Acoustic hood

 Working Principle

They use multi - layer construction. The outer layer acts as a physical barrier, while internal sound - absorbing materials convert sound energy into heat. For instance, fiberglass wool traps and dissipates sound waves.

 Advantages

- Noise Reduction: Significantly cuts noise, creating a quieter environment and helping meet regulations.

- Durability: Withstands harsh industrial conditions like dust, moisture, and impacts.

- Easy Installation and Maintenance: Saves time and effort.

 Application Scenarios

- Industrial Settings: Cover noisy machinery such as generators, compressors, and pumps.

- Recording Studios: Eliminate external noise for high - quality audio recording.

- Research Laboratories: Provide a quiet environment for sensitive experiments.

 Customization Service

We provide full-dimensional customization of dimensions, materials and functions, along with supporting services including acoustic solution design, on-site survey and installation guidance, to meet the noise reduction needs of different industrial and civil scenarios.

Structural Configurations

-Integral Type: Fully enclosed structure, suitable for small-sized fixed equipment.

-Split Type: Detachable and assembled structure, facilitating equipment inspection and maintenance.

-Partial Type: Semi-enclosed structure designed for high-noise parts of equipment (e.g., motor ends, fan air inlets).

Functional Customization

-Ventilation & Heat Dissipation Type: Integrated with axial flow fans, mufflers and heat dissipation shutters to meet the heat dissipation requirements of equipment operation.

-Observation & Operation Type: Equipped with sound-insulating observation windows (double-layer tempered glass) and sound-insulating operation doors for real-time monitoring and operation.

-Explosion-Proof Type: Adopts explosion-proof steel plates and explosion-proof accessories, suitable for noise reduction of equipment in flammable and explosive environments.