height control

简明释义

高度控制

英英释义

例句

1.The new drone features advanced height control that allows it to maintain a stable altitude during flight.

这款新无人机具有先进的高度控制功能，可以在飞行过程中保持稳定的高度。

2.In construction, height control is crucial for ensuring that buildings are level and safe.

在建筑中，高度控制对于确保建筑物水平和安全至关重要。

3.The roller coaster's height control system ensures that riders experience thrilling drops without compromising safety.

过山车的高度控制系统确保乘客在体验刺激的下降时不影响安全。

4.The software includes a height control feature that adjusts the camera angle based on the subject's height.

该软件包括一个高度控制功能，根据主体的高度调整相机角度。

5.Farmers use height control technology in their tractors to optimize crop yields by maintaining the correct distance from the ground.

农民在他们的拖拉机中使用高度控制技术，通过保持与地面的正确距离来优化作物产量。

作文

In modern architecture and construction, the concept of height control plays a crucial role in ensuring that buildings are safe, aesthetically pleasing, and functional. Height control refers to the methods and technologies used to manage the vertical dimensions of structures, making sure they adhere to regulations and meet the needs of their occupants. This practice is vital not only for skyscrapers but also for residential buildings, bridges, and other infrastructures.One of the primary reasons for implementing height control is to comply with zoning laws and building codes. These regulations often dictate how tall a building can be based on its location, purpose, and the surrounding environment. For instance, in urban areas, where space is limited and buildings are densely packed, height control ensures that new constructions do not overshadow existing structures or infringe upon the rights of neighboring properties. By adhering to these regulations, architects and builders can avoid legal disputes and contribute to a harmonious urban landscape.Moreover, height control is essential for safety reasons. Taller buildings must be designed to withstand various environmental stresses, such as wind load and seismic activity. Engineers use sophisticated modeling techniques to predict how a structure will behave under different conditions, allowing them to determine the optimal height and design features. This careful planning helps prevent structural failures and protects the lives of those who inhabit or work in these buildings.In addition to safety and compliance, height control also impacts the functionality of a building. The height of a structure can influence its internal layout, accessibility, and energy efficiency. For example, a building that is too tall may require more elevators, leading to increased construction and maintenance costs. Conversely, a building that is not tall enough may not maximize its use of space, resulting in lost opportunities for rental income or business operations. Therefore, architects must carefully consider height control when designing a building to ensure it meets both practical and economic needs.Furthermore, height control is increasingly important in the context of sustainability. As cities grow and populations increase, there is a pressing need to build upwards rather than outwards. Vertical construction can help preserve green spaces and reduce urban sprawl, making it a more environmentally friendly option. However, this approach requires careful consideration of height control to ensure that taller buildings do not negatively impact local ecosystems or contribute to issues like heat islands.In conclusion, height control is an integral aspect of modern construction and urban planning. It encompasses a range of considerations, from legal compliance and safety to functionality and sustainability. As our cities continue to evolve, the importance of effective height control will only grow, making it a vital area of focus for architects, engineers, and policymakers alike. By mastering this concept, we can create built environments that are not only beautiful and functional but also safe and sustainable for future generations.

在现代建筑和施工中，高度控制的概念发挥着至关重要的作用，确保建筑物既安全又美观且功能齐全。高度控制是指用于管理结构垂直尺寸的方法和技术，确保它们遵循法规并满足居住者的需求。这一做法对摩天大楼、住宅建筑、桥梁和其他基础设施来说都是至关重要的。实施高度控制的主要原因之一是遵守区域法律和建筑规范。这些规定通常根据建筑物的位置、用途和周围环境规定建筑物的高度。例如，在城市地区，空间有限且建筑物密集，高度控制确保新建建筑不会遮挡现有结构或侵犯邻近财产的权利。通过遵循这些规定，建筑师和施工方可以避免法律纠纷，并为和谐的城市景观做出贡献。此外，高度控制对安全原因也至关重要。较高的建筑必须设计得能够承受各种环境压力，例如风载荷和地震活动。工程师使用复杂的建模技术来预测结构在不同条件下的表现，从而确定最佳的高度和设计特征。这种仔细的规划有助于防止结构故障，保护那些居住或工作在这些建筑中的人的生命安全。除了安全性和合规性，高度控制还会影响建筑的功能性。建筑的高度可能会影响其内部布局、可达性和能效。例如，一座建筑如果太高，可能需要更多的电梯，导致更高的建设和维护成本。相反，如果建筑不够高，可能无法最大化空间的使用，导致租金收入或商业运营的机会损失。因此，建筑师在设计建筑时必须仔细考虑高度控制，以确保其满足实用和经济需求。此外，在可持续发展的背景下，高度控制变得越来越重要。随着城市的增长和人口的增加，迫切需要向上建设而不是向外扩展。垂直建设可以帮助保护绿色空间，减少城市蔓延，因此是一种更环保的选择。然而，这种方法需要仔细考虑高度控制，以确保较高的建筑不会对当地生态系统产生负面影响或导致热岛效应等问题。总之，高度控制是现代建筑和城市规划的重要方面。它涵盖了一系列考虑因素，从法律合规性和安全性到功能性和可持续性。随着我们的城市不断发展，有效的高度控制的重要性只会增加，使其成为建筑师、工程师和政策制定者必须关注的重要领域。通过掌握这一概念，我们可以创造出不仅美观和功能齐全，而且对未来几代人安全和可持续的建筑环境。