machinery space boundary

简明释义

机器处所限界面

英英释义

例句

1.The technician must ensure that all tools are kept outside the machinery space boundary to prevent accidents.

技术人员必须确保所有工具都放在机械空间边界之外，以防止事故。

2.During maintenance, workers should be aware of the machinery space boundary to avoid entering hazardous areas.

在维护期间，工人应注意机械空间边界，以避免进入危险区域。

3.The safety officer marked the machinery space boundary with bright cones to enhance visibility.

安全官用亮色锥标记了机械空间边界以增强可见性。

4.All visitors must stay behind the machinery space boundary during the factory tour for their safety.

所有访客在工厂参观期间必须待在机械空间边界后面以确保安全。

5.Employees received training on how to respect the machinery space boundary while operating heavy equipment.

员工接受了关于如何在操作重型设备时尊重机械空间边界的培训。

作文

In the realm of engineering and design, understanding the concept of machinery space boundary is crucial for optimizing the performance and safety of mechanical systems. The term machinery space boundary refers to the defined limits or interfaces within which machinery operates. It encompasses not only the physical dimensions of the machinery but also the operational parameters that dictate how machines interact with their environment and with each other. This concept is particularly significant in industries such as manufacturing, aerospace, and automotive, where precision and efficiency are paramount.When designing a new machine, engineers must carefully consider the machinery space boundary. This includes analyzing the spatial requirements for components, ensuring that there is adequate clearance for moving parts, and maintaining safe distances from other equipment. For instance, in an assembly line, the machinery space boundary will determine how close different machines can be positioned without interfering with each other's operation. A well-defined boundary allows for smooth workflow and minimizes the risk of accidents.Moreover, the machinery space boundary plays a vital role in maintenance and repair processes. Technicians need to have sufficient access to machinery for routine checks and repairs. If the boundaries are not properly established, it can lead to inefficiencies and increased downtime. Therefore, during the design phase, engineers must incorporate maintenance considerations into the machinery space boundary to ensure that all components are easily reachable.Another important aspect of the machinery space boundary is its impact on energy efficiency. Machines that operate within their designated boundaries tend to consume less energy and produce less waste. For example, if a machine is too large for its intended space, it may require excessive energy to function correctly, leading to higher operational costs. By adhering to the machinery space boundary, companies can optimize their energy use and reduce their environmental footprint.Furthermore, the machinery space boundary can influence the overall design aesthetics of a project. In modern architecture and industrial design, the integration of machinery into the surrounding environment must be carefully planned. Designers often seek to create harmonious spaces that blend functionality with visual appeal. The machinery space boundary serves as a guideline for achieving this balance, ensuring that machinery does not disrupt the overall design while still fulfilling its operational role.In conclusion, the concept of machinery space boundary is essential for engineers, designers, and technicians alike. It encompasses a wide range of considerations, from spatial requirements to energy efficiency and aesthetic integration. By understanding and applying the principles of machinery space boundary, professionals can enhance the performance, safety, and sustainability of mechanical systems. As technology continues to advance, the importance of clearly defined machinery space boundaries will only grow, making it a fundamental aspect of modern engineering practice.

在工程和设计领域，理解“机械空间边界”的概念对于优化机械系统的性能和安全至关重要。术语“机械空间边界”指的是机器运行的定义限制或接口。它不仅包括机械的物理尺寸，还包括决定机器如何与其环境及彼此相互作用的操作参数。这个概念在制造、航空航天和汽车等行业尤为重要，因为这些行业对精度和效率的要求极高。在设计新机器时，工程师必须仔细考虑“机械空间边界”。这包括分析组件的空间需求，确保移动部件有足够的间隙，并保持与其他设备的安全距离。例如，在一个装配线上，“机械空间边界”将决定不同机器可以被放置得多近，而不会相互干扰。明确的边界能够实现平稳的工作流程，并最大限度地降低事故风险。此外，“机械空间边界”在维护和修理过程中也发挥着重要作用。技术人员需要有足够的空间来进行常规检查和维修。如果边界没有合理建立，可能会导致效率低下和停机时间增加。因此，在设计阶段，工程师必须将维护考虑纳入“机械空间边界”，以确保所有组件都易于接触。“机械空间边界”的另一个重要方面是其对能源效率的影响。在指定的边界内运行的机器往往能耗更低，废物产生更少。例如，如果一台机器对于其预期空间来说过大，可能需要过多的能量才能正常运作，从而导致更高的运营成本。通过遵守“机械空间边界”，公司可以优化能源使用并减少环境足迹。此外，“机械空间边界”还会影响项目的整体设计美学。在现代建筑和工业设计中，将机械融入周围环境必须经过仔细规划。设计师通常寻求创造和谐的空间，将功能性与视觉吸引力结合在一起。“机械空间边界”作为实现这种平衡的指导方针，确保机械不会破坏整体设计，同时仍能发挥其操作作用。总之，“机械空间边界”的概念对工程师、设计师和技术人员而言都是至关重要的。它涵盖了广泛的考虑因素，从空间需求到能源效率和美学整合。通过理解和应用“机械空间边界”的原则，专业人士可以提高机械系统的性能、安全性和可持续性。随着技术的不断进步，明确的“机械空间边界”的重要性只会增加，使其成为现代工程实践的基本方面。