Robotix & Industrial Robots

A Presentation By
Parth Babreeya (21316SBEEC30001)
Parth Baraiya (21316SBEEC30002)

• Multi-functional operator which can be
controlled by programs, moves the
materials, components, tools and other
special apparatus through control
programs.
• Simple up-and-down motion, to take and
pick out components from machines.
• Machines controlled by programs to do
different types of jobs, such as, searching,
transportation, targeting, assembly and
inspection.

 Programmable, multi-functional manipulator
designed to move materials, parts, tools, or special
devices through variable programmed motions.
 six basic constituent elements for the design and
operation of robotics systems
• Dynamic system
• End-of-arm tool
• Computerized digital controller
• Actuators
• Feedback system
• Sensor

Program
Computerized digital
Controller
Servo drive
System
Dynamic
System
End-of-Arm
Tools
TargetSensors
Feedback
System

• Dynamic system is needed for movement in the working area. The
most important of which is the robotic arm. According to the
designs of the robots, the main axis will move linearly or
rotationally.
• The number of axes represents the number of directions that a
robot can move individually. It can be called ‘the degree of
freedom’.
• A robot usually has 2 to 10 axes, most of the robots have 5 to 6
degrees of freedom.

• The arms of the robots can be used to install tools like clamps,
welding guns, electromagnets, suction pads, hooks or paws, etc., in
order to operate any specific procedure.
• A clamp is a multifunctional robotic arm tool. There are different
designs. The clamp can be used to hold tight, keep and transmit
components or tools.

• The robot connects to a computer, which keeps the pieces
of the arm working together. This computer is the
controller.
• The controller functions as the "brain" of the robot. The
controller can also network to other systems, so that the
robot may work together with other machines, processes,
or robots.

• Actuators are the "muscles" of a robot, the parts which
convert stored energy into movement.
• Control each of the axes and maintain the direction of
moving.
• Since robots need to handle weights from various
components, it has a larger change in motion. Therefore,
the motion of actuators is very important.
• Commands about the direction of movement are sent from
the controller of the robots and feedbacks are checked at
the same time to ensure the moving parts follow the correct
path.
• The most popular actuators are electric motors.

• Common robotic actuators utilize combinations of
different electro-mechanical devices
– Hydraulic Motor
– Pneumatic Cylinder
– Stepper motor

– Pneumatic Motor
– Servo Motor
– DC Motor

• Feedback devices of a robot measure the position of each
axis, moving velocity and its acceleration.
• Each axis can set any point as zero as the reference point,
then relative linear movement can be performed.

• Robot sensors measure robot configuration/condition and
its environment and send such information to robot
controller as electrical signals.
1) Accelerometer Using Piezo-electric Effect :
• Sound, touch, taste, and smell provide
us vital information to function and
survive.
• Piezo-electric Effect is convert the
Mechanical pressure in to Electrical
Signals.

2) In-Sight Vision Sensors :
• Part-Picking:
Robot can handle work
pieces that are randomly piled by
using 3-D vision sensor. Since
alignment operation, a special parts
feeder, and an alignment are not
required, an automatic system can be
constructed at low cost.

3) Proximity Sensors
• Proximity sensors are used to measure the distance or location
of objects in the environment. This can then be used to
determine the location of the robot.
4) Ultrasonic Sensors :
• Ultrasonic sensors measure the time that an ultrasonic signal
takes until it returns to the robot.
• Laser range finders determine distance by measuring either the
time. it takes for a laser beam to be reflected back to the robot
or by measuring where the laser hits the object.

5) Infrared Ranging Sensor
• 6 ultrasonic sonar transducers to
explore wide, open areas.
• Obstacle detection over a wide
range from 15cm to 3m.
• 16 built-in infrared proximity
sensors (range 5-20cm).
• Infrared sensors act as a “virtual
bumper” and allow for negotiating
tight spaces.

6) Force Sensor :
• Parts fitting and insertion, force feedback
in robotic surgery
• Parts fitting and insertion:
Robots can do precise fitting
and insertion of machine parts by using
force sensor. A robot can insert parts that
have the phases after matching their phases
in addition to simply inserting them. It can
automate high-skill jobs.

Output information Move, Speech
Text, Visuals Wheels Legs
Arms Tracks
Speech, Vision
Acceleration,
Temperature
Position ,Distance
Touch, Force
Magnetic field ,Light
Sound ,Position
Task planning
Plan Classification
Learn
Process data
Path planning
Motion planning
Sense Think
Act

• There is a lot of flexibility in operations of industrial robots,
IR can handle demands of different tasks. This is because
IRs are controlled by computer programs.
• Computers in IR required some special functions like input
programs for trainers, remain horizontal movement in
swinging arms and automatic force compensation when
holding heavy objects.
• The operation mode of IR can be classified as: point-to-
point and continuous path.

• When a robot moves in various individual and specific
positions according to the instructions in the program, the
operation mode is called point to point.
• A feedback and servomechanism in each of its axis, Motion and
moving path from one point to another is independent of other
points.
• The control system for point to point is relatively simple, so it is
more suitable to control components in the numerically controlled
machineries.

• If a robot has to follow the path of the program totally, this
operation mode is called continuous path.
• This type of robot has a feedback and servomechanism in each
of its axis. It can also move to any points between the polar
positions.
• Robots with continuous path as operation mode can handle
more complicated tasks, like welding of metal in a particular path
spraying paints on the surface of a car, etc.

• Mobile robots are able to move, usually they perform task such
as search areas. A prime example is the Mars Explorer,
specifically designed to roam the mars surface.
• Mobile robots are a great help to such collapsed building for
survivors Mobile robots are used for task where people cannot
go. Either because it is too dangerous of because people cannot
reach the area that needs to be searched.

• Rolling robots have wheels to move around. These are the
type of robots that can quickly and easily search move around.
• However they are only useful in flat areas, rocky terrains give
them a hard time. Flat terrains are their territory.

Robots on legs are usually brought in when the terrain is rocky
and difficult to enter with wheels. Robots have a hard time
shifting balance and keep them from tumbling. That’s why most
robots with have at least 4 of them, usually they have 6 legs or
more.

• Robots are not only used to explore areas or imitate a human
being. Most robots perform repeating tasks without ever moving
an inch. Most robots are ‘working’ in industry settings and are
stationary.

• Autonomous robots are self
supporting or in other words self
contained. In a way they rely on their
own ‘brains’.
• Autonomous robots run a program
that give them the opportunity to
decide on the action to perform
depending on their surroundings. At
times these robots even learn new
behavior.

• An autonomous robot is despite its autonomous not a very clever
or intelligent unit. The memory and brain capacity is usually
limited, an autonomous robot can be compared to an insect in that
respect . In case a robot needs to perform more complicated yet
undetermined tasks an autonomous robot is not the right choice.

• Virtual robots don’t exits in real life. Virtual robots
are just programs, building blocks of software inside a
computer.
• A virtual robot can simulate a real robot or just
perform a repeating task. A special kind of robot is a
robot that searches the world wide web.

• Industrial robots are being used widely in factories, they can be
used for tasks like welding, painting, transportation of materials
and tools.
Application Percentage (%)
Welding 26%
Handling Materials 22%
Load & Unload of cutting
machineries
17%
Assembling components 15%
Cast treatment 11%
Painting and Surface treatment 8%
Others 1%

• There are various types of welding, including
spot welding, electrical welding and wind
welding,
etc.
• IR is often used to operate spot welding. Spot
welding is suitable for joining two pieces of steel
plates.
• Generally, there are more than several
thousands of welding joints in a car. If the process
is done manually, the quality may be unstable.

• Robots can be used to handle materials, for
instance, put and pick out materials from the
machineries and transportation of materials.
• Robots can also take materials out from the
production line, move machinery vehicles in a
factory automatically and stack up the goods
(materials, semi-finished goods, components,
etc).

• The load and unload commands are preset in the
program of the robots, the robots can take out the
cutting tools quickly, replace the cutting tools on
the clamp tip and put the old ones back to the
cutting tools storage.
• This process only takes about a few seconds.
After replacing the cutting tools, the machineries
can start again.

• Besides handling materials, robots are used to
assemble components. For instance, robots can use
the suction pad to assemble the window on the car.
Using robots to assemble the machines has a lot of
advantages. For example, robots can maintain
stable production. They ensure the hygiene and can
work under dangerous circumstances.

Moulding is the process of injecting the melting
metal into a mould. When the metal cools down, the
desired product is produced. Since the materials for
moulding and the product are very hot, the workers
may get hurt. Therefore, robots are used to pour the
melted metal, handle the finished products and
carry out initial treatment of the surface. Robots
can work 24 hours a day, so the production cost is
lower though the machineries are very expensive.

• Spray painting is the use of gas to spray the paint as dots and
scatter them evenly on the surface of the finished products.
However, frequent inhalation of paint affects the health of the
workers.
• Therefore, it is better to use robots to do the routine spraying
task. For instance, a robot paints cars in the production line
with a spray gun.

It can carry out simple and repetitive work for human beings.
 Do not take rest and so can work continuously for a longer
period.
 They can be used in assembly work with high precision and
density. The quality of products is enhanced.
 Robots can replace workers without laboring cost, and robots
can achieve stable production rate as robots will not be late to
work, resign, take day off or strike.
 The program can be modified easily so robots can increase the
flexibility in manufacturing.

 They can work in unfavourable circumstances, e.g. removing
the high-temperature artifact from a casting machine, welding
task, spraying task, transportation of chemicals, etc., such work
will affect the health of the workers.
 The manufacturing speed can be increased and the cost be
reduced when robots are used.
 Using robots may minimize the wasting of materials.
 Using robots can improve the quality of a product by its
ability to assemble precise components.

Robotix & Industrial Robots

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