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Here's an Idea: Candy. Trucks and other commercial vehicles are becoming smarter and more connected, moving rapidly on the road to autonomy. Factories are getting smarter thanks to advances in robotics, analytics, simulation, metrology and more. To help you keep pace with the latest developments in industrial automation, we present this compendium of recent articles from the editors of Tech Briefs, Automotive Engineering, and Medical Design Briefs magazines. Demand for electric vehicles is accelerating, with several major automakers announcing that their entire lineups will either be hybrid or all-electric by the 's.
To help you keep pace with the rapid changes in vehicle electrification technology, we present this compendium of recent articles from the editors of Motion Design : Propulsion Pneumatics for Mechanical Motion Employing fluid power to achieve mechanical motion can be implemented via hydraulics using uncompressible liquids or via pneumatics using compressible gasses; typically, air. The latter provides several Combined with new generations of The system, known as a Briefs : Motion Control Gear Bearings NASA Goddard Space Flight Center developed gear bearing technology that combines gear and bearing functions into a single unit that significantly improves gear drives for electrical, internal combustion, and turbine motors.
Excess tension or too much slack can cause defects and even material deformation. Tension control requires slight incremental changes in the speed of material winding and unwinding—accounting for changes in the decreasing diameter of the rolled material on both ends. A drive with built-in intelligence uses an internal drive calculator to continuously track in real time the speed versus diameter to adjust the winding and unwinding speeds accordingly.
Camming is another application requiring precise coordination between axes. For a device to cut accurately, the surface material and cutting device must be traveling at exactly the same speed when they contact. Otherwise, some materials will crinkle or tear. Achieving precise coordination between a rotary cutting rod knife and material, for example, both rotating at variable speeds, can be tricky. For example, when the circumference of the knife roll is larger than the cut length, the cutter would generally need to speed up while rotating around and slow down in the cutting zone to match the speed of material while making the cut.
The logic and coordination must be constantly occurring between drives in the drive-based or controller-based architecture.
The smart choice for smart factories
In some cases, machine size may necessitate use of decentralized drive-based control. Long motor cables from a central control cabinet can be eliminated by bringing power to the decentralized drives in a daisy chain, drive-to-drive fashion or by feeding power from a source other than a central control cabinet. Decentralized drive-based inverters can allow for motor-proximity installation. Decentralized inverters can enable even large and complex machines to be more clearly structured, which can be particularly beneficial in applications in the automotive, intralogistics, and other industries.
Application software tools exist that provide modular, ready-made motion control functions using customizable standardized interfaces. Standard machine tasks, such as cross-cutting and winding, and complete robotics modules can be quickly implemented. Robotic applications, such as pick-and-place movements, are programmed by simple parameter settings without requiring knowledge of robotics, which substantially reduces demands on engineering and design resources.http://bluebaton.org/wp-includes/have/loving-faith.php
Drives and Control for Industrial Automation Putra
Solutions built on parameterized programming technology greatly simplify motion control and machine development from concept to deployment. Parameterization programming allows easier commissioning than traditional programming. Replacing complex programming with uniform machine-configuration software tools significantly reduces engineering time and technical requirements and eliminates redundancies that can drive up costs. Bringing a smart drive online no longer requires special training, thanks to modular components and engineering tools.
That gives machine builders the freedom to focus on elements unique to their projects—differentiators to make their products more competitive.
Drives and Control for Industrial Automation : Kok Kiong Tan :
Modular automation systems for device-based control can greatly simplify machine integration and automation. The increasing individualization of machine control brings challenges to reconcile design lead-times and set-up cycles with productivity. Short setup times can be achieved when machines operate as easily as possible, which requires simple operating concepts for machine operators see Figure 2. The manufacturing industry stands to gain enormous benefits from advances in automation. Developing an end-to-end automation solution requires a holistic and motion-centric approach.
Ultimately, the machine tasks dictate the drive and control architecture. In terms of drive control complexity, the motto should be "no more and no less than is needed.