Let’s Talk About History Of Industrial Robots
History of industrial robots is a long one indeed. A look back into the past reveals how man and his machines have coexisted for ages. We can trace the evolution of these machines back to the time when they were first developed in Germany during the 1890s. It was then that they were christened ‘articulation machines’ after they first started doing tasks that other machines had been doing previously. However, it was not until the First World War that industrial robots became popular. With the aid of this new technology, the army was able to increase its range of operations by enabling it to provide its soldiers with the help of these handy and efficient machines.
It was during this period when industrial robots gained more popularity in America than anywhere else in the world. This is because of the Second World War that occurred there. As America entered the war, so did the demand for industrial robots androids. All this explains why American businesses were among the first to invest in such a machine.
Who Is Frank Gehry?
One notable American businessman who was deeply involved in the development of industrial robots was Frank Gehry. He was a manufacturer of mechanical parts and he saw the potential of combining the mechanical engineering skills with the ability to program robots. This led him to invent the world’s first computer-a machine which he called the ‘scheinerman’. This machine was used to control the sewing machines.
The history of robotics as we know it today began to unfold when the automotive industry realized that it could make huge profits by automation. The first step towards automation was the adoption of the parallel-use technique. This technique allowed for the use of machinery to perform a wide range of tasks, thus eliminating manual labour. Since the mass production method of manufacturing was introduced, automated machines replaced humans in every sort of work, starting from manufacturing to food processing.
The Evolution Of The Industrial Robots
The history of industrial robots is marked by the evolution of its applications and the ways in which it has transformed the lives of people. The early machines used in factories had a limited scope. They were used to handle simple tasks like pouring water. The main article of the machine was water, which was pumped through pipes fitted beneath the floor. In this manner, workers did not have to get up in the morning and walk down the line to take a drink.
However, industrial robots have evolved over the years. Their scope of application has widened. Today, these machines can be found in every nook and corner of the factory, handling both heavy and light materials. They can be used to make the following main types of machines: general machine tools, cutting machines, lathes, welders, cable machines, etc. Some of the most important machines include welding, plasma arc welding, wire electrical discharge machining, roll forming, grinding and drilling.
When Was The First Robotic Arms Manfactured?
As far as the history of industrial robots is concerned, the emergence of the first robotic arms led to the creation of the first autonomous industrial robots. This development laid the ground for further advancements. In 1990, the first factory with a fully automated system was set up at the Motorola factory in San Diego. After several industrial disputes arose out of worker exploitation, it was decided that the multinational company would establish a research and development wing to look into occupational robotics research. This wing ultimately grew into the name “Nissan Motors” and eventually led to the company producing its first vehicle – the Nissan Armada.
A major technological innovation came about after this, when the robotic arm was integrated with the battery system. Battery packs were attached on both ends, and the robotic arm was controlled via a computerized system. This type of assembly process became the main article of industrial robots today. Although many problems still exist, like the reliability of charging the batteries, the applications of this type of arm are practically limitless.