Vibration Isolation Spring Application Examples

Commercial Buildings

Vibration isolation for suspended installations of central air conditioning systems, cooling towers, fan coil units, etc., reducing noise transmission and improving building comfort.

Industrial Facilities

Vibration isolation foundations for large equipment such as generator sets, air compressors, and pump stations, ensuring long-term stable operation.

Rail Transit

Vibration isolation installations for subway and high-speed rail equipment, reducing vibration impact on surrounding environments and improving ride comfort.

1 Elastic Deformation Principle

Vibration isolation springs absorb vibration energy generated by equipment through elastic deformation, converting mechanical energy into potential energy, which is then slowly released to achieve vibration reduction.

2 Damping Vibration Reduction Technology

Combined with damping materials, it converts part of the vibration energy into heat dissipation, further improving vibration isolation efficiency and preventing resonance phenomena.

3 Frequency Isolation Design

Through precise calculation of spring stiffness, the natural frequency of the vibration isolation system is kept away from the equipment vibration frequency, achieving effective vibration isolation.

Pre-Installation Preparation

• Ensure equipment weight matches vibration isolator load capacity
• Check installation base flatness and strength
• Prepare appropriate tools and safety equipment

Installation Steps

• Locate and mark vibration isolator installation positions
• Install vibration isolators correctly according to instructions
• Adjust level and height to ensure even force distribution

Regular Maintenance

• Monthly inspection of vibration isolator appearance and connection status
• Semi-annual inspection of spring deformation and corrosion
• Annual professional inspection and necessary adjustments