Ultrasound diagnostic devices are crucial tools in modern medicine,
enabling non - invasive imaging and diagnosis of various medical
conditions. These devices are highly sensitive to environmental
factors, especially temperature and humidity. Fluctuations in these
conditions can affect the accuracy of ultrasound images, the
performance of the device's components, and ultimately, the quality
of patient care. Our custom temperature and humidity controlled
chamber for ultrasound diagnostic devices is a specialized solution
designed to meet the unique testing and storage requirements of
these vital medical instruments.
Understanding that ultrasound diagnostic devices come in different
shapes, sizes, and technological configurations, our chamber is
fully customizable. Through in - depth consultations with clients,
our engineering team can design the chamber's interior layout,
dimensions, and access points to perfectly accommodate specific
ultrasound devices. Whether it's a compact handheld unit or a
large, multi - function ultrasound machine, the chamber can be
tailored to provide an ideal testing and storage environment.
The chamber is equipped with state - of - the - art temperature and
humidity control systems. Advanced sensors and intelligent
algorithms work in harmony to achieve exceptional precision. The
temperature can be accurately adjusted within a wide range,
typically from -70°C to 150°C, with a precision of ±0.3°C. Humidity
levels can be controlled from 30% to 70% relative humidity (RH),
with a precision of ±2% RH. This high level of control ensures that
the ultrasound devices are tested and stored under the exact
conditions required for optimal performance.
To meet the diverse needs of ultrasound device manufacturers,
researchers, and healthcare providers, the chamber offers multiple
test and storage modes. For testing, it supports steady - state
mode, where the temperature and humidity are held constant for an
extended period to evaluate the long - term stability of the
device. Cyclic mode is also available, which simulates the daily or
seasonal temperature and humidity variations that the device may
encounter in a clinical setting. For storage, the chamber can
maintain a stable environment to prevent damage to the device's
components due to environmental factors.
A comprehensive monitoring and data logging system is integrated
into the chamber. Multiple sensors are strategically placed
throughout the chamber to continuously monitor temperature,
humidity, and other relevant parameters such as air circulation and
pressure. The data is logged at high frequencies and can be
accessed in real - time through a user - friendly interface. This
detailed data provides valuable insights into the performance of
the ultrasound device under different conditions, helping to
identify potential issues and optimize the device's design.
The chamber is constructed using high - quality, durable materials
that can withstand the rigors of continuous use. The exterior is
made of corrosion - resistant steel, providing excellent protection
against physical damage and environmental factors. The interior is
lined with materials that are not only resistant to heat and
moisture but also easy to clean and disinfect, ensuring a hygienic
environment for the ultrasound devices. This is crucial as
ultrasound devices are often used in clinical settings where
cleanliness and sterility are of utmost importance.
Safety is a top priority in the design of the chamber. It is
equipped with a range of safety features, including over -
temperature and over - humidity protection systems. In case of any
abnormal conditions, such as a sudden increase in temperature or
humidity beyond the set limits, the safety systems will
automatically activate to prevent damage to the ultrasound device
and the chamber itself. Additionally, emergency stop buttons are
located conveniently throughout the chamber for quick shutdown in
case of an emergency.
| 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 |
By subjecting ultrasound diagnostic devices to precisely controlled
temperature and humidity conditions, manufacturers can identify and
address potential performance issues early in the development
process. This allows for the optimization of the device's
components, such as the transducer, electronics, and display, to
ensure accurate and reliable imaging under different environmental
conditions. The ability to simulate real - world scenarios helps in
improving the device's performance in various clinical settings.
