There are 39 standard engineering parameters in Triz theory.
The Russian spelling of TRIZ is теории решения изобрет-ательских задач, the Russian abbreviation "ТРИЗ", translated as "Inventive Problem Solving Theory", according to ISO/R9-1968E regulations, converted into Latin Teoriya Resheniya Izobreatetelskikh Abbreviation for Zadatch.
The full English name is Theory of the Solution of Inventive Problems, abbreviated as TSIP, which means the theory of solving inventive problems. The founder, Altshuller, Genrich Altshuller was born in Tashkent, Uzbekistan, Soviet Union on October 15, 1926. He obtained his first patent certificate when he was 14 years old.
The patented work is an underwater breathing device, which successfully solves the problem of underwater breathing by using hydrogen peroxide to decompose oxygen. At the age of 15 he built a boat equipped with a jet engine that used carbide as fuel.
In 1946, Altshuller began research on the invention problem-solving theory. By studying thousands of patents, he discovered the patterns behind inventions and formed the original basis of the TRIZ theory.
Characteristics and advantages of TRIZ theory:
Compared with traditional innovation methods, such as trial and error, brainstorming, etc., TRIZ theory has distinct characteristics and advantages. It successfully reveals the inherent laws and principles of creation and invention, and focuses on clarifying and emphasizing the contradictions existing in the system rather than escaping them. Its goal is to completely resolve the contradictions and obtain the final ideal solution, rather than adopting a compromise or compromise approach. .
And it studies the entire design and development process based on the development and evolution laws of technology, rather than random behavior. Practice has proved that using TRIZ theory can greatly speed up the process of people creating inventions and obtain high-quality innovative products.
It can help us systematically analyze problem situations and quickly discover the essence of problems or contradictions. It can accurately determine the direction of problem exploration, break through thinking barriers, break thinking stereotypes, analyze problems with new vision, and systematically Thinking can predict future development trends based on the laws of technological evolution and help us develop competitive new products.