movable support

简明释义

可动支架

英英释义

例句

1.The architect proposed a movable support system for the roof to allow for natural ventilation.

建筑师提出了一个可移动支撑系统，用于屋顶，以允许自然通风。

2.The new office design includes a movable support for the monitor that allows for better ergonomics.

新办公室设计包括一个可移动支撑，用于显示器，以提供更好的人体工程学。

3.The artist used a movable support to easily adjust the canvas while painting.

艺术家使用了一个可移动支撑，以便在绘画时轻松调整画布。

4.She appreciated the movable support on her wheelchair, which made navigating tight spaces easier.

她很感激轮椅上的可移动支撑，这使得在狭小空间中导航变得更加容易。

5.In the workshop, we installed a movable support for the heavy machinery to enhance flexibility.

在车间，我们安装了一个可移动支撑，以增强重型机械的灵活性。

作文

In our rapidly evolving world, the concept of a movable support (可移动支撑) has gained significant importance across various fields. From architecture to technology, the ability to adapt and change is crucial for progress and innovation. A movable support can be seen as a versatile tool that not only provides stability but also enhances flexibility in design and functionality.Take, for instance, the architectural realm where buildings must withstand different environmental conditions. Traditional structures often rely on fixed supports, which can limit their adaptability over time. However, with the integration of movable supports (可移动支撑), architects can create dynamic spaces that respond to the needs of their occupants. These supports can adjust their position or configuration based on various factors such as weather changes or the specific requirements of an event. This adaptability allows for more sustainable designs that can evolve without the need for complete reconstruction.Moreover, in the field of robotics, movable supports (可移动支撑) play a pivotal role in enhancing the functionality of machines. Robots equipped with adjustable supports can navigate diverse terrains and perform tasks that require a high degree of precision. For example, robotic arms used in manufacturing often employ movable supports to reach different angles and positions, thereby increasing their efficiency and productivity. This innovation not only streamlines operations but also reduces the risk of human error, showcasing the practical benefits of incorporating movable supports in technology.In education, the idea of a movable support (可移动支撑) can be applied to learning environments. Classrooms designed with flexible furniture allow for various configurations, catering to different teaching styles and learning activities. Students can collaborate in groups or work individually, depending on the lesson plan. This flexibility encourages engagement and creativity, as learners are not confined to a static setting. By utilizing movable supports, educational institutions can foster a more dynamic and interactive learning experience.Furthermore, the healthcare sector has also benefited from the concept of movable supports (可移动支撑). Hospitals and clinics are increasingly adopting modular designs that allow for the reconfiguration of spaces based on patient needs. For example, during a health crisis, areas can be transformed to accommodate more patients or provide specialized care. The use of movable supports ensures that healthcare facilities can swiftly adapt to changing circumstances, ultimately improving patient outcomes.In conclusion, the significance of movable supports (可移动支撑) extends beyond mere physical structures; it embodies a philosophy of adaptability and responsiveness. Whether in architecture, technology, education, or healthcare, the ability to shift and modify supports is essential for fostering innovation and meeting the demands of an ever-changing world. As we continue to embrace this concept, we pave the way for more sustainable, efficient, and effective solutions that enhance our daily lives.

在我们快速发展的世界中，可移动支撑的概念在各个领域变得越来越重要。从建筑到技术，适应和变化的能力对进步和创新至关重要。可移动支撑可以被视为一种多功能工具，它不仅提供稳定性，还增强了设计和功能上的灵活性。以建筑领域为例，建筑物必须承受不同的环境条件。传统结构通常依赖于固定支撑，这可能限制它们随时间的适应性。然而，通过整合可移动支撑，建筑师可以创造出动态空间，以响应其居住者的需求。这些支撑可以根据天气变化或事件的具体要求调整其位置或配置。这种适应性允许更可持续的设计，可以在不需要完全重建的情况下发展。此外，在机器人技术领域，可移动支撑在增强机器功能方面发挥着关键作用。配备可调支撑的机器人可以在不同的地形上导航，并执行需要高精度的任务。例如，用于制造的机器人手臂经常使用可移动支撑来达到不同的角度和位置，从而提高其效率和生产力。这一创新不仅简化了操作，还减少了人为错误的风险，展示了将可移动支撑融入技术的实际好处。在教育中，可移动支撑的理念可以应用于学习环境。设计灵活家具的教室允许各种配置，以满足不同的教学风格和学习活动。学生可以根据课程计划以小组合作或单独工作。这种灵活性鼓励参与和创造力，因为学习者不再局限于静态环境。通过利用可移动支撑，教育机构可以培养更加动态和互动的学习体验。此外，医疗行业也从可移动支撑中受益匪浅。医院和诊所越来越多地采用模块化设计，根据患者需求重新配置空间。例如，在健康危机期间，区域可以转变为容纳更多患者或提供专业护理。使用可移动支撑确保医疗设施能够迅速适应变化的情况，最终改善患者的治疗效果。总之，可移动支撑的重要性超越了单纯的物理结构；它体现了一种适应性和响应性的理念。无论是在建筑、技术、教育还是医疗领域，移动和修改支撑的能力对于促进创新和满足不断变化的世界的需求至关重要。随着我们继续接受这一概念，我们为更可持续、高效和有效的解决方案铺平了道路，从而提升我们的日常生活。