It might be entirely possible to collect a good deal of this energy which is deflected during that laser cutting process, or which finds its way through to the other side. What if we tried this strategy to recapture some of that energy; what if we had a ”houseplant pot shaped device” on the other side of the material being cut, and what if we had several of these types of shaped objects surrounding the CO2 laser beam? Those recapturing apparatuses surrounding the laser beam would be set in a concave pattern.
If we did the same thing for robotic welding machines at our modern automobile factories we would surely have enough heat energy spinning those small wheels to power up all the lights in the factory. Wouldn’t it be great to know that even if the power went off, the grid went down, or there was any sort of power failure that the factory could keep running because it kept reusing at least most of its energy? Remember in the manufacturing process it’s all about efficiency, and that’s why I came up with a strategy. Indeed I hope you will please consider all this and think on it.
#tools of business management#virtual system#origins of business management tools#tools of ethical management in business#importance of business management tools#tools and techniques of business ethics management#legged robot#origins and evolution of business management tools and technologies#tools of business process management#list of business process management tools#list of business management tools#the risk management tools of business is#examples of business process management tools#evolution of business management toolsrating
Think about the current industrial revolution. Before the invention of the automobile, buggy whip manufacturing was a thriving business. No longer. In the same vein, industrial robots hold the promise of eliminating many of the existing jobs in manufacturing. Innovation, centers of excellence. New enterprises promise to replace many of the existing jobs. People need to be flexible, to develop new industries.
Using this image, a computer checks the seam’s consistency along its length. It accurately detects imperfections like profile variations and pores, which weaken the joint, and instructs a robotic burner to rework or repair seams if necessary.
No it’s not perfect. But it does win the vast majority of its trades, and I’ve found that if you enact every single recommended trade which comes out of the system, the gains you’ll make cover the losses and then some. One of the best parts of this system is sometimes when it sends you 5 or 6 consecutive trades in which you can take a relatively small starting investment and turn it into 4 figures over the course of a few days by simply following the suggested steps.