The fourdrinier fluted paper
making machine is mainly used for making top grade fluted paper, corrugated base paper,
medium paper, high quality light-weight paper (culture paper, newsprint, light
weight specialty paper). This kind of peper machine needs to chosse papermaking
type, dewatering structure of press section, arrangement of dryer cylinder
group, sizing and finishing equipment according to different paper grades and
operating speed requirements.
Fluted Paper Making Machine, Corrugated Paper Making Machine Dandong Tianshin Automatization Technology Co.,Ltd , https://www.paper-machine.com
The robot is an automated equipment integrating mechanical, electronic, control, sensing, artificial intelligence and other multi-disciplinary advanced technologies. Since the birth of the robot industry in 1956, after nearly 60 years of development, robots have been widely used in high-tech industries such as equipment manufacturing, new materials, biomedicine, and smart new energy. The integration of robotics and artificial intelligence technology, advanced manufacturing technology and mobile Internet technology has promoted the change of human social life style.
At present, China's robot market has entered a period of rapid growth, and industrial robots have become the world’s largest application market for five consecutive years. The demand for service robots has great potential. The process of localization of core components has been accelerating, and a large number of innovative companies have emerged, and some of these technologies can be scaled up. Products and have obvious advantages in some areas.
(I) The process of robotic innovation and development
The first stage, the development of the bud. In 1954, the first programmable robot was born in the United States. In 1958, the American inventor Engelberg established Unimation and in 1959 developed the world’s first industrial robot. At this stage, with the development of mechanism theory and servo theory, the robot has entered a practical stage.
The second stage is the industrial incubation period. In 1962, the United States AMF company produced the first cylindrical coordinate robot. In 1969, Japan developed the first robot to walk with arms. At the same time, Japan, Germany, and other countries face labor shortages and other issues, and invest heavily in the development of robots. The rapid development of technology has become a powerful robotic country. At this stage, with the development of computer technology, modern control technology, sensing technology, and artificial intelligence technology, robots have also been rapidly developed. The robots in this period belong to the “Teach-in/Playback†type robots, which only have the memory and storage capabilities. They repeat the work according to the corresponding procedures, and they have almost no perception and feedback control ability to the surrounding environment.
The third stage is a period of rapid development. In 1984, the United States launched Help Mate, a medical service robot that can deliver meals, send medicines, and send e-mails to patients in hospitals. In 1999, Sony Corporation of Japan introduced the large robot AIBO. At this stage, with the development of sensing technologies, including visual sensors, non-visual sensors (force sensing, touch sensing, proximity, etc.) and information processing technologies, there are sensory robots. Robots such as welding, spraying, and transportation are widely used in the industrial industry. In 2002, the Danish iRobot company launched a vacuum cleaner robot, which is currently the world's largest sales of home robots. Since 2006, the trend toward the modularization of robots and the unification of platforms has become increasingly apparent. In the past five years, the average annual growth rate of global industrial robots has surpassed 17%. At the same time, service robots have developed rapidly and their application range has become increasingly widespread. Medical rehabilitation robots represented by surgical robots have formed larger industrial scales, space robots, and bionics. Special robots such as robots and anti-terrorist riot robots have been applied.
The fourth stage is smart application period. At this stage, with the application of artificial intelligence technologies such as iterative upgrades of perception, calculation, and control, and image recognition, natural speech processing, and deep cognitive learning in the field of robotics, the trend of service in the robotics field has become increasingly apparent. To every corner of society's production and life.
(II) Accelerated growth of robot industry scale
According to IDC's forecast, the Asia-Pacific market is the absolute leader in the global robotic region distribution, and it is estimated that its expenditure in 2020 will reach 133 billion US dollars, accounting for 71% of the world; Europe, the Middle East and Africa as the second largest region; the Americas is the first Three major markets.
Robot Development Status and Trend Analysis
I. Overview of robotic innovation development