Basic educational system: four years | Enrollment target: | Education: technical secondary school | Professional code: 080202
Training objectives
Training objectives
Training objectives: This major trains compound senior engineering and technical personnel with basic knowledge and application ability of mechanical design and manufacturing, who can engage in design and manufacturing, scientific and technological development, applied research and operation management in the field of mechanical manufacturing.
Training requirements: Students in this major mainly study the basic theories and knowledge of mechanical design, mechanical manufacturing, mechatronics and its automation, receive the basic training of modern mechanical engineers, and have the basic abilities of mechanical product design, manufacturing, equipment control and production organization and management.
Graduates should have the following knowledge and abilities:
1. Mathematics and other related natural science knowledge, mechanical engineering science knowledge and application ability;
2. Have the ability to make experimental plans, conduct experiments, process and analyze data;
3. Ability to design mechanical systems, components and processes;
4. Have the preliminary ability to systematically express, establish models, analyze, solve and demonstrate mechanical engineering problems;
5. Initially master various technologies and skills in mechanical engineering practice, and have the ability to use modern engineering tools;
6. Have a sense of social responsibility and good professional ethics;
7. Have team spirit and strong communication skills;
8. Have an international vision, lifelong education awareness and continuous learning ability.
Main subjects: mechanics, mechanical engineering.
Core knowledge fields: mechanical design principles and methods (including body design principles and methods, mechanism movement and power design principles, structure and strength design principles and methods, precision design principles and methods, modern design theories and methods), mechanical manufacturing engineering principles and technologies (including material science foundation, mechanical manufacturing technology, modern manufacturing technology), transmission and control in mechanical systems (including mechatronics, control theory, transmission and control technology), and computer application technology.
Example of core courses:
1. example 1: engineering drawing (40+32 hours), material mechanics (56 hours), theoretical mechanics (60 hours), mechanical principle (56 hours), mechanical design (56 hours), circuit theory (40 hours), analog electronic technology (40 hours), digital
2. Example 2: Theoretical Mechanics (64 hours), Material Mechanics (64 hours), Mechanical Engineering Drawing (48 +64 hours), Mechanical Principles (64 hours), Mechanical Design (64 hours), Electrical Technology Foundation (64 hours), Electronic Technology Foundation (64 hours), Engineering Materials (32 hours), Thermal Engineering Foundation (32 hours)
3. Example 3
(1) direction of construction machinery: mechanical drawing (32+48 hours), mechanical principle (48 hours), mechanical design (48 hours), structure and principle of starting mechanism (32 hours), hydraulic and hydraulic mechanical transmission (48 hours), construction machinery chassis (40 hours), modern construction machinery (48 hours), and engineering.
(2) Direction of mechatronics: mechanical drawing (32+48 hours), mechanical principle (48 hours), mechanical design (48 hours), control engineering foundation (40 hours), mechatronics (48 hours), mechanical technology (48 hours), electromechanical transmission control (40 hours), hydraulic transmission (40 hours) and CAD.
Main practical teaching links: metalworking practice, electrician (electronics) practice, cognitive practice, production practice, curriculum design, scientific and technological innovation and social practice, graduation design (thesis).
Main professional experiments: engineering mechanics experiment, mechanical design experiment, interchangeability measurement technology experiment, engineering measurement and control experiment, electrical and electronic technology experiment, mechanical manufacturing experiment, electromechanical transmission and control experiment.
Length of study: four years.
Degree awarded: Bachelor of Engineering.
Professional ability requirements
Professional ability requirements
The main contents of professional teaching
The main contents of professional teaching
C/C++ programming, mechanical CAD/CAM, two-dimensional drawing and three-dimensional modeling of AUTO CAD, circuit and analog electronic technology, numerical control technology and application, mechanical precision design, mechanical disassembly and mapping, automatic manufacturing system, mechanical precision design foundation and automatic mechanical system design.
Major (skill) direction
Major (skill) direction
Mechanical technology enterprises: mechanical design, mechanical manufacturing, maintenance of control equipment, programming and operation of CNC machine tools, design and manufacture of process tools, mechanical CAD/CAM technology, and on-site technical management.
Example of vocational qualification certificate
Example of vocational qualification certificate
Examples of continuing learning majors
Employment direction
Employment direction
Development prospect: (1) engaged in the compilation and implementation of mechanical design and manufacturing process regulations;
(2) Engaged in the maintenance of mechanical, electrical, hydraulic and pneumatic control equipment;
(3) Engaged in the design and manufacture of process tools;
(4) Engaged in programming and operation of high-intelligence equipment such as CNC machine tools and machining centers;
(5) Engaged in the application of mechanical CAD/CAM technology;
Corresponding occupation (post)
Corresponding occupation (post)
Other information:
The courses of mechanical design, manufacturing and its automation study mainly include advanced mathematics, linear algebra, probability theory and mathematical statistics, college physics, college physics experiments, general chemistry and experiments, engineering graphics, theoretical mechanics, material mechanics, circuit foundation, mechanical principle, mechanical design, mechanical parts, electronic technology, interchangeability and technical measurement, engineering materials, metal technology, testing and sensing technology, and manufacturing technology foundation.
Supplementary materials:
Mechanical design, manufacturing and automation is a comprehensive technical subject to study the enterprise management of various industrial mechanical equipment and electromechanical products from design, manufacturing, operation control to production process. Graduates majoring in mechanical design, manufacturing and automation can engage in scientific and technological research and development, operation management, applied research and sales in the field of mechanical manufacturing. Students majoring in mechanical design, manufacturing and automation need to have some basic knowledge of mechanical manufacturing and learn to use professional knowledge to solve some related problems in practical work.