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| − | Here you can find a very brief overview of robots used in manufacturing. It talks about what is it that makes a machine a robot, what differentiates the various types of robots, different ways robots can move, and three types of power sources for robots.
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| − | === The term Robot ===
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| − | Karl Capek coined the term robot in 1920. He was a Czech playwright who wrote R.U.R. which stands for Rosumovi Univerzální Roboti (Rossum’s Universal Robots).
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| − | === Robots ===
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| − | What differentiates a robot from says a crane? How is it different than a 3D printer or a CNC router?
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| − | There are three key capabilities which make a robot a robot:
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| − | A robot needs at least 4 degrees of freedom.
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| − | A robot needs to be Reprogrammable.
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| − | A robot needs to be Multi-functional.
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| − | === Classification ===
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| − | Industrial robots can be classified into six categories based on the following characteristics:
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| − | Degrees of Freedom
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| − | Arm Geometry
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| − | Power Source
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| − | Types of Motion
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| − | Path Control
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| − | Intelligence
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| − | === Degrees of Freedom ===
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| − | The number of movable motions in a robot defines its degrees of freedom. In articulated robots such as those in the Fab Lab have at least 6 degrees of freedom. These joints, or axes, are broken into two categories. The three joints nearest the base of the manipulator are called the positioning axes. The three closest to the tool are called the orientation axes. Robots can have larger degrees of freedom by having external axes, for instance, the entire robot can be mounted on a sledge which moves along a track. This would be the seventh degree of freedom.
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| − | ==== Arm geometry ====
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| − | The arm geometry, that is the configuration and type of joints used, determines the shape of the work envelope.
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| − | Rectangular (Cartesian)
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| − | The work envelope is a box. All three axes are linear.
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| − | [[File:Rectangular.jpg]]
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| − | Cylindrical
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| − | The work envelope is a cylinder. Axis 1 is rotary. Other axes are linear.
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| − | [[File:Cylindrical.jpg]]
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| − | SCARA
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| − | This is a variation of a cylindrical work envelope robot. SCARA is an acronym for Selective Compliance Articulated Robot Arm. Joints 1 and 2 of this type are rotary and in the same plane. Joint 3 is linear. These are often called Pick and Place robots.
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| − | [[File:Scara.jpg]]
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| − | Spherical
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| − | This type of arm geometry produces a ball-shaped work envelope.
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| − | Axes 1 and 2 are rotary. Axis 3 is linear.
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| − | [[File:Spherical.jpg]]
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| − | Articulated
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| − | This type of arm geometry, which is what we use in the Fab Lab is also referred to as Jointed Spherical.
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| − | [[File:Articulated.jpg]]
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| − | ==== Power source ====
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| − | The three most common method of powering robots are air pressure (pneumatic), fluid pressure (hydraulics) and electricity.
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| − | The main characteristics of each of these methods are listed below:
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| − | '''Pneumatic'''
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| − | Weakest
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| − | Fastest
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| − | Clean
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| − | Inexpensive
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| − | Low Tech
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| − | Open loop (non-servo)
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| − | Stop-to-stop for path control
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| − | Uses hard-stops determine program locations
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| − | Loud - referred to as "bang bang" robots
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| − | '''Hydraulic'''
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| − | Most powerful (greatest payload)
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| − | Messy to repair
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| − | Closed loop (servo)
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| − | More flexible than pneumatic
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| − | Mid-range in noise
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| − | Oil used can contaminate paints
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| − | Most expensive (have to buy both hydrallic and electronic systems)
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| − | Most costly to repair (have to fix both hydraulic and electronic systems)
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| − | '''Electric'''
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| − | Most popular
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| − | Clean
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| − | Quiet
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| − | Closed loop (servo motors)
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| − | Most flexible
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| − | Can use sealed motors for painting
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| − | [[Category:Technologies]][[Category:Robotic]]
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