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The Triple-layer Constant Temperature Humidity Chamber is an advanced environmental test chamber designed for precise temperature and humidity control, providing an ideal environment for various testing applications. It is especially useful in testing the performance and durability of power batteries, including lithium-ion batteries, automotive parts, and 3C consumer electronics. This chamber offers exceptional precision in temperature control ranging from as low as -40°C to as high as 150°C, along with humidity control, to simulate real-world conditions in which products must operate.
The Triple-layer Constant Temperature Humidity Chamber is particularly suited for high and low-temperature aging tests, charge and discharge tests of lithium batteries, and accelerated tests for various consumer products and components. It is a versatile and efficient testing solution, crucial for ensuring the reliability and performance of products under extreme temperature and humidity conditions.
With its innovative triple-layer insulation, the chamber maintains optimal temperature stability and energy efficiency. The top layer design allows for safe and easy placement of products, ensuring flexibility for testing larger or more complex items. Its rugged construction and use of high-quality materials, such as Grade 1 SUS 304 stainless steel and flame-resistant insulation, make it a robust and reliable piece of testing chamber.
Precise Temperature and Humidity Control:
The chamber offers a wide temperature range from -40°C to +150°C, with a temperature resolution of 0.1°C and a uniformity of ±1.5°C. This ensures that the chamber provides accurate and repeatable test conditions, vital for testing battery performance, durability, and long-term stability.
High-Quality Build Materials:
Constructed with Grade 1 SUS 304 stainless steel for the internal chamber and cold-rolled steel with baked paint treatment for the external structure, the chamber offers superior durability and resistance to corrosion, ensuring long-term reliability even under demanding testing conditions.
Energy-Efficient Design:
The triple-layer insulation, made from high-density imported heat insulation glass wool and flame-resistant P-U material, provides superior thermal retention, helping reduce energy consumption while maintaining stable internal conditions.
Multiple Customization Options:
The Triple-layer Constant Temperature Humidity Chamber is highly customizable to meet specific testing needs. Temperature ranges, heating and cooling rates, and humidity levels can be adjusted to suit a variety of applications. Custom sizes and configurations are available upon request.
Advanced Compressor System:
Equipped with imported first-line compressors and using eco-friendly cryogens like R404A and R23, the chamber delivers reliable cooling performance while reducing environmental impact.
Program and Fixed Value Operation Modes:
The chamber supports both programmed and fixed value operation, giving users flexibility in running complex tests with precise temperature and humidity control.
Reliable Performance for Battery Testing:
Specifically designed to test lithium-ion batteries, automotive parts, and consumer electronics under varying temperature and humidity conditions, this chamber is an ideal solution for battery testing laboratories and manufacturers.
Easy Operation:
The chamber is designed for user-friendly operation, with an intuitive control interface that allows operators to easily set and monitor test parameters. The large internal volume provides ample space for a wide range of products, and its well-structured design ensures easy access for loading and unloading test samples.
| Model | DBT3-B312 | DBT3-B390 | DBT3-B560 | DBT3-B546 |
| Volume (L) | 312 | 390 | 560 | 546 |
| Internal dimensions (W*D*H mm) | 800*600*650*3 layer | 1000*600*650*3 layer | 1000*800*700*3 layer | 1200*650*700*3 layer |
| External dimensions(W*D*H mm) | 1150*1950*2820 | 1350*1950*2820 | 1350*2150*2970 | 1550*2000*2970 |
| Air duct structure | Back U-shaped / left and right horizontal air supply | |||
| Temperature range | -40℃~+150℃、0℃~+150℃、RT+10’C~+150℃(Dimension, higher and lower temperature rate to support non-standard customization) | |||
| Temperature resolution | 0.1℃ | |||
| Temperature fluctuation | ≤±0.5℃ | |||
| Temperature uniformity | 1.5℃ | |||
| Heating rate | 1~3℃/min | |||
| Cooling rate | 1℃/min(average) | |||
| Internal box material | Grade 1 SUS 304 # stainless steel plate | |||
| External box material | Cold-rolled steel plate + baking paint treatment | |||
| Heat insulating material | Thermal insulation layer flame resistant fire proof P-U + high density ultra-fine imported heat insulation glass wool | |||
| Compression engine | First-line imported brand compressors | |||
| Cryogen | R404A, R23, R508B | |||
| Calorifier | Fully independent system, nickel-chromium alloy electric heating heater | |||
| Run mode | Program running + fixed value run | |||
The Triple-layer Constant Temperature Humidity Chamber serves a wide array of industries and applications, including:
Battery Testing:
The chamber is ideal for testing the performance, charge/discharge cycles, and longevity of lithium-ion batteries, lithium polymer batteries, and other types of power storage devices. Its precision temperature control is crucial for replicating the harsh conditions that batteries experience during their lifespan.
Automotive Parts Testing:
It is used for high and low-temperature aging tests of automotive components to evaluate durability and performance under extreme weather conditions. This is essential for ensuring the reliability of parts such as batteries, sensors, and electronic control units (ECUs).
Consumer Electronics Testing:
The chamber is used to simulate temperature and humidity conditions for testing the durability and functionality of various consumer electronic devices, including mobile phones, laptops, and wearables.
Environmental Simulation:
For R&D teams in industries like aerospace, military, and electronics, the chamber simulates a range of extreme environmental conditions, ensuring products can perform reliably in diverse and challenging environments.
Climatic Testing:
It is also widely used for climatic testing to assess how products withstand changes in temperature and humidity over extended periods, such as during accelerated life testing for electronics or automotive parts.
Step 1: Setup
Place the chamber in a dry, stable environment with adequate space for ventilation. Ensure that it is connected to the correct power supply, and make sure all internal settings are configured properly for the intended test conditions.
Step 2: Loading Samples
Open the chamber’s door and load the test samples into the internal rack. Ensure that the items are placed securely and evenly to avoid any obstruction to airflow or temperature uniformity.
Step 3: Set Test Parameters
Use the control panel to set the desired temperature, humidity, and test duration. You can either input a fixed value or select a program mode for a more complex test sequence. You may also adjust the heating and cooling rates based on the specific requirements of the test.
Step 4: Start the Test
Press the start button to begin the test. The chamber will automatically regulate the temperature and humidity according to the settings. Monitor the progress via the control panel, where you can view real-time temperature and humidity data.
Step 5: Data Logging and Reporting
For more advanced tests, the chamber supports data logging, which records test parameters and results over time. After the test is complete, review the data to analyze the performance of your samples.
Step 6: End of Test
Once the test duration has ended, remove the samples carefully. Clean the interior of the chamber as needed, and close it to ensure optimal storage conditions for the next use.
Q1: What is the temperature range of the Triple-layer Constant Temperature Humidity Chamber?
The temperature range of this chamber is from -40°C to +150°C, making it suitable for a wide range of testing applications that require precise temperature control.
Q2: Can I test large batteries in this chamber?
Yes, the chamber is designed with a spacious interior to accommodate large batteries, automotive parts, and consumer electronics. The top layer design also ensures ease of access when placing larger items.
Q3: What is the heating and cooling rate of this chamber?
The heating rate is between 1-3°C per minute, and the cooling rate is approximately 1°C per minute, depending on the conditions inside the chamber.
Q4: What kind of compressor is used in this chamber?
The chamber uses imported first-line compressors, ensuring efficient and reliable cooling performance throughout the testing process.
Q5: Is the chamber customizable to suit specific testing needs?
Yes, the Triple-layer Constant Temperature Humidity Chamber is highly customizable. Temperature range, heating/cooling rates, humidity control, and even internal volume can be tailored to meet specific testing requirements.
Q6: What materials are used for the internal and external structure?
The internal box is made from Grade 1 SUS 304 stainless steel, which is corrosion-resistant and durable. The external box is made from cold-rolled steel with a baked paint finish for added strength and aesthetic appeal.
Q7: How can I obtain a price quote for this chamber?
Please contact us directly for a personalized quote. We offer competitive pricing based on your specific requirements and customization needs.
The Triple-layer Constant Temperature Humidity Chamber is an advanced environmental test chamber designed for precise temperature and humidity control, providing an ideal environment for various testing applications. It is especially useful in testing the performance and durability of power batteries, including lithium-ion batteries, automotive parts, and 3C consumer electronics. This chamber offers exceptional precision in temperature control ranging from as low as -40°C to as high as 150°C, along with humidity control, to simulate real-world conditions in which products must operate.
The Triple-layer Constant Temperature Humidity Chamber is particularly suited for high and low-temperature aging tests, charge and discharge tests of lithium batteries, and accelerated tests for various consumer products and components. It is a versatile and efficient testing solution, crucial for ensuring the reliability and performance of products under extreme temperature and humidity conditions.
With its innovative triple-layer insulation, the chamber maintains optimal temperature stability and energy efficiency. The top layer design allows for safe and easy placement of products, ensuring flexibility for testing larger or more complex items. Its rugged construction and use of high-quality materials, such as Grade 1 SUS 304 stainless steel and flame-resistant insulation, make it a robust and reliable piece of testing chamber.
Precise Temperature and Humidity Control:
The chamber offers a wide temperature range from -40°C to +150°C, with a temperature resolution of 0.1°C and a uniformity of ±1.5°C. This ensures that the chamber provides accurate and repeatable test conditions, vital for testing battery performance, durability, and long-term stability.
High-Quality Build Materials:
Constructed with Grade 1 SUS 304 stainless steel for the internal chamber and cold-rolled steel with baked paint treatment for the external structure, the chamber offers superior durability and resistance to corrosion, ensuring long-term reliability even under demanding testing conditions.
Energy-Efficient Design:
The triple-layer insulation, made from high-density imported heat insulation glass wool and flame-resistant P-U material, provides superior thermal retention, helping reduce energy consumption while maintaining stable internal conditions.
Multiple Customization Options:
The Triple-layer Constant Temperature Humidity Chamber is highly customizable to meet specific testing needs. Temperature ranges, heating and cooling rates, and humidity levels can be adjusted to suit a variety of applications. Custom sizes and configurations are available upon request.
Advanced Compressor System:
Equipped with imported first-line compressors and using eco-friendly cryogens like R404A and R23, the chamber delivers reliable cooling performance while reducing environmental impact.
Program and Fixed Value Operation Modes:
The chamber supports both programmed and fixed value operation, giving users flexibility in running complex tests with precise temperature and humidity control.
Reliable Performance for Battery Testing:
Specifically designed to test lithium-ion batteries, automotive parts, and consumer electronics under varying temperature and humidity conditions, this chamber is an ideal solution for battery testing laboratories and manufacturers.
Easy Operation:
The chamber is designed for user-friendly operation, with an intuitive control interface that allows operators to easily set and monitor test parameters. The large internal volume provides ample space for a wide range of products, and its well-structured design ensures easy access for loading and unloading test samples.
| Model | DBT3-B312 | DBT3-B390 | DBT3-B560 | DBT3-B546 |
| Volume (L) | 312 | 390 | 560 | 546 |
| Internal dimensions (W*D*H mm) | 800*600*650*3 layer | 1000*600*650*3 layer | 1000*800*700*3 layer | 1200*650*700*3 layer |
| External dimensions(W*D*H mm) | 1150*1950*2820 | 1350*1950*2820 | 1350*2150*2970 | 1550*2000*2970 |
| Air duct structure | Back U-shaped / left and right horizontal air supply | |||
| Temperature range | -40℃~+150℃、0℃~+150℃、RT+10’C~+150℃(Dimension, higher and lower temperature rate to support non-standard customization) | |||
| Temperature resolution | 0.1℃ | |||
| Temperature fluctuation | ≤±0.5℃ | |||
| Temperature uniformity | 1.5℃ | |||
| Heating rate | 1~3℃/min | |||
| Cooling rate | 1℃/min(average) | |||
| Internal box material | Grade 1 SUS 304 # stainless steel plate | |||
| External box material | Cold-rolled steel plate + baking paint treatment | |||
| Heat insulating material | Thermal insulation layer flame resistant fire proof P-U + high density ultra-fine imported heat insulation glass wool | |||
| Compression engine | First-line imported brand compressors | |||
| Cryogen | R404A, R23, R508B | |||
| Calorifier | Fully independent system, nickel-chromium alloy electric heating heater | |||
| Run mode | Program running + fixed value run | |||
The Triple-layer Constant Temperature Humidity Chamber serves a wide array of industries and applications, including:
Battery Testing:
The chamber is ideal for testing the performance, charge/discharge cycles, and longevity of lithium-ion batteries, lithium polymer batteries, and other types of power storage devices. Its precision temperature control is crucial for replicating the harsh conditions that batteries experience during their lifespan.
Automotive Parts Testing:
It is used for high and low-temperature aging tests of automotive components to evaluate durability and performance under extreme weather conditions. This is essential for ensuring the reliability of parts such as batteries, sensors, and electronic control units (ECUs).
Consumer Electronics Testing:
The chamber is used to simulate temperature and humidity conditions for testing the durability and functionality of various consumer electronic devices, including mobile phones, laptops, and wearables.
Environmental Simulation:
For R&D teams in industries like aerospace, military, and electronics, the chamber simulates a range of extreme environmental conditions, ensuring products can perform reliably in diverse and challenging environments.
Climatic Testing:
It is also widely used for climatic testing to assess how products withstand changes in temperature and humidity over extended periods, such as during accelerated life testing for electronics or automotive parts.
Step 1: Setup
Place the chamber in a dry, stable environment with adequate space for ventilation. Ensure that it is connected to the correct power supply, and make sure all internal settings are configured properly for the intended test conditions.
Step 2: Loading Samples
Open the chamber’s door and load the test samples into the internal rack. Ensure that the items are placed securely and evenly to avoid any obstruction to airflow or temperature uniformity.
Step 3: Set Test Parameters
Use the control panel to set the desired temperature, humidity, and test duration. You can either input a fixed value or select a program mode for a more complex test sequence. You may also adjust the heating and cooling rates based on the specific requirements of the test.
Step 4: Start the Test
Press the start button to begin the test. The chamber will automatically regulate the temperature and humidity according to the settings. Monitor the progress via the control panel, where you can view real-time temperature and humidity data.
Step 5: Data Logging and Reporting
For more advanced tests, the chamber supports data logging, which records test parameters and results over time. After the test is complete, review the data to analyze the performance of your samples.
Step 6: End of Test
Once the test duration has ended, remove the samples carefully. Clean the interior of the chamber as needed, and close it to ensure optimal storage conditions for the next use.
Q1: What is the temperature range of the Triple-layer Constant Temperature Humidity Chamber?
The temperature range of this chamber is from -40°C to +150°C, making it suitable for a wide range of testing applications that require precise temperature control.
Q2: Can I test large batteries in this chamber?
Yes, the chamber is designed with a spacious interior to accommodate large batteries, automotive parts, and consumer electronics. The top layer design also ensures ease of access when placing larger items.
Q3: What is the heating and cooling rate of this chamber?
The heating rate is between 1-3°C per minute, and the cooling rate is approximately 1°C per minute, depending on the conditions inside the chamber.
Q4: What kind of compressor is used in this chamber?
The chamber uses imported first-line compressors, ensuring efficient and reliable cooling performance throughout the testing process.
Q5: Is the chamber customizable to suit specific testing needs?
Yes, the Triple-layer Constant Temperature Humidity Chamber is highly customizable. Temperature range, heating/cooling rates, humidity control, and even internal volume can be tailored to meet specific testing requirements.
Q6: What materials are used for the internal and external structure?
The internal box is made from Grade 1 SUS 304 stainless steel, which is corrosion-resistant and durable. The external box is made from cold-rolled steel with a baked paint finish for added strength and aesthetic appeal.
Q7: How can I obtain a price quote for this chamber?
Please contact us directly for a personalized quote. We offer competitive pricing based on your specific requirements and customization needs.
