maximum workpiece weight

简明释义

工作最大重量

英英释义

例句

1.Before operating the lathe, always check the maximum workpiece weight 最大工件重量 to avoid damaging the equipment.

在操作车床之前，务必检查最大工件重量以避免损坏设备。

2.To ensure safety, never exceed the maximum workpiece weight 最大工件重量 recommended by the manufacturer.

为了确保安全，切勿超过制造商推荐的最大工件重量。

3.The robotic arm can lift items with a maximum workpiece weight 最大工件重量 of 250 kg.

这只机器手臂可以搬运重量为250公斤的物品，其最大工件重量。

4.The CNC machine has a maximum workpiece weight 最大工件重量 of 500 kg, ensuring it can handle large materials.

这台数控机床的最大工件重量为500公斤，确保它可以处理大型材料。

5.The specifications state that the maximum workpiece weight 最大工件重量 for this milling machine is 300 kg.

规格说明书指出这台铣床的最大工件重量为300公斤。

作文

In the realm of manufacturing and engineering, understanding the concept of maximum workpiece weight is crucial for the successful operation of machinery and the safety of personnel. The term maximum workpiece weight refers to the heaviest load that a machine or tool can handle without risking damage to itself or compromising the integrity of the production process. This concept is particularly significant in industries where heavy materials are processed, such as metalworking, woodworking, and construction.When designing or selecting machinery, engineers must consider the maximum workpiece weight to ensure that the equipment can safely manage the loads it will encounter during operation. For example, a CNC (Computer Numerical Control) machine may have a specified maximum workpiece weight that dictates how heavy the raw material can be. Exceeding this limit could lead to mechanical failure, reduced precision, or even accidents that could injure operators.Moreover, the implications of the maximum workpiece weight extend beyond just the machinery itself; they also affect workflow and productivity. If a machine can only accommodate lighter workpieces, manufacturers may need to invest in additional equipment or adjust their processes to handle heavier materials. This can increase costs and lead to inefficiencies in production schedules.In addition to operational considerations, the maximum workpiece weight has safety implications. Knowledge of this limit helps to prevent overloading machines, which can result in catastrophic failures. For instance, if a crane is lifting a load that exceeds its maximum workpiece weight, it risks dropping the load, causing damage to property and potential harm to workers nearby. Therefore, adhering to the specified limits is not only a matter of operational efficiency but also of workplace safety.Furthermore, different materials have different weights and densities, which means that the maximum workpiece weight must be calculated based on the specific material being used. For example, a piece of aluminum may weigh significantly less than an equivalent size of steel. Thus, understanding the properties of the materials involved is essential when determining the appropriate maximum workpiece weight for a given task.In summary, the concept of maximum workpiece weight plays a critical role in manufacturing and engineering. It influences machine design, operational efficiency, and safety protocols. By understanding and respecting these weight limits, manufacturers can optimize their processes, ensure the longevity of their equipment, and maintain a safe working environment. As industries continue to evolve with advancements in technology, the importance of accurately assessing and applying the maximum workpiece weight will remain a fundamental aspect of successful manufacturing practices.

在制造和工程领域，理解最大工件重量的概念对于机器的成功操作和人员的安全至关重要。术语最大工件重量指的是机器或工具能够处理的最重负载，而不危及自身的损坏或妨碍生产过程的完整性。这个概念在金属加工、木材加工和建筑等重材料加工的行业中特别重要。在设计或选择机械时，工程师必须考虑最大工件重量，以确保设备能够安全地管理在操作过程中将遇到的负载。例如，CNC（计算机数控）机床可能有一个指定的最大工件重量，这决定了原材料的重量可以有多重。超过这个限制可能导致机械故障、精度降低，甚至发生可能伤害操作员的事故。此外，最大工件重量的影响不仅限于机械本身；它们还影响工作流程和生产力。如果一台机器只能容纳较轻的工件，制造商可能需要投资额外的设备或调整他们的工艺来处理更重的材料。这可能会增加成本并导致生产计划中的低效率。除了操作考虑之外，最大工件重量还有安全隐患。了解这个限制有助于防止机器超载，这可能导致灾难性的故障。例如，如果一台起重机正在提升超过其最大工件重量的负载，它就有掉落负载的风险，可能造成财产损失和对附近工人的潜在伤害。因此，遵守规定的限制不仅是操作效率的问题，也是工作场所安全的问题。此外，不同的材料具有不同的重量和密度，这意味着必须根据所使用的特定材料来计算最大工件重量。例如，一块铝的重量可能远低于相同尺寸的钢。因此，了解所涉及材料的特性在确定给定任务的适当最大工件重量时至关重要。总之，最大工件重量的概念在制造和工程中发挥着关键作用。它影响机器设计、操作效率和安全协议。通过理解和遵守这些重量限制，制造商可以优化他们的工艺，确保设备的使用寿命，并维护安全的工作环境。随着工业随着技术进步而不断发展，准确评估和应用最大工件重量的重要性将继续作为成功制造实践的基本方面。