1. Efficient exhaust system
High-performance fan: equipped with high-power fan to ensure rapid exhaust of harmful gases and steam.
Optimized exhaust duct: streamlined design reduces air flow resistance and improves exhaust efficiency.
Adjustable wind speed control: flexibly adjust wind speed according to different experimental needs to ensure optimal ventilation effect.
2. Multiple safety protection
Anti-magnetic interference: special design prevents the influence of external magnetic field on precision instruments and ensures the accuracy of experimental data.
Fireproof and flame retardant: the inner cavity material has fire retardant properties to improve overall safety.
Anti-theft locks: high-strength locks ensure the safety of valuables and sensitive data.
Automatic closing function: automatically close the window when abnormal conditions are detected to prevent the leakage of harmful substances.
Built-in alarm system: real-time monitoring of air quality and alarm to ensure timely response to emergencies.
3. High-quality materials and structures
Corrosion-resistant inner cavity: stainless steel or epoxy resin coating, easy to clean and maintain.
Sturdy shell: the surface is treated with anti-corrosion to extend the service life.
Double-glazed windows: High transparency and corrosion resistance, convenient for observing the experimental process, while providing an additional safety barrier.
4. Intelligent control system
Touch screen controller: Intuitively displays parameters such as wind speed and temperature, easy to operate.
Remote monitoring and data recording: Supports remote management and data recording, which is convenient for laboratory management and maintenance.
Energy-saving mode: Automatically adjusts wind speed according to actual needs, reduces energy consumption, and saves energy.
5. Energy-saving and environmentally friendly design
Frequency conversion technology: Automatically adjusts wind speed according to usage, effectively reducing energy consumption.
Heat recovery system: Uses heat in exhaust gas for energy recovery, further saving energy.
6. Multiple sizes and configurations
Standard and customized specifications: Provides multiple sizes and configuration options to meet the space requirements and experimental requirements of different laboratories.
Modular design: Can be expanded or modified as needed to adapt to changes in future experimental needs.
7. Application areas
Physics experiments: used for experiments in electricity, optics, mechanics, etc.
Material science: Suitable for research on material synthesis, characterization, etc.
Engineering research: Supports research and development work in the fields of machinery, electronics, etc.