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In the field of industrial automation and mechanical equipment, electric linear actuators have become core components in many application scenarios due to their excellent motion control accuracy and reliability. In order to ensure that these key devices can continue to operate efficiently and meet design specifications, it is particularly important to conduct comprehensive testing of their functions and performance.
Evaluation of motion range and positioning accuracy
Motion range and positioning accuracy are basic performance indicators of electric linear actuators, which directly affect their applicability in specific applications.
In the motion range test, the maximum and minimum strokes of the electric linear actuator need to be strictly evaluated to ensure that it can achieve precise operation within the specified motion range. At the same time, it is necessary to check the motion stability of the equipment at different positions to prevent jamming or jitter at extreme positions, which is crucial to ensure the reliability of the equipment.
Positioning accuracy testing involves measuring the actual arrival position at multiple preset positions, comparing it with the set position, and recording the deviation value. By analyzing these deviations, the positioning accuracy of the equipment can be effectively evaluated. In application scenarios that require high-precision control, the positioning performance of the electric linear actuator is particularly important, which directly affects the working efficiency and accuracy of the entire system.
Consideration of speed and load performance
Speed and load performance are important criteria for evaluating the working efficiency and load-bearing capacity of electric linear actuators.
In the speed test, the movement speed of the electric linear actuator should be measured under different load conditions, and the time required from starting to reaching the maximum speed, as well as the movement stability at different speeds, should be recorded. This process not only helps to evaluate the response speed of the equipment under various working conditions, but also reflects its movement efficiency.
The load performance test focuses on the performance of the electric linear actuator under maximum load, including key parameters such as movement speed, stability and continuous working time. Through the load performance test, the load capacity of the equipment can be determined to ensure that it can still maintain a stable operating state under extreme conditions and avoid failures caused by excessive load.
Verification of dynamic response and stability
Dynamic response and stability are key indicators for evaluating the performance of electric linear actuators under complex working conditions.
The dynamic response test verifies its dynamic response speed and stability by simulating the operating state of the equipment under complex working conditions such as rapid start, stop and reverse movement. This test can not only evaluate the adaptability of the equipment under frequently changing working conditions, but also provide important performance data for subsequent applications.
The stability test focuses on the performance under long-term continuous operation and extreme working conditions, recording parameters such as vibration, noise and temperature changes of the equipment under different working conditions. This process is crucial to evaluate the stability of electric linear drives in harsh environments and ensure that they can maintain reliable operation under various challenges.