man-machine maintainability

简明释义

人-机维修工程学

英英释义

例句

1.Regular assessments of man-machine maintainability can lead to more efficient workflows.

定期评估人机维护性可以带来更高效的工作流程。

2.The design of the new robotic arm focuses on improving man-machine maintainability to reduce downtime.

新型机械臂的设计专注于提高人机维护性，以减少停机时间。

3.Training operators on man-machine maintainability ensures they can quickly address issues that arise.

对操作员进行人机维护性培训，确保他们能够迅速解决出现的问题。

4.Incorporating feedback from users can enhance man-machine maintainability in future designs.

整合用户反馈可以在未来设计中增强人机维护性。

5.The software update improved man-machine maintainability, allowing for easier troubleshooting.

软件更新改善了人机维护性，使故障排查更加容易。

作文

In today's rapidly evolving technological landscape, the concept of man-machine maintainability (人机可维护性) has become increasingly significant. This term refers to the ease with which a human operator can interact with and maintain a machine or system. Effective man-machine maintainability ensures that users can efficiently operate, troubleshoot, and repair systems, leading to enhanced productivity and reduced downtime.One of the primary reasons why man-machine maintainability is crucial is the growing complexity of modern machinery. As technology advances, machines are equipped with sophisticated features and functionalities that can be daunting for operators. If a machine is difficult to maintain or requires specialized knowledge, it can lead to significant operational inefficiencies. Therefore, manufacturers must prioritize man-machine maintainability in their designs, ensuring that machines are user-friendly and intuitive.Moreover, the importance of man-machine maintainability extends beyond just usability; it also encompasses safety. A well-designed system should allow operators to perform maintenance tasks without risking injury. For instance, machinery that requires extensive disassembly for routine maintenance can pose hazards to workers. By implementing principles of man-machine maintainability, designers can create systems that facilitate safe and straightforward access to components requiring regular inspection or replacement.Training is another critical aspect of achieving optimal man-machine maintainability. Even the most user-friendly machines can pose challenges if operators are not adequately trained. Organizations must invest in comprehensive training programs that equip employees with the necessary skills to operate and maintain machinery effectively. This investment not only enhances the workforce's capabilities but also ensures that machines are used to their full potential, minimizing the risk of errors that could lead to costly repairs or accidents.Furthermore, feedback from operators plays a vital role in improving man-machine maintainability. Operators often have firsthand experience with the challenges and limitations of a system. By actively seeking their input during the design and development process, manufacturers can identify potential issues and address them before the product reaches the market. This collaborative approach fosters a culture of continuous improvement, ensuring that machines evolve alongside user needs and preferences.In conclusion, man-machine maintainability (人机可维护性) is an essential consideration in the design and operation of modern machinery. It encompasses usability, safety, training, and feedback, all of which contribute to the overall effectiveness and efficiency of systems. As technology continues to advance, prioritizing man-machine maintainability will be crucial in ensuring that machines remain accessible and manageable for human operators. By doing so, organizations can enhance productivity, improve safety, and ultimately achieve greater success in their operations.

在当今快速发展的技术环境中，人机可维护性（man-machine maintainability）这一概念变得越来越重要。这个术语指的是人类操作员与机器或系统的交互和维护的便利性。有效的人机可维护性确保用户能够高效地操作、排除故障和修理系统，从而提高生产力并减少停机时间。人机可维护性至关重要的一个主要原因是现代机械的复杂性日益增加。随着技术的发展，机器配备了复杂的功能和特性，这可能令操作员感到畏惧。如果一台机器难以维护或需要专业知识，这可能导致显著的操作效率低下。因此，制造商必须在设计中优先考虑人机可维护性，确保机器对用户友好且直观。此外，人机可维护性的重要性不仅限于可用性；它还涉及安全性。一个设计良好的系统应该允许操作员在不冒险受伤的情况下进行维护任务。例如，需要广泛拆卸才能进行常规维护的机器可能会对工人构成危险。通过实施人机可维护性的原则，设计师可以创建便于安全和简单访问需要定期检查或更换的组件的系统。培训是实现最佳人机可维护性的另一个关键方面。即使是最用户友好的机器，如果操作员没有接受适当的培训，也可能会带来挑战。组织必须投资于全面的培训计划，使员工具备有效操作和维护机械所需的技能。这项投资不仅增强了员工的能力，还确保机器得到充分利用，最大程度地减少可能导致昂贵维修或事故的错误风险。此外，来自操作员的反馈在改善人机可维护性方面发挥着至关重要的作用。操作员通常对系统的挑战和局限性有第一手的经验。通过在设计和开发过程中积极寻求他们的意见，制造商可以识别潜在问题并在产品上市前加以解决。这种协作方法促进了持续改进的文化，确保机器随着用户需求和偏好的变化而不断演变。总之，人机可维护性（man-machine maintainability）是现代机械设计和操作中的一个重要考虑因素。它涵盖了可用性、安全性、培训和反馈，所有这些都为系统的整体有效性和效率做出了贡献。随着技术的不断进步，优先考虑人机可维护性将对确保机器对人类操作员保持可接近和可管理至关重要。通过这样做，组织可以提高生产力、改善安全性，并最终在运营中取得更大的成功。