engine erection

简明释义

发动机安装

英英释义

例句

1.The team was responsible for the engine erection 发动机安装 of the new aircraft in record time.

团队负责在创纪录的时间内进行新飞机的engine erection 发动机安装。

2.They encountered several challenges during the engine erection 发动机安装 due to tight spaces.

由于空间狭小，他们在engine erection 发动机安装过程中遇到了几个挑战。

3.After the engine erection 发动机安装, the testing phase began immediately.

在完成engine erection 发动机安装后，测试阶段立即开始。

4.Proper safety measures are essential during the engine erection 发动机安装 process to prevent accidents.

在engine erection 发动机安装过程中，适当的安全措施是防止事故的关键。

5.The engineers reviewed the blueprint before starting the engine erection 发动机安装 phase.

工程师在开始engine erection 发动机安装阶段之前审查了蓝图。

作文

The process of building and assembling complex machinery often involves various intricate steps, one of which is known as engine erection. This term refers to the assembly of an engine, typically within the context of larger machinery or vehicles. The significance of engine erection cannot be overstated, as it plays a crucial role in ensuring that the engine functions correctly and efficiently. In this essay, we will explore the importance of engine erection, the steps involved in the process, and its impact on overall machine performance.First and foremost, engine erection is essential for several reasons. Primarily, it ensures that all components of the engine are correctly aligned and secured. An improperly assembled engine can lead to severe mechanical issues, resulting in decreased performance or even catastrophic failure. Therefore, skilled technicians must follow precise guidelines during the engine erection process to guarantee that each part is fitted perfectly. This meticulous attention to detail is what separates high-quality engines from subpar ones.The steps involved in engine erection can vary depending on the type of engine being assembled. However, there are common stages that most engine assemblies share. Initially, the technician will gather all necessary components, including the engine block, pistons, crankshaft, and various gaskets and seals. Once all parts are collected, the assembly begins with the installation of the crankshaft into the engine block. This step requires careful handling, as the crankshaft is critical for converting linear motion into rotational motion.Following the crankshaft installation, the next phase of engine erection involves placing the pistons into their respective cylinders. Each piston must be fitted with precision, as any misalignment can lead to premature wear or failure. Once the pistons are in place, the technician will attach the cylinder head, which seals the combustion chamber and allows for optimal performance. At this point, the technician must also ensure that all seals and gaskets are correctly positioned to prevent leaks, which could compromise the engine's efficiency.After the main components are assembled, the technician will conduct a series of tests to confirm that the engine erection has been completed successfully. These tests may include checking for compression, inspecting for leaks, and verifying that all moving parts function smoothly. This testing phase is vital, as it allows technicians to identify any potential issues before the engine is put into operation.The impact of proper engine erection on overall machine performance cannot be underestimated. An engine that has been correctly assembled will operate more efficiently, consume less fuel, and produce lower emissions. Conversely, an engine that has been poorly assembled can lead to increased maintenance costs, reduced lifespan, and a higher likelihood of breakdowns. Therefore, investing time and resources into a meticulous engine erection process pays off in the long run.In conclusion, engine erection is a critical phase in the assembly of any engine, whether for automobiles, aircraft, or industrial machinery. Understanding the importance of this process, the steps involved, and its implications for machine performance is essential for anyone involved in engineering or manufacturing. By prioritizing quality and precision during engine erection, we can ensure that our engines not only meet but exceed performance expectations, ultimately leading to safer and more reliable machinery in our daily lives.

构建和组装复杂机械的过程通常涉及多个复杂的步骤，其中之一被称为发动机安装。这个术语指的是发动机的组装，通常在更大机械或车辆的背景下使用。发动机安装的重要性不容小觑，因为它在确保发动机正常高效运行方面发挥着至关重要的作用。在这篇文章中，我们将探讨发动机安装的重要性、过程中的步骤及其对整体机器性能的影响。首先，发动机安装至关重要，原因有几个。主要是，它确保发动机的所有组件都正确对齐并固定。组装不当的发动机可能导致严重的机械问题，导致性能下降甚至灾难性的故障。因此，熟练的技术人员必须在发动机安装过程中遵循精确的指南，以确保每个部件完美契合。这种对细节的严格关注使高质量的发动机与劣质发动机区分开来。发动机安装的步骤可能因所组装的发动机类型而异。然而，大多数发动机组装都有共同的阶段。最初，技术人员将收集所有必要的组件，包括发动机缸体、活塞、曲轴以及各种垫圈和密封件。一旦所有部件收集齐全，组装就开始了，首先将曲轴安装到发动机缸体中。此步骤需要小心处理，因为曲轴对于将线性运动转化为旋转运动至关重要。在曲轴安装之后，发动机安装的下一阶段涉及将活塞放入各自的气缸中。每个活塞必须精准安装，因为任何不对齐都可能导致过早磨损或故障。一旦活塞到位，技术人员将安装气缸盖，这样可以密封燃烧室并实现最佳性能。此时，技术人员还必须确保所有密封件和垫圈正确定位，以防止泄漏，这可能会影响发动机的效率。在主要组件组装完成后，技术人员将进行一系列测试，以确认发动机安装成功完成。这些测试可能包括检查压缩、检查泄漏以及验证所有运动部件是否平稳运作。这个测试阶段至关重要，因为它允许技术人员在发动机投入运行之前识别任何潜在问题。适当的发动机安装对整体机器性能的影响不可低估。经过正确组装的发动机将更高效地运行，消耗更少的燃料，并产生更低的排放。相反，组装不当的发动机可能导致维护成本增加、使用寿命缩短以及故障的可能性增大。因此，在细致的发动机安装过程中投入时间和资源，从长远来看是值得的。总之，发动机安装是任何发动机组装中的关键阶段，无论是汽车、飞机还是工业机械。理解这一过程的重要性、涉及的步骤及其对机器性能的影响，对于任何参与工程或制造的人来说都是至关重要的。通过在发动机安装过程中优先考虑质量和精度，我们可以确保我们的发动机不仅满足而且超越性能预期，最终在我们日常生活中带来更安全、更可靠的机械。