First, the basic knowledge of mold.
In the mold design training, trainees need to master the basic concepts, classification and composition of molds. Understand the role and importance of molds in production, as well as the design principles and processes of molds. In addition, students should also understand the performance and selection principles of mold materials, so as to lay the foundation for subsequent design work.
Second, the mold design software operation.
Modern mold design is inseparable from the support of professional software. In the training, students need to learn to use commonly used mold design software, such as AutoCAD, Pro Engineer, SOLIDWORKS, etc. Students need to master the basic operation and common tools of the software, and understand how to use the software for mold design and analysis. At the same time, it is also necessary to understand how to import design data into the processing equipment to enable digital production.
3. Mold structure design.
Mold structure design is the core content of mold design. Students need to understand the advantages and disadvantages of various mold structures and the scope of application, and master the composition and design methods of common mold structures. In addition, participants should also learn how to select the appropriate mold structure according to the product requirements and production process, and carry out detailed structural design. In the design, the strength, stiffness, precision, and reliability of the mold should be considered to ensure that the mold can meet the production requirements.
Fourth, the mold process design.
Mold process design is the key link to realize mold production. Students need to understand the characteristics and application scope of common mold processes such as injection molding, die casting, stamping, etc., and master the flow and parameter settings of various processes. At the same time, trainees should also learn how to select the appropriate process scheme according to product requirements and production conditions, and carry out detailed process design. In the design, factors such as the production efficiency, manufacturing cost, and product quality of the mold should be considered to improve the economic benefits and market competitiveness of the mold.
5. Mold material selection and heat treatment.
The selection of mold materials and heat treatment have an important impact on the performance and service life of molds. Students need to understand the types, performance characteristics and application scope of commonly used mold materials, and master the principles and methods of material selection. At the same time, participants should also learn the basic principles and techniques of heat treatment, and understand how to improve the performance of mold materials through heat treatment. In addition, trainees should also understand the surface treatment techniques of molds, such as carburizing, nitriding, etc., to improve the wear resistance and corrosion resistance of molds.
6. Mold processing and assembly.
Mold processing and assembly is an important part of mold production. Trainees need to understand the principles and usage methods of various processing equipment, such as milling machines, grinding machines, machining centers, etc. At the same time, participants should also learn how to select the appropriate processing equipment and process parameters according to the processing requirements. In addition, participants should also understand how to assemble and debug molds to ensure the normal operation and accuracy requirements of molds. In the process of processing and assembly, attention should be paid to safe operating procedures and environmental protection requirements.
7. Practical operation and case analysis.
In order to improve the trainees' practical skills and problem-solving skills, the training should also include practical operation and case analysis. Students can consolidate their knowledge and improve their skills through hands-on exercises. At the same time, through case analysis, trainees can understand the problems and solutions encountered in actual production, and improve their ability to analyze and solve problems. In the practical operation and case analysis, the teacher should give the necessary guidance and help to the students to ensure the learning effect and quality of the students.
Through the above seven aspects of training, trainees can have a comprehensive understanding of the knowledge and skill requirements of mold design, and improve the level of mold design and practical operation ability. This will help participants to better meet various challenges and market demands in their future work. At the same time, it has also cultivated more high-quality mold design talents for the development of China's manufacturing industry.