deadman method
简明释义
锤回吊货法
英英释义
例句
1.The deadman method 死人的方法 is crucial in ensuring safety when working with hazardous materials.
在处理危险材料时,deadman method 死人的方法至关重要以确保安全。
2.When flying a drone, applying the deadman method 死人的方法 can prevent accidents if the operator loses control.
在飞行无人机时,应用deadman method 死人的方法可以防止操作员失去控制时发生事故。
3.In construction, the use of the deadman method 死人的方法 helps ensure that heavy equipment is securely anchored.
在建筑中,使用deadman method 死人的方法有助于确保重型设备安全固定。
4.The lifeguard used the deadman method 死人的方法 to ensure that the rescue buoy was always within reach.
救生员使用deadman method 死人的方法确保救生浮标始终在可及范围内。
5.Using the deadman method 死人的方法 in rail transport can help in automatic braking systems.
在铁路运输中使用deadman method 死人的方法有助于自动制动系统。
作文
The concept of the deadman method is often used in various fields, particularly in engineering and safety protocols. This method refers to a fail-safe mechanism designed to ensure that a system or process will come to a halt if the operator becomes incapacitated or fails to perform their duties. The term 'deadman' originates from the idea that if a person were to die or become unable to control a machine, the machine would automatically stop functioning to prevent accidents or hazards. This principle is crucial in many industries, especially those involving heavy machinery or hazardous materials.In the context of transportation, for instance, the deadman method is commonly seen in the operation of trains. Many train systems are equipped with a deadman switch, which requires the conductor to maintain pressure on a lever or button. If the conductor releases this pressure, whether due to unconsciousness or any other reason, the train will automatically apply the brakes. This mechanism significantly enhances safety by ensuring that a train cannot run unattended, thus preventing potential disasters.Similarly, in the realm of industrial machinery, the deadman method plays a vital role in safeguarding workers. For example, certain power tools are designed with a deadman switch that must be actively held down while the tool is in use. If the operator loses grip or becomes unable to hold the switch, the tool will shut off immediately. This feature not only protects the user but also minimizes the risk of accidents in the workplace.The importance of the deadman method extends beyond just mechanical applications; it also applies to various safety protocols in emergency situations. In many scenarios, emergency shutdown procedures incorporate elements of the deadman principle. For instance, in a chemical plant, operators may be required to monitor certain parameters continuously. If an operator fails to respond to alarms or becomes unresponsive, an automated system can trigger shutdown procedures to mitigate risks associated with chemical spills or explosions.However, while the deadman method is an effective safety measure, it is not without its challenges. One of the main criticisms is that reliance on such systems can lead to complacency among operators. If workers believe that the deadman switch will always save them, they may become less vigilant about monitoring their surroundings and adhering to safety protocols. Therefore, it is crucial for organizations to balance the implementation of the deadman method with comprehensive training and a strong safety culture.In conclusion, the deadman method serves as a critical component in enhancing safety across various industries. By ensuring that systems can automatically shut down when operators are incapacitated, this method helps prevent accidents and protect lives. However, it is essential for organizations to foster a culture of safety that encourages active engagement and awareness among workers. Ultimately, the effectiveness of the deadman method lies not only in its design but also in the commitment of individuals to uphold safety standards.
“死手法”这一概念常用于多个领域,特别是在工程和安全协议中。该方法指的是一种故障安全机制,旨在确保如果操作员失去能力或未能履行职责,系统或过程将自动停止运作。“死手”一词源于这样一个想法:如果某人死亡或无法控制机器,该机器将自动停止运作,以防止事故或危险。这一原则在许多行业中至关重要,尤其是涉及重型机械或危险材料的行业。以交通运输为例,“死手法”在火车的操作中尤为常见。许多列车系统配备了一个死手开关,要求列车长保持对杠杆或按钮的压力。如果列车长释放这一压力,无论是由于失去知觉还是其他原因,列车将自动刹车。这个机制通过确保列车无法无人驾驶,从而大大增强了安全性,防止潜在的灾难。同样,在工业机械领域,“死手法”在保护工人方面发挥着重要作用。例如,某些电动工具设计有死手开关,必须在使用时持续按下。如果操作员失去握持能力或无法保持开关,工具将立即关闭。这个特性不仅保护了用户,还最大限度地减少了工作场所的事故风险。“死手法”的重要性不仅限于机械应用;它还适用于应急情况下的各种安全协议。在许多情况下,紧急停机程序包含了死手原则的元素。例如,在化学工厂,操作员可能被要求持续监测某些参数。如果操作员未能对警报做出反应或变得无反应,自动系统可以触发停机程序,以降低与化学泄漏或爆炸相关的风险。然而,尽管“死手法”是一种有效的安全措施,但它并非没有挑战。主要的批评之一是,过于依赖这样的系统可能导致操作员产生自满。如果工人认为死手开关总能拯救他们,他们可能会对监控周围环境和遵守安全协议变得不那么警惕。因此,组织必须平衡实施“死手法”和全面培训及强大的安全文化。总之,“死手法”作为提高各行业安全性的关键组成部分,通过确保系统在操作员失去能力时能够自动关闭,帮助防止事故和保护生命。然而,组织必须培养一种安全文化,鼓励工人积极参与和保持警觉。最终,“死手法”的有效性不仅在于其设计,还在于个人对维护安全标准的承诺。
