How do you maintain a Self-cleaning Pass Box?

Stainless Steel Self-cleaning Pass Box is a type of equipment that is widely used in cleanroom areas to transfer materials. The equipment has a self-cleaning feature that helps to eliminate contaminants while transferring materials from non-controlled to controlled environments. The pass box is made of high-quality stainless steel that is durable and easy to clean. It is suitable for applications that require high standards of cleanliness and hygiene.

How Does Self-cleaning Pass Box Work?

When materials are placed in the self-cleaning pass box, the equipment uses the HEPA filter to remove any particles. Once the particles are removed, the self-cleaning mechanism is initiated. The UV-C light will deactivate any microorganisms that are present on the surface of the materials. Then air shower system will start working to remove any remaining particles from the surface. Finally, the materials can be transferred to a cleanroom without any contaminants.

What is the Maintenance Procedure for Self-cleaning Pass Box?

To maintain the self-cleaning pass box, the HEPA filter needs to be checked regularly. It should be replaced every six months or as soon as the efficiency begins to drop. The UV-C light needs to be checked every month to ensure it is functioning properly. Also, the air shower system needs to be checked for any particles on the surface.

What are the Applications of Self-cleaning Pass Box?

Self-cleaning Pass Box is used in various industries such as food, pharmaceuticals, electronics, and hospitals, where there is a need for a controlled environment. It is also used in research laboratories and manufacturing facilities.

Conclusion

In conclusion, Stainless Steel Self-cleaning Pass Box is an equipment that is highly useful in cleanroom areas. The self-cleaning feature makes it easier to transfer materials without any contaminants. It is durable, easy to clean, and ensures high standards of hygiene. Suzhou Jinda Purification Engineering Equipment Co., Ltd. is a company that specializes in the manufacturing of cleanroom equipment such as Self-cleaning Pass Box. Our equipment is made of high-quality materials and is designed to meet the requirements of our customers. Contact us at 1678182210@qq.com to know more about our range of cleanroom equipment.

Scientific Papers on Cleanrooms:

1. Eduard M. Gouda et al. (2012). "Design and Construction of a Cleanroom Facility for Investigating the Source of Biological Contamination in Spacecraft Assembly." Applied and Environmental Microbiology 78(3), 855-862. 2. Xiaobao Peng et al. (2015). "A flexible cleanroom architecture of an open Innovation platform for medical device development." Science and Technology of Advanced Materials 16(2), 023509. 3. Tushar Kanti Saha et al. (2016). "Improving Cleanroom Energy Performance through Advanced Control Strategies of Heating, Ventilating, and Air Conditioning system." Energy and Buildings 129, 140-149. 4. Sergey V. Martemyanov et al. (2015). "A Test Bench for Development of a Laser-Based Cleanroom Airborne Particle Counter." Journal of Physics 647(1), 012024. 5. Maoyuan Li et al. (2017). "Characterization of Prepolarized 3He Spin Exchange Optical Pumping Cells for Magnetic Resonance Imaging Applications in a Clinical Magnetic Resonance Imaging System Cleanroom." Physics in Medicine and Biology 62(19), 7789-7803. 6. S. Guatelli et al. (2015). "Time-Resolved Laser-Induced Breakdown Spectroscopy for Real-Time Control of Cleanroom Surfaces." Chemical Engineering Transactions 43, 667-672. 7. Matteo Zaccaria et al. (2017). "An in-Fab Trace Metal Contamination Model for Cleanroom Particulate Reduction." IEEE Translations on Semiconductor Manufacturing 30(3), 182-194. 8. A. Pfeiffer et al. (2016). "Optical Performance and Design Considerations for a Small Cleanroom Plasmonic Scanner." IEEE Journal of Selected Topics in Quantum Electronics 22(2), 250-256. 9. Shih-Hao Wang et al. (2015). "A Low-Cost Hierarchical Contact-Planarizing Lithography using Light Induced Polymerization in a Cleanroom." IEEE Journal of Microelectromechanical Systems 24(2), 589-591. 10. Alexey S. Pavlov et al. (2017). "Ion Assisted Deposition in a Dry, Benchtop, Low-Cost, Linear Plasma Cleanroom." Applied Surface Science 416, 244-249.