Over the years, cigarette companies have needed to design ways to keep up with the growing demand of cigarettes. Cigarette manufacturers have been able to do this by using automated manufacturing machines. With growing technology, the abilities of these machines have drastically increased in capabilities.
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.
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Proponents of a minimum wage increase say it will not affect jobs, corporations or small businesses adversely. Well, I suppose that a slight increase in minimum wage wouldn’t and it might keep the masses happy, but it won’t be a net positive, every little increase will affect businesses, profits, capital investment and jobs. Let’s talk a little bit about economics 101 and then let me light a fire under your rear with a robotic future reality if minimum wage increases are too drastic.
Manufacturing industries have been making use of robots and automation on a very large scale. Robots have been successful in meeting the requirements of precision, endurance, speed, and reliability. Robots perform all kinds of dangerous and dirty jobs. Robots also handle the manufacturing work which includes material handling (pick and place), welding, packaging, assembling, painting, palletizing, product testing and inspection.
Types of motions for industrial robots. Industrial robots move about in single and multiple directions. One is known as the point-to-point movement where the robots are made to shift from one specific point to other points in the system. Another type is known as the straight line movement where the robot moves onward but does not have the capability to move to other system points. Another type of motion is the defined curve movement or the instance where the robot moves on a curved route according to how the system was engineered.