Machinery is a tool device that can help people reduce the difficulty of work or save effort. Items such as chopsticks, brooms, and tweezers can be called machinery. They are simple machinery. From the point of view of structure and movement, there is no difference between mechanism and machine, which is generally called machine. The research field of machinery also includes many.
Mechanical research field
Mechanical Engineering and Technology
Mechanical engineering: Mechanical engineering is based on relevant natural sciences and technical sciences, combined with technical experience in production practice, to study and solve all theories and practices in the development, design, manufacturing, installation, use and maintenance of various machinery The applied discipline of the problem.
Mechanics: Mechanics is the basic part of mechanical science, and mechanical engineering is the applied technology part of mechanical science.
Mechanical design: According to the requirements of use, conceive, analyze and calculate the working principle, structure, movement mode, force and energy transmission mode of the machine, the material and shape and size of each part, and the lubrication method and convert it into a specific description. The working process as the basis for manufacturing.
Mechanical drawing: It is a discipline that accurately expresses the structure, size, working principle and technical requirements of machinery with drawings.
Mechanical manufacturing process and equipment
Machine tool technology
Fluid Power and Control
Machinery Manufacturing Automation
Numerical control technology: It is a technology that uses digital information to control mechanical movement and working processes. It is modern manufacturing that integrates traditional mechanical manufacturing technology, computer technology, modern control technology, sensor detection technology, network communication technology, and optomechanical technology. The basic technology of the industry, with the characteristics of high precision, high efficiency, and flexible automation, plays a decisive role in the realization of flexible automation, integration, and intelligence in the manufacturing industry.
Industrial Robot Technology
Computer-aided manufacturing: refers to the use of electronic digital computers to control machine tools and equipment through various numerical values in the mechanical manufacturing industry to automatically complete the processing, assembly, testing and packaging of discrete products. Referred to as cam.
Power Machinery Engineering
Other disciplines of mechanical engineering