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2017年，为帮助企业在《中国制造2025》大环境下快速把握智能制造机遇，研究全面升级，在传统业务的基础上新推出《“智能制造工程”——全产业链发展指南》（《中国制造2025》研究体系），分为八大板块，智能制造政策及技术、智能装备、工业软件、工业云和大数据、工业互联网、智能服务、智能工厂、十大重点领域及其他，并且已经为部分企业提供了有效的研究方案。

In 2017, in order to help enterprises to quickly grasp the opportunities for intelligent manufacturing under the "Made in China 2025", the research has been fully upgraded, introduced “Intelligent Manufacturing Engineering” - Guide whole of industry chain development, research structure of Made in China 2025, which are based on the traditional business, while it is divided into eight parts, intelligent manufacturing policies and technologies, intelligent equipment, industrial software, industrial clouds and large data, industrial internet, intelligent services, intelligent factories, ten key areas and others, and we have provided effective research solutions to partly enterprises.

2017/10/25
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流体肌肉(2)Fluidic muscle: 气动装置的“流体肌肉”是一个全新的气动驱动器，由Festo公司开发研制。它的仿生肌主要是一个中空的橡胶柱体，内置芳族聚酰胺纤维。如果流体肌肉中充满空气，它的直径扩大、长度减小，从而进行流动的弹性运动。“流体肌肉”的应用使得运动过程不仅在动作、速度和强度上与人体运动相似，而且在灵敏度上也与人体运动相似。“流体肌肉”产生的力是相同体积气缸的七倍。“流体肌肉”坚固耐用，即使是在沙滩或尘埃等极端环境中都可以使用。The pneumatic “fluidic muscle”, a completely new kind of pneumatic drive, is a development by Festo. The bionic muscles consist mainly of a hollow elastomer cylinder embedded with aramid fibres. When the fluidic muscle fills with air, it increases in diameter and contracts in length, enabling a fluid, elastic movement. The use of the fluidic muscle enables motion sequences which approach human movement not only in terms of kinematics, speed and strength, but also sensitivity. The fluidic muscle can exert ten times the force of a comparably sized cylinder, is very sturdy, and can even be used under extreme conditions such as in sand or dust.

2009/12/4
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流体肌肉(1)Fluidic muscle: 气动装置的“流体肌肉”是一个全新的气动驱动器，由Festo公司开发研制。它的仿生肌主要是一个中空的橡胶柱体，内置芳族聚酰胺纤维。如果流体肌肉中充满空气，它的直径扩大、长度减小，从而进行流动的弹性运动。“流体肌肉”的应用使得运动过程不仅在动作、速度和强度上与人体运动相似，而且在灵敏度上也与人体运动相似。“流体肌肉”产生的力是相同体积气缸的七倍。“流体肌肉”坚固耐用，即使是在沙滩或尘埃等极端环境中都可以使用。The pneumatic “fluidic muscle”, a completely new kind of pneumatic drive, is a development by Festo. The bionic muscles consist mainly of a hollow elastomer cylinder embedded with aramid fibres. When the fluidic muscle fills with air, it increases in diameter and contracts in length, enabling a fluid, elastic movement. The use of the fluidic muscle enables motion sequences which approach human movement not only in terms of kinematics, speed and strength, but also sensitivity. The fluidic muscle can exert ten times the force of a comparably sized cylinder, is very sturdy, and can even be used under extreme conditions such as in sand or dust.

2009/12/2
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投资机器人的10个理由: 机器人已被证明能够在一个多种应用多种益处。 Manufacturers introducing robots to their production processes have typically seen a significant transformation in their productivity and efficiency.机器人制造商介绍他们的生产工序通常发生在他们的生产力和效率的重大转变。 The International Federation of Robotics recently undertook a survey that identified the top 10 reasons that manufacturers invest in robots.在国际机器人联合会最近进行了一个确定的10大理由机器人制造商在投资调查。 ABB has now built on that survey and developed a Guide to help you better understand the "10 good reasons for investing in robots" with real-life case studies from companies and integrators who exemplify each one of the reasons. ABB公司现已建立在该项调查，并制定了指南，帮助您更好地了解“10机器人的投资与现实生活的公司和系统集成体现每个谁的原因之一案例研究”的理由。 The 10 good reasons 10个很好的理由 They range from reducing operating costs, improving product quality and consistency, as well as the quality of work for employees, to increasing production output rates, product manufacturing flexibility and reducing material waste and increasing yield.它们的范围从降低运营成本，提高产品质量和一致性，以及对员工的工作质量，以期提高生产产出率，产品的制造灵活性和减少材料浪费和增加产量。

2009/11/30
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气动机器人手臂Airics_arm: “气动机器人手臂”的灵感来源于自然界。结合机电一体化和人类仿生学模型，机器人手臂彰显了未来自动运动序列新的可行性。 “气动机器人手臂”由机器骨骼和机器肌肉组成。30块肌肉连接带动骨骼移动，包括尺骨、桡骨、掌骨和指骨以及肩关节和肩胛。这种连接技术目前还没有发明出来。机器肌肉是Festo公司的一个产品，已经广泛应用于工业应用，叫做流体肌肉。这种技术使用了Festo公司的微型创新压力比例阀，让我们能够精确控制设计的力量和硬度。这些执行器与机电一体化系统和软件的技术水平同步。扩展“气动机器人”的传感器系统也非常合理，就像开发后背、臀部和脖子部位一样，比如安装摄像头或者有感知能力的零件。这些扩展让机器人能够在更加危险的情况下工作发挥了重要作用。 Airics_arm is inspired by nature. Combining mechatronics and the model of human biology, the robotic arm shows new possibilities in automated motion sequences of the future. Airics_arm is equipped with artificial bones and muscles. 30 muscles move the bone structure comprising the ulna and radius, the metacarpal bones and the bones of the fingers as well as the shoulder joint and the shoulder blade; joints that are not found in the world of technology. The muscles are a product of Festo and are already widely used in industrial practice under the name of Fluidic Muscle. This technology, combined with very small and highly innovative piezo proportional valves from Festo, enable us to accurately control the designs forces and rigidity. These actuators are coordinated by state-of-the-art mechatronic systems and software. Extending the system of sensors of Airics_arm, e.g. with cameras or elements for tactile perception, is just as plausible as the development of a design for a back, hip and neck. These extensions will also play an important role in robotics as even more dangerous and hazardous situations in technology could be assigned to them.

2009/11/20
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水下企鹅AquaPenguins_Festo仿生技术: 水下企鹅- 技术-水下自动运载工具AquaPenguins - technology-bearers as autonomous underwater vehicle.与它自然界的原型一样，来自费斯托（Festo）公司的水下企鹅具有一个带水动力的身体轮廓。其优雅的推进力以及其可向各个方向移动的机翼头部和尾部，让机器人企鹅可以在狭窄的空间条件下自由穿行，并且在必要时及时出现甚至可以向后游——这一点可不像它们的自然界的原型。仿生企鹅设计成水下自动运载工具，可以自由定位并且可在水池中穿行。这种工具有一个3D的海豚音声纳系统，使得“企鹅”可以与周围的伙伴们交流，比如避免互相碰撞。Like its natural archetype, the AquaPenguin from Festo has a hydrodynamic body contour. Its elegant wing propulsion and its head and tail sections, which can be moved in all directions, allow the robotic penguins to manoeuvre in cramped spatial conditions, to turn on the spot when necessary and – unlike their biological counterparts – even to swim backwards. The bionic Penguins are designed as autonomous underwater vehicles that independently orient themselves and navigate through the water basin. They are supported by a 3D sonar system which, as with dolphins, allows communication with their surroundings and with other robotic penguins – for example to avoid collisions.

2009/10/22
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“危”中寻“机”——当前经济形势下的自动化市场前景判断_Camrs2008: 2008年或许就是中国自动化市场二十余年黄金发展后的一个休止符。进入2009年，金融危机引发的全球性经济危机对中国实体经济的影响仍在继续，2009，中国的自动化市场将怎样发展？对于自动化企业而言，需要在不确定中寻找肯定，在危机中寻找机会...演讲人：中国工控网市场研究部余雁

2009/1/12
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