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| Quantity: | |
|---|---|
Load | 1500N(direct pressure) |
Obstacle angle | 30 degree |
Power supply | 380V±10% 50HZ 5.5KW |
Speed range | 0.05~35000m/h |
Operation direction | Supports forward and reverse rotation |
Tray lifting range | 50~200 mm |
Absolute error of the measured stroke | ≤±0.5m |
Stroke control range | 0.05—99.9km |
Absolute error of the measurement time | 0.1 Second |
Main machine dimension | 2900*1200*2500mm |
Control cabinet size | 600*600*1850 mm |
Weight | About 510kg |
The Constant Temperature and Humidity Chamber (80L), alternatively referred to as a climate chamber or environmental test chamber, is a high-precision instrument designed to replicate extreme temperature and humidity conditions. This allows for thorough evaluation of material durability, product reliability, and performance under strictly controlled environments.
With inner dimensions of 500 * 500 * 600mm (W * D * H) and external dimensions of 910 * 1050 * 1530mm (W * D * H), the 80L capacity makes it suitable for a wide range of testing scenarios, from small components to medium-sized products. It operates on an AC 220V, 50HZ power supply with a power consumption of 4.5KW, ensuring stable performance during extended testing periods.
The chamber boasts a temperature range of -40 ℃~150 ℃, enabling it to simulate both frigid and high-heat environments. This wide range ensures that products can be tested under extreme temperature conditions they might encounter in real-world applications.
Temperature fluctuation is controlled within ± 2 ℃ and temperature uniformity is maintained at ± 2 ℃, guaranteeing consistent and reliable test results.
The heating rate reaches 2 ℃ -4 ℃/min (from room temperature to maximum temperature, non-linear no-load) and the cooling rate is 0.7 ℃ -1 ℃/min (from room temperature to minimum temperature, non-linear no-load), allowing for efficient transitions between different temperature settings.
Analytical accuracy for temperature is ± 0.01 ℃, ensuring precise measurement and control.
It offers a humidity range of 20% ~ 98% R.H, covering almost all possible humidity conditions required for various tests.
Humidity fluctuation is kept within ± 2.0% R.H and humidity uniformity is ± 3%, providing stable humidity environments for accurate testing.
The analytical accuracy for humidity is ± 0.1% R.H, ensuring that even minor changes in humidity are accurately detected and controlled.
The interior is made of stainless steel, which is resistant to corrosion and easy to clean, ensuring the longevity of the chamber and preventing contamination of test samples.
The insulation layer consists of hard Polyurethane foam + glass wool with a thickness of 100mm, effectively minimizing heat loss and maintaining stable internal temperatures, thus reducing energy consumption.
Equipped with a 7-inch touch screen control system, operation is intuitive and user-friendly, allowing for easy setting and monitoring of temperature and humidity parameters.
The high brightness window lighting design facilitates easy observation of test products without disturbing the internal environment.
The 80L Constant Temperature and Humidity Chamber finds extensive applications across various industries:
It is used to test electronic components such as semiconductors, capacitors, and resistors. By subjecting these components to different temperature and humidity conditions, manufacturers can ensure their performance and reliability in various climates, from humid tropical regions to dry desert areas.
Pharmaceutical products and medical devices need to maintain their efficacy and safety under different environmental conditions. This chamber is utilized to test the stability of drugs, the durability of medical equipment, and the performance of packaging materials to ensure they can withstand storage and transportation in various environments.
Automotive parts, including rubber seals, plastic components, and electrical systems, are exposed to a wide range of temperatures and humidity levels during use. The chamber helps test these parts to ensure they can function properly in extreme weather conditions, such as high temperatures in summer and low temperatures in winter, as well as high humidity in rainy seasons.
Scientists and researchers use the chamber to study the behavior of different materials under controlled temperature and humidity. This includes testing the strength, flexibility, and chemical stability of materials, which is crucial for the development of new materials and the improvement of existing ones.
Products such as textiles, furniture, and cosmetics need to meet quality standards in different environments. The chamber is used to test the color fastness of textiles, the durability of furniture finishes, and the stability of cosmetics, ensuring they remain in good condition during storage and use.
The primary purpose of this chamber is to simulate various temperature and humidity conditions to test the durability, reliability, and performance of materials and products. It helps manufacturers and researchers ensure that their products can withstand the environmental challenges they may encounter in real-world use.
The temperature control accuracy is ± 0.01 ℃ and the humidity control accuracy is ± 0.1% R.H, which is extremely high, ensuring that test results are reliable and reproducible.
The interior is made of stainless steel, and the insulation layer is composed of hard Polyurethane foam + glass wool, providing excellent corrosion resistance, insulation, and durability.
No, the chamber is equipped with a 7-inch touch screen control system, which makes operation simple and intuitive. Users can easily set and monitor temperature and humidity parameters, and the system provides clear feedback on the test status.
It operates on an AC 220V, 50HZ power supply with a power consumption of 4.5KW. It is important to ensure that the power supply meets these requirements to avoid any damage to the equipment or inaccuracies in testing.
Yes, the chamber is designed for continuous operation, making it suitable for long-term testing. The stable insulation layer and reliable control system ensure that the internal environment remains consistent over extended periods, providing accurate test data.
