vibrograph
简明释义
n. [仪] 振动计
英英释义
A vibrograph is an instrument used to measure and record vibrations in various systems, often employed in engineering and mechanical applications. | 振动记录仪是一种用于测量和记录各种系统中振动的仪器,常用于工程和机械应用中。 |
单词用法
振动记录仪读数 | |
振动记录仪分析 | |
安装振动记录仪 | |
校准振动记录仪 |
同义词
| 振动记录仪 | The vibrational recorder is used to monitor equipment performance. | 振动记录仪用于监控设备性能。 | |
| 振动分析仪 | A vibration analyzer can help identify mechanical issues in machinery. | 振动分析仪可以帮助识别机械故障。 |
反义词
| 消音器 | The silencer effectively reduces the noise produced by the engine. | 消音器有效地减少了发动机产生的噪音。 | |
| 安静 | 他更喜欢安静的环境来学习。 |
例句
1.The vibrograph can be used for observing seismic effects of explosions and measuring vibrations in engineering and construction work.
该仪器可用于爆炸地震效应观测和工程结构振动测量。
2.The vibrograph can be used for observing seismic effects of explosions and measuring vibrations in engineering and construction work.
该仪器可用于爆炸地震效应观测和工程结构振动测量。
3.During the maintenance check, the technician calibrated the vibrograph for accurate readings.
在维护检查中,技术人员对振动记录仪进行了校准,以确保读数准确。
4.By analyzing the data from the vibrograph, we can determine the health of the equipment.
通过分析振动记录仪的数据,我们可以确定设备的健康状况。
5.The engineer used a vibrograph to measure the vibrations of the machinery during operation.
工程师使用振动记录仪来测量机器在运行中的振动。
6.The vibrograph is essential for predictive maintenance in industrial settings.
在工业环境中,振动记录仪对于预测性维护至关重要。
7.The vibrograph showed an unusual spike in vibrations, indicating a potential issue.
该振动记录仪显示振动出现异常峰值,表明可能存在问题。
作文
In the field of engineering and technology, the importance of understanding vibrations cannot be overstated. Vibrations are present in various structures and machines, and their analysis is crucial for ensuring safety and performance. One of the essential tools used for this purpose is the vibrograph (振动记录仪). A vibrograph is an instrument designed to measure and record vibrations in mechanical systems. It provides valuable data that can help engineers diagnose issues, monitor the condition of equipment, and predict failures before they occur.The operation of a vibrograph involves the use of sensors that detect vibrations in different frequency ranges. These sensors convert mechanical vibrations into electrical signals, which are then processed and displayed as graphs or charts. By analyzing these graphs, engineers can identify abnormal vibration patterns that may indicate problems such as misalignment, imbalance, or wear in machinery.For instance, in the maintenance of rotating equipment like turbines or motors, a vibrograph plays a vital role. Regular monitoring with a vibrograph can reveal changes in vibration levels that suggest the need for maintenance or repair. This proactive approach not only extends the lifespan of the equipment but also enhances operational efficiency and reduces downtime.Moreover, the application of a vibrograph is not limited to industrial settings. It is also used in civil engineering to assess the integrity of structures such as bridges and buildings. By measuring vibrations caused by traffic, wind, or seismic activity, engineers can evaluate how well a structure can withstand external forces. This information is critical for ensuring public safety and making informed decisions about repairs or reinforcements.The data obtained from a vibrograph can also be used in research and development. Engineers and scientists analyze vibration data to improve designs and develop new technologies. For example, in the automotive industry, understanding vibrations can lead to better vehicle designs that enhance comfort and reduce noise. Similarly, in aerospace, vibration analysis is crucial for ensuring the reliability of aircraft components during operation.As technology advances, vibrographs have become more sophisticated, incorporating features such as wireless data transmission and real-time monitoring. These innovations allow for continuous assessment of machinery and structures, providing immediate feedback that can be acted upon swiftly. This capability is particularly beneficial in critical applications where failure could result in severe consequences.In conclusion, the vibrograph (振动记录仪) is an indispensable tool in the realm of vibration analysis. Its ability to detect and record vibrations allows engineers to maintain equipment, ensure structural integrity, and innovate in design. As we continue to rely on complex machinery and infrastructure, the role of the vibrograph will only become more significant, highlighting the need for professionals who are skilled in its use and interpretation. Understanding how to effectively utilize a vibrograph is essential for anyone involved in engineering, maintenance, or safety assessment, making it a critical component of modern engineering practices.
在工程和技术领域,理解振动的重要性不容低估。振动存在于各种结构和机器中,其分析对确保安全和性能至关重要。用于此目的的基本工具之一是振动记录仪。振动记录仪是一种设计用于测量和记录机械系统中振动的仪器。它提供的有价值数据可以帮助工程师诊断问题,监控设备状况,并在故障发生之前预测故障。振动记录仪的操作涉及使用传感器来检测不同频率范围内的振动。这些传感器将机械振动转换为电信号,然后处理并以图形或图表形式显示。通过分析这些图表,工程师可以识别出异常的振动模式,这些模式可能指示机器中的问题,如不对中、不平衡或磨损。例如,在涡轮机或电动机等旋转设备的维护中,振动记录仪发挥着至关重要的作用。定期使用振动记录仪监测可以揭示振动水平的变化,这表明需要进行维护或修理。这种主动的方法不仅延长了设备的使用寿命,还提高了操作效率并减少了停机时间。此外,振动记录仪的应用不仅限于工业环境。它还用于土木工程,以评估桥梁和建筑物等结构的完整性。通过测量交通、风或地震活动引起的振动,工程师可以评估结构抵御外部力量的能力。这些信息对于确保公共安全和做出关于修理或加固的明智决策至关重要。从振动记录仪获得的数据也可用于研究和开发。工程师和科学家分析振动数据以改善设计和开发新技术。例如,在汽车工业中,理解振动可以导致更好的车辆设计,从而增强舒适性并减少噪音。同样,在航空航天领域,振动分析对于确保飞机组件在操作期间的可靠性至关重要。随着技术的进步,振动记录仪变得越来越复杂,结合了无线数据传输和实时监测等功能。这些创新允许对机器和结构进行持续评估,提供可以迅速采取行动的即时反馈。这种能力在关键应用中尤为重要,因为故障可能会导致严重后果。总之,振动记录仪是振动分析领域不可或缺的工具。它检测和记录振动的能力使工程师能够维护设备,确保结构完整性,并在设计中进行创新。随着我们继续依赖复杂的机械和基础设施,振动记录仪的角色将变得更加重要,突显出掌握其使用和解读技能的专业人员的需求。有效利用振动记录仪对任何参与工程、维护或安全评估的人来说都是必不可少的,使其成为现代工程实践的关键组成部分。
