罗克韦尔自动化公司的下一代小型PLC Micro800系列,随同一体化编程和组态软件Connected Components Workbench(CCW),制定了一整套新的PLC和软件标准。可自由定制Micro800 PLC本体功能,为您提供恰到好处的控制功能,为您提供最具性价比的控制应用。Connected Components Workbench Software!Connected Components Workbench™ programming and configuration software supports the Micro800™ controllers, as well as the PowerFlex® 4-class drives and PanelView™ Component graphic terminals, in your small machine. This software leverages proven Rockwell Automation® and Microsoft® Visual Studio® technologies. Program your controllers, configure your devices, and design your HMI screens using this software.
罗克韦尔自动化公司的下一代小型PLC Micro800系列,随同一体化编程和组态软件Connected Components Workbench(CCW),制定了一整套新的PLC和软件标准。可自由定制Micro800 PLC本体功能,为您提供恰到好处的控制功能,为您提供最具性价比的控制应用。Connected Components Workbench Software!Connected Components Workbench™ programming and configuration software supports the Micro800™ controllers, as well as the PowerFlex® 4-class drives and PanelView™ Component graphic terminals, in your small machine. This software leverages proven Rockwell Automation® and Microsoft® Visual Studio® technologies. Program your controllers, configure your devices, and design your HMI screens using this software.
罗克韦尔自动化公司的下一代小型PLC Micro800系列,随同一体化编程和组态软件Connected Components Workbench(CCW),制定了一整套新的PLC和软件标准。可自由定制Micro800 PLC本体功能,为您提供恰到好处的控制功能,为您提供最具性价比的控制应用。Connected Components Workbench Software!Connected Components Workbench™ programming and configuration software supports the Micro800™ controllers, as well as the PowerFlex® 4-class drives and PanelView™ Component graphic terminals, in your small machine. This software leverages proven Rockwell Automation® and Microsoft® Visual Studio® technologies. Program your controllers, configure your devices, and design your HMI screens using this software.
罗克韦尔自动化公司的下一代小型PLC Micro800系列,随同一体化编程和组态软件Connected Components Workbench(CCW),制定了一整套新的PLC和软件标准。可自由定制Micro800 PLC本体功能,为您提供恰到好处的控制功能,为您提供最具性价比的控制应用。Connected Components Workbench Software!Connected Components Workbench™ programming and configuration software supports the Micro800™ controllers, as well as the PowerFlex® 4-class drives and PanelView™ Component graphic terminals, in your small machine. This software leverages proven Rockwell Automation® and Microsoft® Visual Studio® technologies. Program your controllers, configure your devices, and design your HMI screens using this software.
罗克韦尔自动化公司的下一代小型PLC Micro800系列,随同一体化编程和组态软件Connected Components Workbench(CCW),制定了一整套新的PLC和软件标准。可自由定制Micro800 PLC本体功能,为您提供恰到好处的控制功能,为您提供最具性价比的控制应用。Connected Components Workbench Software!Connected Components Workbench™ programming and configuration software supports the Micro800™ controllers, as well as the PowerFlex® 4-class drives and PanelView™ Component graphic terminals, in your small machine. This software leverages proven Rockwell Automation® and Microsoft® Visual Studio® technologies. Program your controllers, configure your devices, and design your HMI screens using this software.
流体肌肉和机械系统相互作用在“气动驾驶”中实现了优良驾驶和飞行的模拟环境。一个并联结构的六足系统使用6块Festo流体肌肉制造出了驾驶和飞行的感觉,犹如身临其境。在这次项目中,气动装置供应商巨头Festo公司证实了一个精密水力机构的替代方案,既吸人眼球,又有成本效益。The interplay of fluidic muscles and mechatronic systems in the Airmotion_ride makes it possible to generate an extraordinary range of driving and flight simulations. A hexapod structure using parallel kinematics, with six Festo fluidic muscles, creates a realistic driving and flying sensation. In this project, leading pneumatics supplier Festo demonstrates an exciting, cost-effective alternative to complicated hydraulic constructions.
放飞风筝需要娴熟的技能,Festo公司凭借其“空中自动化风筝”首次证实运用机电学原理可以实现风筝全程自动化控制。这是其在运用流动气流核心技术上的新发展。
“空中自动风筝”包含两个分别用机电控制器操纵的双线风筝。运用伺服电机和人造风,这两个风筝就可以实现室内自动化操作。各风筝线通过快速开关阀连接到Festo公司生产的DMSP射流臂,它可以缩短风筝线的长度。如果风筝断线,通过射流臂收缩风筝线就可以使其平稳飞行。It takes a fair amount of skill to fly a kite. With its Sky_liner project, Festo has become the first company to demonstrate that fully automated control can be achieved with the aid of mechatronics, thus linking a new development to its core competency of automation using moving air.
Sky_liner consists of two two-line kites, each of which is controlled using a mechatronic control unit. The two kites are operated automatically indoors, using servo motors and artificial wind. Each line is connected via fast-switching valves to a fluidic muscle DMSP from Festo, which shortens the line and counterbalances the kite by contracting when the kite breaks away.
It takes a fair amount of skill to fly a kite. With its Sky_liner project, Festo has become the first company to demonstrate that fully automated control can be achieved with the aid of mechatronics, thus linking a new development to its core competency of automation using moving air.
Sky_liner consists of two two-line kites, each of which is controlled using a mechatronic control unit. The two kites are operated automatically indoors, using servo motors and artificial wind. Each line is connected via fast-switching valves to a fluidic muscle DMSP from Festo, which shortens the line and counterbalances the kite by contracting when the kite breaks away.
玩溜溜球需要技巧和耐心。通过YoYo系统,Festo证明了在机电元件的帮助下,加上Festo利用流动空气的核心自动化竞争力,能实现全自动控制。 YoYo由3个独立的溜溜球组成,其规格也各不相同,分别为16, 20 和24。所有溜溜球均采取不同种类的麦克斯韦转轮,每一个均由气动肌腱驱动。 Playing with a yo-yo takes skill and patience. With its YoYo, Festo has demonstrated that fully automated control can be achieved with the aid of mechatronics, thus linking with Festo core competency of automation to using moving air.
The YoYo consists of three independent yo-yos of different sizes, 16, 20 and 24. All the yo-yos take the form of Maxwell wheels of various kinds, with each one being driven by a pneumatic muscle.
以自然界的鳐鱼为模板的“空中鳐鱼”是一种由远程遥控的氦气气囊和羽翼振动产生驱动力组成的混合体。它轻便的设计借助氦气的浮力让它可以在广阔的空中“遨游”,这种方法与水中的鳐鱼相似。
“空中鳐鱼”的驱动力由羽翼振动产生。利用射线效应并基于与四周有连接的拱侧翼交替推拉运动的原理,私伺服控制的羽翼可以上下移动。当一侧受到压力时,它几何形的结构会自动向受力的反方向卷曲。一个伺服驱动两片侧翼交替地纵向移动,驱使羽翼上下运动。Air_ray, modelled on the manta ray, is a remote-controlled hybrid construction consisting of a helium-filled ballonet and a beating wing drive. Its lightweight design enables it to “swim” in the sea of air using the lift from the helium in a similar way to the manta ray in water.
Propulsion is achieved by a beating wing drive. The servo drive-controlled wing, which can move up and down, utilises the Fin Ray Effect and is based on alternate pulling and pushing flanks connected via frames. When pressure is exerted on one edge, the geometrical structure automatically curves against the direction of the influencing force. A servo drive pulls the two flanks alternately in longitudinal direction, thus moving the wing up and down.
2012/8/17
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