steering telemotor

简明释义

舵机传动装置

英英释义

例句

1.The engineers installed a steering telemotor to enhance the vessel's maneuverability in tight spaces.

工程师们安装了一个遥控舵机以增强船只在狭窄空间的机动性。

2.The old system was replaced by a modern steering telemotor that improved efficiency.

旧系统被现代的遥控舵机替换，提高了效率。

3.With the steering telemotor, the crew can easily adjust the direction without manual effort.

有了遥控舵机，船员可以轻松调整方向而无需手动操作。

4.The ship's navigation system was upgraded to include a new steering telemotor for better control.

船舶的导航系统升级了，加入了新的遥控舵机以便更好地控制。

5.During the test, the steering telemotor proved to be highly responsive to the captain's commands.

在测试中，遥控舵机对船长的指令反应非常灵敏。

作文

In the realm of modern technology, the term steering telemotor refers to a sophisticated system used in various applications, particularly in marine and aerospace engineering. This innovative device allows for remote control of steering mechanisms, enabling operators to maneuver vehicles or vessels from a distance. The concept of steering telemotor has evolved significantly over the years, driven by advancements in communication technologies and automation. Historically, the idea of controlling machinery from afar can be traced back to the early 20th century. Engineers began exploring methods to enhance the efficiency of navigation and steering systems, leading to the development of the steering telemotor. This invention was particularly revolutionary in maritime operations, where it became crucial for steering large ships without requiring physical presence at the helm. The functionality of a steering telemotor involves a series of interconnected components that transmit signals from a remote operator to the steering mechanism of a vessel or vehicle. Typically, this system comprises sensors, actuators, and a control interface, which work in harmony to ensure precise control. For instance, when an operator moves a joystick or presses a button, the steering telemotor interprets these commands and adjusts the steering accordingly. This level of control is especially important in challenging environments, such as during bad weather at sea or in combat situations in military operations. Moreover, the application of steering telemotor technology extends beyond just marine and aerospace fields. It has found its way into various industries, including robotics, automotive, and even entertainment. In robotics, for example, remote-controlled robots utilize similar principles to navigate and perform tasks without direct human intervention. The automotive industry is also beginning to integrate telemotor systems into autonomous vehicles, where real-time adjustments to steering are essential for safe navigation. One of the most significant advantages of utilizing a steering telemotor is the increased safety it offers. By allowing operators to control vehicles from a distance, it minimizes the risk associated with direct involvement in hazardous situations. In military operations, for instance, soldiers can operate drones or unmanned vehicles safely away from enemy fire, ensuring their protection while still executing critical missions. However, the reliance on technology such as steering telemotor also presents challenges. The complexity of these systems requires skilled operators who understand both the technology and the environment in which they are operating. Furthermore, any technical failures or malfunctions could lead to disastrous consequences, making regular maintenance and updates essential. In conclusion, the steering telemotor represents a remarkable fusion of engineering ingenuity and technological advancement. As industries continue to evolve, the importance of remote control systems will only grow. Understanding the intricacies of how a steering telemotor operates not only enhances our appreciation for modern technology but also prepares us for future innovations that will undoubtedly shape the way we interact with machines. As we advance further into the digital age, embracing such technologies will be crucial for improving efficiency, safety, and overall effectiveness in various fields.

在现代科技领域，术语steering telemotor指的是一种用于各种应用的复杂系统，特别是在海洋和航空工程中。这种创新设备允许远程控制转向机制，使操作员能够从远处操控车辆或船只。steering telemotor的概念随着通信技术和自动化的进步而显著发展。历史上，遥控机械的想法可以追溯到20世纪初。工程师们开始探索提高导航和转向系统效率的方法，导致了steering telemotor的开发。这一发明在海洋作业中尤为革命性，它成为了在不需要物理存在于舵位的情况下操控大型船只的关键。steering telemotor的功能涉及一系列互联组件，这些组件将信号从远程操作员传输到船只或车辆的转向机制。通常，该系统包括传感器、执行器和控制界面，这些组件协同工作以确保精确控制。例如，当操作员移动操纵杆或按下按钮时，steering telemotor会解释这些命令并相应地调整转向。这种控制水平在恶劣环境中尤其重要，比如在海上的恶劣天气或军事行动中的战斗情况下。此外，steering telemotor技术的应用不仅限于海洋和航空领域。它已进入各种行业，包括机器人、汽车甚至娱乐。在机器人学中，例如，遥控机器人利用类似的原理进行导航和执行任务，而无需直接的人类干预。汽车工业也开始将电动转向系统集成到自动驾驶汽车中，其中实时调整转向对于安全导航至关重要。使用steering telemotor的一个主要优点是它提供的安全性。通过允许操作员远程控制车辆，减少了直接参与危险情况的风险。在军事行动中，例如，士兵可以安全地远离敌火操作无人机或无人驾驶车辆，从而保护自己，同时执行关键任务。然而，依赖于像steering telemotor这样的技术也带来了挑战。这些系统的复杂性要求熟练的操作员，他们了解技术及其操作环境。此外，任何技术故障或故障都可能导致灾难性后果，因此定期维护和更新至关重要。总之，steering telemotor代表了工程智慧与技术进步的非凡结合。随着各行各业的不断发展，远程控制系统的重要性只会增加。了解steering telemotor的运作细节不仅增强了我们对现代技术的欣赏，而且为我们做好准备，以迎接未来无疑会塑造我们与机器互动方式的创新。随着我们进一步进入数字时代，拥抱这些技术对于提高各个领域的效率、安全性和整体有效性至关重要。