Air conditioners are essential appliances in modern life, providing
comfort by regulating temperature and humidity in various indoor
environments. Ensuring their optimal performance across a wide
range of temperature and humidity conditions is crucial for both
manufacturers and consumers. Our custom remote - controlled
temperature humidity test chamber for air conditioners is a
specialized solution designed to meet the rigorous testing
requirements of this industry. This innovative test chamber allows
for precise control and monitoring of environmental conditions,
enabling comprehensive testing of air conditioners' functionality,
efficiency, and durability.
Air conditioners come in different types, sizes, and capacities,
each with unique testing requirements. Our custom test chamber is
designed to be fully adaptable to these variations. Through in -
depth consultation with clients, our engineering team can customize
the chamber's dimensions, layout, and airflow systems to
accommodate different air conditioner models. Whether it's a small
window unit or a large central air conditioning system, the chamber
can be tailored to provide a realistic testing environment that
closely mimics the actual operating conditions of the air
conditioner.
One of the standout features of this test chamber is its remote -
controlled operation. Using a dedicated mobile application or a web
- based interface, users can remotely control all aspects of the
test chamber, including temperature, humidity, and airflow
settings. This allows for convenient and flexible testing,
especially when the test chamber is located in a different physical
location or when continuous monitoring and adjustment are required.
The remote - control feature also enables multiple users to access
and manage the test chamber simultaneously, facilitating seamless
collaboration between different teams involved in the testing
process.
The test chamber is equipped with advanced temperature and humidity
control systems that offer exceptional precision. The temperature
can be accurately adjusted within a wide range, typically from -
70°C to 150°C, with a precision of ±0.5°C. Humidity levels can be
controlled from 20% to 90% relative humidity (RH), with a precision
of ±3% RH. This high - level precision ensures that the air
conditioner is tested under exacting environmental conditions,
allowing for accurate evaluation of its performance and energy
efficiency.
A comprehensive monitoring system is integrated into the test
chamber to provide real - time data on temperature, humidity,
airflow, and other relevant parameters. This data is continuously
logged and can be accessed remotely through the user interface. The
logged data can be analyzed to identify trends, patterns, and
potential issues in the air conditioner's performance.
Additionally, the system can generate detailed reports, which are
useful for quality control, research and development, and
compliance purposes.
To accurately simulate the real - world operating conditions of air
conditioners, the test chamber is designed to generate high -
volume airflow. The airflow system can be adjusted to mimic
different ventilation scenarios, such as low - speed air
circulation in a small room or high - speed airflow in a large
commercial space. This feature allows for the testing of air
conditioners' ability to distribute cool or warm air effectively,
ensuring proper temperature and humidity regulation throughout the
space.
The test chamber is constructed using high - quality, durable
materials that can withstand the rigors of continuous testing. The
insulation materials used are of excellent quality, minimizing heat
transfer and energy consumption. The heating, cooling, and humidity
control systems are designed to be energy - efficient, reducing
operating costs while maintaining optimal performance. The
chamber's robust construction also ensures its long - term
reliability, making it a valuable asset for air conditioner
testing.
| Model | THC-225 | THC-408 | THC-800 | THC-1000 |
| Inside dimension(W x D x H) mm | 50 x 75 x 60 | 60 x 85 x 80 | 100 x 100 x 80 | 100 x 100 x 100 |
| Outside dimension(W x D x H) mm | 75 x 165 x 170 | 85 x 175 x 190 | 125 x 190 x 190 | 125 x 190 x 210 |
| Internal material | #304 Stainless Steel |
| External material | Powder coated #304 Stainless Steel |
| Temperature range | + 150℃~ - 70 ℃ |
| Humidity range | 5% ~ 98% R. H |
| Temperature resolution ℃ | 0.01 |
| Humidity resolution % R. H. | 0.1 |
| Temperature stability ℃ | ±0.3 |
| Humidity stability % R. H. | ±2 |
| High temperature ℃ | 100 | 100 | 100 | 100 |
| Heating time (min) | 20 | 30 | 30 | 30 |
| Low temperature | 0, -40, -70 | 0, -40, -70 | 0, -40, -70 | 0, -40, -70 |
| Cooling time (min) | 20, 50, 70 | 20, 50, 70 | 20, 50, 70 | 20, 50, 70 |
| Air circulation system | Mechanical convection system |
| Cooling system | Imported compressor, fin evaporator, gas condenser |
| Heating system | Sus304 Stainless steel High-speed heater |
| Humidification system | Steam Generator |
| Humidification water supply | Reservoir, Sensor-controller solenoid valve, recovery-recycle
system |
| Controller | Touch panel |
| Electrical power requirements | Please contact us for requirements of specific models |
| Safety device | Circuit system load protection, compressor load protection, control
system load protection, humidifier load protection, overtemperature
load protection, fault warning light |
Manufacturers can use the custom test chamber to conduct a wide
range of tests on air conditioners, including performance testing
under different temperature and humidity conditions, energy
efficiency evaluation, and durability testing. This comprehensive
testing helps in identifying potential design flaws and performance
issues early in the product development cycle, allowing for timely
improvements and optimizations.
