Cradle-type Vibration Isolation Bench
A high-column cradle-type vibration damping platform, suitable for various small and medium-sized equipment.
Product Application Description
The entire vibration damping platform is designed as a columnar cradle type. This design places the core of the damping system—the air spring—at a higher position, making the spring easier to maintain and adjust, and also facilitating future maintenance. This platform can also accommodate equipment placed in a pit, so that replacing the spring does not require moving the equipment. Additionally, it offers good aesthetic appeal, making it suitable for laboratory use.
Product Application Description
The entire vibration damping platform is designed as a columnar cradle type. This design places the core of the damping system—the air spring—at a higher position, making the spring easier to maintain and adjust, and also facilitating future maintenance. This platform can also accommodate equipment placed in a pit, so that replacing the spring does not require moving the equipment. Additionally, it offers good aesthetic appeal, making it suitable for laboratory use.
Product Features:
➤ The platform is filled with damping material inside, which can eliminate surface resonance
➤ Medium carbon steel wall panels have high mechanical strength
➤ The platform is heavy, effectively lowering the center of gravity
➤ Good rigidity, with minimal deformation under load
➤ The platform is filled with damping material inside, which can eliminate surface resonance
➤ Medium carbon steel wall panels have high mechanical strength
➤ The platform is heavy, effectively lowering the center of gravity
➤ Good rigidity, with minimal deformation under load
Application areas:
➤ Microscopy
➤ Life sciences
➤ Precision measurement
➤ Atomic force microscopy/Scanning probe microscopy
➤ Electrophysiology/Neuroscience analysis
➤ High-precision balances
➤ Microscopy
➤ Life sciences
➤ Precision measurement
➤ Atomic force microscopy/Scanning probe microscopy
➤ Electrophysiology/Neuroscience analysis
➤ High-precision balances
