grasper

简明释义

英[ˈɡræspər]美[ˈɡræspər]

n. 抓紧器

英英释义

单词用法

同义词

反义词

例句

1.Examples of medical end effectors include, without limitation, a medical grasper and a medical snare.

医疗端部执行器的例子包括但不限于医疗抓钳和医疗圈套器。

2.Examples of medical end effectors include, without limitation, a medical grasper and a medical snare.

医疗端部执行器的例子包括但不限于医疗抓钳和医疗圈套器。

3.A construction of high reliable tool grasper suitable for high speed ATC is also introduced.

介绍了一种适用于高速atc的高可靠性抓刀结构。

4.The surgeon used a grasper to hold the tissue in place during the operation.

外科医生使用了一个抓持器来在手术中固定组织。

5.In robotics, a grasper is essential for manipulating objects.

在机器人技术中，抓取器对于操控物体是必不可少的。

6.The technician replaced the old grasper with a more advanced model.

技术员将旧的抓持器更换为更先进的型号。

7.A flexible grasper can reach tight spaces that rigid tools cannot.

灵活的抓持器可以到达刚性工具无法触及的狭小空间。

8.The grasper was designed to minimize damage to delicate structures.

这个抓持器的设计旨在尽量减少对精细结构的损害。

作文

In the world of robotics and automation, the term grasper refers to a device or mechanism designed to grasp or hold objects. These tools are pivotal in various industries, ranging from manufacturing to surgery. The function of a grasper is not only to pick up items but also to manipulate them with precision and care. For instance, in surgical robotics, a grasper can be used to hold tissues or organs during complex procedures, allowing surgeons to perform intricate tasks that would otherwise be impossible with human hands alone. The design of a grasper often incorporates advanced materials and technologies to ensure a secure grip while minimizing potential damage to the object being handled. In many cases, a grasper is equipped with sensors that provide feedback on the pressure applied, enabling it to adjust its grip accordingly. This adaptability is crucial in delicate operations where too much force could lead to disastrous outcomes. Moreover, the applications of graspers extend beyond the medical field. In manufacturing, robotic arms fitted with graspers are utilized on assembly lines to improve efficiency and reduce human error. These machines can work tirelessly, performing repetitive tasks with remarkable speed and accuracy. The integration of graspers in production lines has revolutionized industries, allowing for higher output rates and lower costs. In recent years, research into artificial intelligence has further enhanced the capabilities of graspers. With machine learning algorithms, these devices can learn from their environment and improve their performance over time. For example, a robotic grasper might analyze various shapes and sizes of objects to better understand how to manipulate them effectively. This evolution towards smarter graspers signifies a major leap forward in technology, paving the way for more sophisticated robotic systems. However, the development of graspers is not without challenges. One of the primary concerns is ensuring that these devices can operate safely alongside humans. As robots become more prevalent in workplaces, it is essential to establish protocols that protect workers from potential accidents. Engineers and designers must take into account the dynamics of human-robot interaction to create graspers that can function harmoniously in shared spaces. In conclusion, the role of a grasper in modern technology cannot be overstated. From enhancing surgical procedures to streamlining manufacturing processes, these devices are integral to numerous fields. As advancements continue, we can expect graspers to become even more sophisticated, ultimately transforming the way we interact with machines and improving the efficiency of various tasks. Understanding the significance and functionality of a grasper is essential for anyone interested in the future of robotics and automation, as they represent a critical component of this rapidly evolving landscape.

在机器人和自动化的世界中，术语grasper指的是一种设计用于抓取或持有物体的设备或机制。这些工具在各个行业中至关重要，从制造业到外科手术。grasper的功能不仅是拾起物品，还能精确且小心地操纵它们。例如，在外科机器人中，grasper可以用来在复杂手术过程中抓住组织或器官，使外科医生能够执行人类双手无法完成的精细任务。 grasper的设计通常采用先进的材料和技术，以确保安全抓握，同时最小化对被处理物体的潜在损害。在许多情况下，grasper配备了传感器，提供施加压力的反馈，从而使其能够相应地调整抓握。这种适应性在精细操作中至关重要，因为过大的力量可能导致灾难性的后果。 此外，grasper的应用超出了医疗领域。在制造业中，配备了grasper的机器人手臂被用于生产线，提高效率并减少人为错误。这些机器可以不知疲倦地工作，以惊人的速度和准确性执行重复任务。grasper在生产线中的整合彻底改变了各个行业，使得产出率更高、成本更低。 近年来，对人工智能的研究进一步增强了grasper的能力。凭借机器学习算法，这些设备可以从环境中学习并随着时间的推移提高其性能。例如，一个机器人grasper可能会分析各种形状和尺寸的物体，以更好地理解如何有效地操纵它们。这种向更智能的grasper的演变标志着技术的重大飞跃，为更复杂的机器人系统铺平了道路。 然而，grasper的发展并非没有挑战。一个主要的担忧是确保这些设备能够安全地与人类一起工作。随着机器人在工作场所的普遍应用，建立保护工人免受潜在事故的协议至关重要。工程师和设计师必须考虑人机交互的动态，以创造能够在共享空间中和谐运作的grasper。 总之，grasper在现代技术中的角色不可低估。从增强外科手术到简化制造过程，这些设备在众多领域中都是不可或缺的。随着技术的不断进步，我们可以期待grasper变得更加复杂，最终改变我们与机器的互动方式，提高各种任务的效率。理解grasper的重要性和功能，对于任何对机器人和自动化未来感兴趣的人来说都是必不可少的，因为它们代表了这一快速发展的领域的关键组成部分。