Ceramic Pot Feet, Garden Accessories, Pot Feet Yixing Bocai Pottery Co.,Ltd , https://www.bocaipottery.com
Upgrade of the single-stage compressor system of ASLI constant temperature and humidity test box
In the traditional approach to producing constant temperature and humidity test chambers, many manufacturers have relied on a single compressor refrigeration system to achieve cooling effects. Although this method has proven reliable in terms of mass performance, there are limitations. The refrigerant inside is often pushed to its limits, and the system struggles to maintain temperatures below -40°C, typically only reaching -43°C. This raises an important question: why do so many companies still use a single compressor for refrigeration testing, and can it truly deliver optimal experimental results?
As the industry continues to evolve, Ai Si has taken significant steps to upgrade and improve its constant temperature and humidity test chambers based on compressor temperature requirements. One key innovation is the use of an imported Taikang totally enclosed compressor, which not only allows the refrigerant to reach the required -40°C but also enhances the accuracy and efficiency of the cooling process.
When a single-compressor system is used to test at -40°C, the refrigeration system operates under high load conditions continuously. This can pose risks to both the operators conducting the tests and the surrounding environment. During this process, fluctuations in ambient temperature may trigger alarms, or the equipment could suffer damage due to prolonged high-speed operation. These issues clearly demonstrate that a single compressor's refrigerant capacity is insufficient to ensure the best possible experimental outcomes.
The main reason manufacturers choose this type of compressor is its reliability and relatively low cost. However, in practice, the system can only operate above 40°C for approximately 100 hours before requiring maintenance or replacement. Due to the high frequency of compressor replacements—typically every two years—this technology is gradually being phased out.
Ai Si specializes in manufacturing high-quality constant temperature and humidity test chambers, known for its excellent performance and strong market reputation. Over the past 20 years, the company has built a solid foundation of technological expertise and continues to innovate. We would like to express our sincere gratitude to all our customers for their continued support and trust. Ai Si remains committed to providing cutting-edge technical solutions, helping you enhance your product’s core competitiveness, and creating real value for your business. It is our greatest satisfaction to serve you.
Material: Ceramic pot feet are typically made from the same materials as ceramic pots themselves. They are crafted from clay-based ceramics and fired at high temperatures to ensure durability and strength. This allows them to withstand the weight of the pot and plant while providing stability and support.
Design: Ceramic pot feet come in various designs, ranging from simple geometric shapes to more intricate decorative motifs. They may feature rounded, square, or cylindrical forms, often with textured surfaces or embellishments that complement the aesthetic of the pot they support. Some pot feet designs may also incorporate patterns or reliefs that mimic natural elements like leaves, flowers, or animals.
Size: Ceramic pot feet are available in different sizes to accommodate pots of various diameters and weights. They typically have a flat top surface to provide stable contact with the bottom of the pot and a wider base for enhanced stability on the ground or other surfaces.
Function: The primary function of ceramic pot feet is to elevate the pot slightly above the ground or surface on which it sits. This elevation helps to improve drainage and airflow around the pot, preventing waterlogging, soil compaction, and root rot. By allowing air circulation beneath the pot, pot feet also help to prevent the formation of mold, mildew, and pests.
Protection: Ceramic pot feet serve as a protective barrier between the pot and the surface below, reducing the risk of damage to both the pot and the underlying surface. They help to prevent moisture accumulation, staining, and potential deterioration caused by prolonged contact with moisture or abrasive surfaces.
Aesthetic Enhancement: In addition to their functional benefits, ceramic pot feet can enhance the visual appeal of potted plants by adding a decorative element to the display. They can complement the design of the pot and contribute to an overall cohesive look in garden settings, patios, balconies, or indoor spaces.
Versatility: Ceramic pot feet can be used with a wide range of ceramic pots, planters, and containers, as well as other materials such as terra cotta, stone, or metal. They are suitable for both indoor and outdoor use and can be easily removed or repositioned as needed.
Overall, ceramic pot feet provide a practical and aesthetically pleasing solution for elevating and protecting ceramic pots while promoting healthy plant growth and enhancing the visual appeal of potted plant displays.