Departmental Specialties Aviation Engineering Department of Aviation Electromechanical Equipment Maintenance Aviation Electronic Equipment Maintenance Vehicle and Medical Electricity Engineering Department of Medical Electronic Instrumentation and Maintenance Automobile Modification Technology Medical Imaging Equipment Management and Maintenance Mechanical Engineering Department of Mechatronics Mechanical Manufacturing and Automation Mould Design and Manufacturing Hydraulic and Pneumatic Technology Numerical Control Technology Aircraft Manufacturing Technology Electrical Engineering Department of Applied Electronics Technology Detection Technology and Application ( Automation Instrumentation) Electrical Automation Technology Electronic Information Engineering Technology Electronic Engineering (former Aviation Electronics) Computer Control Technology Building Intelligent Engineering Technology Production Process Automation Technology Power Engineering Department Refrigeration and Cold Storage Technology Heating, Ventilation and Air Conditioning Engineering Technology Environmental Inspection and Governance Technology Construction Engineering Management Thermal Energy Power Equipment and Utilization Water Supply and Drainage Engineering Technology Construction Equipment Engineering Technology Computer Engineering Department E-commerce Computer Information Management Computer Application Technology Computer Network Technology Computer Multimedia Technology Software Technology Department of Economic Management Department of Air Crew Accounting Computerization Logistics Management Marketing Marketing and Planning Chain Management Tourism Management News Reporting and Production Taxation Department of Basic Business English Secretarial Tourism English College of Aviation Aviation Mechanics
College of Aviation Mechanics now has a faculty and staff of 49 people, of whom 17 are associate professors and 11 are lecturers. There are 49 teaching staff in the College of Aviation Mechanics, including 17 associate professors, 11 lecturers and 11 engineers. This is a high-quality teaching team with deep theory, specialized expertise and excellent technology. There is also a group of part-time teachers mainly composed of scientific researchers and experts engaged in aircraft engine research, aircraft testing research, aircraft avionics research, and business backbones of each aircraft security brigade. There are 4 specialized laboratories and 4 basic laboratories, 11 on-campus practice aircraft, and a unique and stable off-campus practice base.
Aviation electromechanical equipment maintenance (aviation machinery direction) (male only, height 1.70 m ~ 1.78 m)
Cultivation objectives: This major cultivates the overall development of morality, intellectuality and physical fitness, with a sense of responsibility, collaboration and innovation, both professional theoretical knowledge, and strong practical hands-on ability of the maintenance of the aircraft of the higher technical and applied specialists.
Cultivation Requirements: Have the basic knowledge of aircraft, engine, all kinds of special equipment, master the aircraft structure and strength of the aircraft, with aircraft maintenance, performance, testing, fault diagnosis and troubleshooting ability.
Major courses: Introduction to aviation, aerodynamics and flight mechanics, engine principles, aircraft structural strength, modern aircraft propulsion system control, aircraft construction, engine construction, aerospace materials, aircraft failure analysis and diagnosis, international aviation development, aircraft structural overhaul engineering, aircraft accessory overhaul technology, aircraft mechanical weapon systems.
Aviation electromechanical equipment maintenance (avionics direction) (male only, height 1.70 m ~ 1.78 m)
Cultivation requirements: with airborne instrumentation and electrical specialties necessary for the basic theoretical knowledge and professional knowledge, with aviation instrumentation, electrical, electronic equipment, the use of maintenance, quality inspection, equipment modification and debugging capabilities.
Main Courses: Introduction to Aviation, Aviation Electricity, Flight Performance and Control, Sensors and Interfaces, Gyroscope and Inertial Navigation Systems, Aviation Materials, Aircraft Power Supply System, Aviation Electrical Control System, Flight Information Data System, Aircraft Oxygen System, Electronic Measurement Technology and Instrumentation, International Aeronautical Developments, Aircraft Structural Overhaul Engineering, Aircraft Accessory Overhaul Technology, Aircraft Mechanical Weapon Systems. Systems.
Department of Vehicle and Medical Electricity Engineering
Department of Vehicle and Medical Electricity Engineering is a new teaching unit after the former College of Biomedical Electricity was changed to a new department, and it is a cross-field and cross-disciplinary department of aerospace technology to cultivate composite talents who are adapted to the engineering technology of aeronautical vehicles and biomedical electricity. The college has 66 teaching staff, including 3 professors, 13 associate professors, 17 lecturers and 5 engineers. At present, the college has opened the following majors: automobile modification technology (aerospace ground equipment special vehicles, critical care ambulances and other special vehicles modification), medical electronic instruments and maintenance, medical imaging equipment management and maintenance (biomedical and electrical engineering and aerospace technology combined with medical electronics, medical imaging technology), etc. The college has established stable experimental and testing facilities with the enterprises to meet the needs of aviation vehicles and medical imaging technology. The college has established stable experimental and practical training bases with enterprises. Graduates are mainly employed in large enterprises and institutions related to military, aviation, medical and other equipment systems.
Automobile modification technology
Cultivation goal: This specialty cultivates the aerospace field needs, has the strong practical working ability of the special automobile modification of the composite, skillful higher technology applied specialists.
Cultivation requirements: with the automobile modification industry in the higher professional and technical personnel necessary for the basic cultural knowledge and professional knowledge; with the calculation, drawing, parts testing capabilities; with the ability to test the basic performance of automobiles, with the basic ability to analyze and solve the technical problems of the profession; with the ability to apply the microcomputer. Preliminary mastery of basic operating skills of clamping, turning, welding and automobile driving.
Major courses: basic computer application, mechanical drawing, basic electrician, computer-aided design, metal technology, basic automobile structure, automobile design principle, medical car modification technology, automobile modification principle, automobile electrical equipment, automobile air-conditioning, automobile new technology, automobile new materials, automobile maintenance and management basics.
Medical electronic instruments and maintenance
Cultivation goal: this specialty cultivates the mastery of medical electronic instruments and equipment production, inspection, installation, maintenance and management of the first line of the needs of the
have strong hands-on ability and the ability to adapt to the application of higher technology specialists.
Cultivation requirements: master the basic theories and basic skills required for this specialty
and accept the necessary process operation training, with the necessary professional knowledge of medical electronic instruments and maintenance and professional production knowledge, understanding of the scope of the specialty of science and technology of the new progress and new trends, and be able to solve the management and maintenance of the ability to be more proficient.
Major courses: basic computer applications, basic circuits, microcontroller principles and interface technology, database applications, microcomputer principles and interface technology, analog electronic circuits, digital electronics, circuit analysis, medical electronic instruments, medical testing and analysis of instruments, electronic measurement technology, electronic design and production technology, high-frequency electronic circuits.
Medical imaging equipment management and maintenance
Cultivation goal: this specialty cultivates the medical imaging equipment production, inspection, installation, maintenance and management of the first line of the needs of the
have strong hands-on ability and the ability to adapt to the application of higher technology professionals.
Cultivation requirements: master the basic theories and basic skills required for this specialty
with the necessary professional knowledge in the production, inspection, installation, maintenance and management of medical imaging equipment, to understand the new advances in science and technology in the scope of this specialty and new trends, and be able to solve the problem of production, management and maintenance of the ability to be more proficient.
Major courses: basic computer applications, microcomputer principles, basic mechanical design, basic imaging electronics, medical imaging detection technology, principles of diagnostic imaging, principles of medical imaging imaging, modern medical imaging technology, nuclear medicine instrumentation, modern medical imaging equipment, medical X-ray machine technology basics, medical imaging equipment and maintenance, principles of construction and maintenance of medical digital X-ray machine.
Department of Mechanical Engineering
The Department of Mechanical Engineering now has 53 faculty members, including 20 senior titles. Under the mechanical foundation teaching and research room, mechanical manufacturing teaching and research room, electromechanical teaching and research room and CNC teaching and research room. It has a tolerance and technical measurement experimental training room, CAD/CAM training room, CNC training base and advanced manufacturing technology training base, etc., and has a stable off-campus training base.
The department has five majors such as mechatronics technology (CNC direction), machinery manufacturing and automation, mold design and manufacturing, hydraulic and pneumatic technology and aircraft manufacturing technology, etc., of which the mechatronics technology major (CNC direction) is the national higher vocational colleges and universities pilot program for teaching reform, the provincial level focuses on construction of the pilot program of excellence, and has been identified by the Ministry of Education as the national higher vocational colleges and universities quality professional Construction project, mechanical manufacturing and automation major for the provincial higher vocational college teaching reform pilot program. Basic Mechanical Design", "Hydraulic and Pneumatic Technology" and "Mechanical Manufacturing Technology" are the national high-quality courses, and "Engineering Mechanics", "Tolerance and Technical Measurement" and "Mechanical Drawing" are the provincial high-quality courses.
Mechatronics Technology
Numerical Control Technology Application Direction
Cultivation Objective: This specialty cultivates the higher technical applied specialists who master the use of numerical control machine tools, machining, programming and maintenance skills, and who have strong hands-on ability to adapt to the needs of the front-line production of modernization and construction.
Cultivation Requirements: This major students mainly learn mechanical design and manufacturing, computer technology, CNC machine tool structure and operation, CNC technology and programming and other basic knowledge, to accept the preliminary training of electromechanical engineering, with the operation of CNC machine tools, programming, maintenance and other aspects of the basic ability and electromechanical engineers should have the basic skills, graduation should be able to operate the intermediate level of the CNC ability to work.
Major courses: mechanical drawing/CAD, tolerance and technical measurement, electrical and electronic technology, machine tool electric appliances, basic mechanical manufacturing, mechanical manufacturing technology, CNC machine tools and CNC principles, hydraulics and pneumatics, CNC programming and operation, advanced manufacturing technology.
Numerical control equipment management and maintenance direction
Cultivation goal: This specialty cultivates mastery of the basic theoretical knowledge of numerical control technology and numerical control maintenance professional skills, with strong engineering practice ability, adapt to the modernization of the construction of the higher technology applied specialists.
Cultivation Requirements: The students mainly study mechanical design and manufacturing, control theory, computer technology, CNC machine tools and CNC principles, CNC programming and operation, CNC equipment troubleshooting and other basic knowledge, to receive preliminary training in electromechanical engineering, with the operation of CNC machine tools, programming, CNC equipment troubleshooting and maintenance of the basic capabilities and basic skills that electromechanical engineers should have.
Major courses: mechanical drawing and CAD, tolerance and technical measurement, electrical and electronic technology, microcontroller principles and interface technology, machine tool electrics and PLC, basic mechanical control engineering, basic mechanical manufacturing, mechanical manufacturing technology, CNC machine tools and CNC principles, hydraulic and pneumatic technology, CNC process and programming, CNC maintenance technology.
Mechanical manufacturing and automation (the provincial higher vocational college teaching reform pilot program)
Cultivation goal: This specialty cultivates the higher technical applied specialists who have the ability to prepare and implement the machining process procedures, and have the ability to operate, maintain, and manage the machining equipments to adapt to the needs of the front line of production, construction, service, management, and so on.
Cultivation Requirements: The students mainly study the basic theories of mechanical design and manufacturing, learn the basic knowledge of electronic technology, computer technology and information technology, and receive the preliminary training of mechanical engineering, with the basic ability to carry out mechanical design and manufacturing, advanced machining equipment operation, equipment control and production organization and management.
Major courses: basic mechanical design, basic mechanical manufacturing, mechanical manufacturing technology, microcontroller principle and interface technology, electrical and electronic technology, CNC technology and programming, hydraulic and pneumatic technology, computer-aided design and manufacturing (CAD/CAM), business management.
Mold Design and Manufacturing
Cultivation Objective: This profession cultivates the higher technical applied specialists who have certain mold design ability, strong mold manufacturing and maintenance ability, related equipment operation and maintenance skills, and have the comprehensive application ability of the professional and technical skills and a certain quality of work innovation.
Cultivation requirements: a solid basic knowledge of machinery and engineering drawing ability, mastery of the necessary electrical technology, computer technology, basic knowledge and basic skills, commonly used mold design technology, commonly used mold CAD technology, general mold manufacturing process, with maintenance, repair of the mold of the basic knowledge and skills, the development of mold manufacturing of new technologies, new technologies, the initial ability.
Major courses: mold CAD/CAM, mold manufacturing technology, basic mechanical manufacturing, cold stamping process and mold design, plastic pressure process and mold design, mold failure analysis, CNC programming, mold materials and surface treatment, Pro/E and so on.
Department of Aeronautical Engineering, Flight Vehicle Power Engineering
Cultivation Objective: This major cultivates senior engineers and technicians who have the knowledge of flight vehicle power plant or flight vehicle power plant control system, and who can be engaged in designing, researching, producing, experimenting, operating and maintaining and technical management of flight vehicle power plant and other thermodynamic machinery in the departments of aviation, aerospace, transportation, energy and environment. Engineering talents.
Cultivation Requirements: Students of this major mainly study the basic theories and basic knowledge of the aircraft power plant, receive basic training in mechanical engineering design, experimental testing and computer applications, and have the basic ability to design, experiment, and operate and maintain the aircraft power plant and control system.
Major courses: mechanical principles and mechanical design, electrical and electronic technology, engineering mechanics, engineering thermodynamics, heat transfer, fluid (including gas) mechanics, mechanics of materials, aerodynamics, theoretical mechanics, power plant principles and structure, power plant manufacturing process, power plant testing technology.
Granted degree: Bachelor's degree.
Aircraft Manufacturing Engineering
Cultivation Objective: To cultivate senior engineering and technical personnel and management personnel engaged in design, manufacturing, research, development and management in the field of aircraft manufacturing.
Cultivation Requirements: The students mainly study the basic knowledge of natural sciences, the basic theory of manufacturing engineering and the basic theory and knowledge of aircraft manufacturing, and through various practical teaching links, to cultivate the students' ability to analyze and solve the actual problems in aircraft manufacturing engineering by applying the basic knowledge and skills they have learned.
Major courses: theoretical mechanics, mechanics of materials, mechanical principles, mechanical design, aerospace engineering materials, electrical and electronic technology, computer technology, metal plastic forming principles, mold design and manufacturing, aircraft parts processing and forming process, aircraft assembly process, aircraft construction, computer-aided aircraft manufacturing Hydraulic and pneumatic technology
hydraulic electric control direction
Cultivation Objective: This major cultivates higher technical and applied specialists with strong practical ability, who are able to engage in the use, maintenance, design, manufacture and management of electromechanical and hydraulic integration equipment.
Cultivation Requirements: This major students mainly study hydraulics and pneumatics, mechanical design and manufacturing, electronic control, computer technology and basic knowledge of information technology, accept the preliminary training of liquid and electric control engineering, hydraulics and pneumatics, mechanical and microelectronics technology integration equipment manufacturing, installation, commissioning, maintenance and renovation of innovation capabilities, with scientific research and development, technical services, quality and equipment management. The basic ability of scientific research and development, technical service, quality and equipment management.
Major courses: mechanical drawing and CAD, basic mechanical design, electrical and electronic technology, computer fundamentals, microcontroller principles and interface technology, fluid mechanics, basic mechanical control engineering, hydraulic transmission technology, pneumatic transmission, hydraulic control technology, mechanical manufacturing technology, CNC technology and programming, machine tool electrical and PLC, testing technology.
Aircraft Manufacturing Technology
(male only)
Cultivation Objective: This major cultivates higher technical applied specialists with the basic theoretical knowledge necessary for aircraft assembly, part assembly and sheet metal parts molding, mastering aircraft structure and structural strength, and having basic skills in aircraft manufacturing, repair and maintenance.
Cultivation Requirements: This major is mainly to learn the basic knowledge of aircraft structure, engine structure, mechanical design and manufacturing, electrical and electronic technology, computer technology and information processing, to accept the engine assembly and maintenance, pincer assembly, sheet metal processing, and other initial training, with the basic skills of engine assembly and maintenance in the aviation enterprises or airports, assembly of aircraft parts, aircraft assembly, and other basic skills.
Major courses: mechanical drawing and CAD, basic mechanical design, mechanical manufacturing technology, computer fundamentals, electrical and electronic technology, hydraulic and pneumatic technology, aircraft maintenance technology, aircraft assembly process, general aviation, aircraft structure, engine structure.
Development Prospects
In order to accelerate the development of the school and to meet the demand of modern enterprises for technically applied and advanced skilled personnel, the school has established the tenet of "Relying on Aviation, Based on Shaanxi, Serving the West, Facing the Nation" and the principle of "Running a Technically Applied College and Cultivating Technically Applied Talents". Cultivate technical and applied talents", puts forward the schooling philosophy of "quality school, characteristic school, talent school, science and technology school", determines the goal of "build a national model, create domestic excellence", and Increase efforts to grasp the employment rate, in the graduates to sign an employment agreement before employment policy, and to implement the policy to each department and then to each class. This policy has greatly encouraged the graduates' motivation for employment and study, and the employment rate has been among the highest every year since the implementation of the policy, but the real employment rate is not as high as that of the signed employment agreement. The first thing that you need to do is to get your hands on a new pair of shoes or boots, and then you'll be able to get your hands on a new pair of shoes or boots.