WTH-0015C
LIB Industry
| Quantity: | |
|---|---|
1.LIB's walk in cliamte test chamber supports large components or high-volume samples with precise, automated control. The PID touchscreen allows multi-step program creation, while remote Ethernet/USB monitoring enables real-time data logging and report export. Quiet operation ensures a comfortable lab environment, and modular or fixed designs make it easy to handle large-scale testing efficiently.
2. Equipped with PT-100 Class A sensors and optimized airflow, the walk in cliamte test chamber maintains temperature stability within ±0.5 °C and humidity variation within ±2.5%. Heating and cooling rates are adjustable, ensuring uniform conditions across the entire 98 m³ space for consistent, reproducible results on every sample.
3. The interior uses SUS304 stainless steel for corrosion resistance, and the exterior is powder-coated galvanized A3 steel for industrial durability. Safety systems include over-temperature shutdown, grounding, and leakage protection, providing secure operation in high-stress environments.
4. Thick insulation, water recycling, and energy-saving technologies reduce operational costs without compromising performance. The walk in cliamte chamber ensures eco-friendly operation while providing high-precision environmental simulation for large-scale industrial or aerospace components.
Technical Parameters
Model | WTH-0015C |
Internal dimension (mm) | 2500*2500*2500 D*W*H |
Overall dimension (mm) | 4000*2550*2850 D*W*H |
Temperature range | -60℃ ~ +150℃ |
Humidity range | 20% ~ 95% RH |
Temperature fluctuations | ± 2.0℃ |
Humidity fluctuations | ± 5.0% RH |
Heating rate | 1℃ / min |
Cooling rate | 1 ℃ / min |
Controller | Programmable color LCD touch screen controller; Ethernet port |
Cooling system | Mechanical compression refrigeration system |
Safety device | Humidifier dry-combustion protection; over-temperature protection; over-current protection; Refrigerant high-pressure protection; Water shortage protection; Earth leakage protection |
Exterior material | Steel Plate with protective coating |
Interior material | SUS304stainlesssteel |
Product Video
FAQ
Q1: For a walk-in sand and dust chamber, how many dust outlets, circulation pumps, and vibration pumps are usually used?
A: When the chamber depth exceeds 1.5 m and width exceeds 2 m, 2 or 4 dust outlets are typically used, depending on dust accumulation. Each outlet has one circulation pump and one vibration pump to ensure uniform dust circulation. LIB can also accommodate all non-standard custom configurations.
Q2: How many spray nozzles are installed in a walk-in salt spray chamber, and how are they distributed? Why aren’t collectors suspended on the inner wall?
A: Spray nozzles follow ASTM B117, delivering 1–2 mL per 80 cm² per hour. Spacing is typically 80 cm, installed on the left, right, or both sides for uniform coverage. Collectors are suspended to avoid contact with chamber walls, ensuring accurate salt deposition and preventing interference with the spray pattern.
Q3: Why is the exhaust outlet of a walk-in salt spray chamber positioned high instead of in the middle?
A: Salt mist naturally rises in large chambers. A high exhaust outlet aligns with this upward flow, ensuring smooth removal while preserving uniform circulation and deposition. Placing it in the middle could disrupt mist distribution and affect test accuracy.
Q4: Can LIB accommodate non-standard chamber sizes or additional features like windows and ports?
A: Yes, LIB accepts custom dimensions and optional features. Standard windows and ports follow normal production schedules, while fully custom designs are planned to meet your timeline. We coordinate closely to minimize delays and ensure installation and operation align with your requirements.
Q5: How is uniformity ensured in large walk-in chambers during long-duration tests?
A: Uniformity is achieved via optimized airflow, multiple circulation pumps, and precise sensor placement. Dust, salt, or temperature/humidity is continuously monitored and adjusted to maintain consistent conditions throughout the chamber, ensuring reproducible and reliable results even for large samples.
1.LIB's walk in cliamte test chamber supports large components or high-volume samples with precise, automated control. The PID touchscreen allows multi-step program creation, while remote Ethernet/USB monitoring enables real-time data logging and report export. Quiet operation ensures a comfortable lab environment, and modular or fixed designs make it easy to handle large-scale testing efficiently.
2. Equipped with PT-100 Class A sensors and optimized airflow, the walk in cliamte test chamber maintains temperature stability within ±0.5 °C and humidity variation within ±2.5%. Heating and cooling rates are adjustable, ensuring uniform conditions across the entire 98 m³ space for consistent, reproducible results on every sample.
3. The interior uses SUS304 stainless steel for corrosion resistance, and the exterior is powder-coated galvanized A3 steel for industrial durability. Safety systems include over-temperature shutdown, grounding, and leakage protection, providing secure operation in high-stress environments.
4. Thick insulation, water recycling, and energy-saving technologies reduce operational costs without compromising performance. The walk in cliamte chamber ensures eco-friendly operation while providing high-precision environmental simulation for large-scale industrial or aerospace components.
Technical Parameters
Model | WTH-0015C |
Internal dimension (mm) | 2500*2500*2500 D*W*H |
Overall dimension (mm) | 4000*2550*2850 D*W*H |
Temperature range | -60℃ ~ +150℃ |
Humidity range | 20% ~ 95% RH |
Temperature fluctuations | ± 2.0℃ |
Humidity fluctuations | ± 5.0% RH |
Heating rate | 1℃ / min |
Cooling rate | 1 ℃ / min |
Controller | Programmable color LCD touch screen controller; Ethernet port |
Cooling system | Mechanical compression refrigeration system |
Safety device | Humidifier dry-combustion protection; over-temperature protection; over-current protection; Refrigerant high-pressure protection; Water shortage protection; Earth leakage protection |
Exterior material | Steel Plate with protective coating |
Interior material | SUS304stainlesssteel |
Product Video
FAQ
Q1: For a walk-in sand and dust chamber, how many dust outlets, circulation pumps, and vibration pumps are usually used?
A: When the chamber depth exceeds 1.5 m and width exceeds 2 m, 2 or 4 dust outlets are typically used, depending on dust accumulation. Each outlet has one circulation pump and one vibration pump to ensure uniform dust circulation. LIB can also accommodate all non-standard custom configurations.
Q2: How many spray nozzles are installed in a walk-in salt spray chamber, and how are they distributed? Why aren’t collectors suspended on the inner wall?
A: Spray nozzles follow ASTM B117, delivering 1–2 mL per 80 cm² per hour. Spacing is typically 80 cm, installed on the left, right, or both sides for uniform coverage. Collectors are suspended to avoid contact with chamber walls, ensuring accurate salt deposition and preventing interference with the spray pattern.
Q3: Why is the exhaust outlet of a walk-in salt spray chamber positioned high instead of in the middle?
A: Salt mist naturally rises in large chambers. A high exhaust outlet aligns with this upward flow, ensuring smooth removal while preserving uniform circulation and deposition. Placing it in the middle could disrupt mist distribution and affect test accuracy.
Q4: Can LIB accommodate non-standard chamber sizes or additional features like windows and ports?
A: Yes, LIB accepts custom dimensions and optional features. Standard windows and ports follow normal production schedules, while fully custom designs are planned to meet your timeline. We coordinate closely to minimize delays and ensure installation and operation align with your requirements.
Q5: How is uniformity ensured in large walk-in chambers during long-duration tests?
A: Uniformity is achieved via optimized airflow, multiple circulation pumps, and precise sensor placement. Dust, salt, or temperature/humidity is continuously monitored and adjusted to maintain consistent conditions throughout the chamber, ensuring reproducible and reliable results even for large samples.
