A, according to the requirements of previous years, August 1 to September 15 for the province's senior professional and technical qualifications assessment committee, the provincial intermediate professional and technical qualifications assessment committee to accept the declaration of the evaluation material time; August 1 to September 30 for the city intermediate professional and technical qualifications assessment committee and the city's primary assessment committee daily department to accept the declaration of the material time. October for the city's intermediate and junior assessment committees to carry out evaluation activities.
Second, professional and technical personnel to declare the evaluation of intermediate professional and technical qualifications, need to comply with the intermediate professional and technical qualifications issued since 1998 (the requirements of each specialty are different, see the "qualification conditions"), summarized in the following points:
1, ideological and political conditions.
2. Educational qualifications.
According to the text, any declaration of assessment of intermediate qualifications are not subject to the assessment of whether or not they are employed, and at the same time, the academic qualifications (degree) (if stipulated by law, from the provisions), qualifications conditions for the following adjustments (individual series of other provisions):
(1) Master's degree recipients, the number of years engaged in professional and technical work after obtaining a master's degree by three years adjusted to more than two years; or obtaining a Master's degree before and after the master's degree to engage in professional and technical work for a cumulative total of more than 3 years;
(2) Graduates of graduate school or dual bachelor's degree, after obtaining the qualification of assistant level, the number of years to engage in professional and technical work is adjusted from 3 years to more than 2 years; if they have not obtained the qualification of assistant level, the number of years to engage in professional and technical work is adjusted from 4 years to more than 4 years;
(3) Undergraduate students who have obtained the qualification of assistant level, the number of years to engage in professional and technical work is adjusted from 4 years to more than 4 years.
(3) university undergraduates, after obtaining the qualification of assistant level, the number of years of professional and technical work is adjusted from 4 years to more than 3 years; if they have not obtained the qualification of assistant level, they have been engaged in professional and technical work for more than 5 years;
(4) university graduates of college, after obtaining the qualification of assistant level, the number of years of professional and technical work is adjusted from 5 years to more than 4 years; if they have not obtained the qualification of assistant level, they have been engaged in professional and technical work for more than 8 years;
(5) graduates from junior college are no longer required to The implementation of "secondary school graduates, engaged in professional and technical work for more than 20 years, of which after obtaining the assistant level, employed in assistant-level positions for more than 5 years", who have been engaged in professional and technical work for more than 15 years, or after obtaining the assistant level qualification, engaged in professional and technical work for more than 8 years, can declare the assessment of intermediate qualifications.
3, foreign language conditions.
Must participate in the national title foreign language level examination, and the results meet the requirements.
4, computer test conditions.
Must pass the national computer application skills test, or computer network training exams, certificates of passing the test results as one of the necessary conditions for reporting and evaluation.
5, continuing education conditions.
From the last promotion to this declaration, professional and technical personnel must complete the annual 15 days of continuing education courses, one of the public courses.
6, professional and technical work experience (ability) conditions (each specialty are different).
7. Performance and achievement conditions (each specialty is different).
8. Thesis conditions.
Must be published publicly in professional journals above the municipal level.
Third, declare the evaluation of professional and technical personnel in July and August each year to the Municipal Personnel Bureau of Professional and Technical Personnel Management Section or the unit in charge of the following forms:
1, "intermediate professional and technical qualifications to send the evaluation of the materials catalog list" 1;
2, "intermediate professional and technical qualifications of the basic situation of the declarant and the evaluation of the registration form" 1;
3, "professional and technical qualifications evaluation form" 1;
3, "professional Technical Qualification Evaluation Form" 1 copy;
4, "performance, certificate materials" 1 copy;
5, "proof, certificate materials" 1 copy;
6, "post qualification card photo page" 1 copy;
7, "declaration of professional and technical qualifications evaluation information entry form" 1 copy;
8, "professional and technical personnel assessment of the expiration of the term of office registration" 1 copy;
9, "professional and technical personnel assessment of the expiration of the term of office" 1 copy;
10, "professional and technical personnel evaluation of the registration of the expiration of the term of office" 1 copy.
9. 1 copy of Annual Assessment Registration Form for Professional and Technical Personnel.
Four, declare the assessment of professional and technical personnel need to submit the following information:
1, in the personnel department to receive the above nine forms.
2. Relevant certificates:
(1) Submit the original computer examination certificate;
(2) Submit the original and a copy of each of the continuing education certificates;
(3) Submit the original transcripts of foreign languages;
(4) Submit the original and a copy of each of the academic certificates;
(5) Submit the originals and copies of each of the existing qualification certificates , photocopies of each.
Declaring the assessment of professional and technical personnel to truthfully fill out the relevant forms, according to the requirements of the directory list, organized, categorized and bound, sent to the Personnel Bureau of the Specialized Technology Section review, sign the opinion and send the relevant assessment committee of the day-to-day work of the department.
Fifth, the daily work of the Jury department of the declarant's qualifications, education, performance and material integrity, authenticity of the audit, qualified, sent to the Jury review.
Sixth, the evaluation of the assessment committee through the personnel, to be in their units 7 days of publicity, through the publicity, by the assessment committee of the day-to-day work of the department to organize, fill in the relevant materials, reported to the personnel department for approval and issuance of certificates. Mechanical Engineer Certification Examination Syllabus
Ⅰ. Basic requirements
1. Proficiency in engineering drawing standards and representation. Mastery of tolerance fit selection and labeling.
2. Familiar with the properties of commonly used metal materials, test methods and their selection. Master the principle of heat treatment of steel, familiar with the heat treatment methods of commonly used metal materials and their selection. Understand the types and applications of commonly used engineering plastics, special ceramics, optical fibers and nanomaterials.
3. Master the basic knowledge and skills of mechanical product design, and be able to skillfully carry out the design of parts and components. Familiar with the design procedures and basic technical elements of mechanical products, able to use electronic computers to carry out the auxiliary design of parts, familiar with practical design methods, understanding of modern design methods.
4. Master the basic knowledge and skills of formulating process, be able to skillfully formulate the machining process of typical parts, and be able to analyze and solve the general process problems arising on the scene. Familiar with casting, pressure processing, welding, cutting (grinding) processing, special processing, surface coating treatment, assembly and other mechanical manufacturing process of the basic technical content, methods and characteristics and master certain key. Familiar with the process program and process equipment design knowledge. Understand the production line design and workshop layout principles and knowledge.
5. Knowledge of occupationally related safety regulations, codes of ethics and laws. Knowledge of the basics of economics and management. Knowledge of management innovation concepts and applications.
6. Familiarize with quality management and quality assurance system, master the basic tools and methods of process control, and understand the relevant quality testing techniques.
7. Familiar with the basic knowledge of computer applications. Familiar with the composition of computer numerical control (CNC) system, role and control program preparation. Understand the basic concepts of computer simulation and the characteristics and applications of commonly used computer software.
8. Understand the knowledge of mechanical manufacturing automation.
II. Examination content
I. Engineering Drawing and Tolerance
1. General provisions of engineering drawing
(1) drawing frame
(2) drawing line
(3) scale
(4) title bar
(5) view representation
(6) layout of the drawing
(7) Section symbols and drawing method
2. Zero, component (system) drawings of the prescribed drawing method
(1) mechanical system zero, component drawings of the prescribed drawing method (threads and threaded fasteners drawing gears, rack and pinion, worm, worm gears and sprocket wheel drawing spline drawing and its dimensioning spring drawing)
(2) mechanical, hydraulic, pneumatic system diagrams of the diagrams of the schematic drawing method ( Simplified drawing of mechanical parts and components and symbols Simplified drawing of pipelines, interfaces and joints and symbols Simplified drawing of common hydraulic components and symbols)
3. Schematic diagrams
(1) Mechanical system schematic diagrams
(2) Hydraulic system schematic diagrams
(3) Pneumatic system schematic diagrams
4.
5. Dimension, tolerance, fit and form tolerance labeling
(1) Dimension labeling
(2) Tolerance and fit labeling (basic concepts of tolerance and fit labeling methods)
(3) Form tolerance labeling
6. Surface quality description and labeling
(1) surface roughness assessment parameters
(2) surface quality labeling symbols
(3) Description of surface quality labeling
7. Dimensional Chain
2. Engineering Materials
1. Metallic Materials
(1) Material Properties (Mechanical Properties Physical Properties Chemical Properties Technological Properties)
(2) Crystal Structure (Properties of Crystals Crystal Structure of Metals)
2. Crystallization of metals Transformation of metals in the solid state Structure of alloys)
(3) Phase diagram of iron-carbon alloys (Analysis of the crystallization process of typical iron-carbon alloys Influence of carbon on the equilibrium organization and properties of iron-carbon alloys Application of phase diagrams of iron-carbon alloys)
(4) Test methods (Tensile force test Impact test Hardness test Chemical analysis Metallographic analysis Non-destructive flaw detection)
(5) Material Selection (use performance process performance economy)
2. Other engineering materials
(1) engineering plastics (commonly used thermoplastic engineering plastics commonly used thermosetting engineering plastics commonly used plastics molding methods engineering plastics applications)
(2) special ceramics (alumina ceramics silicon nitride ceramics silicon carbide ceramics boron nitride ceramics metal ceramics)
(3) Fiber Optics (types and applications)
(4) Nanomaterials (types and applications)
3. Heat Treatment
(1) Heat Treatment Processes (Heat Treatment of Steel Heat Treatment of Cast Iron Heat Treatment of Non-ferrous Metals)
(2) Heat Treatment Equipment (Fuel Furnaces Resistance Furnaces Vacuum Furnaces Induction Heating Power Supplies)
(3) Heat Treatment Applications (Shafts and Springs Gears Rolling Bearings Molds and Tools) Rolling bearings Moulds Tools Cast iron, cast steel parts Non-ferrous metal parts)
Third, product design
1. New product design and development procedures
(1) Feasibility analysis (market research Product positioning Feasibility Analysis Report)
(2) Conceptual design (design requirements Functional analysis Program design Design task book)
(3) Technical design (work content and requirements Mechanical structure design Design calculation instructions)
(4) Design evaluation and decision-making (evaluation objectives, guidelines Evaluation methods)
2. Mechanical design of the basic technical elements
(1) Strength, stiffness
(2) structural process design (machinability design Design of assembly design Design of packaging and transportation of the design principles) (Key points)
(3) Reliability (Evaluation indexes of reliability, Reliability design)
(4) Friction/Wear/Lubrication (Law of Friction, Law of Wear, Factors affecting Friction and Wear, Methods of reducing Friction and Wear)
(5) Mechanical Vibration and Noise (Basic Concepts, Roots of Vibration and Noise, Hazards, and Strategies for Prevention and Reduction of Vibration and Noise)
(6) Mechanical Vibration and Noise (Basic concepts, Roots and hazards)
(6) Safety (principles of safety design, protective design)
(7) Standardization and generalization
3. Design of mechanical parts and components
(1) Mechanical transmission and its parts and components (functional characteristics and design calculation of gears) Functional characteristics and design of shafts Functional characteristics and design of screws Functional characteristics and design of belt transmissions Functional characteristics and design calculation of speed reducer Functional characteristics and design selection of speed governor Functional characteristics and design of speed reducers Functional characteristics and design of speed governors)
(2) Couplings and fasteners (Functional characteristics and design of bolted couplings Functional characteristics and design of keys Functional characteristics and design of pins Functional characteristics and design of couplings Functional characteristics and design of overfilled couplings)
(3) Operational control and regulation (Functional characteristics and design of springs Functional characteristics and design of freezers Functional characteristics and design of brakes) (Functional characteristics and design of springs Functional characteristics and design of clutches Functional characteristics and design of brakes)
(4) Boxes/frames (Design criteria for boxes and frames General requirements for box and frame design Steps for box and frame design)
4. Pneumatic and hydraulic transmission and control systems
(1) Commonly used pneumatic and hydraulic components (control valves, pumps, and motors)
(2) Principles of pneumatic and hydraulic transmissions and system design (basic pneumatic system) and system design (basic piping design of pneumatic system basic piping design of hydraulic system)
(3) common troubleshooting and maintenance
(4) sealing design
5. Fundamentals of electrical transmission
(1) electric motors (DC motors, asynchronous motors, synchronous motors)
(2) electrical speed control (speed control of DC motors) Asynchronous motor speed control)
(3) Electrical braking (DC motor driving Asynchronous motor driving)
(4) Selection of electric motors
6. Design Methods and Applications
(1) Computer-aided Design (Concepts and Applications)
(2) Practical Design Methods (Industrial Styling Optimization Ergonomics Inverse Design) Modular design, finite element analysis, rapid prototyping)
(3) modern design methods (parallel design, intelligent design, life cycle design, green design, innovative design)
IV. Manufacturing process
1. process design
(1) the basic concepts of process (production process, process process, machining process, machining process, machining process regulations)
(2) the process of design, process design, process engineering, process engineering, process engineering, process engineering, process engineering, process engineering, and process engineering.
(2) Basis, procedure and main problems of process regulation design (Basis of process regulation design Procedure of process regulation design Main problems of process regulation design)
(3) Review of processability of product structure (Object of review of processability of product structure Purpose of review of processability of product structure Main factors to be considered in review of processability of product structure Content of review of processability of product structure)
(4) Positioning reference selection (the concept of reference precision reference selection coarse reference selection)
(5) Process route design (selection of surface machining methods, the division of machining phases, the arrangement of machining sequence, a reasonable combination of working procedures)
(6) Determination of machining allowances (the concept of machining allowances, factors affecting the machining allowances to determine the machining allowances of methods)
(7) Process dimensional calculation (the main factors that should be considered in the review of product structure, the content of the review of the structure of the product structure) p> (7) process size calculation (the basic concept of process size chain basic process size chain solution comprehensive process size chain graphical calculation method)
(8) technology and economic analysis of technology programs (principles of evaluation of technology programs analysis and comparison of technology programs)
(9) typical parts process design examples (box pieces of machining process spindle machining process cylindrical gear processing) Process)
2. Design and manufacture of process equipment
(1) process equipment and its types (process equipment, process equipment types)
(2) the basis for the selection of process equipment (process program, process procedures, process requirements and equipment, the company's existing conditions of the process equipment, the standards of various types of process equipment, ordering manuals, charts and instruction manuals,etc.
(3) the process equipment, process equipment, process equipment, process equipment, process equipment, process equipment, process equipment, process equipment, process equipment, process equipment, process equipment, process equipment, process equipment, process equipment, process equipment, process equipment and equipment p>(3) Principles of selection and design of process equipment
(4) Procedures for selection of process equipment
(5) Procedures for design of process equipment
(6) Indicators of technical and economic evaluation of the design (or selection) of process equipment
(7) Validation of process equipment (purpose of validation of process equipment, scope of validation, main content of validation, method of validation)
3. Workshop layout design
(1) workshop production equipment layout principles
(2) product type and production analysis (by product (or assembly line, production line) equipment layout program by type of work (or specialization) equipment layout program group (or unit) equipment layout program)
(3) workshop equipment layout (machine group layout) (assembly line arrangement)
4. cutting (grinding) machining
(1) cutting (grinding) machining basic knowledge (basic concepts) metal cutting rate cutting force cutting heat and cutting temperature tool wear and tool durability cutting processing methods and characteristics of economic machining accuracy)
(2) turning (commonly used turning methods typical turning surface types types lathe types and scope of application)
(3) workshop equipment arrangement (machine group arrangement)
(4) cutting (grinding) processing
(5) cutting (grinding) processing (basic knowledge) (basic concepts) (2) Turning (commonly used turning methods typical milling surface type milling machine type and scope of application of typical parts surface milling ultra-precision milling)
(3) Milling (common milling methods typical milling surface type milling machine type and scope of application of typical parts surface milling super-finishing milling)
(4) Grinding (commonly used grinding methods typical milling surface type grinding machine type and scope of application of typical parts surface grinding)
( (5) factors affecting the quality of cutting (grinding) processing and improvement measures (factors in the process system factors process factors environmental factors to improve the quality of cutting processing principles and measures)
(6) the choice of cutting amount
(7) cutting fixtures and fittings (machine tool fixtures Cutting tools)
5. Special processing
(1) special machining methods and Characteristics
(2) electric discharge machining (electric discharge molding process electric discharge molding process electric discharge molding process electric discharge molding machine factors affecting the quality of electric discharge molding process and improve the measures)
(3) electric discharge wire cutting (electric discharge wire cutting process characteristics of electric discharge wire cutting process electric discharge wire cutting process electric discharge wire cutting processing equipment wire cutting process of the main process)
(3) electric discharge wire cutting (electric discharge wire cutting process features of the main process of wire cutting) (Quality indicators Factors affecting the economy of the process and analysis)
(4) laser processing (laser processing principle, characteristics and classification of laser processing equipment laser drilling laser cutting)
(5) ultrasonic processing (principle and characteristics of ultrasonic processing ultrasonic processing equipment ultrasonic processing parameters and their factors affecting the application of ultrasonic processing)
6. casting
(1) casting and its characteristics (foundry process basis foundry process design foundry process documents)
(2) sand casting (molding materials cast iron casting cast steel casting casting copper, aluminum alloy casting casting)
(3) metal casting (copper alloy casting aluminum alloy casting)
(4) die casting (die casting structure die casting alloy die casting machine)
(5) investment casting (the structure of investment casting mold casting mold casting process parameters model shell characteristics and applications)
(6) casting process equipment (mold template template core box sand box)
7. Pressure machining
(1) pressure machining and its classification (meaning and characteristics of pressure machining pressure machining, classification and application)
(2) forging (free-forging) (2) forging (free forging)
(3) stamping (stamping characteristics of the stamping process, stamping process classification, stamping process application requirements)
(4) factors affecting the quality of forging and stamping and its measures to improve the quality of the process
(5) pressure processing process equipment (stamping die design hot forging die design, tire mold structural design, fast and economical mold making technology)
8. welding
9. surface treatment
(1) the characteristics and classification of surface treatment (surface treatment characteristics of surface engineering technology classification)
(2) coating technology (coating materials coating process and equipment coating film drying typical product coating coating coating film quality evaluation)
(3) thermal spray technology (commonly used thermal spray technology classification and thermal spray technology characteristics)
(4) gas welding (gas welding and gas cutting equipment selection) (Classification of processes and thermal spraying technology characteristics of thermal spraying thermal spraying process thermal spraying process methods thermal spraying materials thermal spraying technology applications thermal spraying coating quality assessment)
(4) electroplating (plating implementation mode plating process factors affecting the quality of plating plating types and applications of plating plating layer quality assessment)
10. assembly
(1) basic knowledge (assembly, Assembly unit, datum part and datum assembly, datum component, datum part Assembly accuracy Main factors affecting the quality of assembly)
(2) assembly dimensional chain and assembly methods (assembly dimensional chain assembly methods)
(3) types of assembly methods and their selection (completely interchangeable assembly method partially interchangeable assembly method (also known as the method of interchangeable assembly of a large number of assembly method) selection of the assembly method, assembly method, modification assembly method, adjustment of the assembly method)
10. Assembly method)
(4) Typical parts assembly (rolling bearing parts assembly cylindrical gear transmission parts assembly)
V. Management / Economy
1. Safety / environmental protection
(1) equipment maintenance and security (maintenance) and safe operation (equipment maintenance and security (maintenance) processing and lifting machinery safety robots, numerically-controlled machines and automatic production lines safety technology)
(2) the safety and environmental protection (safety) (Safety technology)
(2) Common labor safety and health prevention (fire prevention, explosion prevention, electric shock and static electricity, noise prevention)
(3) Environmental protection (industrial waste gas, waste water, solid waste and its treatment technology, environmental protection laws, regulations and standards, cleaner production)
Introduction of ISO 14000 series of standards for environmental management)
2. Occupation-related ethics and legal knowledge
2. Moral and legal knowledge
(1) basic moral code of citizens
(2) the main content of the civic moral construction
(3) code of ethics for mechanical engineers
(4) financial and tax system (basic accounting system, financial three tables, types of taxes, tax rates)
(5) intellectual property rights (basic knowledge of the Patent Act, Trademark Act, Copyright Act, Unfair Competition Act, etc.)
(6) intellectual property rights (basic knowledge of the Patent Act, Trademark Act, etc.) Copyright Law Anti-Unfair Competition Law)
(6) Laws Related to Modern Enterprise System (Company Law Contract Law Bidding Law Production Licensing System)
(7) WTO Rules and Governmental Industrial Policies (History and China's Commitments
Basic Principles of the WTO
Four Major Purposes of the WTO Anti-subsidy and anti-dumping Impacts of the WTO Accession on Chinese Society )
3. Engineering Economy
(1) Basic Concepts of Economics (Demand Supply Supply and Demand Balance Market Market Economy Command Economy and Mixed Economy)
(2) Cost Analysis (Classification of Costs Relationship between Quantity-Cost-Benefit Quantity-Cost-Benefit Analysis)
(3) Cost Analysis (Costs and Costs) -(3) Value engineering (basic concepts of value engineering, basic procedures for implementing value engineering, analysis of product functions, evaluation of product functions, improvement ideas, analysis and evaluation of proposals, testing, inspection, and evaluation of effects)
4. Management
(1) Basic functions of management (importance and nature of management, basic functions of management)
5. (2) Modern Enterprise System (Enterprise Ownership System, Separation of Powers, Forms of Enterprise Property Organization, Corporate Governance Structure)
(3) Productivity Analysis and Improvement (Productivity, Methodology, Time Study, Proficiency Curve)
(4) Logistics Fundamentals (Basic Concept of Logistics and its System, Manufacturing Enterprises' Logistic System, Characteristics and Selection of Commonly Used Material Handling Equipments, Supply Chain and Supply Chain Management)
4. Supply Chain and Supply Chain Management)
(5) On-site Management (5S Activities Positioning Management)
5. Management Innovation
(1) Changes in Manufacturing Models and Advanced Manufacturing Models (Manufacturing Models Starting from Mass Production) Group Technology, CNC Technology, and Cellular Manufacturing - Multi-variety Solutions for batch production Contemporary advanced manufacturing models)
(2) MRP/MRP II/ERP
(MRP
MRP II
ERP)
(3) Lean Manufacturing (Just-In-Time (JIT) Manufacturing Kanban Management)
(4) Project Management (Project and Project Management Concepts) Project management three elements and objectives The process and content of project management)
(5) Smart Manufacturing (Smart Manufacturing Strategy Background Basic Concepts of Smart Manufacturing Strategy Case Study of Smart Manufacturing)
Six, quality management/quality control
1. Quality Management/Quality Assurance
(1) quality/product quality (definition of quality, product quality, quality) Characteristics The formation of product quality and quality functions and responsibilities)
(2) quality management and total quality management (the meaning of quality management quality management development of total quality management characteristics of total quality management the groundwork for total quality management)
(3) ISO 9000 family of standards and quality system (ISO 9000 family of standards and the development of the generation of standards)
ISO 9000 family of standards and the composition and content of quality assurance and quality system establishment)
(4) quality certification (types of quality certification, product quality certification, quality system certification)
2. process quality control
(1) quality control concepts
(2) process quality control of the basic tools (statistical analysis table, ranking chart, cause and effect diagram)
(3) statistical process control
(4) quality control, quality management, quality management, quality management, quality management, quality management, quality management, quality management, quality management, quality management, quality management, quality management, quality management, quality management and quality management. p>(3) Statistical process control tools (histograms process capability and process capability index Cp
Control charts)
(4) Correlation analysis (correlation plot (scatter plot) method regression equation method correlation analysis in quality control uses)
3. Metrology and testing
(1) Metrology and testing in product manufacturing
(2) Geometric measurements (measuring reference length measuring instruments Angle measuring instruments Shape measuring instruments)
(3) Mechanical measurements (force, weight measurement torque measurement displacement measurement rotational speed measurement vibration measurement)
(4) other physical measurements (temperature measurement pressure measurement noise measurement)
seven, computer applications
1. Application of basic knowledge
(1) the composition and types of microcomputers
(2) the structure and performance characteristics of commonly used microcomputers (sixteen-bit microcomputer (8086/8088CPU) structure and performance characteristics of eight-bit microcomputer (Z80CPU) structure and performance characteristics of the structure and performance characteristics of the single-chip microcomputer
I/O interfaces and expansion of the memory Programmable Logic Controller ( Programmable Logic Controller (PLC)
(3) Principles of selection of microcomputer hardware and software
2. Computer Simulation
(1) the basic concepts of simulation
(2) the development and significance of computer simulation
(3) the general process of computer simulation
(4) simulation of the application of CAD / CAPP / CAM systems
3. p>
3. Computer numerical control (CNC)
(1) CNC control programming basics (CNC machining programming content and steps Ordinary Program Format and Typical Program Codes)
(2) CNC programming methods (manual programming and automatic programming Manual programming examples Programming Language Methods Automatic Programming Processes and APT Programming Simplified Examples of the Ordinary Program Format)
(3) Linear interpolation and circular interpolation
4. CAD/CAPP/CAM/CAE
(1) CAD/CAPP/CAM basic concepts
(2) CAD/CAPP/CAM basic functions and workflow
(3) Computer-aided design (CAD)
(4) Computer-aided design (CAD)
(5) Computer-aided design (CAD)
(6) Computer-aided design (CAD)
(7) Computer-aided design (CAD)
(4) Computer Aided Process Planning (CAPP)
(5) Computer Aided Manufacturing (CAM)
(6) Application status of CAD/CAPP/CAM
(7) Computer Aided Engineering (Computer Aided Engineering-CAE)
VIII, Mechanical Manufacturing Automation
1. Mechanical Manufacturing Automation Development and its technical content classification
2. Processing operations automation (equipment automation)
(1) rigid automated machining equipment (ordinary automated machine tools Combined machine tools
rigid automated line)
(2) flexible automated machining equipment (numerical control machine tools machining centers)
3. Logistics automation
(1) Logistics concepts and functions
(2) Classification of logistics automation equipment (loading and unloading/loading automation equipment Transmission/handling automation equipment Storage automation equipment)
4. Automation of information flow
(1) Meaning and flow of information/information system
(2) Information source
(3) Information acquisition/input
(4) Information processing
(5) Information transmission and exchange
(6) Information storage
5. Management automation
(1) Management meaning and its automation basis
(2) MRP-Ⅱ
6. Common Flexible Automation System for Machine Manufacturing
(1) DNC System
(2) FMC (Flexible Machining Cell)
(3) Flexible Timing Line (FTL)
(4) FMS (Flexible Manufacturing System)
(5) Computer Integrated Manufacturing System (CIMS)