When Electrolux in Adelaide decided to update their manufacturing facility they turned to ABB robots. In this movie Colin Thomas, manufacturing co-ordinator, explains how the new Door Bonding Facility works & the key benefits Electrolux have gained by choosing robot-based automation. They include Reliability, Flexibility, Increased Productivity, Reduced Work in Progress, Improved Quality & Increased Safety
www.robots.com This video shows multiple pick and place robots used throughout all types of manufacturing industries. Pick and place robots utilize a variety of grippers to manipulate materials, including bag grippers, magnetic grippers, suction grippers, and claw grippers. Here at RobotWorx, we integrate any Fanuc, Motoman, KUKA, or Panasonic robot to fit the application and increase production. Check out some of these unique material handling applications and grippers, and visit us online if you want RobotWorx to help you automate your business.
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Automation and Industrial Robots
The importance of automation and robots in all manufacturing industries is growing. Industrial robots have replaced human beings in a wide variety of industries. Robots out perform humans in jobs that require precision, speed, endurance and reliability. Robots safely perform dirty and dangerous jobs. Traditional manufacturing robotic applications include material handling (pick and place), assembling, painting, welding, packaging, palletizing, product inspection and testing. Industrial robots are used in a diverse range of industries including automotive, electronics, medical, food production, biotech, pharmaceutical and machinery. The ISO definition of a manipulating industrial robot is “an automatically controlled, reprogrammable, multipurpose manipulator”. According to the definition it can be fixed in place or mobile for use in industrial automation applications. These industrial robots are programmable in three or more axes. They are multi-functional pieces of equipment that can be custom-built and programmed to perform a variety of operations. The major advantages of industrial robots is that they can be programmed to suit industry specific requirements and can work continuously for years, consistently meeting high manufacturing quality standards. The economic life span of an industrial robot is approximately 12-16 years. Due to their persistent accuracy industrial robots have become an indispensable part of manufacturing. Industrial robots are classified into different categories based on their mechanical structure. The major categories of industrial robots are:
Gantry (Cartesian) Robot: They are stationary robots having three elements of motion. They work from an overhead grid with a rectangular work envelope. They are mainly used to perform ‘pick and place’ actions. Gantry robots have all their axes above the work making them also ideal for dispensing applications.
SCARA Robots: (Selectively Compliant Articulated Robot Arm) These robots have 4 axes of motion. They move within an x-y-z coordinated circular work envelope. They are used for factory automation requiring pick and place work, application and assembly operations and handling machine tools.
Articulated robots: An articulated robot has rotary joints. It can have from two to ten or more interactive joints. Articulated robots are well suited to welding, painting and assembly.
Basic industrial robot designs can be customized with the addition of different peripherals. End effectors, optical systems, and motion controllers are essential add-ons. End effectors are the end-of-arm-tooling (EOAT) attached to robotic arms. Grippers or wrenches that are used to move or assemble parts are examples of end effectors. End effectors are designed and used to sense and interact with the external environment. The end effectors’ design depends on the application requirements of the specific industry. Machine Vision systems are robotic optical systems. They are built-on digital input/output devices and computer networks used to control other manufacturing equipment such as robotic arms. Machine vision is used for the inspection of manufactured goods such as semiconductor chips. Motion controllers are used to move robots and position stages smoothly and accurately with sub-micron repeatability. Industrial robots fill the need for greater precision, reliability, flexibility and production output in the increasingly competitive and complex manufacturing industry environment.
More Manufacturing Robotics Articles
The importance of automation and robots in all manufacturing industries is growing. Industrial robots have replaced human beings in a wide variety of industries. Robots out perform humans in jobs that require precision, speed, endurance and reliability. Robots safely perform dirty and dangerous jobs. Traditional manufacturing robotic applications include material handling (pick and place), assembling, painting, welding, packaging, palletizing, product inspection and testing. Industrial robots are used in a diverse range of industries including automotive, electronics, medical, food production, biotech, pharmaceutical and machinery.
The ISO definition of a manipulating industrial robot is “an automatically controlled, reprogrammable, multipurpose manipulator”. According to the definition it can be fixed in place or mobile for use in industrial automation applications. These industrial robots are programmable in three or more axes. They are multi-functional pieces of equipment that can be custom-built and programmed to perform a variety of operations.
The major advantages of industrial robots is that they can be programmed to suit industry specific requirements and can work continuously for years, consistently meeting high manufacturing quality standards. The economic life span of an industrial robot is approximately 12-16 years. Due to their persistent accuracy industrial robots have become an indispensable part of manufacturing.
Industrial robots are classified into different categories based on their mechanical structure. The major categories of industrial robots are:
Basic industrial robot designs can be customized with the addition of different peripherals. End effectors, optical systems, and motion controllers are essential add-ons. End effectors are the end-of-arm-tooling (EOAT) attached to robotic arms. Grippers or wrenches that are used to move or assemble parts are examples of end effectors. End effectors are designed and used to sense and interact with the external environment. The end effectors’ design depends on the application requirements of the specific industry. Machine Vision systems are robotic optical systems. They are built-on digital input/output devices and computer networks used to control other manufacturing equipment such as robotic arms. Machine vision is used for the inspection of manufactured goods such as semiconductor chips. Motion controllers are used to move robots and position stages smoothly and accurately with sub-micron repeatability.Industrial robots fill the need for greater precision, reliability, flexibility and production output in the increasingly competitive and complex manufacturing industry environment.
AESG, Automation Equipment Services Group Inc. – experts in automation and robotic equipment maintenance and customer support. To get more information on automation and robotics, visit our website!
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