semi-automatic controller

简明释义

半自动控制器

英英释义

例句

1.The factory upgraded its machinery to include a semi-automatic controller, which allows for both manual and automated operation.

工厂升级了机械设备，增加了一个半自动控制器，允许手动和自动操作。

2.Using a semi-automatic controller in the assembly line improved efficiency by reducing the amount of manual labor required.

在装配线上使用半自动控制器提高了效率，减少了所需的人工劳动量。

3.Operators received training on how to use the semi-automatic controller effectively to maximize productivity.

操作员接受了如何有效使用半自动控制器以最大化生产力的培训。

4.The semi-automatic controller can adjust settings based on real-time data, making it ideal for dynamic environments.

该半自动控制器可以根据实时数据调整设置，非常适合动态环境。

5.The semi-automatic controller provides a balance between automation and human oversight in the production process.

在生产过程中，半自动控制器提供了自动化与人工监督之间的平衡。

作文

The advent of technology has significantly transformed various industries, leading to the development of advanced systems that enhance efficiency and precision. One such innovation is the semi-automatic controller, which plays a crucial role in many automated processes. A semi-automatic controller (半自动控制器) allows for a combination of manual and automatic operations, providing operators with greater flexibility and control over machinery and systems.In manufacturing, for instance, the use of a semi-automatic controller can streamline production lines. Operators can set certain parameters for the machine to operate automatically, while still retaining the ability to intervene manually when necessary. This hybrid approach not only improves productivity but also reduces the likelihood of errors that can occur in fully automated systems. For example, in assembly lines, workers can initiate the automatic process and then make adjustments as needed, ensuring that each product meets quality standards.Moreover, the versatility of a semi-automatic controller is evident in its application across various sectors, including automotive, aerospace, and electronics. In the automotive industry, these controllers are used in robotic arms that assist in assembling vehicles. The robots can perform repetitive tasks with high precision, while human operators can oversee the process, making necessary corrections in real-time. This synergy between human oversight and machine efficiency exemplifies the benefits of using a semi-automatic controller (半自动控制器).Another significant advantage of semi-automatic controllers is their ability to adapt to different operational conditions. For instance, in the field of agriculture, farmers utilize these controllers in irrigation systems. The system can be programmed to operate automatically based on weather conditions, yet farmers can manually adjust settings if unexpected changes occur. This adaptability ensures optimal resource use, especially in regions where water scarcity is a concern.Furthermore, semi-automatic controllers contribute to safety in various environments. In hazardous industries, such as chemical processing or mining, these controllers allow for remote operation of machinery. Operators can monitor and control equipment from a safe distance, minimizing the risk of accidents. By combining the reliability of automation with the necessary human intervention, semi-automatic controllers (半自动控制器) provide a balanced solution that prioritizes both efficiency and safety.In conclusion, the semi-automatic controller represents a significant advancement in technology that bridges the gap between manual and automated processes. Its applications in diverse fields highlight its versatility and effectiveness in enhancing productivity, ensuring quality, and promoting safety. As industries continue to evolve, the reliance on semi-automatic controllers will likely increase, paving the way for a more efficient and controlled operational future. Understanding and mastering the functionality of semi-automatic controllers (半自动控制器) is essential for professionals aiming to excel in technologically driven environments.

科技的出现显著改变了各个行业，导致先进系统的发展，从而提高了效率和精度。这样的创新之一是半自动控制器，它在许多自动化过程中发挥着至关重要的作用。半自动控制器（semi-automatic controller）允许手动和自动操作的结合，为操作员提供更大的灵活性和对机械和系统的控制。例如，在制造业中，使用半自动控制器可以简化生产线。操作员可以设置某些参数，使机器自动运行，同时仍然保留必要时手动干预的能力。这种混合方法不仅提高了生产力，还减少了在完全自动化系统中可能发生的错误。例如，在装配线上，工人可以启动自动过程，然后根据需要进行调整，以确保每个产品符合质量标准。此外，半自动控制器的多功能性在其在汽车、航空航天和电子等各个行业的应用中得以体现。在汽车行业，这些控制器用于协助组装车辆的机器人手臂。机器人可以高精度地执行重复任务，而人工操作员可以监督整个过程，实时进行必要的修正。这种人类监督与机器效率之间的协同作用体现了使用半自动控制器（semi-automatic controller）的好处。半自动控制器的另一个显著优势是其适应不同操作条件的能力。例如，在农业领域，农民利用这些控制器进行灌溉系统。该系统可以根据天气条件自动运行，但如果发生意外变化，农民可以手动调整设置。这种适应性确保了资源的最佳利用，特别是在水资源短缺的地区。此外，半自动控制器在各种环境中的安全性方面也有所贡献。在化学加工或采矿等危险行业，这些控制器允许远程操作机械。操作员可以在安全距离内监控和控制设备，从而最大限度地降低事故风险。通过将自动化的可靠性与必要的人为干预相结合，半自动控制器（semi-automatic controller）提供了一种优先考虑效率和安全性的平衡解决方案。总之，半自动控制器代表了一项重要的技术进步，弥合了手动和自动过程之间的差距。它在不同领域的应用突显了其多功能性和在提高生产力、确保质量和促进安全方面的有效性。随着行业的不断发展，对半自动控制器的依赖可能会增加，为更高效和受控的操作未来铺平道路。理解和掌握半自动控制器（semi-automatic controller）的功能对于希望在技术驱动环境中脱颖而出的专业人士来说至关重要。