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Three-layer Battery Test Chamber

Sanwood three-layer battery explosion-proof test chamber saves floor space for many companies and laboratories, but it has a height limit for the use site. Of course, it is mainly used to evaluate the safety performance of batteries in various extreme environments, and is also widely used in the battery manufacturing industry and related R&D laboratories.

Three-layer Battery Explosion-proof Test Chamber

The three-layer battery explosion-proof test chamber saves floor space for many companies and laboratories, but it has a height limit for the use site. Of course, it is mainly used to evaluate the safety performance of batteries in various extreme environments, and is also widely used in the battery

Three-layer Battery Test Chamber

Advantages of Sanwood Test chamber

The three-layer battery explosion-proof test chamber has a height limit for the use site. Of course, it is mainly used to evaluate the safety performance of batteries in various extreme environments, and is also widely used in the battery manufacturing industry and related R&D laboratories.

  • Better use of laboratory space and more space cost saving.
  • A variety of safety devices can be selected according to test requirements.
  • The equipment has balanced and stable heating and humidification performance.
  • Equipment manufacturing complies with UL, IEC, SAE, and GB/T testing standards.
  • The test chamber complies with the best safety test for EUCAR hazard levels (0-7).
  • The test equipment is equipped with a high-precision intelligent temperature regulator. The temperature and humidity are displayed on a touch screen. Temperature and humidity recording is optional.


Three-layer Battery Test Chamber

Application Fields of Battery Test Chamber

Three-layer battery explosion-proof test chamber is mainly used to test the safety and stability of batteries under various extreme conditions, provide reliable data support for battery manufacturers, optimize battery design and production processes, and improve battery quality and reliability, including overcharge, short circuit, high temperature, high voltage, etc. As follows:

  • Battery temperature cycling performance: The battery explosion-proof test chamber simulates a temperature cycling environment to test the adaptability and stability of the battery under conditions of rapid temperature changes.
  • Battery high and low temperature testing: The battery explosion-proof test chamber can simulate high and low temperature environments to test the battery's high and low temperature resistance under these conditions.
  • Other extreme environment tests: The battery explosion-proof test chamber can simulate extreme environmental conditions such as high voltage and low voltage to comprehensively evaluate the stability and reliability of the battery.

Three-layer battery explosion-proof test chamber can effectively evaluate the safety of batteries under extreme conditions to determine whether they meet relevant safety standards and application requirements.

Three-layer Battery Test Chamber

The Test Standards Of Battery test Chamber

Three-layer battery explosion-proof test chamber should be able to perform reliability tests on batteries, such as cycle life tests, storage life tests, etc. These tests can evaluate the reliability of batteries under different usage conditions to determine the service life and safety of the batteries. There are testing standards for each aspect of the battery , such as:

  • UN/DOT 38.3: United Nations lithium battery testing requirements, which stipulates the safety testing standards for lithium batteries during transportation.
  • IEC 62660-2: Reliability and abuse testing of lithium-ion batteries for electric vehicles. Covers capacity discharge test, high temperature endurance test, temperature cycle test, etc.
  • UL 913: Standard for Safety for Intrinsically Safe Apparatus and Associated Apparatus for Use in Class I, Division 1, Hazardous (Classified) Locations.This standard specifies the requirements for intrinsically safe apparatus, including batteries, for use in hazardous locations.
  • CSA C22.2 No. 157: Explosive atmospheres - Part 1: This standard provides requirements for equipment intended for use in explosive atmospheres, including batteries.

The three-layer battery explosion-proof test chamber also complies with testing standards such as EN 60079, IEC 62233,SAE J2464, SAE J2929,IEC 62133,IEC 60086-4, etc

Three-layer Battery Test Chamber

Control System Of Battery Test Chambers

The controller system of Sanwood test chamber adopts world leading hardware and software systems to ensure that the test box operates under preset conditions, providing accurate and reliable experimental data to help users achieve precise control and data collection of various experimental conditions.

  • Controller: The TEMI 1500 controller imported from Sanwontech in South Korea and the self-developed Siemens control system are used, equipped with RS232, RS485, and Ethernet communication ports.
  • Programmable control: supports setting experimental programs, such as heating, cooling, holding time, etc., and executing multiple program settings.Support advance reservation for power on function.
  • Multiple languages optional: English, Korean, Russian, Chinese, and Japanese.
  • Remote monitoring: Using SAMWON-EZNET network remote technology to achieve remote control, the test chamber can be monitored at any time and emails can be sent to users' PCs and phones, enhancing convenience.

The specific control system of the test chamber may vary depending on the model, so it is necessary to carefully read the Sanwood Environmental Test Chamber Manual and follow safety operating procedures before use.

Three-layer Battery Test Chamber

Refrigeration System Of Battery Test Chamber

The refrigeration system of the test chamber is a complex and important system, and the quality of the refrigeration system is crucial for the accuracy and reliability of the test results.

  • Sanwood has developed hot air refrigerant defrosting technology, which effectively melts the frost on the evaporator by injecting high-temperature and high-pressure refrigerant vapor into the heat exchanger inside the test chamber. This not only ensures that the evaporator does not frost, but also greatly reduces the energy consumption of the equipment.
  • The refrigeration unit adopts international famous brands and cooperates with Japan's Eginomiya and the US Sporan to develop EPV series and XUP series quick opening solenoid valves for energy-saving systems, with an all-weather service life of over 15 years. And began to develop the new Danfoss AKV series throttling electronic expansion valve system, which is more efficient and energy-saving.
  • Optimizing the layout of the refrigeration system adopts VRF (refrigerant flow control) technology based on PID cold end output principle to achieve low-temperature energy-saving operation, which can reduce energy consumption by 30% under low-temperature conditions.
  • The refrigeration system adopts modular design, achieving low failure rate,less welding joints, high refrigeration efficiency, good reliability, simple maintenance, and low repair costs.


  • Basis Data

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