auxiliary grid

简明释义

辅助栅极

英英释义

例句

1.The auxiliary grid allows artists to maintain proportions while sketching.

辅助网格使艺术家在素描时保持比例。

2.Using an auxiliary grid can greatly improve the workflow in architectural drafting.

使用辅助网格可以大大提高建筑制图的工作流程。

3.The auxiliary grid is essential for creating a balanced layout in graphic design.

辅助网格在平面设计中对于创建平衡布局至关重要。

4.The engineer used the auxiliary grid to ensure accurate measurements during the construction process.

工程师使用辅助网格来确保在施工过程中进行准确测量。

5.In the design software, the auxiliary grid helps align objects precisely.

在设计软件中，辅助网格有助于精确对齐物体。

作文

In the field of engineering and technology, the concept of an auxiliary grid plays a crucial role in enhancing the functionality and efficiency of various systems. An auxiliary grid is essentially a supplementary framework that supports the primary grid, which could be related to electrical systems, data networks, or even structural frameworks. This additional layer is designed to provide extra stability, redundancy, and flexibility, ensuring that the main system operates smoothly under different conditions.For instance, in electrical engineering, the auxiliary grid can refer to a backup power supply system that kicks in when the primary power source fails. This is particularly important in critical facilities such as hospitals, data centers, and emergency services, where uninterrupted power is vital. The presence of an auxiliary grid allows these institutions to maintain their operations without interruption, thereby safeguarding lives and sensitive information.Moreover, in the context of data networking, an auxiliary grid can serve as a secondary network that provides additional bandwidth and connectivity options. This is especially useful in environments where high data traffic is common, such as large corporations or universities. By implementing an auxiliary grid, organizations can ensure that their primary network remains efficient and responsive, even during peak usage times.Additionally, in structural engineering, an auxiliary grid can refer to a support framework that reinforces the main structure of a building or bridge. This is essential for maintaining the integrity of the construction, especially in areas prone to natural disasters like earthquakes or heavy winds. The auxiliary grid acts as a safety net, distributing loads and stresses more evenly across the primary structure, thus preventing potential failures.The implementation of an auxiliary grid is not without its challenges. Engineers and designers must carefully consider the design, materials, and integration of the auxiliary system with the primary one. Proper planning and execution are critical to ensure that the auxiliary grid functions effectively without causing disruptions or complications in the main system. This requires a deep understanding of the underlying principles governing both the primary and auxiliary systems, as well as the specific requirements of the environment in which they operate.In conclusion, the auxiliary grid is an essential component across various fields of engineering and technology. Its ability to provide additional support and redundancy makes it invaluable in ensuring the reliability and efficiency of primary systems. Whether in electrical systems, data networks, or structural frameworks, the auxiliary grid enhances overall performance and safety, allowing for smoother operations in our increasingly complex technological landscape. As we continue to innovate and improve our systems, the importance of understanding and effectively implementing auxiliary grids will only grow, highlighting their critical role in modern engineering solutions.

在工程和技术领域，辅助网格的概念在增强各种系统的功能性和效率方面起着至关重要的作用。辅助网格本质上是一个补充框架，支持主要网格，这可能与电气系统、数据网络甚至结构框架有关。这个额外的层次旨在提供额外的稳定性、冗余性和灵活性，确保主系统在不同条件下平稳运行。例如，在电气工程中，辅助网格可以指当主要电源发生故障时启动的备用电源系统。这在医院、数据中心和紧急服务等关键设施中尤为重要，因为不间断的电力至关重要。辅助网格的存在使这些机构能够在不中断的情况下维持运营，从而保障生命和敏感信息。此外，在数据网络的背景下，辅助网格可以作为一个次级网络，提供额外的带宽和连接选项。这在高数据流量普遍的环境中尤其有用，例如大型公司或大学。通过实施辅助网格，组织可以确保其主网络在高峰使用期间仍然高效和响应迅速。此外，在结构工程中，辅助网格可以指加强建筑物或桥梁主结构的支撑框架。这对于维护建筑的完整性至关重要，尤其是在地震或强风等自然灾害频发的地区。辅助网格充当安全网，更均匀地分配负载和应力，从而防止潜在的故障。实施辅助网格并非没有挑战。工程师和设计师必须仔细考虑设计、材料以及辅助系统与主系统的整合。适当的规划和执行对于确保辅助网格有效运作而不会对主系统造成干扰或复杂性至关重要。这需要对主系统和辅助系统的基本原理有深入理解，以及对它们所处环境的具体要求。总之，辅助网格是各个工程和技术领域中的一个重要组成部分。它提供额外的支持和冗余的能力，使其在确保主要系统的可靠性和效率方面不可或缺。无论是在电气系统、数据网络还是结构框架中，辅助网格都增强了整体性能和安全性，使我们在日益复杂的技术环境中实现更顺畅的操作。随着我们不断创新和改进我们的系统，理解和有效实施辅助网格的重要性只会增加，突显其在现代工程解决方案中的关键角色。