Fluid Steel Pipe are pipes specially used for conveying media with fluid properties.
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Industrial robots are widely used. They accurately and tirelessly complete a variety of simple repetitive tasks, effectively increasing labor productivity and reducing production costs. Some scholars predict that with the growing maturity of robotics, industrial robots are likely to eventually replace machine tools and become the basis for a new generation of industrial production. In recent years, service robots have begun to enter the public view, and with the rapid development of artificial intelligence technology, advanced manufacturing technology and mobile Internet innovation and integration. More and more service robots have been developed and have begun to change the human social lifestyle.
It is generally believed that there are five stages in the development of the robotics industry: the technology preparation period, the industrial incubation period, the industrial formation period, the industrial development period, and the intellectualization period. At present, the development of the robot industry in Japan and Europe is becoming more and more perfect. It has already passed the first four stages of the development of the industry and is moving toward the intelligent stage. Perhaps in the near future, we will see the initial version of Wali and Sonny.
Pattern - the United States, Japan and Europe three points of the world, South Korea made the uproar to pursue the development of the robot industry requires a deep industrial foundation and scientific and technological heritage, Japan and the United States have obvious advantages in first-mover.
Since the robot industry was adopted as a national development strategy in the 1980s, Japan has always given priority to robot development. The accumulated experience and technological advantages have laid a good foundation for the long-term development of the industry. Of the world’s four largest robotics companies, Japan currently has the second-largest single player. Fanuc and Yaskawa Electric’s position in the world’s robot market is difficult to shake.
European industry is very strong in the industry, with German Kuka and Swiss ABB each occupying one of the world's four largest robot companies. In order to consolidate its leading position, the EU not only invested heavily in the R&D of robotics in the “Seventh Framework Project†and “Horizon 2020†projects, but also launched the world’s largest civilian robot R&D project “SPARC†in June 2014. At the same time, Germany's "Industry 4.0 Project" with its "Smart Factory" as the center of gravity, Britain's first robot strategy "RAS2020", and France's "Robots Development Plan" all demonstrate the determination to occupy the commanding heights of the robot industry.
As a powerful country in science and technology, although the United States has created the glory of the world’s first industrial robot, it was eventually overtaken by Japan and Europe because it was not able to continue to develop because of the poor prospect of the robot. In the “Advanced Manufacturing Partner Program†launched in June 2011, the United States that knows shame and bravely made it clear that it is necessary to rejuvenate the manufacturing industry by developing robots. Relying on a strong industrial base and scientific and technological foundation, the United States has begun to exert its strength in the field of robotics in recent years. Baxter, Adept and other companies have already challenged traditional four robot companies.
The robotics industry in South Korea has developed rapidly in recent years. After releasing the first five-year development plan for the robotics industry in 2009, the Korean government announced the second five-year plan for the development of intelligent robots in August 2014, hoping to achieve the expansion of the robotics industry through the integration of technology and other industries. South Korea has become a new force that cannot be ignored in the world of robotics.
Prospects - The convergence of the five technologies, and the prospect of integrating Dacheng into the revolutionary robotics industry are generally optimistic. McKinsey expects that by 2025, around 5% to 15% of global manufacturing will be replaced by industrial robots. An analysis of more than 700 occupations at Oxford University in the United Kingdom shows that over the next 10 to 20 years, more than half of the occupations in the United States will be borne by robots.
As a cross-disciplinary advanced technology, breakthroughs in robotics technology require other technical support, especially energy, materials, information, life sciences, and advanced manufacturing technologies. These technologies are considered by many scholars as the supporting technology for the new round of industrial revolution. Their breakthrough will inevitably promote a peak in the development of the robot industry and thus promote the new round of industrial revolution. The new energy will help solve the robot's dynamic problems; the use of new materials will help improve the robot's performance; the development of information technology is critical to the robot's control system; and the development of life sciences is expected to make the use of bionics more effective. In the robotics industry, robots are transformed from machines to people. The application of advanced manufacturing technologies can solve the manufacturing problems of complex robots and help promote the mass production and popularization of robots.
Today, the scope of use of robots has begun to expand in many areas such as national security, special environmental service, medical assistance, and scientific investigation. Once entered the intelligent stage, the social network constructed by the robot industry will cover all areas of social production and life, and will become the basis of a new society after the industrial revolution—a smart society. Can the era of robotic and human co-government come? The future is worth looking forward to!
Medium with fluid properties, in addition to liquid media such as water, oil, and solution, solid media such as cement, grain, and coal powder can also flow under certain conditions.
The fluid pipe must have a hollow cross-section, and it can also be square, triangular or any other shape. Some equipment is restricted by conditions, and rectangular pipes must be used, but most still use round pipes. The round tube has the smallest perimeter/area ratio in all geometric sections, that is, the largest internal section can be obtained under the same amount of material.
Steel pipes are also an indispensable material for various conventional weapons. Gun barrels and barrels are all made of steel pipes. Steel pipes can be divided into round pipes and special-shaped pipes according to different cross-sectional area shapes. Because the circle area is the largest under the condition of equal circumference, the circular pipe can transport more fluids, and is widely used to transport oil, natural gas, gas, water and certain solid materials.
The Key to the Development of Robots is Human-Computer Co-governance>
Industry - 50 years of rapid development, intelligent robot refers to the robot is a set of mechanical, electronic, control, sensing, artificial intelligence and other multi-disciplinary advanced technology in one of the automation equipment. Since the birth of the first industrial robot in the United States in the 1960s, after more than 50 years, the robot industry has experienced rapid downturns in its initial stages, and it has rapidly emerged and matured in recent years.