In modern food production companies' assembly line production and transportation work, as well as in the logistics transportation system, conveyor belt conveyors, mesh chain conveyors, chain plate conveyors, screw conveyors and other conveyor models can be seen everywhere. The application planning of conveyor equipment is also widely used in various professions of national economic production.

In recent years, with the rise in labor costs and the increasingly fierce re industrialization strategies of developed countries in Europe and America, the position of proactive skills in the manufacturing industry has been increasingly valued. An increasing number of companies are investing heavily in upgrading their factories and introducing advanced automation skills such as robots to improve their power output.

The assembly line is the most important link in factory production that requires the use of proactive skills. The production line is the path through which goods are produced. The road formed by a series of production line activities, including processing, transportation, installation, and inspection, starting from the entry of materials into the production site.

The assembly line is a useful combination of people and machines, which fully embodies the flexibility of equipment. It organically combines the transportation system, accompanying fixtures, online special machines, and detection equipment to meet the transportation requirements of various types of goods. The complete automation of assembly lines was the only way for the mechanical manufacturing industry to carry out skill transformation and innovation at that time. Now, automated assembly lines have advanced to a level that can completely disconnect from manual labor.

In modern food production companies' assembly line production and transportation work, as well as in the logistics system, conveyor belt conveyors, mesh chain conveyors, chain plate conveyors, screw conveyors and other conveyor models can be seen everywhere. The application planning of conveyor equipment is also widely used in various professions of national economic production.

With the development of robot skills, the use of robots is gradually being promoted in factory production, and in the future, transportation equipment will be perfectly integrated with robots. Nowadays, the application of robot skills in logistics mainly focuses on two work processes: packaging and palletizing, loading and unloading, and transfer. With the continuous emergence of new robot skills, other logistics fields have also presented examples of robot applications.

The presentation of transfer robots not only fully utilizes the space of the working environment, but also improves the material transfer ability, greatly saves the working time during loading and unloading transfer, and improves loading and unloading power. Some developed countries have set a maximum limit for manual transfer, and transfers exceeding the limit must be completed by transfer robots. The maximum load of the transfer robot can now reach 500 kilograms.

Compared with other robotic devices, transfer robots are much cheaper in terms of pricing and have more experienced skills, which are increasingly borne by logistics companies. In foreign countries such as the Port of Thames in the UK, Kawasaki Port in Japan, and Rotterdam Port in the Netherlands, active container terminals have been planned to be built. After the use of active transfer robots, the working power of the 7A yard has greatly improved. With the increasing economic strength, the demand for transfer robots in China is also expanding day by day.

The reasonable use of transport machines can clearly improve the working environment of food companies, reduce the labor intensity of material loading and unloading personnel, achieve production automation and mechanization, and make the distribution base process in the logistics system more reasonable and scientific, thereby improving the power of material distribution, reducing logistics costs, and enhancing the adaptability and adaptability of the distribution base. This has laid a favorable foundation for achieving 100% quality assurance, ensuring zero error delivery, reducing documents, achieving paperless, and improving settlement capabilities.

In Japan, the use of robot skills has become very widespread, and typical factories now use robots for production. In China, as long as more advanced factories or foreign-funded companies use robots. Whether it is possible to timely change outdated concepts and keep up with the trend of modern logistics development has become a pressing concern for company managers. Compared to foreign countries, the Chinese government still lacks in this area, and the country and relevant companies should focus on promoting and disseminating knowledge about robots.

In the future, the transportation system will introduce robots for rapid development. It can be foreseen that with the continuous improvement of robot skills and the intensification of competition in the logistics market, the planning and application of robot skills in the logistics industry will gradually expand. Robots will be very effective and efficient in the logistics industry, and then promote the rapid development of modern logistics industry.

Article compilation: Foshan assembly line http://www.zs-chsb.com/list_145.html