master motor

简明释义

主发动机

英英释义

例句

1.To ensure safety, always check the master motor before starting the machinery.

为确保安全，启动机器之前一定要检查主电机。

2.The technician adjusted the settings on the master motor to improve the machine's efficiency.

技术员调整了主电机的设置，以提高机器的效率。

3.In robotics, the master motor controls the main movements of the robot.

在机器人技术中，主电机控制机器人的主要运动。

4.The factory upgraded its master motor to enhance production speed.

工厂升级了其主电机以提高生产速度。

5.The engineer explained how the master motor interacts with other components in the system.

工程师解释了主电机如何与系统中的其他组件互动。

作文

In the realm of machinery and robotics, the term master motor refers to a primary motor that controls the operation of other motors or components in a system. This concept is crucial for understanding how complex machines function efficiently. The master motor acts as the brain of the operation, coordinating the movements and actions of subordinate motors to achieve a desired outcome. By centralizing control, the master motor ensures that all parts of the machine work in harmony, reducing the risk of malfunction and improving overall performance.For instance, in an automated assembly line, the master motor might control several smaller motors that drive conveyor belts, robotic arms, and other machinery. When the master motor is activated, it sends signals to these subordinate motors, synchronizing their operations to move products efficiently from one station to another. This coordination is essential for maintaining production speed and quality.Moreover, the role of the master motor extends beyond mere coordination. It also plays a vital part in diagnostics and maintenance. Many modern systems equipped with a master motor come with built-in sensors that monitor performance and detect anomalies. If a subordinate motor begins to fail, the master motor can identify the issue and either alert operators or adjust its operation to compensate for the malfunction. This self-monitoring capability enhances the reliability of the entire system, minimizing downtime and repair costs.In addition to industrial applications, the concept of a master motor can also be seen in various technologies we encounter daily. For example, in electric vehicles, the main motor that drives the car can be considered a master motor. It regulates the power distribution to other systems, such as steering and braking mechanisms, ensuring that the vehicle operates smoothly and safely. This centralized control is what allows for advanced features like regenerative braking, where energy is recaptured during braking and sent back to the battery.Understanding the function of a master motor is essential for engineers and technicians working in fields related to automation and robotics. It highlights the importance of system integration and the need for effective communication between different components. As technology continues to evolve, the role of the master motor will likely expand, incorporating more sophisticated algorithms and artificial intelligence to enhance machine learning and adaptability.In conclusion, the master motor serves as a critical component in various mechanical systems, providing centralized control and coordination among multiple motors. Its ability to monitor performance, diagnose issues, and maintain operational efficiency makes it indispensable in modern engineering. As we move toward a future filled with increasingly complex machines, understanding the role of the master motor will be vital for innovation and progress in technology.

在机械和机器人领域，术语主电机指的是控制系统中其他电机或组件操作的主要电机。这个概念对于理解复杂机器如何高效运作至关重要。主电机充当操作的“大脑”，协调从属电机的运动和动作，以实现预期的结果。通过集中控制，主电机确保机器的所有部分和谐工作，降低故障风险，提高整体性能。例如，在自动化装配线上，主电机可能控制多个小型电机，这些电机驱动传送带、机器人手臂和其他机械设备。当主电机被激活时，它会向这些从属电机发送信号，同步它们的操作，以高效地将产品从一个站点移动到另一个站点。这种协调对于保持生产速度和质量至关重要。此外，主电机的角色不仅限于简单的协调。它在诊断和维护中也发挥着重要作用。许多现代系统都配备有主电机，内置传感器监测性能并检测异常。如果某个从属电机开始故障，主电机可以识别问题，并提醒操作员或调整其操作以补偿故障。这种自我监控能力增强了整个系统的可靠性，最小化了停机时间和维修成本。除了工业应用，主电机的概念也可以在我们日常遇到的各种技术中看到。例如，在电动车中，驱动车辆的主电机可以视为主电机。它调节功率分配给其他系统，如转向和制动机制，确保车辆平稳安全地运行。这种集中控制使得先进功能如再生制动成为可能，即在制动过程中回收能量并送回电池。理解主电机的功能对从事自动化和机器人相关领域的工程师和技术人员至关重要。它强调了系统集成的重要性，以及不同组件之间有效沟通的必要性。随着技术的不断发展，主电机的角色可能会扩大，结合更复杂的算法和人工智能，以增强机器学习和适应能力。总之，主电机作为各种机械系统中的关键组件，为多个电机提供集中控制和协调。它监测性能、诊断问题和维持操作效率的能力使其在现代工程中不可或缺。随着我们迈向一个充满日益复杂机器的未来，理解主电机的角色将是技术创新和进步的关键。