The battery heavy object impact test chamber is specifically designed to evaluate the performance and endurance of batteries when subjected to impacts. This test chamber simulates the impact of heavy objects on batteries, helping manufacturers determine the reliability of their products under extreme conditions. It can effectively test the impact resistance of batteries and ensure their safety during transportation and use. By using advanced technology and precise measurement systems, the battery heavy object impact test chamber can provide real test data, helping enterprises improve their products and enhance safety standards.
advantages of the battery heavy object impact test chamber
Our battery heavy object impact test chamber also has multiple advantages and can better meet the needs of customers.
The battery heavy object impact test chamber simplifies the testing process, improves testing efficiency and saves time.
Flexible configuration
It can be personalized configured according to customer demands, adapting to different testing environments and conditions.
The battery heavy object impact test chamber is compactly designed, saving laboratory floor space.
User-friendly interface
The simple and easy-to-understand operation interface is suitable for users of different professional levels.
Real-time data analysis
The test results can be monitored in real time, and support data export and analysis.
High cost performance
Offering high performance and excellent after-sales service, it is a highly cost-effective choice for testing equipment.
The structure and principle of the battery heavy object impact testing machine
The main body of the battery heavy object impact testing machine is mainly composed of a frame, a box, a control box and a lifting component. The box is made of explosion-proof materials, and an observation window is left on the front explosion-proof door. The frame includes a bottom plate, a top plate and a lifting guide rod, and the top plate is fixed above the bottom plate through the lifting guide rod. A placement part is provided on the bottom plate for placing the battery to be tested. A heavy hammer for testing the impact of the battery is provided on the box, and a test component for adsorbing and releasing the heavy hammer is installed on the frame. A lifting component is provided above the test component, and a placement tube at the bottom of the frame is provided above the straightening component. The lifting component is installed at the top of the frame. The test component is provided between the lifting component and the straightening component, and its up and down movement is controlled by the lifting component. The test component, the lifting component and the straightening component are all connected to the control box and controlled by the control box.
The battery heavy object impact testing machine uses electricity and air pressure as power sources, and laboratories usually have electricity and air sources. Using electricity and air sources as power sources can not only reduce costs but also be environmentally friendly.
The specific operation process is as follows: Press the suction button, the counterweight is attracted by the electromagnet. Press the lifting button, the counterweight is lifted to the designated height. Press the "release" button on the control panel, the electromagnet is de-energized and the counterweight is released. The counterweight will freely fall into the test area and tilt at this time, and cannot be attracted again. Press the "calibration" button, then press the "lower" button on the control panel to lower the lifting structure to the height where it can attract the counterweight. Then press the "suction" button again, the electromagnet is energized, and the counterweight is attracted again for testing.
