Guangdong Jianqiao Testing Equipment Co., Ltd.
Never Settle ,Build the Intelligently Machines In China
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Reliable Temperature and Humidity Chamber for Batteries and Vehicle Components
Our climatic chambers enable precise temperature and humidity testing for electric vehicles. From battery and vehicle component testing to overall climate control, we ensure reliable performance under real-world conditions.
Electric powertrain components, such as batteries, fuel cells, e-motors, and e-axles, must perform reliably across a wide range of environmental conditions. Replicating these conditions on test tracks or in real-world scenarios is often difficult. To address this, we have developed advanced climate chambers that simulate extreme temperatures and humidity levels, ensuring accurate testing of component durability and performance.
With our temperature and humidity test chambers, you can confidently validate the safety and performance of your electric powertrain components. The modular designs offer the flexibility to test various components under controlled conditions, ensuring they meet the highest standards of reliability, durability, and safety.
Ensuring Durability With Advanced Climatic Chambers
Vehicle components must withstand a wide range of environmental conditions to ensure reliable performance. Our advanced climate chambers provide precise control of temperature and humidity, enabling the simulation of extreme conditions, from arctic cold to tropical heat.
Our climatic chambers are designed to replicate extreme environmental conditions, ensuring that every product undergoes rigorous testing. This capability allows us to validate that your components can withstand the full spectrum of real-world scenarios, providing confidence in their performance under any circumstance. By utilizing our climate chambers, you can confidently validate your components' durability and performance under any conditions.
Precision, Versatility, and Safety for Thermal Testing
The climate chambers operate within a specified temperature range, following IEC 60068-3-5 standards. The average temperature is measured in the supply air, without any thermal load, and thermal compensation values are adjusted based on the type of power used. Walk-in and cell test chambers are optimized in size to accommodate various testing needs.
To enhance safety, insulation materials such as polyurethane or mineral wool can be selected. To reduce energy consumption, a domestic water connection can be used to lessen the cooling power required by the chiller, thereby decreasing overall energy usage
When testing battery prototypes, critical thermal issues can arise. To mitigate potential damage, the chambers can be equipped with a flooding option that protects the surrounding building. Additionally, AVL offers a comprehensive safety system designed to meet Hazard Level 4 or 6 standards for testbeds
Technical Data | |
| Temperature range | –40 °C up to +90 °C |
| Standard rate of temperature change | 2 K/min or 4.5 K/min |
| Battery pack test cell volume | 16 m³ or 22 m³ |
| Battery cell test chamber size | 720 – 1.500 liter |
| Insulation material | Polyurethane or mineral wool |
| Cooling water flow | 12 °C up to 30 °C |
| Safety version | up to Hazard Level 6 |
Crresponding standard
| Model | JQTH-100 | JQTH-150 | JQTH-225 | JQTH-408 | JQTH-800 | JQTH-1000 | JQTH-1200 | JQTH-1500 | |
| Volume (L) | 100L | 150L | 225L | 408L | 800L | 1000L | 1200L | 1500L | |
| Inner size (cm) | W | 50 | 50 | 70 | 70 | 100 | 100 | 150 | 150 |
| D | 40 | 50 | 46 | 75 | 80 | 100 | 80 | 100 | |
| H | 50 | 60 | 70 | 80 | 100 | 100 | 100 | 100 | |
| Outer size (cm) | W | 70 | 70 | 90 | 90 | 120 | 120 | 200 | 200 |
| D | 125 | 135 | 157 | 188 | 185 | 205 | 135 | 155 | |
| H | 157 | 167 | 185 | 195 | 215 | 215 | 215 | 215 | |
| Temp range | Model S:-70°C~+150°C , Model L: -40°C~+150°C or customized. | ||||||||
| Exterior material | Standard 1.5mm Electrolytic plate with Electrostatic painting | ||||||||
| Interior material | Matte Stainless steel plate SUS 304 | ||||||||
| Insulation material | Rigid Polyurethane Foam and Glass Fiber Wool | ||||||||
| Refreigeration system | Hermetric Compressor ,Cascsde Refrigeration CFC free refrigeration system , HFC-R404A/HFC-23/HFC-R449 /HFC-507 | ||||||||
| Control method | PWM control | ||||||||
| Working conditions | RT to 35℃ | ||||||||
| Humidity range | 10 % to 98% RH 10 %~ 98% RH | ||||||||
| Temp fluctuation | ±0.5℃(No-load) | ||||||||
| Temp uniformity | ±2℃(No-load) | ||||||||
| Temp cooling rate | +150°C ~-70°C ,0.8°C~ 1℃/min (Non-Linear) | ||||||||
| Temp rising rate | -70°C~+150°C , 1°C~3℃/ min (Non-Linear) | ||||||||
| Controller | TW DELTA PLC,7 "color touch screen control Chinese,English,Russian menu Operation Model :Setting Fix /Program | ||||||||
| Standard Accessories | Observation Window *1,Cable Port (¢50mm*2),Shelves*2 ,Chamber lamp*1,Power cable 2m | ||||||||
| Safety device | No-Fuse Breaker,Over -pressure,Over-load and Over-current protector for compressor ,Over-Temp,Protector Over-voltage coolant protector ,Overload protector for fan, Dry heat protector and Fault warning system , short of water protector | ||||||||
| Configuration interface | With USB , WLAN, RS232 or R485 port , APP function is optional | ||||||||
| Power | 5.5KW | 6KW | 8.5KW | 9KW | 13.5KW | 15KW | 17KW | 18KW | |
| Weight (kg) | 300 | 360 | 430 | 530 | 780 | 890 | 1100 | 1380 | |
| Power supply | AC 220V or AC380V 50Hz 3 PHASE ,Ground wire | ||||||||
