angle of hatch opening

简明释义

舱口盖开启角

英英释义

例句

1.The pilot adjusted the angle of hatch opening to ensure safe cargo unloading.

飞行员调整了舱口开启角度以确保安全卸货。

2.The engineer specified the angle of hatch opening for optimal ventilation in the design.

工程师为设计规定了舱口开启角度以实现最佳通风。

3.Before entering the submarine, the crew checked the angle of hatch opening to avoid flooding.

在进入潜艇之前，船员检查了舱口开启角度以避免进水。

4.During the inspection, they measured the angle of hatch opening for compliance with safety standards.

在检查过程中，他们测量了舱口开启角度以确保符合安全标准。

5.The angle of hatch opening affects how easily equipment can be loaded onto the ship.

舱口开启角度影响设备装载到船上的便利性。

作文

The operation of various machinery and vehicles often involves the use of hatches, which are openings that allow access to different compartments. One crucial aspect of managing these hatches is understanding the angle of hatch opening, or the specific degree to which a hatch can be opened. This angle is significant for several reasons, including safety, efficiency, and functionality. In many industrial settings, such as shipbuilding or aviation, the angle of hatch opening is carefully calculated to ensure that personnel can safely enter or exit a compartment without risking injury. For example, if a hatch opens too wide, it may create a hazard for workers who need to navigate around it. Conversely, if the hatch does not open wide enough, it could impede access, leading to delays in operations. Therefore, engineers must consider the optimal angle of hatch opening during the design phase of any project involving hatches.Moreover, the angle of hatch opening can affect the overall aerodynamics or hydrodynamics of a vehicle. In aviation, for instance, the way a hatch opens can influence airflow and potentially impact the aircraft's performance. Similarly, in marine vessels, a hatch that opens at an improper angle could disrupt water flow, affecting stability and speed. Hence, understanding the angle of hatch opening is vital for maintaining the integrity and performance of these vehicles.Another important consideration is the maintenance of hatches. Over time, wear and tear can alter the angle of hatch opening, causing it to become misaligned or difficult to operate. Regular inspections are necessary to ensure that the hatches function correctly and safely. If the angle becomes compromised, it may require adjustments or repairs to restore the hatch to its intended operational state. In addition to physical considerations, the angle of hatch opening also has implications for emergency procedures. In the event of an emergency, such as a fire or flooding, the ability to quickly and effectively open a hatch can be a matter of life and death. Emergency protocols often include specific instructions regarding the angle of hatch opening to ensure that exits remain accessible and safe for evacuation. Furthermore, the angle of hatch opening is not only relevant in industrial contexts but also in everyday applications. For example, the design of household appliances, such as ovens or washing machines, often incorporates hatches. The angle at which these doors open can greatly affect user convenience and safety. A door that opens fully allows for easy access to the interior, while one that does not may lead to awkward maneuvering or potential spills. In conclusion, the angle of hatch opening is a critical factor in the design, operation, and maintenance of various systems involving hatches. Understanding this concept helps ensure safety, efficiency, and functionality in both industrial and everyday contexts. Whether in a large-scale manufacturing facility or a simple kitchen appliance, the angle of hatch opening plays a significant role in how we interact with our environments. As technology continues to advance, the principles governing the angle of hatch opening will undoubtedly evolve, leading to even more innovative designs and applications.

各种机械和车辆的操作通常涉及舱口的使用，舱口是允许访问不同舱室的开口。管理这些舱口的一个关键方面是理解舱口开启角度，即舱口可以打开的具体度数。这个角度对于安全、效率和功能性等多个原因都很重要。在许多工业环境中，例如造船或航空，舱口开启角度被仔细计算，以确保工作人员可以安全地进出舱室，而不会有受伤的风险。例如，如果舱口打开得太宽，可能会给需要在其周围移动的工人造成危险。相反，如果舱口打开得不够宽，可能会妨碍进入，导致操作延误。因此，工程师在涉及舱口的任何项目的设计阶段必须考虑最佳的舱口开启角度。此外，舱口开启角度还会影响车辆的整体空气动力学或水动力学。在航空领域，例如，舱口的开启方式可能会影响气流，并可能影响飞机的性能。同样，在海洋船只中，打开角度不当的舱口可能会扰乱水流，影响稳定性和速度。因此，理解舱口开启角度对维持这些车辆的完整性和性能至关重要。另一个重要的考虑因素是舱口的维护。随着时间的推移，磨损可能会改变舱口开启角度，导致其变得不对齐或难以操作。定期检查是必要的，以确保舱口正常、安全地运行。如果角度受到影响，可能需要进行调整或维修，以恢复舱口的预期操作状态。除了物理考虑外，舱口开启角度还对紧急程序产生影响。在紧急情况下，例如火灾或洪水，快速有效地打开舱口的能力可能是生死攸关的问题。紧急协议通常包括有关舱口开启角度的具体指示，以确保出口保持可访问和安全，以便进行疏散。此外，舱口开启角度不仅在工业背景下相关，也适用于日常应用。例如，家用电器的设计，如烤箱或洗衣机，通常包含舱口。这些门的开启角度可以极大地影响用户的便利性和安全性。完全打开的门便于进入内部，而未完全打开的门可能会导致笨拙的操作或潜在的溢出。总之，舱口开启角度是涉及舱口的各种系统的设计、操作和维护中的一个关键因素。理解这一概念有助于确保在工业和日常背景中的安全、效率和功能性。无论是在大型制造设施还是简单的厨房电器中，舱口开启角度在我们与环境互动的方式中扮演着重要角色。随着技术的不断进步，决定舱口开启角度的原则无疑会不断发展，带来更具创新性的设计和应用。