erecting mechanism

简明释义

装配机械装置

英英释义

例句

1.In robotics, an effective erecting mechanism can enhance the robot's ability to perform tasks.

在机器人技术中，一个有效的竖立机制可以增强机器人的任务执行能力。

2.The engineers designed a new erecting mechanism to improve the stability of the structure.

工程师设计了一种新的竖立机制以提高结构的稳定性。

3.During the construction, the erecting mechanism played a crucial role in lifting the heavy beams into place.

在施工过程中，竖立机制在将重梁提升到位时发挥了关键作用。

4.The architectural model included an erecting mechanism that demonstrated how the building would be assembled.

建筑模型包括一个竖立机制，展示了建筑如何组装。

5.The erecting mechanism for the mobile crane was tested for safety before operation.

移动起重机的竖立机制在操作前进行了安全测试。

作文

In the world of engineering, various systems and components come together to create complex machines that perform specific tasks. One such crucial component is the erecting mechanism, which plays a vital role in the assembly and operation of many structures and devices. The term erecting mechanism refers to a system designed to raise or position elements into an upright or operational state. This can be seen in applications ranging from construction cranes to robotic arms. Understanding the function and importance of the erecting mechanism can provide deeper insights into how modern machinery operates. To illustrate the significance of the erecting mechanism, let’s consider its application in construction. When erecting tall buildings, cranes are essential for lifting heavy materials to great heights. The erecting mechanism within these cranes allows them to maneuver and position loads precisely. Without this mechanism, it would be nearly impossible to construct skyscrapers or large structures safely and efficiently. The ability to control the angle and height at which materials are placed is critical for both safety and structural integrity. Moreover, the erecting mechanism is not limited to cranes; it is also found in various industrial machines. For instance, in manufacturing settings, robotic arms equipped with erecting mechanisms can assemble products with high precision. These mechanisms enable the arms to lift components and place them accurately on assembly lines, significantly increasing productivity and reducing human error. The automation provided by these mechanisms has revolutionized industries, allowing for faster production times and greater efficiency. In addition to construction and manufacturing, the erecting mechanism is also prevalent in everyday devices. For example, many types of furniture, such as adjustable desks and foldable chairs, utilize simple erecting mechanisms to allow users to change their configurations easily. These mechanisms make it possible for users to adapt their environments to suit their needs, promoting comfort and versatility in various settings. Understanding how the erecting mechanism operates can also lead to innovations and improvements in design. Engineers continually seek ways to enhance these mechanisms, making them more efficient, safer, and easier to use. Research and development in this area can lead to breakthroughs that improve existing technologies or even create entirely new applications. As we advance into a future where automation and robotics play increasingly significant roles, the importance of effective erecting mechanisms will only grow. In conclusion, the erecting mechanism is a fundamental component in various fields, including construction, manufacturing, and everyday products. Its ability to raise and position elements accurately is crucial for safety, efficiency, and innovation. As technology continues to evolve, understanding and improving these mechanisms will remain essential for engineers and designers alike. By appreciating the role of the erecting mechanism, we can better understand the intricate workings of the machines that shape our modern world.

在工程领域，各种系统和组件相互结合，创造出执行特定任务的复杂机器。其中一个至关重要的组件是升起机制，它在许多结构和设备的组装和操作中发挥着重要作用。术语升起机制指的是一种旨在将元素提升或定位到直立或操作状态的系统。这可以在从建筑起重机到机器人手臂的应用中看到。理解升起机制的功能和重要性可以深入了解现代机械的运作。 为了说明升起机制的重要性，让我们考虑它在建筑中的应用。当搭建高楼时，起重机对于将重材料提升到高处至关重要。这些起重机中的升起机制使它们能够精确地操纵和定位负载。如果没有这个机制，几乎不可能安全有效地建造摩天大楼或大型结构。控制材料放置的角度和高度的能力对于安全和结构完整性至关重要。 此外，升起机制并不仅限于起重机；它还出现在各种工业机器中。例如，在制造环境中，配备有升起机制的机器人手臂可以高精度地组装产品。这些机制使手臂能够提升组件并准确地将其放置在装配线上，从而显著提高生产力并减少人为错误。由这些机制提供的自动化已经彻底改变了各个行业，使生产时间更快，效率更高。 除了建筑和制造，升起机制在日常设备中也很常见。例如，许多类型的家具，如可调桌和可折叠椅，利用简单的升起机制使用户能够轻松改变其配置。这些机制使用户能够根据需要调整其环境，促进了各种设置中的舒适性和灵活性。 了解升起机制的运作方式也可以促进设计的创新和改进。工程师不断寻求提高这些机制的效率、安全性和易用性的方法。在这一领域的研究和开发可以导致改善现有技术的突破，甚至创造出全新的应用。随着我们进入一个自动化和机器人技术扮演越来越重要角色的未来，有效的升起机制的重要性只会增加。 总之，升起机制是各个领域的基本组成部分，包括建筑、制造和日常产品。它能够准确地提升和定位元素，对于安全、效率和创新至关重要。随着技术的不断发展，理解和改进这些机制将始终是工程师和设计师的重要任务。通过欣赏升起机制的作用，我们可以更好地理解塑造我们现代世界的机器的复杂运作。