When it comes to industrial robotics, the majority are designed to precisely carry out tasks equal to, or faster than a human would. This often includes picking up objects, packaging products and transporting goods from one place to another.
If you were to take apart industrial robotics, you would find a variety of important cables which help to power them and connect them to electrical sources. You would also likely find a cable harness keeping all the cables in a neat order.
Cable harnesses protect the cables within machinery and robotics, whilst also allowing more internal room for them to move as freely as possible. This is especially important for robotics which are constantly in motion.
Robotics also comprise of a variety of sensors, which help them to carry out tasks much like a human would. These sensors can often include cameras, touch sensors and infrared.
Robotics have been increasing the productivity within factories and warehouses for a number of years now. Unlike humans, robots can perform the same tasks over and over without getting tired – and without their welfare being questioned.
As it currently stands, human workers and robots work alongside each other within factories to achieve the best results. Kiva robots are a great example of robotics which work alongside human workers.
These robots can be found in warehouses carrying shelves over to workers, so that they can select items without having to search manually for them.
Baxter robots are also a great example. Equipped with cartoon eyes to let human workers know where it’s heading, this useful robot can carry out a variety of tasks within an industrial environment.
The Baxter robot can perform tasks such as packaging, line loading and material handling. These robots give workers the freedom from monotonous or perhaps dangerous tasks which they would have previously had to perform.
Robotics within industrial environments are constantly being improved and developed, with ever-increasing technological advancements in AI capabilities.
Many robotics are now equipped with complex sensors which allow them to sense and feel their way around a factory, which makes us wonder just how much further they will be developed within the next decade.