non-adjustable stroke

简明释义

非可调行程

英英释义

例句

1.The hydraulic cylinder has a non-adjustable stroke which limits its range of motion.

这个液压缸具有不可调节的行程，限制了它的运动范围。

2.Due to the non-adjustable stroke, users must choose the correct model for their needs.

由于不可调节的行程，用户必须选择适合自己需求的正确型号。

3.When designing the machine, we opted for a model with a non-adjustable stroke to ensure consistent performance.

在设计机器时，我们选择了一个具有不可调节的行程的型号，以确保性能的一致性。

4.The robot arm operates with a non-adjustable stroke, making it suitable for repetitive tasks.

这个机器人手臂以不可调节的行程运作，适合进行重复性任务。

5.The non-adjustable stroke feature makes this pump ideal for specific applications where precision is key.

这个泵的不可调节的行程特性使其非常适合需要精准的特定应用。

作文

In the world of engineering and mechanics, precision is paramount. One crucial aspect that engineers often focus on is the design of various components to ensure they operate efficiently and effectively. Among these components, the concept of a non-adjustable stroke plays a significant role, particularly in systems that require consistent performance without the need for frequent modifications. A non-adjustable stroke refers to a fixed distance that a component, such as a piston or a valve, moves during its operation. This means that once the component is designed, its movement cannot be altered or adjusted to increase or decrease the stroke length. This characteristic is essential in applications where uniformity and reliability are critical.For instance, consider an internal combustion engine. The pistons within the engine have a non-adjustable stroke that determines how much fuel-air mixture is drawn into the cylinder during each cycle. If the stroke were adjustable, it could lead to inconsistencies in performance, affecting the engine's efficiency and power output. Therefore, having a non-adjustable stroke ensures that the engine operates optimally under various conditions without the risk of human error or mechanical failure.Moreover, the use of a non-adjustable stroke is not limited to engines. It is also prevalent in hydraulic systems, where cylinders are designed to extend and retract by a fixed amount. This predictability allows for better control and integration into larger systems, such as robotics or manufacturing machinery. In these cases, knowing the exact stroke length is crucial for programming movements and ensuring that parts fit together correctly.However, while a non-adjustable stroke provides many benefits, it also has its limitations. For example, in applications where adaptability is required—such as in some medical devices or specialized machinery—having an adjustable stroke might be more advantageous. Engineers must evaluate the specific requirements of their projects to determine whether a non-adjustable stroke or an adjustable one would serve their needs better.Ultimately, the choice between a non-adjustable stroke and an adjustable stroke hinges on the goals of the design. If consistency, reliability, and ease of maintenance are prioritized, a non-adjustable stroke is often the preferred option. On the other hand, if flexibility and adaptability are necessary, engineers may opt for designs that allow for stroke adjustments.In conclusion, understanding the implications of a non-adjustable stroke is vital for anyone involved in mechanical design and engineering. It highlights the importance of precision in engineering applications and the need to balance between rigidity and flexibility based on the specific demands of a project. As technology continues to evolve, the principles surrounding fixed and adjustable strokes will remain a fundamental topic of discussion in the field of engineering.

在工程和机械的世界中，精确性至关重要。工程师通常关注的一个关键方面是各种组件的设计，以确保它们高效有效地运行。在这些组件中，非可调行程的概念发挥着重要作用，特别是在需要一致性能而不需要频繁修改的系统中。非可调行程指的是组件（如活塞或阀门）在操作过程中移动的固定距离。这意味着一旦组件设计完成，其运动就无法被改变或调整以增加或减少行程长度。在需要均匀性和可靠性的应用中，这一特性至关重要。例如，考虑内燃机。发动机中的活塞具有一个非可调行程，决定了每个循环中吸入气缸的燃油-空气混合物的量。如果行程可以调整，可能会导致性能的不一致，影响发动机的效率和功率输出。因此，拥有非可调行程确保发动机在各种条件下以最佳状态运行，而不会面临人为错误或机械故障的风险。此外，非可调行程的使用不仅限于发动机。在液压系统中，气缸的设计也是以固定的方式伸缩。这种可预测性允许更好的控制和集成到更大的系统中，例如机器人或制造机械。在这些情况下，知道确切的行程长度对于编程运动和确保部件正确配合至关重要。然而，虽然非可调行程提供了许多好处，但它也有其局限性。例如，在某些医疗设备或特殊机械中，适应性要求较高的应用中，拥有可调行程可能更具优势。工程师必须评估项目的具体要求，以确定使用非可调行程还是可调行程更能满足他们的需求。最终，选择非可调行程和可调行程之间的权衡取决于设计的目标。如果优先考虑一致性、可靠性和维护的便利性，通常首选非可调行程。另一方面，如果灵活性和适应性是必要的，工程师可能会选择允许行程调整的设计。总之，理解非可调行程的含义对任何参与机械设计和工程的人来说都是至关重要的。它突显了工程应用中精度的重要性，以及根据项目的具体需求在刚性和灵活性之间取得平衡的必要性。随着技术的不断发展，围绕固定和可调行程的原则将继续成为工程领域讨论的基础主题。