A climate chamber is a device used for environmental testing, it can simulate a wide range of environmental conditions, such as temperature, humidity, and lighting. It is commonly used to test the durability and reliability of products under extreme conditions before they are released to the market.
Model: THS-150
Capacity: 150L
Shelf: 2 pcs
Color: Blue
Interior dimension: 500×500×600 mm
Exterior dimension: 1050×1100×1850 mm
Climate chamber is typically used to evaluate how a product or material performs under different environmental stresses. Climatic test chambers are commonly used in industries such as automotive, aerospace, electronics, and materials science, in order to test the performance, reliability, and durability of these products. You can click below video to learn details:
Specification
Model |
THS-50 |
THS-100 |
THS-150 |
THS-250 |
THS-500 |
THS-800 |
THS-1000 |
Interior Dimension |
350×320×450 |
500×400×500 |
500×500×600 |
600×500×810 |
800×700×900 |
1000×800×1000 |
1000×1000×1000 |
Exterior Dimension |
950×950×1400 |
1050×1030×1750 |
1050×1100×1850 |
1120×1100×2010 |
1350×1300×2200 |
1560×1410×2240 |
1560×1610×2240 |
Temperature Range |
0°C~+100°C |
||||||
Temperature Fluctuation: ≤±0.5°C; Temperature Uniformity: ≤2°C |
|||||||
Heating Rate |
2.0~3.0°C/min |
||||||
Cooling Rate |
0.7~1.0°C/min |
||||||
Humidity Range |
30% ~ 98% R.H (5%RH, 10%RH also available) |
||||||
Humidity Bias |
+2/-3% R.H |
||||||
Interior Material |
SUS#304 brushed stainless steel |
||||||
Exterior Material |
Cold rolled steel plate with electrostatic spraying |
||||||
Insulation |
Superfine fiberglass wool / polyurethane foam |
||||||
Controller |
7” Programmable LCD touch screen controller |
||||||
Circulation System |
High temperature resistant motors, single cycle, long axis and stainless steel multi-leaf type centrifuge fan |
||||||
Humidification |
Shallow groove humidification, steam humidification mode, automatic water supply with water shortage alarm |
||||||
Dehumidification |
Refrigeration dehumidification mode |
||||||
Heating System |
NiCr heater, independent system |
||||||
Refrigeration |
France "TECUMSEH" Hermetic Compressors, Unit cooling mode/Dual cooling mode (air-cooling) |
||||||
Protection Devices |
Leakage and outage protection, compressor over-pressure, overheat, over-current protection, overload fusing protection,audio signal alarm, water shortage alarm |
||||||
Power Supply |
220V·50HZ/60HZ,380V 50HZ/60HZ |
Safety protection:
·Independent temperature limiter: An independent shutdown and alarm for thermal protection purpose during the test.
·Refrigeration system: Over-heat, over-current and over-pressure protection of compressor.
·Test chamber: Over-temperature protection, overheat of fan and motor, phase failure/reverse, timing of the entire equipment.
·Others: Leakage and outage protection, overload fusing protection, audio signal alarm, power leakage protection, and overload protection.
Temperature and humidity curve:
What is a climate test chamber?
Climate test chambers are specialized testing devices, that are used to subject products or materials to controlled environmental conditions, such as temperature, humidity, pressure, or lighting, to simulate real-world conditions. They are designed to help manufacturers, researchers, and testing laboratories evaluate the performance, durability, and reliability of products or materials under different environmental conditions.
Climate test chambers come in a variety of sizes and configurations, from small bench-top units to large walk-in chambers. They can be used to conduct a wide range of tests, including temperature and humidity cycling, thermal shock testing, corrosion testing, salt spray testing, vibration testing, and altitude testing, among others.
Climate test chambers are used in a variety of industries, including aerospace, automotive, electronics, defense, and medical devices. They are an essential tool for product development and quality control, as they help manufacturers ensure that their products can withstand the harsh conditions they may encounter in the real world.
What is the price of a climate test chamber?
A climate chamber price is decided by several factors, such as the size of the chamber, the type of controls and features, and the manufacturer. It's important to consider not only the purchase price of the chamber, but also the long-term costs of operating and maintaining the chamber, including electrical usage, replacement parts, and servicing.
Ultimately, the cost of a climate chamber will depend on the specific requirements of your application, and it's essential to carefully evaluate your needs and budget to determine the right chamber for your needs.
What is the structure of the climate test chamber?
The structure of a climate test chamber depends on the manufacturer and model, but typically consists of the following main components:
1. Working Chamber: This part is used to create a controlled environment for testing. The chamber is typically made of stainless steel SUS#304 that are durable enough to withstand the extreme temperature and humidity conditions inside.
2. Insulation: To maintain temperature and humidity levels, the chamber is typically insulated with materials such as fiberglass or polyurethane.
3. Heating and cooling system: This system adopts forced air convection to perform heating and cooling tests. To realize temperature humidity control, the test chamber should be able to carry out two functions: heating and cooling, uniform temperature also must be evenly distributed inside the working chamber, Climatest Symor® makes it possible to achieve a high degree of temperature uniformity in the whole testing area.
Climate test chamber adopts mechanical cooling system and mechanical heating system to conduct testings on products:
Mechanical heating system consists of electric heating elements positioned near the ventilation system, so that the heated hot air is delivered into the testing zone from air inlet, then come out from air outlet, meanwhile, there are centrifugal fans located at the back of the air inlet, so as to blast the hot air to reach better uniformity.
Mechanical cooling system consists of a closed circuit system, with the following main components:
·Control valve
·Condensor
·Evaporator
·Compressor
The refrigeration system in a thermal test chamber is classified to be single stage and double stage, the single stage is adopted with temperature -40℃ and above, and double stage (also called cascade system) is with temperature below 40℃.
4.Humidity control system: The humidity control system is used to control the humidity inside the chamber. This system can include humidifying and dehumidifying systems.
5. Control panel: The control panel is used to operate the test chamber. It typically includes a display for temperature and humidity readings, as well as buttons or knobs for adjusting the temperature and humidity levels.
Programmable LCD touch screen controller:
·7 inch Japan programmable touch screen controller
·Set temperature point under fix value mode or programs mode
·Temperature set point and realtime temperature curve display
·100 groups program with 999 segment memory; each segment 99Hour59Min
·Test data can be downloaded as required through RS232 interface
6. Sample holders: Sample holders are used to securely hold the products or materials being tested inside the chamber. These can be shelves, trays, or other types of holders, depending on the size and type of the products being tested.
7. Door: The door of the test chamber is used to access the interior. The door should be sturdy, airtight, and able to withstand the temperature and humidity conditions inside the chamber.
These are the main components of a constant temperature and humidity test chamber. The exact design and structure of the chamber can vary depending on the manufacturer and model, but these components are typically present in most models.
What is the application of a climate test chamber?
Climate test chambers are used to simulate various environmental conditions and test the performance and durability of products or materials under those conditions. Some common applications of environmental test chambers include:
1.Product testing: Climate test chambers are used to test the performance and reliability of products under various environmental conditions, such as temperature, humidity, and vibration. This helps manufacturers identify potential design flaws and improve product quality.
2.Material testing: Climate test chambers are used to test the properties of materials under different environmental conditions, such as thermal cycling, salt spraying corrosion, and UV exposure. This helps researchers understand the behavior of materials and develop new materials with improved performance.
3.Life science research: Climate test chambers are used in life science research to simulate specific environmental conditions for organisms, such as plants, animals, and cells. This helps researchers understand how organisms respond to different environmental factors and develop strategies to improve their survival.
4.Calibration: Climate test chambers are used to calibrate and test the electronic components, such as the accuracy of sensors and measuring instruments under different environmental conditions. This helps ensure the reliability and accuracy of measurement data.
As a climate test chamber manufacturer, what is Climatest Symor® committed to do?
Climatest Symor® is typically committed to designing, manufacturing, and delivering climate test chambers that meet the needs and expectations of our customers. This commitment includes:
1.Ensuring that our products are reliable, and perform as expected in a variety of environmental conditions and test scenarios.
2.Using high-quality materials and components in our products, to ensure durability and longevity.
3.Adhering to relevant industry standards and regulations, to ensure that our products meet safety and quality requirements.
4.Providing excellent customer service to help customers select, install, and use our climate test chambers effectively.
5.Continuously improving our products and processes, to meet changing customer needs and industry trends.
6.Minimizing the environmental impact by using sustainable materials and processes.
Overall, Climatest Symor® - a climate test chamber manufacturer, is committed to meeting the needs of their customers while upholding high standards of quality, safety, and environmental responsibility.
How to pack and ship a climate test chamber?
The packaging and shipment of a climate test chamber can impact its safety and performance. Proper packaging and shipment are important to prevent damage during transportation and ensure that the chamber arrives at its destination in good condition. Here are Climatest Symor® general guidelines for packaging and shipping a climate test chamber:
1.Packaging materials: Use high-quality, shock-absorbing materials, such as foam or bubble wrap, to protect the chamber during transportation. You may also want to use a sturdy shipping crate to further protect the chamber.
2.Handling: The chamber is handled with care to prevent damage. It's important to use the right equipment, such as a forklift or pallet jack, to lift and move the chamber.
3.Labeling: Clearly label the chamber with "Fragile" and "This Side Up" stickers to ensure that it is handled with care during transportation.
4.Shipping method: The chamber is shipped by sea, Climatest Symor® team makes vessel booking in advance according to the size, weight, and destination of the chamber, the local transport is normally a truck.
It's important to work with a reliable and experienced shipping company to ensure that the climate test chamber is packaged and shipped properly. Proper packaging and shipment can help ensure that the chamber arrives at its destination in good condition and is ready for use.
How to install a climate test chamber?
Installing a climatel test chamber requires a few steps to ensure proper operation and safety.
Here is a general outline of the process:
•Choose a location: Select a room that can accommodate the size of the climate chamber and that has access to electrical power and ventilation.
•Prepare the floor: Make sure the floor can support the weight of the climate chamber and is level to prevent tipping.
• Assemble the chamber: Follow the manufacturer's instructions to assemble the climate chamber, including connecting any electrical components.
• Install the power supply: Connect the climate chamber to a power source that can handle the electrical requirements of the chamber. Make sure to use a properly rated circuit breaker and power cord.
•Connect the ventilation: Make sure the climate chamber has proper ventilation to remove excess heat and moisture.
•Install temperature and humidity controls: Connect the temperature and humidity controls to the climate chamber and calibrate them according to the manufacturer's instructions.
•Test the system: Turn on the climate chamber and check that it is functioning properly. Monitor the temperature and humidity levels and make any necessary adjustments.
It is important to follow the manufacturer's instructions and all applicable safety guidelines when installing a climate chamber.
A: ≥60cm B: ≥60cm C: ≥120cm
Attention: inclination should not exceed 15°C