Industrial robots are widely used in Germany, and nearly 200,000 robots are in service at the factory. However, with the advancement of technology and the concept of Industry 4.0, traditional industrial robots are facing new challenges and need to better grasp many new skills such as perception ability, learning ability, decision-making ability, and human collaboration ability. At this stage, industrial robots have been maturely used in Germany in automobile manufacturing, metal processing, electrical and electronics and other industrial fields. According to data from the International Federation of Robotics, in 2014, Germany had 292 industrial robots for every 10,000 manufacturing workers, second only to South Korea and Japan. At the same time, Germany’s industrial robot manufacturing level is also leading the world. The German government now proposes the concept of Industry 4.0 and sets new requirements for future industrial robots. Patrick Schwarzkopf, head of robotics and automation at the German Federation of Machinery and Equipment Manufacturers, said that in the era of Industry 4.0, robots will be highly interconnected and use IoT technology to communicate flexibly with other devices. At the same time, the robot's mobility and human collaboration should be strengthened. Zhang Jianwei, a robotics expert and professor at Hamburg University in Germany, believes that the smart factory in the future is not an unmanned factory but requires people and machines to work more closely together. The working space of traditional industrial robots and workers is usually isolated, and the new generation of industrial robots are required to be flexible, safe, and easy to operate, while achieving high speed and accuracy. This is a technical challenge. In addition, in the era of Industry 4.0, robots are no longer independent units. They need to have the ability to communicate with other smart devices, to sense the environment, and even to integrate complex information to make decisions. Zhang Jianwei said that Industry 4.0 requires the integration of many technologies of intelligent robots into larger production systems. Knowledge based on cloud computing and big data modeling, physics simulation, multi-sensor sensing and other technologies, is not only the key technology of Industry 4.0, but also the key technology of industrial robots. Therefore, the technical development of industrial robots can be said to be synchronized with Industry 4.0. It is precisely for this reason that the German government will vigorously promote the development of Industry 4.0, while funding for robot-related technologies will increase further. The German Federal Ministry of Economic Affairs has recently launched a series of technical development projects related to Industry 4.0. About 100 participants from industry and academia have cooperated on 14 specific projects involving production, logistics, robotics, and services. For example, in the "Fast Factory" project, people will work collaboratively with robots in the same environment to realize low-cost, personalized production from design to finished products in a short period of time. Although there is no specific development strategy from the national level, the German government’s support for robots is reflected in long-term, stable funding. Over the years, the German Science Foundation, the Federal Ministry of Education and Research, the Federal Ministry of Economic Affairs have launched various types of research funding projects to support the development of robot-related technologies. At present, the German government's funding for industrial robots is mainly focused on next-generation robotics technologies that can meet the needs of Industry 4.0 and face the future. Some experts believe that Germany can maintain a global leader in robot manufacturing. In addition to the huge demand for industrial automation, its advantages in machinery manufacturing, system control, software development, etc., have also allowed Germany to develop and manufacture industrial robots. In addition, Germany's R&D system combining production, research, and research, good scientific research and technical personnel training mechanisms, orderly competitive environment, and strict protection of intellectual property rights are also escorting German robot manufacturing and even the entire German industry.
For the finished motor, the motor core plays a more important role in the motor parts. In order to improve the overall performance of a motor, it is necessary to improve the performance of the motor core. Usually this property can be used to improve the core lamination material, adjusting the material permeability, good control of the size of iron and other ways to solve.A good motor iron core needs to be made of precision metal stamping die. It adopts automatic riveting process and then uses high precision stamping machine to punch it out. The advantage of this is that the integrity of the product can be guaranteed to the maximum extent and the accuracy of the product is guaranteed to the greatest extent.
Motor Rotor Stamping,Starter Motor Rotor Core,Rotors With A Shaft,Rotor Stacks YUYAO YUANZHONG MOTOR PUNCHING CO.,LTD. , http://www.yuyaoyuanzhong.com