This test examines the arm’s ability to extend and retract repeatedly while maintaining its structural integrity and functionality. During the testing process, the arm is subjected to different levels of stress and pressure to simulate real-world usage. Different manufacturers may have their specific requirements for this test, but it generally involves cycles of extending and retracting the arm several thousand times. The telescopic life test is an essential evaluation tool for ensuring that headset microphones are reliable and can withstand extensive use.
Equipment Model | WEW-TLA-005S-02 | WEW-DTA-008S-05 |
Testing Times | 0~99999 Times | 0~99999 Times |
Testing Speed | 3 ~ 50 Times/min | 3 ~ 60 Times/min |
Stroke Adjustment | Range 0 ~ 60mm | Range 0 ~ 60mm |
Motor System | AC Stepper Motor | AC Stepper Motor |
Power Supply | Ac220V, 50Hz, 2A | Ac220V, 50Hz, 5A |
Machine Dimension | L450*D450*H500 mm | L550*D450*H650 mm |
Machine Weight | 40 KGS | 55 KGS |
The telescopic life test is conducted by subjecting the headset microphone arm to repetitive cycles of extension and retraction. The arm is typically extended and retracted using a machine that simulates human movement. The number of cycles can vary depending on the manufacturer’s requirements, but it is usually thousands or tens of thousands. During the test, the arm is also subjected to varying levels of force and pressure to simulate real-world usage. A microscope may be used to inspect the arm for any signs of damage or wear during the testing process. By conducting this rigorous testing, manufacturers can ensure that their headset microphones meet industry standards for durability and reliability.
Swing Life Test Machine for Microphone ArmWhile the telescopic life test is an important measurement of durability for headset microphone arms, the results can be affected by a variety of factors. For example, the materials used to make the arm can impact its longevity and resilience over time. Additionally, factors like temperature, humidity levels, and frequency of use can also affect how well the microphone arm holds up under normal wear and tear. It’s important for manufacturers to take these factors into account when determining the expected lifespan of their products and conducting the telescopic life test.
The telescopic life test is an important measurement for headset microphone arms because it determines the durability and longevity of the arm when subjected to regular use. A microphone arm that is not durable enough may break or become unusable over time, leading to additional expenses for repairs or replacement. The test helps manufacturers ensure that their products are reliable and able to withstand everyday wear and tear, which in turn leads to satisfied customers who trust their brand.