direct-acting recording instrument

简明释义

直接传动式记录仪表

英英释义

例句

1.The direct-acting recording instrument provided real-time data during the experiment.

在实验过程中，直接作用记录仪提供了实时数据。

2.The technician calibrated the direct-acting recording instrument before taking measurements.

技术员在进行测量之前对直接作用记录仪进行了校准。

3.For accurate pressure readings, we rely on a direct-acting recording instrument in our laboratory.

为了获得准确的压力读数，我们在实验室中依赖一个直接作用记录仪。

4.The engineer used a direct-acting recording instrument to measure the temperature changes in the reactor.

工程师使用了一个直接作用记录仪来测量反应堆中的温度变化。

5.In order to maintain quality control, the factory employs a direct-acting recording instrument for monitoring production.

为了保持质量控制，工厂采用了一个直接作用记录仪来监测生产。

作文

In the field of engineering and scientific research, precise measurements are crucial for ensuring the accuracy and reliability of experiments and projects. One of the essential tools that facilitate this process is the direct-acting recording instrument. This type of instrument plays a pivotal role in various applications, from monitoring environmental conditions to measuring physical properties in laboratories.A direct-acting recording instrument is designed to provide immediate and direct readings of a specific measurement without the need for intermediary calculations or conversions. This is particularly advantageous in situations where time is of the essence, as it allows researchers and engineers to obtain data quickly and efficiently. For instance, in a laboratory setting, a direct-acting recording instrument can be used to measure temperature, pressure, or humidity levels with minimal delay, enabling scientists to make timely decisions based on accurate data.The functionality of a direct-acting recording instrument is often based on mechanical or electronic principles. Mechanical versions may utilize analog gauges that respond directly to changes in the measured variable, providing a visual representation of the data. On the other hand, electronic models often incorporate digital displays that offer enhanced readability and additional features such as data logging and connectivity to computers for further analysis.One of the key advantages of using a direct-acting recording instrument is its ability to reduce human error. Traditional methods of recording measurements often involve manual entries, which can lead to mistakes due to misreading or miswriting data. In contrast, a direct-acting recording instrument minimizes these risks by providing instantaneous readings that can be directly observed and recorded. This not only enhances the accuracy of the data collected but also improves the overall efficiency of the measurement process.Moreover, direct-acting recording instruments are versatile and can be adapted for use in various fields. In environmental science, for example, these instruments can monitor air quality by measuring pollutants in real-time. In engineering, they can be utilized to assess structural integrity by directly measuring stress and strain on materials. This adaptability makes them invaluable across multiple disciplines.However, it is essential to note that while direct-acting recording instruments offer numerous benefits, they also require regular calibration and maintenance to ensure their continued accuracy and reliability. Without proper care, even the most sophisticated instruments can yield erroneous results, potentially leading to flawed conclusions and unsafe practices.In conclusion, the direct-acting recording instrument is an indispensable tool in modern science and engineering, providing immediate and reliable measurements that enhance the quality of data collection. Its direct approach not only saves time but also reduces the likelihood of human error, making it a preferred choice for professionals in various fields. As technology continues to advance, we can expect further innovations in the design and functionality of these instruments, ultimately contributing to more accurate and efficient research and development processes.

在工程和科学研究领域，精确的测量对于确保实验和项目的准确性和可靠性至关重要。其中一个促进这一过程的重要工具就是直接作用记录仪。这种类型的仪器在各种应用中发挥着关键作用，从监测环境条件到在实验室中测量物理特性。直接作用记录仪旨在提供特定测量的即时和直接读数，而无需中间计算或转换。这在时间至关重要的情况下尤其有利，因为它使研究人员和工程师能够快速高效地获取数据。例如，在实验室环境中，直接作用记录仪可用于测量温度、压力或湿度水平，几乎没有延迟，使科学家能够根据准确的数据做出及时的决策。直接作用记录仪的功能通常基于机械或电子原理。机械版本可能利用响应被测变量变化的模拟仪表，提供数据的可视化表示。另一方面，电子模型通常包含数字显示屏，提供更好的可读性以及数据记录和连接计算机进行进一步分析等附加功能。使用直接作用记录仪的一个关键优势是其能够减少人为错误。传统的记录测量方法通常涉及手动输入，这可能由于读取或写入数据错误而导致错误。相比之下，直接作用记录仪通过提供可以直接观察和记录的瞬时读数来最小化这些风险。这不仅增强了所收集数据的准确性，还提高了测量过程的整体效率。此外，直接作用记录仪具有多功能性，可以适应各种领域的使用。例如，在环境科学中，这些仪器可以通过实时测量污染物来监测空气质量。在工程中，它们可以用于通过直接测量材料上的应力和应变来评估结构完整性。这种适应性使它们在多个学科中变得不可或缺。然而，必须注意的是，尽管直接作用记录仪提供了许多好处，但它们也需要定期校准和维护，以确保其持续的准确性和可靠性。如果没有适当的维护，即使是最复杂的仪器也可能产生错误的结果，可能导致错误的结论和不安全的实践。总之，直接作用记录仪是现代科学和工程中不可或缺的工具，提供即时和可靠的测量，提高数据收集的质量。其直接的方法不仅节省了时间，还减少了人为错误的可能性，使其成为各个领域专业人士的首选。随着技术的不断进步，我们可以期待这些仪器在设计和功能上的进一步创新，最终将有助于更准确和高效的研究与开发过程。