reciprocator

简明释义

英[rɪˈsɪprəkeɪtə(r)]美[rɪˈsɪprəˌkeɪtər]

n. 报答者；往复机构

英英释义

单词用法

同义词

反义词

例句

1.Reciprocator cutter works in lower speed and the quality of cutting is not very good. But it is simple and it can be produced very long and large which is very important to harvest rice or wheat.

切割速度较低，切割质量也不是很好，但优点是结构简单，可以做的比较大，适合收获谷物或牧草。

2.Reciprocator cutter works in lower speed and the quality of cutting is not very good. But it is simple and it can be produced very long and large which is very important to harvest rice or wheat.

切割速度较低，切割质量也不是很好，但优点是结构简单，可以做的比较大，适合收获谷物或牧草。

3.Since the Reciprocator does not require electricity, there is no chance of spark generation, making it ideal for hazardous environment use.

由于往复不需要电力，没有产生火花的机会，因此非常适合危险环境中使用决策。

4.Series: Tiny Titan, e, Reciprocator, Rod Locks.

系列：微型土卫六，电子，往复，杆锁。

5.The reciprocator in the machine allowed for precise movements during the manufacturing process.

机器中的往复器使制造过程中能够进行精确的移动。

6.The engineer designed a new reciprocator to improve the efficiency of the assembly line.

工程师设计了一个新的往复器以提高装配线的效率。

7.The reciprocator was responsible for the smooth operation of the conveyor belt.

该往复器负责输送带的平稳运行。

8.In robotics, a reciprocator is essential for converting rotary motion into linear motion.

在机器人技术中，往复器对于将旋转运动转换为线性运动至关重要。

9.We need to replace the worn-out reciprocator to maintain optimal performance.

我们需要更换磨损的往复器以保持最佳性能。

作文

Reciprocator is a term that often refers to a mechanism or device that moves back and forth in a linear motion. In engineering, a reciprocator is essential for converting rotary motion into linear motion, which is crucial in various applications, including engines and pumps. Understanding the function and design of a reciprocator can provide insights into the workings of many machines we encounter in our daily lives.For instance, consider the internal combustion engine of a car. The pistons inside the engine act as reciprocators, moving up and down within the cylinder. This linear motion is generated by the combustion of fuel, which pushes the piston down and then allows it to return to its original position due to the force of the crankshaft. This cycle of movement is vital for the engine's operation, demonstrating how reciprocators play a significant role in mechanical systems.Moreover, reciprocators are not limited to automotive applications. They can be found in various machinery, such as industrial robots, where they facilitate tasks like welding, painting, and assembly. In these scenarios, the reciprocator enhances efficiency by allowing precise control over the movement of tools and components, thereby improving productivity in manufacturing processes.The concept of a reciprocator extends beyond mechanical devices; it can also be applied metaphorically in social interactions. For example, in relationships, the idea of reciprocity is fundamental. When one party contributes positively to a relationship, the expectation is that the other party will reciprocate those actions. This principle of mutual exchange can lead to stronger bonds and a more harmonious environment, whether in personal or professional settings.In the context of education, a reciprocator can symbolize the exchange of knowledge between teachers and students. Effective learning occurs when both parties engage in a reciprocal process, where students actively participate in discussions and teachers provide feedback. This dynamic creates a rich learning environment that fosters growth and understanding.Furthermore, the importance of reciprocators can be observed in nature. Ecosystems thrive on the principle of reciprocity, where different species interact in ways that benefit one another. Pollinators, for example, rely on flowers for nectar while simultaneously aiding in their reproduction. This symbiotic relationship exemplifies how reciprocators operate not only in machines but also in the intricate web of life.In conclusion, the term reciprocator encompasses a broad range of meanings and applications, from mechanical devices that convert motion to social interactions that emphasize mutual exchange. By understanding the various contexts in which reciprocators function, we can appreciate their significance in both technology and human relationships. Whether in engineering, education, or nature, the principle of reciprocity remains a fundamental aspect of our world, highlighting the interconnectedness of all things.

Reciprocator是一个术语，通常指一种在直线运动中来回移动的机制或装置。在工程学中，reciprocator对于将旋转运动转换为线性运动至关重要，这在包括发动机和泵在内的各种应用中都是非常重要的。理解reciprocator的功能和设计可以提供对我们日常生活中遇到的许多机器工作原理的深入了解。例如，考虑汽车的内燃机。发动机内部的活塞充当reciprocator，在气缸内上下移动。这种线性运动是由燃料的燃烧产生的，燃烧推动活塞向下，然后由于曲轴的作用使其返回到原始位置。这种运动循环对于发动机的运作至关重要，展示了reciprocators在机械系统中的重要角色。此外，reciprocators并不限于汽车应用。它们可以在各种机器中找到，例如工业机器人，在这些机器中，它们促进焊接、喷涂和组装等任务。在这些情况下，reciprocator通过允许对工具和组件的运动进行精确控制，从而提高生产效率。reciprocator的概念超越了机械设备；它也可以在社会互动中隐喻性地应用。例如，在人际关系中，互惠的理念是基础。当一方对关系做出积极贡献时，期望另一方会回应这些行为。这种相互交换的原则可以导致更强的纽带和更和谐的环境，无论是在个人还是职业设置中。在教育的背景下，reciprocator可以象征教师与学生之间知识的交流。有效的学习发生在双方参与互惠过程时，学生积极参与讨论，教师提供反馈。这种动态创造了一个丰富的学习环境，促进了成长和理解。此外，reciprocators的重要性可以在自然界中观察到。生态系统依赖于互惠的原则，不同物种以有利于彼此的方式互动。例如，授粉者依靠花朵获取花蜜，同时帮助其繁殖。这种共生关系例证了reciprocators不仅在机器中运作，也在生命的复杂网络中运作。总之，reciprocator这个术语涵盖了广泛的含义和应用，从转换运动的机械设备到强调相互交换的社会互动。通过理解reciprocators运作的各种背景，我们可以欣赏它们在技术和人际关系中的重要性。无论是在工程、教育还是自然界，互惠的原则仍然是我们世界的基本方面，突显了万物之间的相互联系。