distributing plate

简明释义

分配板

英英释义

例句

1.For the potluck, everyone brought a dish that was served on a communal distributing plate.

在聚餐会上，每个人都带了一道菜，大家共享放在一个公共的分配盘上。

2.The waiter carefully balanced the distributing plate while navigating through the crowded restaurant.

服务员在拥挤的餐厅中小心翼翼地平衡着分配盘。

3.Using a distributing plate helps to keep the buffet organized and appealing.

使用分配盘有助于保持自助餐的整洁和吸引力。

4.After cooking, she transferred the pasta to a large distributing plate for serving.

烹饪后，她将意大利面转移到一个大的分配盘上以便上菜。

5.The chef placed the food on the distributing plate to ensure even portions for each guest.

厨师将食物放在分配盘上，以确保每位客人都有均匀的份量。

作文

In the world of engineering and manufacturing, components play a crucial role in ensuring that machines and systems operate efficiently. One such component that is often overlooked but is vital for the smooth functioning of various devices is the distributing plate. The distributing plate is a mechanical part that serves to distribute forces or fluids evenly across a surface. This distribution is essential in applications ranging from automotive engineering to HVAC systems, where balanced flow is necessary for optimal performance.The design of a distributing plate can vary significantly depending on its intended application. For example, in an automotive context, a distributing plate may be used within the fuel injection system to ensure that fuel reaches each cylinder at the correct pressure and volume. This precise distribution is vital for engine performance, fuel efficiency, and emissions control. If the distributing plate malfunctions, it can lead to uneven fuel delivery, which may cause misfires, reduced power output, or increased emissions.Similarly, in HVAC systems, a distributing plate can be used to evenly distribute air throughout a building. Proper air distribution is key to maintaining comfortable temperatures and ensuring that all areas of a space receive adequate ventilation. An improperly designed or installed distributing plate can result in hot or cold spots, leading to discomfort and inefficiency in energy use.Furthermore, the material and construction of a distributing plate are also important factors to consider. Depending on the environment in which it operates, a distributing plate may need to be made from corrosion-resistant materials, especially in applications involving fluids that can cause degradation over time. For instance, in chemical processing plants, the distributing plate must withstand harsh chemicals while maintaining its structural integrity and functionality.In addition to its mechanical functions, the distributing plate can also have implications for maintenance and repair. Regular inspection of the distributing plate can help identify wear and tear before it leads to significant issues. Engineers and technicians must be trained to recognize the signs of a failing distributing plate, such as leaks or uneven distribution patterns, to prevent costly downtime and repairs.Moreover, advancements in technology have led to the development of more sophisticated distributing plates that incorporate sensors and smart technology. These innovations allow for real-time monitoring and adjustments, enhancing the efficiency and reliability of systems that rely on proper distribution. For example, in modern automotive systems, electronically controlled distributing plates can optimize fuel delivery based on driving conditions, improving both performance and emissions.In conclusion, the distributing plate is a fundamental component in many engineering applications, playing a critical role in the distribution of forces and fluids. Understanding its function and importance can lead to better designs, improved performance, and enhanced reliability in various systems. As technology continues to advance, the role of the distributing plate will likely evolve, but its significance in engineering will remain undeniable. Thus, engineers and technicians must prioritize the design, maintenance, and innovation of the distributing plate to ensure the continued efficiency of the systems they support.

在工程和制造的世界中，组件在确保机器和系统高效运行方面扮演着至关重要的角色。其中一个常常被忽视但对各种设备的平稳运行至关重要的组件是分配板。分配板是一个机械部件，旨在均匀地分配作用力或流体到一个表面上。这种分配在从汽车工程到暖通空调系统等应用中都是必不可少的，在这些应用中，平衡的流动对于最佳性能是必要的。分配板的设计可能会根据其预期应用而有显著不同。例如，在汽车背景下，分配板可能被用于燃油喷射系统，以确保燃油以正确的压力和体积到达每个气缸。这种精确的分配对于发动机性能、燃油效率和排放控制至关重要。如果分配板出现故障，可能导致燃油供应不均，从而导致失火、功率输出下降或排放增加。同样，在暖通空调系统中，分配板可用于将空气均匀分配到建筑物中。适当的空气分配是维持舒适温度和确保空间所有区域获得足够通风的关键。不当设计或安装的分配板可能导致冷热点，从而导致不适和能源使用效率低下。此外，分配板的材料和构造也是需要考虑的重要因素。根据其操作环境，分配板可能需要由耐腐蚀材料制成，尤其是在涉及可能导致随时间退化的流体的应用中。例如，在化工加工厂中，分配板必须能够承受苛刻的化学品，同时保持其结构完整性和功能。除了其机械功能外，分配板还可能对维护和修理产生影响。定期检查分配板可以帮助在重大问题出现之前识别磨损。工程师和技术人员必须接受培训，以识别分配板故障的迹象，例如泄漏或不均匀分配模式，以防止昂贵的停机和维修。此外，技术的进步导致更复杂的分配板的发展，这些分配板结合了传感器和智能技术。这些创新使实时监控和调整成为可能，提高了依赖于适当分配的系统的效率和可靠性。例如，在现代汽车系统中，电子控制的分配板可以根据驾驶条件优化燃油供应，从而改善性能和排放。总之，分配板是许多工程应用中的基本组件，在力量和流体的分配中发挥着关键作用。理解其功能和重要性可以导致更好的设计、改进的性能和增强的系统可靠性。随着技术的不断进步，分配板的角色可能会发展，但其在工程中的重要性将仍然不可否认。因此，工程师和技术人员必须优先考虑分配板的设计、维护和创新，以确保其支持的系统的持续效率。