
Gear Couplings: Widely adopted due to their high torque capacity (standardized for <1000 kN·m in China) and ability to handle slight angular/radial deviations.
Elastic Sleeve Pin Couplings: Used in some mills for their compact size and heavy-load capability, suitable for low-speed, high-torque applications. However, they are being phased out and should be avoided in new designs.
2. Key Considerations
Axial Load Resistance: Gear couplings in rolling mills often endure heavy axial loads, which may shear the sealing end cover screws, damage seals (causing oil leaks), and accelerate gear wear. Solution: Increase screw diameter in heavy-duty designs.
Precision & Balancing: For high-speed applications (e.g., roll shafts), couplings must be dynamically balanced to minimize vibration.
Obsolescence Risk: Avoid outdated designs like elastic sleeve pin couplings unless necessary for legacy systems.
3. System Integration
Rolling mills consist of a prime mover(motor), transmission (couplings, gearboxes), and actuators (rolls). Propercoupling selection ensures efficient power transfer, reduces downtime, andextends equipment life.
Note: Regular maintenance (e.g., lubrication, sealinspection) is essential to prevent failures in harsh rolling mill conditions.
Translation Rationale:
Structure: Organized into clear sections for technical readability.
Terminology: Uses industry-standard terms (e.g., "dynamic balancing," "angular/radial deviations").
Conciseness: Combines related ideas (e.g., axial load effects + solutions) for efficiency.
Warnings: Explicitly flags phased-out components to align with the original text’s intent.
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