mast with arm

简明释义

带臂电杆

英英释义

例句

1.During the inspection, we noticed that the mast with arm was slightly bent.

在检查过程中，我们注意到带臂的桅杆稍微弯曲。

2.In the storm, the mast with arm held up remarkably well.

在风暴中，带臂的桅杆表现得相当不错。

3.They installed a flag on the mast with arm to signal their location.

他们在带臂的桅杆上安装了一面旗帜以示信号。

4.The sailor adjusted the sail on the mast with arm to catch the wind better.

水手调整了带臂的桅杆上的帆，以更好地捕捉风。

5.The engineer designed a new mast with arm for the communication tower.

工程师为通信塔设计了一种新的带臂的桅杆。

作文

In the world of engineering and design, the term mast with arm refers to a structural component that is often used in various applications, particularly in telecommunications and maritime contexts. A mast with arm typically consists of a tall vertical structure that supports an extended arm or boom, which can be utilized for multiple purposes, such as holding antennas, lights, or other equipment. Understanding the functionality and importance of a mast with arm is crucial for those involved in fields like construction, telecommunications, and navigation.The primary function of a mast with arm is to elevate equipment to a height that allows for better signal transmission or visibility. For instance, in telecommunications, a mast with arm is essential for supporting antennas that need to be positioned high above the ground to ensure optimal coverage and reception. Similarly, in maritime applications, a mast with arm can hold navigation lights or radar equipment, providing critical information to vessels navigating through challenging waters.One of the key advantages of using a mast with arm is its ability to provide stability and support for various devices. The design of the mast allows it to withstand high winds and adverse weather conditions, ensuring that the equipment it supports remains functional and safe. Additionally, the arm attached to the mast can be adjusted or extended, allowing for flexibility in positioning the equipment as needed.Furthermore, the construction of a mast with arm involves careful consideration of materials and engineering principles. Typically, these masts are made from durable materials such as steel or aluminum, which offer strength and longevity. Engineers must also take into account factors such as load-bearing capacity, wind resistance, and overall height when designing a mast with arm. This level of planning ensures that the structure will perform effectively under various conditions.In recent years, advancements in technology have led to the development of more sophisticated mast with arm designs. For example, some modern masts are equipped with features such as built-in sensors that monitor environmental conditions or automated systems that adjust the position of the arm based on real-time data. These innovations enhance the functionality of the mast with arm and contribute to improved efficiency in telecommunications and navigation.Moreover, the aesthetic aspect of a mast with arm should not be overlooked. While functionality is paramount, many engineers and designers also strive to create masts that blend harmoniously with their surroundings. This is particularly important in urban areas where visual impact can be a concern. By incorporating sleek designs and considering the color and finish of the materials used, a mast with arm can serve its purpose without being an eyesore.In conclusion, the concept of a mast with arm plays a vital role in various industries, providing essential support for equipment that enhances communication and navigation. Its robust design and adaptability make it a valuable asset in both telecommunications and maritime applications. As technology continues to evolve, the future of mast with arm designs promises even greater efficiency and functionality, ensuring that they remain integral to our infrastructure for years to come.

在工程和设计的世界中，术语带臂的桅杆指的是一种结构组件，通常用于各种应用，特别是在电信和海洋上下文中。带臂的桅杆通常由一个高耸的垂直结构组成，支撑着一个延伸的臂或吊杆，可用于多种目的，例如支撑天线、灯光或其他设备。理解带臂的桅杆的功能和重要性对于参与建筑、电信和导航等领域的人来说至关重要。带臂的桅杆的主要功能是将设备提升到一个高度，以便更好地进行信号传输或可视性。例如，在电信中，带臂的桅杆对于支撑需要高于地面位置的天线至关重要，以确保最佳的覆盖范围和接收效果。同样，在海洋应用中，带臂的桅杆可以支撑导航灯或雷达设备，为在复杂水域航行的船只提供关键信息。使用带臂的桅杆的一个主要优点是它能够为各种设备提供稳定性和支持。桅杆的设计使其能够承受强风和恶劣天气条件，确保其所支撑的设备保持功能和安全。此外，连接到桅杆的臂可以调整或延伸，从而在需要时灵活定位设备。此外，带臂的桅杆的构造涉及对材料和工程原理的仔细考虑。通常，这些桅杆由耐用的材料如钢或铝制成，具有强度和耐久性。工程师还必须考虑负载承载能力、抗风性和整体高度等因素，以设计出有效的带臂的桅杆。这种规划水平确保了结构在各种条件下的有效表现。近年来，技术的进步导致了更复杂的带臂的桅杆设计的发展。例如，一些现代桅杆配备了内置传感器，可以监测环境条件，或配备自动系统，根据实时数据调整臂的位置。这些创新提高了带臂的桅杆的功能，并有助于提高电信和导航的效率。此外，带臂的桅杆的美学方面也不容忽视。虽然功能是首要考虑，但许多工程师和设计师也努力创造与周围环境和谐融合的桅杆。这在视觉影响可能成为问题的城市地区尤为重要。通过融入流线型设计并考虑材料的颜色和表面处理，带臂的桅杆可以发挥其作用，而不会成为眼中的刺。总之，带臂的桅杆的概念在各个行业中发挥着至关重要的作用，为增强通信和导航的设备提供了必要的支持。其坚固的设计和适应性使其成为电信和海洋应用中宝贵的资产。随着技术的不断发展，带臂的桅杆设计的未来承诺将带来更高的效率和功能，确保它们在未来多年仍然是我们基础设施的重要组成部分。