INTRODUCTION
TRIZ, The theory of inventive problem-solving works by showing the user what the solution “appear like” before trying to solve the actual conflict.
By analyzing millions of engineering and scientific issues and their development solutions, TRIZ researchers establish that. although the number of technical conflicts is boundless, the number of technical mixtures is limited to some basic concepts.
TRIZ, Developed by soviet engineer Mr Generic Altshuller with his colleagues in 1946
Studied over 300,000 patents and perceived inventive principles were often recent in the most successful stories.
Principles of TRIZ
All Invention is made of 40 and only 40 principles
Altshuler derived from a study of > 2M of patent
Prohibition of compromises. Eliminate them
In many cases, somebody, sometimes, as already solved your issue one closer to it. Intelligence means finding that compound and adapting it to the latest issue.
2. Introduction
TRIZ, THE THEORY OF INVENTIVE PROBLEM SOLVING WORKS
BY SHOWING THE USER WHAT THE SOLUTION “APPEAR LIKE”
BEFORE TRYING TO SOLVE THE ACTUAL CONFLICT.
BY ANALYZING MILLIONS OF ENGINEERING AND SCIENTIFIC
ISSUES AND THEIR DEVELOPMENT SOLUTIONS, TRIZ
RESEARCHERS ESTABLISH THAT. ALTHOUGH THE NUMBER OF
TECHNICAL CONFLICTS IS BOUNDLESS, THE NUMBER OF
TECHNICAL MIXTURE IS LIMITED TO SOME BASIC CONCEPTS.
3. TRIZ, Developed by soviet engineer Mr Generic Altshuller
with his colleagues in 1946
Studied over 300,000 patents and perceived inventive
principles were often recent in the most successful stories.
4. What is TRIZ
TRIZ is an developing, open-ended network for enhancing human innovation
through:
Structured identification of conflicts and Ideal solutions
Focusing on different recourses available, to get large out of less
Overcoming distinguish chunks through approaches that have worked in other
directions.
5. Principles of TRIZ
• All Invention are made of 40 and only 40 principles
• Althuller derived from a study of > 2M of patent
• Prohibition of compromises. Eliminate them
• In many cases somebody, sometimes, as already solved your issue one closer to
it. Intelligence means finding that compound and adapting it to the latest issue.
6.
7. How the classical method basically getting work done
2. Create a Model of
problem
1. Define the specific
problem
Problemformulated
intheformofoneof
theTRIZtool
Solution are suggested based on how
similar problems were solved in two
companies
3. Identify Resources
Byanalogy
4. Define specific
solution
Flow of traditional
TRIZ methods
8. Why TRIZ
Simply stated, we need to create innovative
products & services to remain competitive
- We need to significantly improve the engineers
ability to quickly solve difficult and seemingly
impossible engineering issues which often leads
to next generation
“innovative products or innovative strategy”
9. Contradiction Matrix
•Use when two or more distinguish parameters issues each other in other to solve a problem
- Reduce cost of a Car Vs Safety
- Increase performance Vs user feel
- Security Vs performance
•Physical and Traditional contradictions
- Physical: Creates a issue with the same parameter object
- Technical: Different parameter problems each other
•Solved by using Inventive principles or other TRIZ tools
•39 parameters identified
10. Determine the problem
To Identify the modelling system being studied; its operating environment, resources requirement,
primary useful function, harmful effects, and ideal results.
Observation: A beverage can.
a. An engineering system to contain a beverage.
b. Operating environment is that cans are stacked for storage purposes.
c. Resources include weight of filled cans, internal pressure of can. Rigidity of can contribution.
d. Primary useful function is to contain beverages.
e. Harmful effects include cost of materials & producing can and waste of storage space.
f. Idea results is a can that can support the weight of stacking to human height without damage
to cons or beverages in cans.
11. Formulate the problem
Restate the issue in term of physical contradictions>Determine issue that could
occur> Could improving one technical features to solve a issue cause other
technical feature to worsen.
Examples: We cannot control the height to which cans will be stacked. The price
of raw material compels us lower costs. The can walls must be made thinner to
reduce price, but if we make the walls thinner, it cannot support as large a
stacking load.
Thus, the can will needs to lower material cost and thicker to supports stacking
load weight.
12. Conclusion
Innovative concepts are critical and a necessity to drive the optimization efforts
to design new products or redesign existing processes or products. As usually to
defining a perfect solution for a critical problems is necessary. Should be flexible
to environmental changes. Able to find solutions outside the field where they
were developed. However, time and cost-effective.