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Introduction to Industrial Robotics
1. Page: 1Introduction to Industrial Robotics| Vipin K, Pawankumar G| 08-05-2020| www.kuka.com
Welcome to our Webinar on,
Introduction to Industrial Robotics.
KUKA India Support: service@kuka.in ; +91-9158007870
www.kuka.com
Time will be provided after Webinar for Q&A discussion.
Session: 1 Hrs., Q&A: 10 Minutes.
Because time is tight, we need your attention !
2. Page: 2Introduction to Industrial Robotics| Vipin K, Pawankumar G| 08-05-2020| www.kuka.com
Majored in Mechatronics engineering from VIT University and
Bachelor engineering in Mechanical from ACS College of
engineering, Bangalore.
4 years of robotics and automation experience from KUKA India Pvt
Ltd in Application, Troubleshooting, Project management etc.
Mechanical Engineering from Shivaji University, Kolhapur.
Over 3.5 years of experience in KUKA Robotics for
Product Support, Solutions/Projects.
vipin@kuka.in
pawan@kuka.in
Presenter’s Intro
Vipin K
Pawankumar G
3. Page: 3Introduction to Industrial Robotics| Vipin K, Pawankumar G| 08-05-2020| www.kuka.com
What is Robot ?
• In our imagination, a robot is a
machine that looks and acts
like a human being.
4. Page: 4Introduction to Industrial Robotics| Vipin K, Pawankumar G| 08-05-2020| www.kuka.com
What is
Robot ?
• Robots have become a subject
of great interest nowadays.
• As Robots tends to replicate
Human-beings, they appears to be
more interesting.
6. Page: 6Introduction to Industrial Robotics| Vipin K, Pawankumar G| 08-05-2020| www.kuka.com
In Fact..
Robots are defined as man-made mechanical devices that can move by themselves,
whose motion must be modeled, planned, sensed, actuated and controlled, and whose
motion behavior can be influenced by “programming”.
8. Page: 8Introduction to Industrial Robotics| Vipin K, Pawankumar G| 08-05-2020| www.kuka.com
1) Mobile robots.
2) Industrial robots.
3) Autonomous robots.
4) Remote-controlled robots.
5) Virtual robots.
Types of Robots
9. Page: 9Introduction to Industrial Robotics| Vipin K, Pawankumar G| 08-05-2020| www.kuka.com
Types of Robots
1) Mobile robots.
2) Industrial robots.
3) Autonomous robots.
4) Remote-controlled robots.
5) Virtual robots.
10. Page: 10Introduction to Industrial Robotics| Vipin K, Pawankumar G| 08-05-2020| www.kuka.com
Types of Robots
1) Mobile robots.
2) Industrial robots.
3) Autonomous robots.
4) Remote-controlled robots.
5) Virtual robots.
Mobile robots are able to move, usually they
perform tasks such as searching.
They are of 2 types: -
Rolling robots- Rolling robots have wheels to
move around. They can quickly and easily
search. However they are only useful in flat
areas.
Walking robots- Robots on legs are usually
brought in when the terrain is rocky.
Most robots have at least 4
legs; usually they have 6 or
more.
11. Page: 11Introduction to Industrial Robotics| Vipin K, Pawankumar G| 08-05-2020| www.kuka.com
Types of Robots
1) Mobile robots.
2) Industrial robots
3) Autonomous robots
4) Remote-controlled robots.
5) Virtual robots.
Mobile robots are able to move, usually they
perform tasks such as searching.
They are of 2 types: -
Rolling robots- Rolling robots have wheels to
move around. They can quickly and easily
search. However they are only useful in flat
areas.
Walking robots- Robots on legs are usually
brought in when the terrain is rocky.
Most robots have at least 4
legs; usually they have 6 or
more.
12. Page: 12Introduction to Industrial Robotics| Vipin K, Pawankumar G| 08-05-2020| www.kuka.com
Types of Robots
1) Mobile robots.
2) Industrial robots.
3) Autonomous robots.
4) Remote-controlled robots.
5) Virtual robots.
• Most of these robots perform repeating tasks
without ever moving.
• Most robots are working in industries. Especially dull
and repeating tasks are suitable for robots.
• A robot never grows tired; it will perform its duty
day and night without ever complaining.
13. Page: 13Introduction to Industrial Robotics| Vipin K, Pawankumar G| 08-05-2020| www.kuka.com
Types of Robots
1) Mobile robots.
2) Industrial robots
3) Autonomous robots
4) Remote-controlled robots.
5) Virtual robots.
• Most of these robots perform repeating tasks
without ever moving.
• Most robots are working in industries. Especially dull
and repeating tasks are suitable for robots.
• A robot never grows tired; it will perform its duty
day and night without ever complaining.
14. Page: 14Introduction to Industrial Robotics| Vipin K, Pawankumar G| 08-05-2020| www.kuka.com
Types of Robots
1) Mobile robots.
2) Industrial robots.
3) Autonomous robots.
4) Remote-controlled robots.
5) Virtual robots.
• Autonomous robots are self-supporting.
• They run a program that gives them the opportunity
to decide on the action to perform depending on
their surroundings.
• At times, these robots even learn new behavior.
They start out with a short routine and adapt this
routine to be more successful at the task they
perform. The most successful routine will be
repeated .
• Autonomous robots are self-supporting.
• They run a program that gives them the opportunity
to decide on the action to perform depending on
their surroundings.
• At times, these robots even learn new behavior.
They start out with a short routine and adapt this
routine to be more successful at the task they
perform. The most successful routine will be
repeated .
15. Page: 15Introduction to Industrial Robotics| Vipin K, Pawankumar G| 08-05-2020| www.kuka.com
Types of Robots
1) Mobile robots.
2) Industrial robots
3) Autonomous robots
4) Remote-controlled robots.
5) Virtual robots.
• Autonomous robots are self-supporting.
• They run a program that gives them the opportunity
to decide on the action to perform depending on
their surroundings.
• At times, these robots even learn new behavior.
They start out with a short routine and adapt this
routine to be more successful at the task they
perform. The most successful routine will be
repeated .
• Autonomous robots are self-supporting.
• They run a program that gives them the opportunity
to decide on the action to perform depending on
their surroundings.
• At times, these robots even learn new behavior.
They start out with a short routine and adapt this
routine to be more successful at the task they
perform. The most successful routine will be
repeated .
16. Page: 16Introduction to Industrial Robotics| Vipin K, Pawankumar G| 08-05-2020| www.kuka.com
Types of Robots
1) Mobile robots.
2) Industrial robots.
3) Autonomous robots.
4) Remote-controlled robots.
5) Virtual robots.
• In case a robot needs to perform more
complicated yet undetermined tasks an
autonomous robot is not the right choice.
• Complicated tasks are still best performed by
human beings with real brainpower. A person
can guide a robot by remote control. A
person can perform difficult and usually
dangerous tasks without being at the spot
where the tasks are performed.
17. Page: 17Introduction to Industrial Robotics| Vipin K, Pawankumar G| 08-05-2020| www.kuka.com
Types of Robots
1) Mobile robots.
2) Industrial robots.
3) Autonomous robots.
4) Remote-controlled robots.
5) Virtual robots.
• 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.
• Search engines use such kind of robots. They search the
World Wide Web and send the information to the search
engines.
28. Page: 28Introduction to Industrial Robotics| Vipin K, Pawankumar G| 08-05-2020| www.kuka.com
Do the Math…Same with Industrial Robotics:
2 shifts / day for 20 Years
Rebuild once in 20 years…….…….$10,000
Maintenance for 20 years…….……$13,000
Lubrication………………..$3,000
Unscheduled repairs…..$10,000
Power 0.59 x 80,000 hours…….…..$47,200
Total ………………………….…….… $70,200
Same with Manual Labor:
80,000 hours x $30.00…….…… $2,400,000
Savings……………………...…… $2,329,800
29. Page: 29Introduction to Industrial Robotics| Vipin K, Pawankumar G| 08-05-2020| www.kuka.com
What is Industrial Robot?
33. Page: 33Introduction to Industrial Robotics| Vipin K, Pawankumar G| 08-05-2020| www.kuka.com
• Increased efficiency.
• Improved quality.
• High repeatability of products.
• Even can work in hazardous environment.
• Longer working hours.
• Reduced investments.
• Reduced cycle time.
• Less requirement of skilled labors.
• Adaptive to the production requirements/flexibility.
• Easy modification of parameters.
• Greater safety.
• Reduced direct labor costs.
• Reduced wastage of resources.
34. Page: 34Introduction to Industrial Robotics| Vipin K, Pawankumar G| 08-05-2020| www.kuka.com
Production
Piece
Production
Batch
Production
Mass
Production
Robotic
Automation
SPM,
Specialized
application
machines etc.…
Robotic Automation
With easy
programming
methods
Production Methods:
35. Page: 35Introduction to Industrial Robotics| Vipin K, Pawankumar G| 08-05-2020| www.kuka.com
Remember this for a moment…
38. Page: 38Introduction to Industrial Robotics| Vipin K, Pawankumar G| 08-05-2020| www.kuka.com
Robotics Industry Players:
Robot Manufacturers:
• Manufactures the robot
• Provides robot training, maintenance and service
System Integrator [System Builder]:
• Integrate the robot into a system to perform a specified task
• Independent business, industry specific, allegiance to robot manufacturer
• Has knowledge of End User’s business
• Provides system components, installation, training, service and support
• Design and build the robot based system
• Purchases robot and all peripheral equipment
• Designs and builds systems, writes and maintains programs
• Trained on entire cell / provides training on system.
End Users:
• Uses the robotic based system in production or processing
• Knows what is required to accomplish tasks
• Ultimate user - needs training, service, maintenance, spare parts
40. Page: 40Introduction to Industrial Robotics| Vipin K, Pawankumar G| 08-05-2020| www.kuka.com
End
Customer
System
Integrator
Product Manufacturer
(E.g. KUKA Robot)Signoff & Delivery
Order System Integrator [System Builder]:
45. Page: 45Introduction to Industrial Robotics| Vipin K, Pawankumar G| 08-05-2020| www.kuka.com
ROS Support on Robots:
KUKA Controller
46. Page: 46Introduction to Industrial Robotics| Vipin K, Pawankumar G| 08-05-2020| www.kuka.com
Real World Industrial Applications
47. 1. Spot Welding
• Spot welding joins two contacting metal surfaces by directing a large
current through the spot, which melts the metal and forms the weld
delivered to the spot in a very short time (approximately ten
milliseconds).
49. Page: 49Introduction to Industrial Robotics| Vipin K, Pawankumar G| 08-05-2020| www.kuka.com
2. Arc Welding
• Arc welding, or robot welding,
• became common place in the 1980s.
• One of the driving forces for
• switching to robot welding is
• improving the safety of workers from arc
• burn and inhaling hazardous fumes.
50. Page: 50Introduction to Industrial Robotics| Vipin K, Pawankumar G| 08-05-2020| www.kuka.com
• Materials handling robots are utilized to move, pack and select products.
• They also can automate functions involved in the transferring of parts from
one piece of equipment to another. Direct labor costs are reduced and much
of the tedious and hazardous activities traditionally performed by human
labor are eliminated.
3. Materials Handling, Tending
51. Page: 51Introduction to Industrial Robotics| Vipin K, Pawankumar G| 08-05-2020| www.kuka.com
4. Painting
• Robotic painting is used in automotive production and many other industries
as it increases the quality and consistency of the product. Cost savings are also
realized through less rework.
52. Page: 52Introduction to Industrial Robotics| Vipin K, Pawankumar G| 08-05-2020| www.kuka.com
5. Mobile Handling
• Mobile handling plays important role to optimize material flow on Shop
floor, especially for Assembly lines.
53. Page: 53Introduction to Industrial Robotics| Vipin K, Pawankumar G| 08-05-2020| www.kuka.com
6. Picking, Packing and Palletizing
• Most products are handled multiple times prior to final shipping.
• Robotic picking and packaging increases speed and accuracy along with
lowering production costs.
55. Page: 55Introduction to Industrial Robotics| Vipin K, Pawankumar G| 08-05-2020| www.kuka.com
8. Mechanical Cutting, Grinding, Deburring and Polishing
• Building dexterity into robots provides a manufacturing option that is otherwise
very difficult to automate. An example of this is the production of
orthopedically implants, such as knee and hip joints. Buffing and polishing a hip
joint by hand can normally take 45-90 minutes while a robot can perform the
same function in just a few minutes.
56. Page: 56Introduction to Industrial Robotics| Vipin K, Pawankumar G| 08-05-2020| www.kuka.com
9. Gluing, Adhesive Sealing and Spraying Materials
• Sealer robots are built with numerous arm configurations that enable the robot
to apply adhesives to any type of product. The primary benefit in this
application is increased quality, speed and consistency of the final product.
57. Page: 57Introduction to Industrial Robotics| Vipin K, Pawankumar G| 08-05-2020| www.kuka.com
10. Other Processes
• These include inspection, waterjet cutting , soldering robots, etc.
58. Page: 58Introduction to Industrial Robotics| Vipin K, Pawankumar G| 08-05-2020| www.kuka.com
What NEXT ?...
59. Page: 59Introduction to Industrial Robotics| Vipin K, Pawankumar G| 08-05-2020| www.kuka.com
Artificial Intelligence.
Internet of things (Industry 4.0)
Micro/ Nano robots.
Rescue Robots in Various domains.
Robot for defense.
Child care robot.
Law and enforcement.
Home care and security.
Defense applications.
Space exploration and research.
Deep sea mining and mineral search.
Fast medical curing.
Planet cleaning etc…
𝙼𝚘𝚋𝚒𝚕𝚎 𝚁𝚘𝚋𝚘𝚝𝚜
60. Page: 60Introduction to Industrial Robotics| Vipin K, Pawankumar G| 08-05-2020| www.kuka.com
KUKA College
college@kuka.in
KUKA, Yaskawa, Fanuc etc. training schools
provides hands-on product and programming
know how.
61. Page: 61Introduction to Industrial Robotics| Vipin K, Pawankumar G| 08-05-2020| www.kuka.com
Basic PC knowledge.
PC hardware and control
Programming basics (any one programming
knowledge)
Electronic basic components knowledge.
Electronics circuit design.
Electrical wiring basics.
Servo control basics.
Micro controller and programming.
Power electronics basics.
Mechanical design, CAD Drawing.
Kinematic chain.
Material science.
Mechanical Manufacturing
Mechanical tools knowledge.
Force/load distribution and analysis etc.. Note: Multi disciplinary
branch
62. Page: 62Introduction to Industrial Robotics| Vipin K, Pawankumar G| 08-05-2020| www.kuka.com
• An Introduction to Programming - When students program physical robots, it’s
easier for them to see what goes wrong as they learn what robots can and cannot
do. They learn the skills needed to create precise and accurate instructions and
have fun while learning valuable lessons.
• Increases Creativity - Not a lot of fields combine creativity with engineering and
technology—robotics does.
• Prepare them for the future - Growing industries such as these are going to need
people who can come up with new and innovative ideas, and be equipped with
the knowledge to design and create the technology needed.
• Teaching Student How to Innovate - Not only does teaching students robotics
teach them how to persist and solve problems, but it also helps them increase
their maturity levels and prepare them for real-world situations.
63. Page: 63Introduction to Industrial Robotics| Vipin K, Pawankumar G| 08-05-2020| www.kuka.com
As Programmer’s across clients
65. Page: 65Introduction to Industrial Robotics| Vipin K, Pawankumar G| 08-05-2020| www.kuka.com
Assisting or Replacing Humans in the Space !
66. Page: 66Introduction to Industrial Robotics| Vipin K, Pawankumar G| 08-05-2020| www.kuka.com
Thank You !
For Quires please reach us on:
Vipin@kuka.in
Pawan@kuka.in