Why Robotic Automation is the Future in Manufacturing?
30-03-2022 301
Robots perform tasks such as welding, assembling, transporting, handling raw materials and packaging products. More and more manufacturers are leveraging robotic automation for more applications.
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Robotic Automation has evolved across many different areas of manufacturing. Robots perform tasks such as welding, assembling, transporting, handling raw materials and packaging products. More and more manufacturers are leveraging robotic automation for more applications.
Many questions arise when putting Robots into production activities. Are robots too expensive for our business? Is our business too small to use robots? Is the robot difficult to program and operate? Will Robots Take Human Jobs? The simple answer is No.

Robotic automation can be used in industries of many types and sizes of manufacturing businesses. Here's why:
Robots first began to be used in industry in the early 1960s. Robots can now be installed in less time and at a lower cost than in previous decades. Increased sales have caused prices to drop significantly. State-of-the-art equipment is built-in, the robot has quality-enhancing features, and safety standards are regulated to save labor costs and unscheduled downtime. The robot can also operate 24/7, increasing output minimizing downtime.
Robots are used in high-volume, high-production environments and can also be scaled down to be used in growing businesses. Modern robots can be used in small and medium scale production environments. Thanks to recent advances, they can be programmed and set up for new tasks quickly.
One no longer has to learn complex programming languages to teach robots. Modern robots can be taught using two easy methods. The first method, offline programming, allows the user to model a complete cell or work area and develop a movement sequence for a task.
The second way can teach the robot. A programmer or engineer simply guides the robot through a sequence of steps. With some tweaking, the instructions will be cached. The robot runs slowly through the program to check for collisions with objects or people. After several successful test runs, the robot can operate at full speed.
Robotic automation now enables competitive manufacturing by creating more jobs in robotics and related fields. They all need programming, engineering, end effects designers, operators, data analysts, robotics manufacturers, and systems integrators. Humans are needed to help maintain machines. Robots also protect workers from having to do repetitive, dangerous tasks that can negatively impact their ability to work.
Robotic automation offers manufacturers an increasing opportunity to save costs, increase production and stay competitive. Return on investment can grow equally, not only increasing profits but also creating jobs for the community and saving for customers.
Many questions arise when putting Robots into production activities. Are robots too expensive for our business? Is our business too small to use robots? Is the robot difficult to program and operate? Will Robots Take Human Jobs? The simple answer is No.

Robotic automation can be used in industries of many types and sizes of manufacturing businesses. Here's why:
Robots save money and time
Robots first began to be used in industry in the early 1960s. Robots can now be installed in less time and at a lower cost than in previous decades. Increased sales have caused prices to drop significantly. State-of-the-art equipment is built-in, the robot has quality-enhancing features, and safety standards are regulated to save labor costs and unscheduled downtime. The robot can also operate 24/7, increasing output minimizing downtime.
Scalable Robots
Robots are used in high-volume, high-production environments and can also be scaled down to be used in growing businesses. Modern robots can be used in small and medium scale production environments. Thanks to recent advances, they can be programmed and set up for new tasks quickly.
Robots are easy to program
One no longer has to learn complex programming languages to teach robots. Modern robots can be taught using two easy methods. The first method, offline programming, allows the user to model a complete cell or work area and develop a movement sequence for a task.
The second way can teach the robot. A programmer or engineer simply guides the robot through a sequence of steps. With some tweaking, the instructions will be cached. The robot runs slowly through the program to check for collisions with objects or people. After several successful test runs, the robot can operate at full speed.
Robots create more jobs
Robotic automation now enables competitive manufacturing by creating more jobs in robotics and related fields. They all need programming, engineering, end effects designers, operators, data analysts, robotics manufacturers, and systems integrators. Humans are needed to help maintain machines. Robots also protect workers from having to do repetitive, dangerous tasks that can negatively impact their ability to work.
Robotic automation offers manufacturers an increasing opportunity to save costs, increase production and stay competitive. Return on investment can grow equally, not only increasing profits but also creating jobs for the community and saving for customers.