anti-vibration mounting
简明释义
减振装置
英英释义
例句
1.To ensure the longevity of the equipment, we decided to use anti-vibration mountings in the design.
为了确保设备的耐用性,我们决定在设计中使用防振安装件。
2.Installing anti-vibration mountings can significantly enhance the performance of sensitive instruments.
安装防振安装件可以显著提高敏感仪器的性能。
3.Our engineers recommend using anti-vibration mountings for all heavy machinery to improve stability.
我们的工程师建议为所有重型机械使用防振安装件以提高稳定性。
4.The machinery was installed with an anti-vibration mounting to reduce noise levels during operation.
机器安装了一个防振安装件以降低操作时的噪音水平。
5.The new generator features anti-vibration mountings that minimize disturbances to nearby structures.
新发电机配备了防振安装件,最大限度减少对附近建筑物的干扰。
作文
In the modern world, machinery and equipment are essential for various industries, from manufacturing to transportation. However, these machines often generate vibrations that can lead to significant wear and tear, affecting their performance and longevity. To mitigate this issue, engineers and designers use a variety of solutions, one of the most effective being anti-vibration mounting (防振支架). This technology plays a crucial role in ensuring that machines operate smoothly and efficiently.The concept of anti-vibration mounting revolves around isolating vibrations produced by machinery. When machines operate, they create vibrations that can propagate through their structure and into the surrounding environment. These vibrations can cause discomfort for operators, damage to sensitive components, and even structural failures over time. By employing anti-vibration mounting, manufacturers can significantly reduce these negative effects.There are several types of anti-vibration mounting systems available, each designed for specific applications. For instance, rubber mounts are commonly used in automotive applications to minimize engine vibrations. These mounts absorb the energy generated by the engine, preventing it from transferring to the vehicle's chassis. Similarly, in industrial settings, spring mounts may be utilized to support heavy machinery while allowing for controlled movement, thus reducing the impact of vibrations on both the machine and its surroundings.The effectiveness of anti-vibration mounting lies in its ability to dampen vibrations before they can cause harm. This is achieved through the use of materials that have inherent damping properties, such as rubber, neoprene, or specially designed composites. By strategically placing these materials between vibrating components and their supports, engineers can create a barrier that absorbs and dissipates vibrational energy.Moreover, anti-vibration mounting is not only beneficial for the machines themselves but also for the operators and the environment. In workplaces where heavy machinery is operated, excessive vibrations can lead to health issues for workers, including musculoskeletal disorders. By implementing anti-vibration mounting systems, companies can create a safer and more comfortable working environment.In addition to health benefits, anti-vibration mounting contributes to improved product quality. In precision manufacturing processes, even the slightest vibrations can affect the accuracy of the final product. By using anti-vibration mounting solutions, manufacturers can ensure that their equipment operates within specified tolerances, leading to higher quality outputs.As technology continues to advance, the design and materials used in anti-vibration mounting systems are also evolving. Innovations such as active vibration control systems are being developed, which use sensors and actuators to counteract vibrations in real-time. This represents a significant leap forward in vibration management, offering even greater protection for sensitive machinery and improving overall efficiency.In conclusion, anti-vibration mounting (防振支架) is an essential aspect of modern engineering that addresses the challenges posed by vibrations in machinery. By effectively isolating and dampening vibrations, these systems enhance the performance and lifespan of equipment, protect the health of operators, and improve product quality. As industries continue to evolve, the importance of anti-vibration mounting will only grow, underscoring the need for ongoing innovation in this vital area of engineering.
在现代世界中,机械和设备对各个行业至关重要,从制造业到运输业。然而,这些机器往往会产生振动,导致显著的磨损,影响它们的性能和寿命。为了减轻这个问题,工程师和设计师使用各种解决方案,其中最有效的之一就是防振支架。这项技术在确保机器平稳高效运行方面发挥着关键作用。防振支架的概念围绕着隔离机械产生的振动展开。当机器运行时,它们会产生通过其结构传播到周围环境的振动。这些振动可能会导致操作人员的不适,损坏敏感组件,甚至随着时间的推移导致结构故障。通过采用防振支架,制造商可以显著减少这些负面影响。有几种类型的防振支架系统可供选择,每种系统都针对特定应用而设计。例如,橡胶支架通常用于汽车应用,以最小化发动机振动。这些支架吸收发动机产生的能量,防止其传递到车辆底盘。同样,在工业环境中,弹簧支架可用于支撑重型机械,同时允许控制运动,从而减少振动对机器及其周围环境的影响。防振支架的有效性在于其能够在振动造成伤害之前进行阻尼。这是通过使用具有固有阻尼特性的材料实现的,例如橡胶、氯丁橡胶或专门设计的复合材料。通过在振动组件和其支撑之间战略性地放置这些材料,工程师可以创建一个吸收和消散振动能量的屏障。此外,防振支架不仅对机器本身有益,而且对操作人员和环境也有益。在重型机械操作的工作场所,过度的振动可能导致工人健康问题,包括肌肉骨骼疾病。通过实施防振支架系统,公司可以创造一个更安全、更舒适的工作环境。除了健康益处外,防振支架还促进了产品质量的提高。在精密制造过程中,即使是最轻微的振动也会影响最终产品的准确性。通过使用防振支架解决方案,制造商可以确保其设备在规定的公差范围内运行,从而提高输出质量。随着技术的不断进步,防振支架系统中使用的设计和材料也在不断发展。主动振动控制系统等创新正在开发中,这些系统使用传感器和执行器来实时抵消振动。这代表了振动管理的重大进步,为敏感机械提供了更大的保护,并提高了整体效率。总之,防振支架是现代工程中一个重要的方面,解决了机械振动带来的挑战。通过有效地隔离和阻尼振动,这些系统增强了设备的性能和寿命,保护了操作人员的健康,并提高了产品质量。随着各行业的不断发展,防振支架的重要性只会增加,凸显了在这一重要工程领域持续创新的必要性。
