High Precision, No Added Unbalance:
As a flexible transmission method, it does not alter the workpiece's original unbalance, resulting in higher measurement accuracy achievable down to the 1um grade
Fast Loading Unloading, High Efficiency:
Requires no disassembly of connectors, allowing for rapid loading and unloading of workpieces -ideal for mass production environments
Non-Marring, Suitable for Precision Parts:
Features no rigid contact, thereby protecting smooth, precision surfaces (e.g., motor rotors, precision spindles)
Simple Structure, Low Maintenance:
Requires no lubrication or complex connecting components; offers low cost and minimal risk of mechanical failure.
Dual-Drives Design: With both universal joint drive and belt drive to guarantee both the accuracy and the flexbility of the test for different workpieces required.: Better Anti-Resistance ability w
Simple to operate: safe to use, features a modular design, and is equipped with an advanced computer-controlled LCD color display system.
High Sensitivity and Safety: Employs a high-hardness spherical support structure, providing high sensitivity and stable operation, especially suitable for correcting rotors of large tower axial flow
Multiple Support Methods: Supports soft supports (high precision), hard supports (safe operation at low speeds), and semi-hard supports, allowing for flexible selection based on production needs.
Significant noise and vibration reduction: Precise balancing reduces vibration and noise during rotation, extending bearing life and improving product operational stability.
This equipment plays a crucial role in automotive manufacturing, aerospace, home appliance motors, and new energy fields, and is one of the core pieces of equipment for ensuring the quality of high-sp