intermittent type meter

简明释义

间歇式测量仪表

英英释义

例句

1.In our factory, we installed an intermittent type meter 间歇式计量表 to monitor energy consumption more accurately.

在我们的工厂中，我们安装了一台间歇式计量表以更准确地监测能耗。

2.The technician showed us how to read the intermittent type meter 间歇式计量表 for accurate readings.

技术员向我们展示了如何读取间歇式计量表以获得准确的读数。

3.We need to calibrate the intermittent type meter 间歇式计量表 before starting the new project.

在开始新项目之前，我们需要对间歇式计量表进行校准。

4.The intermittent type meter 间歇式计量表 is particularly useful for applications with variable loads.

对于负载变化的应用，间歇式计量表特别有用。

5.The engineer explained how the intermittent type meter 间歇式计量表 works in measuring water flow during peak hours.

工程师解释了如何在高峰时段使用间歇式计量表来测量水流。

作文

In today's rapidly evolving technological landscape, the importance of accurate measurement cannot be overstated. One such device that plays a crucial role in various applications is the intermittent type meter. This device is designed to measure quantities at irregular intervals, making it particularly useful in situations where continuous measurement is not feasible or necessary. Understanding the functionality and application of the intermittent type meter can greatly enhance its effectiveness in practical scenarios.The intermittent type meter operates by recording measurements during specific intervals rather than continuously. This characteristic makes it ideal for use in environments where conditions fluctuate frequently, or where the resource being measured is only available sporadically. For instance, in water supply systems, the intermittent type meter can be employed to monitor water usage in households or industries that do not consume water uniformly throughout the day.One of the primary advantages of the intermittent type meter is its ability to conserve energy and reduce operational costs. Since it does not require constant power to function, it can be more energy-efficient compared to continuous meters. This aspect is particularly beneficial in remote locations where power supply may be limited or unreliable. By utilizing an intermittent type meter, organizations can ensure that they are not incurring unnecessary expenses while still obtaining valuable data regarding their resource usage.Moreover, the intermittent type meter provides flexibility in data collection. Users can set the intervals at which measurements are taken based on their specific needs. This customization allows for tailored monitoring that aligns with operational schedules or peak usage times. For example, a factory may choose to measure electricity consumption during production hours while skipping periods of inactivity. This targeted approach not only enhances data accuracy but also aids in identifying patterns and trends over time.In addition to its applications in utility monitoring, the intermittent type meter can also be utilized in scientific research. Researchers often require measurements at specific points in time to analyze phenomena that occur intermittently. By employing this type of meter, scientists can gather critical data without the burden of continuous monitoring, allowing them to focus on analysis rather than data collection.Despite its advantages, there are some challenges associated with using an intermittent type meter. One potential issue is the risk of missing important fluctuations in the data if the intervals are not chosen wisely. It is essential for users to understand the nature of what they are measuring and select intervals that accurately capture relevant changes. Additionally, calibration and maintenance of the intermittent type meter are vital to ensure the accuracy of the measurements it provides.In conclusion, the intermittent type meter is a valuable tool in both industrial and research settings. Its ability to measure at irregular intervals offers significant benefits, including energy efficiency, cost savings, and flexibility in data collection. However, careful consideration must be given to the selection of measurement intervals and proper maintenance to maximize its effectiveness. As technology continues to advance, the role of the intermittent type meter will likely expand, providing even greater opportunities for precise measurement in diverse applications.

在当今快速发展的技术环境中，准确测量的重要性不容小觑。间歇式计量器就是一种在各种应用中发挥关键作用的设备。该设备旨在以不规则的间隔测量数量，因此在需要或必要时无法进行连续测量的情况下特别有用。理解间歇式计量器的功能和应用可以极大地增强其在实际场景中的有效性。间歇式计量器通过在特定间隔内记录测量值，而不是持续测量，从而工作。这一特性使其非常适合用于条件频繁波动或被测资源仅间歇性可用的环境。例如，在供水系统中，可以使用间歇式计量器来监测家庭或工业的水使用情况，这些地方的水消耗并不均匀。间歇式计量器的主要优点之一是能够节约能源并降低运营成本。由于它不需要持续供电，因此可能比连续计量器更具能效。这一方面在偏远地区尤为重要，因为这些地方的电力供应可能有限或不可靠。通过利用间歇式计量器，组织可以确保在获取有关资源使用的有价值数据的同时，不会产生不必要的开支。此外，间歇式计量器在数据收集方面提供了灵活性。用户可以根据具体需求设定测量的间隔。这种定制化允许根据操作时间表或高峰使用时间进行量身定制的监控。例如，一家工厂可以选择在生产时间内测量电力消耗，而跳过非活动期间。这种针对性的方式不仅提高了数据的准确性，还帮助识别随时间变化的模式和趋势。除了在公用事业监测中的应用外，间歇式计量器还可以用于科学研究。研究人员通常需要在特定时间点进行测量，以分析间歇性发生的现象。通过采用这种类型的计量器，科学家可以在不需要持续监测的情况下收集关键数据，从而使他们能够专注于分析而不是数据收集。尽管有其优势，但使用间歇式计量器也存在一些挑战。一个潜在的问题是，如果间隔选择不当，可能会错过数据中的重要波动。用户必须了解所测量内容的性质，并选择能够准确捕捉相关变化的间隔。此外，校准和维护间歇式计量器对于确保其提供的测量准确性至关重要。总之，间歇式计量器在工业和研究环境中都是一种有价值的工具。它以不规则间隔进行测量的能力提供了显著的好处，包括能效、成本节约和数据收集的灵活性。然而，必须认真考虑测量间隔的选择和适当的维护，以最大限度地提高其有效性。随着技术的不断进步，间歇式计量器的作用可能会进一步扩大，为各种应用提供更大的精确测量机会。