ultrasonic locator

简明释义

超声波定位器

英英释义

例句

1.The technician used an ultrasonic locator to find the source of the leak in the pipe.

技术员使用超声波定位仪找到管道泄漏的源头。

2.Using an ultrasonic locator, the team swiftly identified the location of a gas leak.

团队使用超声波定位仪迅速确定了天然气泄漏的位置。

3.In construction, an ultrasonic locator is essential for detecting buried utilities.

在建筑中，超声波定位仪对于检测埋藏的公用设施至关重要。

4.The ultrasonic locator can accurately pinpoint objects hidden behind walls.

该超声波定位仪可以准确定位隐藏在墙后面的物体。

5.The ultrasonic locator is particularly useful in noisy environments where traditional methods fail.

在传统方法失效的嘈杂环境中，超声波定位仪特别有用。

作文

In recent years, technology has advanced significantly, leading to the development of various tools and devices that enhance our daily lives. One such innovation is the ultrasonic locator, a device that utilizes sound waves to detect objects or measure distances. This technology has proven to be invaluable in numerous applications, ranging from construction and manufacturing to healthcare and environmental monitoring.The principle behind the ultrasonic locator is relatively simple yet effective. It emits ultrasonic sound waves, which are sound waves at frequencies higher than the audible range for humans. When these sound waves encounter an object, they bounce back to the device. By measuring the time it takes for the waves to return, the ultrasonic locator can calculate the distance to the object with impressive accuracy.One of the most common uses of the ultrasonic locator is in construction, where it helps workers locate underground utilities, such as pipes and cables. This is crucial because accidentally damaging these utilities can lead to costly repairs and safety hazards. By using an ultrasonic locator, construction teams can map out the location of these utilities before beginning any digging or excavation work, ensuring a safer and more efficient process.In addition to construction, the ultrasonic locator has found applications in the medical field. For instance, it is used in ultrasound imaging, which allows doctors to visualize internal organs and monitor the development of fetuses during pregnancy. This non-invasive technique relies on the same principles as the ultrasonic locator, making it a vital tool in modern medicine.Environmental monitoring is another area where the ultrasonic locator plays a significant role. It can be used to detect changes in water levels, measure the thickness of ice on lakes, or even monitor wildlife movements. By providing accurate measurements and data, this technology aids researchers and conservationists in making informed decisions about environmental management and protection.Moreover, the ultrasonic locator is also becoming increasingly popular in the field of robotics. Robots equipped with this technology can navigate complex environments by detecting obstacles and measuring distances. This capability is essential for autonomous vehicles and drones, allowing them to operate safely and efficiently in various settings.The versatility of the ultrasonic locator is evident in its wide range of applications, but it is essential to understand its limitations as well. For instance, the effectiveness of ultrasonic detection can be influenced by environmental factors such as temperature, humidity, and the nature of the surfaces being scanned. Additionally, while the ultrasonic locator can provide precise measurements, it may not always be able to identify the composition or material of the detected objects.In conclusion, the ultrasonic locator is a remarkable technological advancement that has transformed various industries. Its ability to utilize sound waves for detection and measurement has made it an essential tool in construction, healthcare, environmental monitoring, and robotics. As technology continues to evolve, we can expect the ultrasonic locator to become even more sophisticated, opening up new possibilities for its application and further enhancing our understanding of the world around us.

近年来，科技显著进步，导致各种工具和设备的发展，这些工具和设备增强了我们的日常生活。其中一种创新是超声波定位器，这是一种利用声波检测物体或测量距离的设备。这项技术在许多应用中被证明是无价的，从建筑和制造到医疗保健和环境监测。超声波定位器的原理相对简单但有效。它发出超声波，这是人类听觉范围以上的声波。当这些声波遇到物体时，它们会反弹回设备。通过测量声波返回所需的时间，超声波定位器可以以令人印象深刻的精确度计算到物体的距离。超声波定位器最常见的用途之一是在建筑行业，帮助工人定位地下公用设施，如管道和电缆。这一点至关重要，因为意外损坏这些公用设施可能导致昂贵的维修和安全隐患。通过使用超声波定位器，施工团队可以在开始任何挖掘或开挖工作之前绘制这些公用设施的位置，从而确保更安全、更高效的过程。除了建筑，超声波定位器还在医疗领域找到了应用。例如，它用于超声成像，允许医生可视化内部器官并监测妊娠期间胎儿的发展。这种非侵入性的技术依赖于与超声波定位器相同的原理，使其成为现代医学中的重要工具。环境监测是超声波定位器发挥重要作用的另一个领域。它可以用于检测水位变化、测量湖泊冰层厚度，甚至监测野生动物活动。通过提供准确的测量和数据，这项技术帮助研究人员和保护主义者就环境管理和保护做出明智的决策。此外，超声波定位器在机器人领域也越来越受欢迎。配备这种技术的机器人可以通过检测障碍物和测量距离来导航复杂的环境。这一能力对于自动驾驶汽车和无人机至关重要，使它们能够在各种环境中安全高效地运行。超声波定位器的多功能性在其广泛的应用中显而易见，但理解其局限性也很重要。例如，超声波检测的有效性可能受到温度、湿度和被扫描表面性质等环境因素的影响。此外，虽然超声波定位器可以提供精确的测量，但它可能并不总能识别被检测物体的组成或材料。总之，超声波定位器是一项了不起的技术进步，已经改变了各个行业。它利用声波进行检测和测量的能力使其成为建筑、医疗保健、环境监测和机器人领域的重要工具。随着技术的不断发展，我们可以期待超声波定位器变得更加复杂，为其应用开辟新的可能性，并进一步增强我们对周围世界的理解。