This major cultivates applied compound senior professionals who have a solid electromechanical foundation, basic theories, basic knowledge and skills of modern vehicle design, manufacturing and production management, and can be engaged in vehicle design and manufacturing, vehicle modification, performance testing, maintenance, production management, sales, scientific and technological development and teaching of relevant departments in the field of vehicle engineering.
Main courses: automobile structure, automobile theory, thermal foundation and internal combustion engine principle, automobile electrical and electronic control technology, automobile design, automobile manufacturing technology, automobile diagnosis and detection technology, electromechanical integration technology, theoretical mechanics, material mechanics, mechanical drawing, pneumatic and hydraulic transmission, principle and application of single chip microcomputer, electrical and electronic technology, automobile body structure and design, CAD/CAM technology, etc.
The first part is the training scheme of vehicle engineering undergraduate professionals.
(Professional code: 080306W)
Business training objectives
This major cultivates applied compound senior professionals who have a solid electromechanical foundation, basic theories, basic knowledge and skills of modern vehicle design, manufacturing and production management, and can be engaged in vehicle design and manufacturing, vehicle modification, performance testing, maintenance, production management, sales, scientific and technological development and teaching of relevant departments in the field of vehicle engineering.
Business training requirements
Basic specifications: Students in this major mainly study basic theories such as mechanical design, manufacturing, electrical and electronic technology and computer technology, as well as professional knowledge such as automobile structure and electronic control, automobile theory and automobile design. , receive basic training in vehicle design, vehicle manufacturing, vehicle inspection and maintenance, and have the ability to engage in vehicle design, manufacturing, modification, performance test, maintenance, production management and sales.
Knowledge and ability that students should possess.
1. Have a solid foundation in natural science, humanities and social sciences and the ability to express words;
2. Master basic theoretical knowledge such as mechanics, mechanics, electrical and electronic technology, computer technology, professional basic knowledge and production management knowledge such as automobile structure, automobile theory, automobile electronic control, automobile performance test, automobile design and manufacturing;
3. Master computer-aided design/manufacturing methods, and have the ability of vehicle modification design and technical development;
4. Have the basic skills of drawing, calculation, testing, document retrieval and basic process operation necessary for this major and strong computer and foreign language application ability;
5. Have preliminary scientific research and technology development capabilities;
6. Have strong self-study ability, innovative consciousness and high comprehensive quality; Understand the frontier and development trend of this major;
7. On the basis of excellent political and professional skills, you should also have certain basic knowledge of sports and military, master the basic skills of scientific exercise, reach the qualified standards of college students' sports and military training stipulated by the state, and be physically and mentally healthy.
Academic system and degree
Educational system: the basic educational system of undergraduate course is 4 years, and the study period is 3-6 years.
Degree: Those who have completed their studies according to the regulations and meet the conditions for degree granting will be awarded a bachelor's degree in engineering.
Main disciplines and courses
Main subjects: mechanics, mechanical engineering
Main courses: automobile structure, automobile theory, thermal foundation and internal combustion engine principle, automobile electrical and electronic control technology, automobile design, automobile manufacturing technology, automobile diagnosis and detection technology, electromechanical integration technology, theoretical mechanics, material mechanics, mechanical drawing, pneumatic and hydraulic transmission, principle and application of single chip microcomputer, electrical and electronic technology, automobile body structure and design, CAD/CAM technology, etc.
Overall arrangement of hours and credits
1. Total course hours and credits
① The total course hours are 2700, with credits 150 credits.
② The required course is 2 133 hours, 1 18.5 credits, accounting for 79% of the total hours and credits.
③ Elective courses have 567 class hours and 3 1.5 credits, accounting for 2 1% of the total class hours and credits.
2. Total credits for practical teaching.
The total credit for practical teaching is 34.5 credits.
Teaching process (see attached table 1-6)
Graduation standards and requirements
1. Achieve the goal of moral education.
2. Complete the credits specified in this training plan, and the total credits shall not be less than 184.5 credits.
3. Meet the requirements of the Ministry of Education for college students' sports qualification standards.
Attached Table 1 Teaching Schedule of Compulsory Courses for Vehicle Engineering Undergraduates
Course number, course name, credit hours, distribution of weekly hours per semester, remarks
A total of 12345678 experiments were taught.
BB 106008 Ideological and Moral Cultivation and Legal Basis 2 36 36 2
BB 106009 Basic Principles of Marxism 2.5 45 45 2.5
BB 1060 10 Outline of Modern History of China 1.5 27 27 1.5
BB 1060 1 1 Introduction to Mao Zedong Thought, Deng Xiaoping Theory and Theory of Three Represents 2.5 45 45 2.5
BB 107004 Applied Writing 1.5 27 27 1.5
BB 108003 physical education class 1.5 27 27 1.5
BB 10900 1-4 College English 1-4 15 270 270 3444
BB 1020 18 Computer Culture Foundation 3.5 63 36 27 3.5
Computer Restriction Course 3 54 36 18 is shown in Schedule 2.
BB027007 management
BB 103002-3 Advanced Mathematics A1-A 210/8018055
BB 103007 Linear Algebra 2 36 36 2
BB 10300 1 probability statistics 3 54 54 3
BB 104005 College Physics B 5 90 90 5
BB 104006 College Physics Experiment B 2 36 36 2
BB0260 10 mechanical drawing and CAD 4 72 72 4
BB026020 Mechanical Drawing and CAD Experiment118181
BB0260 14 theoretical mechanics 3.5 63 63 3.5
BB02600 1 mechanics of materials 3.5 63 57 6 3.5
BB0260 13 fundamentals of mechanical manufacturing 2.5 45 45 2.5
Engineering materials science 2 36 30 6 2
BB0250 18 interchangeability and technical measurement 2 36 27 9 2
BB02602 1 Fundamentals of Mechanical Design 4 72 63 9 4
BB0250 17 hydraulic and pneumatic transmission 2.5 45 39 6 2.5
BB024006 Electrical Technology 3 54 45 9 3
BB0240 18 electronic 3.5 63 54 9 3.5
Principle and application of BB026025 single chip microcomputer 2.5 45 36 9 2.5 10 weeks ago
BB025002 mechatronics technology 2.5 45 45 8- 19 weeks
BB06800 1 automobile structure 3 54 45 9 3
BB068002 Automotive Electrical Appliances and Electronic Control Technology 2.5 45 40 5 2.5
BB068003 Automobile Design 3 54 54 3
BB0250 15 Thermal Basis and Internal Combustion Engine Principle 2.5 45 39 6 2.5
BB068004 automobile manufacturing technology 3 54 54 3
BB068005 automobile theory 2 36 30 6 2
BB068006 Automotive Diagnosis and Detection Technology 1.5 27 1.5
BB068007 Vehicle emission and pollution control 1.5 27 27 1.5
BB068008 automobile maintenance engineering 2.5 45 36 9 2.5
BB068009 comprehensive experiment of automobile design and manufacturing 2 36 36 2
BB0680 10 Comprehensive Experiment of Automobile Performance and Testing 1.5 27 27 1.5
Total 1 18.5
2 133
1873
260
19
20.5 22 17.5 12.5 16 1 1
Schedule 2 Teaching Schedule of Computer Restricted Courses for Vehicle Engineering Undergraduate Majors
course
Type CourseNo. Course Name Class Credit Start
Term teaching method
Lecture experiment in total class hours
travel
order
set up
count
Class bb102021Visual Basic Programming 63 36 27 3.5 2 1. Credit requirements: each student must take at least 3 credits of computer module courses;
2. Elective courses by students: distance teaching system, online teaching system and multimedia classroom;
3. According to professional requirements, students of this major should give priority to C language programming course.
Programming in BB 102022 C 63 36 27 3.5 2
Programming in BB 102023 C++ 63 36 27 3.5 2
BB 102024 Visual C++ Programming 63 36 27 3.5 2
BB 102025 C# Programming 63 36 27 3.5 2
BB 102026 Java Programming 63 36 27 3.5 2
should do
use
skill
skill
BB 102027 Data Technology and Application 54 36 18 3 2
BB 102028 Multimedia Technology and Application 54 36 18 3 2
BB 102029 Network Technology and Application 54 36 18 3 2
bb 102030 Photoshop 54 27 27 3 2
bb 10203 1 Flash 54 27 27 3 2
BB 102032 3DMax 54 27 27 3 2
BB 102033 Web page making and website design technology 54 27 27 3 2
Schedule 3 Teaching Schedule of Special Module Course of Sports Club for Vehicle Engineering Undergraduate Majors
Course number and course naming
Elective requirements for the allocation of hours, semesters and weekly hours
Teaching exercises two, three, four.
TB 10800 1-3 Big Club1-35.599811.51.52.51. Students can choose their own sports clubs from the second semester. Under the guidance of the teacher,
2. Students should take at least 5.5 credits.
TB 108004-6 table tennis and badminton club1-35.59981181.51.52.5.
TB 108007-9 fitness club1-35.59981181.51.52.5.
Tb108010-12 Water Sports Club1-35.59981181.51.52.5
Tb108013-15 taekwondo club1-35.59981181.52.5.
TB108016-18 Pan Bo Club1-35.59981181.51.52.5.
Tb108019-21-35.5998110.51.52.
Schedule 4 Teaching Schedule of Elective Courses for Vehicle Engineering Undergraduate Major
Elective Course Type Course Number Course Name Credit Hours Suggested Elective Term Elective Requirements
Holistic teaching experiment
Specialized elective course BF026003 Engineering Mechanics 2 36 36 7 Under the guidance of the tutor, each student should take at least 6 credit courses according to his personal situation.
BF026028 Computer Aided Design/Computer Aided Manufacturing Technology 2 36 27 9 5
BF06800 1 New energy and energy-saving technologies for automobiles 2 36 36 7
BF026029 CNC machine tools and programming 2 36 27 9 6
BF068002 Automobile Body Structure and Design 2.5 45 45 6
Public Elective Courses Before the start of each semester, the Academic Affairs Office will publish public elective courses for all students on the Internet. Students can choose independently online, and each student should take at least one course.
20 credits, including at least 6 credits for humanities and social sciences elective courses. 36 36
Schedule 5 Schedule of Practice Teaching Plan for Vehicle Engineering Undergraduate Major
ground
Sub-practice link name practice link
Generate code main program
week
mathematics
minute
A description of the number of credits and study allocation that must be completed after each class.
The first year, the second year, the third year and the fourth year.
1 2 3 4 5 6 7 8
basis
base
solid
Practical military theory and training SJ110001111
Manual SJ 068001111
Sports health and standard test SJ1080281111.
Reading and social practice activities SJ 106003 5.5 5.5 5.5
Social practice and investigation report1-2sj068002-322112
special
work
solid
Practice mechanical drawing measurement and CAD practice SJ 0260151111.
Metalworking practice SJ 026014111.
Course design of mechanical design SJ 026005111.
Course design of automobile manufacturing technology SJ068004 2 2 2 2
The comprehensive exercise of automobile disassembly and driving SJ068005 3 3 3 3 includes two weeks of uninterrupted classes.
Comprehensive practice of vehicle engineering SJ 068006111.
summary
close
solid
Internship graduation (production) internship and report to SJ 068007101010/0.
Graduation thesis (design) SJ068008 5 5 5 5
Total 34.5
34.5
Schedule 6 Time Allocation Table for Teaching Activities of Vehicle Engineering Undergraduate Specialty
Zhou Ji
School year123456 78910131415161718.
The first semester1☆□□□□□□□□□□□□□□□△□□□: # # # #
second term
Second, the third semester □□□□□□□□□□□□□□□□□□□□□□□□□□□: # # #
The fourth semester
Third, the fifth semester □□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□ □□ # #
Sixth semester □□□□□□□□□□□□□□□□□□□□□: # # # #
Fourth, the seventh semester □□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□: # # #
The eighth semester
Description: 1, symbol: □ category ☆ military theory and training △ professional labor × productive labor ▲ scattered garden practice, agricultural labor, professional labor, etc. ⊙ Teaching Practice ※ Curriculum Design: Examination
Try ∞ graduation (production) practice ◆ graduation design ‖ graduation (production) practice summary, thesis defense # holiday/is a separator, such as "⊙/"refers to the teaching practice in the first half of the week; "/⊙" refers to the second half.
Zhou's teaching practice.
2. Links provided by multiple semesters need to be underlined. For example, "⊙" is a multi-semester teaching practice, and this semester is 1 week; "⊙/2/" is 0.5 weeks, arranged in the first half week; "/⊙ /4"
0.25 weeks, arranged in the second half of the week.
The second part is the implementation of the teaching plan of vehicle engineering undergraduate major.
First school year
First semester: (theoretical teaching 17 weeks)
Course Code Course Name Course
Total and branch of nature
Theoretical experiments are taught by teachers.
It's time for class.
Remarks about the results of the start and end weeks of this site.
BB 106008 Compulsory course of ideological and moral cultivation and legal foundation 2 36 36
BB 106009 Basic Principles of Marxism Required 2.5 45 36
BB 107004 requires applied writing 1.5 27 27
BB 108003 Compulsory Physical Education Course 1.5 27 27
BB 10900 1 College English 1-4 Compulsory 3 54 54
BB 103002 Advanced Mathematics A 1 Compulsory Examination 5 180 90
BB 1020 18 Compulsory Course of Computer Culture Foundation 3.5 63 36 27
It is recommended to take the public elective course * * * 0 credits this semester.
Short-term 1: get through the long line.
Voluntary labor practice 1 credit 1 week (non-stop classes, cumulative 1 week)
Second semester: (20 weeks of theoretical teaching)
Course Code Course Name Course
Total and branch of nature
Theoretical experiments are taught by teachers.
It's time for class.
Remarks about the results of the start and end weeks of this site.
BB 1060 10 Compulsory Outline of Modern History of China 1.5 27 27
Limited computer courses 3 54 27 27
BB 109002 Compulsory College English 4 72 72
BB 103003 Advanced Mathematics A2 required 5 90 90
BB027007 management required course 2 36 36
BB 104005 College Physics B required course 5 90 90
It is recommended to take 8 credits of public elective courses this semester.
Short-term 2: stick to the long term.
Second year
The third semester: (theoretical teaching 19 weeks)
Course Code Course Name Course
Total and branch of nature
Theoretical experiments are taught by teachers.
It's time for class.
Remarks about the results of the start and end weeks of this site.
BB 1060 1 1 Introduction to Mao Zedong Thought, Deng Xiaoping Theory and Theory of Three Represents 2.5 45 45
BB 109003 Compulsory College English 4 72 72
BB 103007 Compulsory Linear Algebra 2 36 36
BB 10300 1 Compulsory Probability Statistics 3 54 54
BB0260 14 required course of theoretical mechanics 3.5 63 63
BB0260 10 mechanical drawing and CAD 4 72 72
BB026020 Mechanical Drawing and CAD Experiment Required 1 18 18
BB 104006 College Physics Experiment B required exam 2 36 36
It is recommended to take 6 credits of public elective courses this semester.
Short-term 3:
Mechanical drawing and AutoCAD integrated teaching practice required 1 credit 1 week.
The fourth semester: (theoretical teaching 19 weeks)
Course Code Course Name Course
Total and branch of nature
Theoretical experiments are taught by teachers.
It's time for class.
Remarks about the results of the start and end weeks of this site.
BB 109004 Compulsory College English 4 72 72
BB02600 1 required course of mechanics of materials 3.5 63 57 6
BB0260 13 compulsory course of mechanical manufacturing foundation 2.5 45 45
BB0250 17 hydraulic and pneumatic transmission requirements 2.5 45 39 6
BB0250 18 interchangeability and technical measurement requirements 2 36 27 9
BB024006 Electrical required course 3 54 45 9
It is recommended to take 6 credits of public elective courses this semester.
Short-term 4:
Metalworking teaching practice requirements 1 credit 1 week.
Third academic year
The fifth semester: (theoretical teaching 19 weeks)
Course Code Course Name Course
Total and branch of nature
Theoretical experiments are taught by teachers.
It's time for class.
Remarks about the results of the start and end weeks of this site.
BB02602 1 Basic Compulsory Course of Mechanical Design 4 72 63 9
BB0240 18 compulsory course of electronic technology 3.5 63 54 9
BB06800 1 compulsory course of automobile construction 3 54 45 9
BB026005 required course of engineering materials 2 36 30 6
It is recommended to take 6 credits for public elective courses, and 2 credits for specialized module elective courses this semester.
Short-term 5:
Mechanical design basic course design required 1 credit 1 week.
Sixth semester: (theoretical teaching 17 weeks)
Course Code Course Name Course
Total and branch of nature
Theoretical experiments are taught by teachers.
It's time for class.
Remarks about the results of the start and end weeks of this site.
BB026025 Principle and application of single chip microcomputer required 2.5 45 36 9 1- 10 week.
BB068004 compulsory course of automobile manufacturing technology 3 54 54
BB068003 compulsory automobile design 3 54 54
BB068002 Technical Requirements for Automotive Electrical Appliances and Electronic Control 2.5 45 40 5
BB0250 15 thermal foundation and internal combustion engine principle required 2.5 45 39 6
BB025002 technical requirements for mechatronics 2.5 45 45 8- 19 weeks
It is recommended to take 2 credits for public elective courses and 4 credits for specialized module elective courses. The total number of this semester.
Short-term 6:
Automobile disassembly and driving training requires 3 credits and 3 weeks (including 2 weeks of non-stop classes)
The course design of automobile manufacturing technology requires 2 credits and 2 weeks.
Fourth academic year
Seventh semester: (theoretical teaching 19 weeks)
Course Code Course Name Course
Total and branch of nature
Theoretical experiments are taught by teachers.
It's time for class.
Remarks about the results of the start and end weeks of this site.
BB068005 compulsory course of automobile theory 2 36 30 6
BB068008 car maintenance engineering required 2.5 45 36 9
BB068007 Compulsory vehicle emission and pollution control 1.5 27 27
BB068006 compulsory course of automobile diagnosis and detection technology 1.5 27 27
Bb 0680 10 compulsory comprehensive experiment of automobile performance and testing 1.5 27 27
BB068009 Comprehensive Experiment of Automobile Design and Manufacture Required 2 36 36
It is recommended to take 0 credits for public elective courses, and 4 credits for specialized module elective courses this semester.
Short-term 7:
Comprehensive practice requirements of vehicle engineering specialty 1 credit, 1 week.
The eighth semester:
Graduation practice is a comprehensive training for students after completing all theoretical and practical teaching, and it is the last important practical teaching link in the whole teaching process. Its purpose is to enable students to comprehensively use the basic theories, professional knowledge and basic skills they have learned, and to carry out basic training for technicians such as design, production, debugging, testing and management at a certain level; Further cultivate students' rigorous scientific attitude, independent analysis and problem-solving ability and innovative spirit.
The organization forms are flexible and diverse, and the internship tasks can be completed in the on-campus or off-campus internship bases. Internship arrangement 16 weeks.
Preparatory stage: the project is put forward by professional teachers or external tutors approved by the department at the end of the seventh semester, and released to students after examination and approval by the department; And take the way of combining students' voluntary topic selection and department allocation to implement the topic to every student.
Practice stage: take the topic as the organizational unit, and carry out professional comprehensive practice by combining decentralization and centralization. In the process of design, experiment and production, students should pay attention to experimental methods and conditions, original data, design and calculation process, problems and solutions. , so as to accumulate information for writing a summary.
Thesis writing and thesis defense stage: Graduation thesis is an important link to improve students' theoretical level, writing ability and meet teaching requirements. You should write independently in the required format, and you can get corresponding credits only if you pass the exam.
Evaluation methods and means
According to the different requirements of professional comprehensive practice topics, a graduation thesis defense review group is set up according to the topic category, and the review group conducts comprehensive assessment and scores according to the students' internship, graduation thesis quality and thesis defense, and writes comments. Graduation practice results are generally graded according to five grades: excellent, good, medium, passing and failing.
Part III: Interpretation of the second classroom and innovative activities.
First, according to the requirements of the talent training program, each major gives a detailed explanation of the second class and innovative activities of the students of this major. Specifically divided into the following two situations:
1. If the second class and innovative activities are explicitly required in the talent training plan, they should be regarded as compulsory credits, and all students in this major are required to complete the required credits (the credit requirements should be consistent with the column of "Innovative Credits" in Schedule 4 of the talent training plan). The part that exceeds the required credits can be regarded as reward credits and not as public elective credits.
2. If there are no clear requirements for the second class and innovation activities in the talent training program, students should be advised to actively participate in the second class and innovation activities, and the credits obtained from the second class and innovation activities can be used as reward credits instead of public elective credits.
Second, the credits for the second class and innovative activities are mainly obtained from the following aspects: (Except for the following, each major can increase the second class and innovative activities suitable for students of this major in combination with the characteristics of the major. )
1. Carry out meaningful scientific research and practice activities under the guidance of teachers in spare time, in addition to completing the courses and practice links in the professional talent training program, and combining the learned knowledge.
2, to participate in national and provincial knowledge and skills competitions and award-winning personnel, according to the award-winning level to obtain innovative credits.
3. Officially publish academic papers or high-quality works.
4. Make all kinds of small inventions and achievements.
5. Complete various experimental designs independently.
6. Participate in scientific research projects and obtain certain scientific research results.
7. Those who participated in the national electronic design competition for college students and won national and provincial awards will receive innovation credits according to the award-winning level.
Three, the second classroom and innovative activities credit recognition according to the relevant provisions of the school (see the "Regulations on the establishment of the second classroom and innovative activities credit management" (Nongjiaofa [2000]13).
Fourth, schools can give appropriate financial support to some second-class and innovative activities carried out by students. For specific implementation measures, please refer to the Detailed Rules for the Implementation of SRT Plan (Trial) (No.2003 12).