A long stroke shaker is a cutting-edge device used to replicate the vibrations experienced by various products and structures. It has a longer stroke length and can generate a wider range of frequencies and amplitudes, providing engineers and researchers with a new set of evaluation tools.
Unlike traditional vibrators, the long stroke shaker uses a unique dotted line profile design to help achieve precise and controllable vibration effects. This innovative feature greatly improves the repeatability and reliability of the experiment, allowing researchers to more accurately simulate the various vibration conditions experienced by the product in the actual use environment.
Long stroke shaker are used in a wide range of industries, including automotive, aerospace, electronics and civil engineering. Through controlled vibration testing of a wide range of products and materials, this innovative device provides engineers with a powerful tool for development and validation.
In the fields of automotive parts, electronic equipment and structural materials, long-stroke ed shaker play a key role. It helps engineers identify potential weaknesses in products to optimize designs and ensure that products meet industry standards. This not only improves the reliability and service life of the product, but also brings significant economic benefits to the manufacturer.
What’s more, this innovative technology also makes an important contribution to reducing costs and shortening development cycles. By fully testing in a laboratory environment, manufacturers can minimize the need for field testing, dramatically reducing time to market and enhancing market competitiveness.
1. Increase displacement capacity: It can achieve ultra-long stroke vibration amplitude of 100mm in the frequency range of 0 ~ 2700 Hz, which brings new technological breakthroughs in the field of electric ed shaker. This large displacement capability is useful for simulating low-frequency, high-amplitude vibrations that may be encountered in real-world environments.
2.Low frequency operation: Due to the long stroke design, the long stroke shaker can effectively produce very low frequency vibration, usually as low as 1-5 Hz. This low frequency range is important for testing large structures, components, and systems that may be susceptible to low frequency excitation.
3. Increase payload capacity: Long stroke ed shaker are typically designed to accommodate heavier test items, with payload capacities ranging from hundreds of kilograms to several tons. The increased payload capacity allows testing of large, heavy structures and components.
4. Accurate compensation of dynamic drift: The position negative feedback control circuit is used to quantitatively and accurately compensate the dynamic drift of the moving coil to ensure the dynamic balance of the moving coil.
Summary
The emergence of long stroke ed shaker undoubtedly marks a major progress in the field of vibration testing. This advanced device produces precisely controlled vibration effects and has a longer stroke length, fundamentally changing the way product durability and performance are evaluated.
Compared with traditional ed shaker, the long stroke shaker significantly improves the accuracy and repeatability of the test. Engineers can more accurately simulate the various vibration conditions that products are subjected to in the actual use environment, so that they can drill down on the weak points in the design and optimize the product solution. This not only improves the reliability of the product, but also brings new breakthroughs in safety standards for the entire industry.