This part of the standard is formulated to facilitate international communication in information processing. This standard gives the terms and definitions of concepts related to the field of information processing and clarifies the relationship between these items. This standard defines concepts related to the field of computer integrated manufacturing. GB/T 5271.24-2000 Information Technology Vocabulary Part 24: Computer Integrated Manufacturing GB/T5271.24-2000 Standard download decompression password: www.bzxz.net

GB/T 5271. 242000
This standard is equivalent to the international standard ISO/IEC2382-24:1995 "Information Technology Vocabulary Computer Integrated Manufacturing". Except for the introduction part that does not quote the original international standard, this standard is basically consistent with the original international standard in other contents and forms. The purpose of formulating information technology vocabulary standards is to facilitate international communication in information processing. It provides the terms and definitions of concepts related to the field of information processing and clarifies the relationship between each terminology entry. This standard defines concepts related to the field of computer integrated manufacturing.
The GB/T5271 terminology series national standards consists of more than 30 parts, all under the general title "Information Technology Vocabulary". This standard is the 24th part of the GB/T5271 terminology series national standards. This standard is proposed by the Ministry of Information Industry of the People's Republic of China. This standard is under the jurisdiction of the China Electronics Standardization Institute. The drafting unit of this standard: China Electronics Standardization Institute. The main drafters of this standard: Chen Ying, Yu Panxiang, Liu Qiyuan. 334
GB/T5271.24--2000
ISO/IEC Foreword
ISO (International Organization for Standardization) and IEC (International Electrotechnical Commission) are specialized organizations for standardization worldwide. National member bodies (which are members of ISO or IEC) participate in the development of international standards for specific technical scopes through technical committees established by international organizations. ISO and IEC technical committees cooperate in areas of common interest. Other official and non-official international organizations in contact with ISO and IEC may also participate in the development of international standards. For information technology, ISO and IEC have established a joint technical committee, ISO/IECJTCI. Draft international standards proposed by the joint technical committee are circulated to national member bodies for voting. At least 75% of the voting votes of national member bodies participating in the voting are required to publish an international standard.
International Standard ISO/IEC2382-24 was developed by SC1 Vocabulary Subcommittee of ISO/IECJTC1 Joint Technical Committee on Information Technology.
1 ISO/IEC 2382 consists of more than 30 parts, all under the general title "Information technology vocabulary". 3.3.
1 Overview
1.1 Scope
National Standard of the People's Republic of China
Information technology—Vocabulary--Part 24: Computer-integrated manufacturing
Information technology—Vocabulary--Part 24:Computer-integrated manufacturingGB/T 5271.24—2000
eqv ISO/IEC 2382-24: 1995
This part of the standard is formulated to facilitate international communication in the field of information processing. This standard gives the terms and definitions of concepts related to the field of information processing and clarifies the relationship between these items. In order to facilitate the translation of this standard into other languages, the definitions given avoid linguistic specificity as much as possible. This standard defines concepts related to the field of computer integrated manufacturing. 1.2 Referenced Standards
The provisions contained in the following standards constitute the provisions of this standard through reference in this standard. When this standard is published, the versions shown are valid. All standards will be revised, and parties using this standard should explore the possibility of using the latest versions of the following standards. GB/T15237—1994 Basic vocabulary of terminology (eqvISO1087:1990) GB/T5271.1—2000 Information technology vocabulary Part 1: Basic terms (eqvISO/IEC2382-1:1993) GB/T5271.13—1988 Information technology vocabulary Part 13: Computer graphics (eqvISO2382-13:1984) IS(/IFC2382-26:1993 Information technology vocabulary Part 26: Open Systems Interconnection ISO2806:1994 Industrial automation systems Vocabulary for digital control of machines IS)8373:1994 Vocabulary for manipulating industrial robots IS0/IR11065:1992 Industrial automation vocabulary 1.3 Principles and rules to be followed
1.3.1 Definition of terms
Section 2 includes many terms. Each entry consists of several required elements, including an index number, a term or several synonyms and a phrase that defines a concept. In addition, an entry may include examples, annotations or explanations to facilitate understanding of the concept. Sometimes the same term can be defined by different entries, or an entry can include two or more concepts, as explained in 1.3.5 and 1.3.8 respectively. This standard uses other terms, such as vocabulary, concepts, terms and definitions, whose meanings are defined in GB/T 15237. 1.3.2 Composition of entries
Each entry includes the required elements specified in 1.3.1, and some elements may be added if necessary. The entries include the following elements in the following order:
a) an index number (common to all languages ​​in which this standard is published);
b) a term or preferred term in a language. If there is no preferred term for a concept in a language, it is indicated by a five-dot symbol (..·..); in a term, a row of dots is used to indicate a word selected for each specific instance;
c) a preferred term in a country (indicated according to the rules of GB/T 2659);
d) abbreviations of the term spectrum; permitted synonyms;
e) the text of the definition (see 1.3.4):
f) one or more examples beginning with "例\";
g) one or more notes indicating special instances of the concept application area beginning with "注";
h) pictures, diagrams or tables common to the entries. 1.3.3 Classification of terms
Each part of this series of standards is assigned a two-digit serial number, starting with 01, which represents "basic terms". Terms are classified into groups, and each group is assigned a four-digit serial number; the first two digits indicate the part of this series of standards in which the group is located.
Each term is assigned a six-digit index number; the first four digits indicate the standard part and group in which the term is located. In order to make the versions of this series of standards in different languages ​​related, the serial numbers assigned to the standard parts, groups and terms should be the same. 1.3.4 Choice of terms and definition terms
Terms and definitions should be selected as far as possible according to the Follow the prescribed usage. When conflicts arise, the method agreed by majority shall prevail. 1.3.5 Polysemous terms
In a working language, if a given term has several meanings, each meaning is given a separate entry to facilitate translation into other languages.
1.3.6 Abbreviations
As indicated in 1.3.2, abbreviations currently in use are assigned to some terms. These abbreviations are not used in the text of definitions, examples or notes.
1.3.7 Use of parentheses
In some terms, a word or words printed in bold are placed in parentheses. These words are part of the complete term. When in technical When the use of abbreviated terms in the article does not affect the meaning of the context, these words can be abbreviated. In the main text of the definitions, examples or annotations of GB/T5271, these terms are used in full form. In some entries, the terms are followed by words in ordinary font and placed in brackets. These words are not part of the term, but indicate relevant information about the use of the term, such as its special scope of application, or its grammatical form. 1.3.8 Use of square brackets
If the definitions of several closely related terms are only different by a few words, these terms and their definitions are grouped into one entry. Alternative words to express different meanings are placed in square brackets in the same order as in the term and in the definition. . To avoid ambiguity of the replaced word, the last word placed before the brackets according to the above rules may be placed inside square brackets and repeated for each change. 1.3.9 Use of boldface terms and asterisks in definitions When a term is printed in boldface in a definition, example or annotation, it means that the term has been defined in other entries of this vocabulary. However, the term is printed in boldface only when it appears for the first time in each entry. Boldface is also used for other grammatical forms of a term, such as plural nouns and participle forms of verbs. The basic forms of all terms that appear in boldface in GB/T 5271 are listed in the index at the end of this part (see 1.3.11). When two boldface terms are cited immediately after each other in different entries, separate them with an asterisk (or with punctuation only).
Words or terms appearing in ordinary font are to be understood as defined in a general dictionary or authoritative technical vocabulary. 1.3.10 Spelling
In the English version of this series of standards, the spelling of terms, definitions, examples and notes generally follows the American English spelling. Other correct spellings may be used unless they conflict with this series of standards. 1.3.11 Compilation of Index Tables
An alphabetical index is provided at the end of each part for each language used. The index includes all the terms defined in that part. Multi-word terms appear in alphabetical order after each keyword. A sequence of characters, usually consisting of words and spaces, usually aligned on a baseline by formatting. Note: The length of a line is determined by the space available at that point in the formatting process. 337
2 Terms and definitions
24 Computer-integrated manufacturing
General terms
GB/T 5271.24—2000
24.01.01 Computer-integrated manufacturing
computer-integrated manufacturingCIM (abbreviation) CIM (abbreviation) A manufacturing technology in which all activities are integrated into a computer-based planning, management and control system. Note: Computer-integrated manufacturing includes computer-aided design, computer-aided planning, computer-aided manufacturing and computer-aided quality assurance, as well as information sharing between them. 24.01.02 Computer-aided engineeringCAE (abbreviation) CAE (abbreviation) Engineering activities that use data processing systems to achieve basic functions such as optimizing manufacturing capabilities, optimizing performance, optimizing productivity or economy.
Example: Use information from a computer-aided design and manufacturing design database to analyze the functional characteristics of a product or component under design, or simulate its execution under various conditions. 24.01.03 Computer-aided designcomputer-aided designCAD(abbreviation)CAD(abbreviation)Design activities that use data processing systems to perform functions such as designing, simulating or improving parts or products, including drawing and diagramming.
1Computer-aided design programs can accurately determine the size and position of each graphic element for engineering and manufacturing. 2See computer-aided design and manufacturing
Computer-aided drawingcomputer-aided drawing;computer-aided drafting24.01.04
Drawing methods and techniques using graphics software and hardware. 24.01. 05 Computer-aided planningcomputer-aided planningCAP(abbreviation)CAP(abbreviation)The use of data processing systems, such as planning and decision support software, to plan all production activities. Note: The production activities here are related to feasibility, batch, variety, timing, method, location, facilities and personnel. 24.01.06 Computer-aided manufacturing CAM (abbreviation) CAM (abbreviation) A manufacturing activity whose production process is directed and controlled by a data processing system. Note: See computer-aided design and manufacturing. 24.01.07 Computer-aided design and manufacturing CAD/CAM (abbreviation) CAD/CAM (abbreviation) CADM (abbreviation) CADM (abbreviation) Computer-aided design and computer-aided manufacturing activities. 24. 01. 08 Computer-aided production management CAPM (abbreviation) CAPM (abbreviation) Computer-aided production control CAPC (abbreviation) CAPC (ahbreviation) Production management activities that use data processing systems from resource requirements planning to production control. 24.01.09 Computer-aided quality assurance computer-aided quality assurance38
GB/T 5271.24--2000
CAQA(abbreviation) CAQA(abbreviation) Computerized planning, monitoring and control of products, components and production processes throughout all stages of the product life cycle to ensure quality assurance.
Note: Computer-aided quality assurance includes a quality reporting system from design to field operation, from manufacturing level to management level, and may also include manufacturing history. 24.01.10 Computer-aided process planning
J computer-aided process planning CAPP(abbreviation) CAPP(abbreviation) All planning activities that use data processing systems to prepare basic data for production processes (such as machining). Computer-aided testing computer-aided testing24.01.11
CAT(abbreviation) CAT(abbreviation) Testing and inspection of products or components through data processing systems. Note: Computer-aided testing is an aspect of computer-aided quality assurance. 24.01.12 Production planning control system PPCS (abbreviation) PPCS (abbreviation) A data processing system used to generate, execute and control manufacturing plans. 24.01.13
Manufacturing resource planning manufacturing resource planning MRPI (abbreviation) MRPI (abbreviation) The realization of a management plan that estimates and forecasts the requirements for each element of the manufacturing process at a given time. Note: Not to be confused with the abbreviation MRP (material requirements planning). See 24.01.14. 24.07.14 Material requirements planning MRP (abbreviation) MRP (abbreviation) Priority scheduling driven by the master production schedule (MPS) that links the requirements for child items to the production schedule for the parent items.
Note: Not to be confused with the abbreviation MRP1 (manufacturing resource planning). See 24.01.13. 24.01.15 flexible manufacturing system flexible manufacturing system FMS (abbreviation) FMS (abbreviation) A system of numerically controlled manufacturing devices and transport mechanisms that can be easily adapted to changes in manufacturing tasks. 24.01.16 manufacturing cell cell (in computer-integrated manufacturing) A manufacturing unit consisting of a number of workstations, materials, storage devices and the transport mechanisms connecting them. 24.02 Computer-aided design
24.02.01 finite-element analysisfinite-element analysisThe analysis of the structural properties of a mechanical component, or more generally of a physical structure, on the basis of a simulated decomposition into discrete elements.
2 finite-element modeling
24. 02. 02
finite-element modeling
The creation on a data processing system of a mathematical model representing a mechanical component or a physical structure, based on a design based on finite element analysis. 24.02.03(13.01.08) Geometric modeling24.02.04(13.01.09)
Create a controllable model representing a three-dimensional shape on a data processing system. Surface modelingsurfacing;surface modelingCreate a model representing the surface of an object on a data processing system. 24.02.05(13.01.10) Room
Solid modeling; volume modelingThree-dimensional geometric modeling that reflects the physical features of an object in order to represent its three-dimensional internal structure and external shape.
Product modeling
Product modeling
GB/T 5271.24-2000
Three-dimensional geometric modeling that reflects the information required for the manufacture and physical features of an object. Note: The information required for manufacture includes information such as the materials used, tolerances, and tools. Wireframe modeling
Three-dimensional geometric modeling that uses a series of lines to depict the surface contour of an object to represent the shape of the object. 24.02.08 Family-of-parts programmingA method of creating new parts in a computer-aided design and manufacturing system by slightly changing the design of existing parts or by combining previously designed parts, sub-assemblies, or structures. 3 Computer-aided manufacturing
24.03.01 Numerical control NC (abbreviation) NC (abbreviation)
Automatic control of a machine tool or industrial process by a device using digitally coded commands issued in real time. Note: These commands are generated by a computer-aided design and manufacturing system on a data medium that controls the machine tool or industrial process. 24.03.02
Group technology
A coding and classification method used in computer-aided process planning to group similar, commonly used parts into families. Note: These techniques make it easier to find a part with specific characteristics and help standardize the manufacture of similar parts. 24.03.03
3 Computer numerical control CNC (abbreviation) CNC (abbreviation) A type of numerical control that uses a special-purpose computer to store and issue some or all of the basic numerical control commands in real time. Note: Special-purpose computers also allow data to be entered locally. Dynamic Tool Display dynamic tool display 24.03.04
A CAD and manufacturing feature that displays a graphic representation of a numerically controlled tool that moves along a tool path displayed on the screen to simulate and verify the cutting process. 24.04 Robotics
24.04.01 Robotics
An engineering discipline concerned with the design, construction, and use of robots. robot robot
A mechanical device, usually programmable, that can perform manipulation or movement tasks under automatic control. 24.04.03
3 manipulating industrial robot manipulating industrial robot An automatically controlled, reprogrammable, multi-purpose manipulator with multiple degrees of freedom that can be either fixed or mobile for use in industrial automation applications.
Note: The terms "fixed robot" and "mobile robot" are sometimes used to refer to manipulating industrial robots. 24.04.04 Robotic system; robotic system A manufacturing unit that includes robot* hardware and software and consists of the manipulator, power supply, control system, end effectors, any equipment with which the robot interfaces, and any communications interfaces for operating and monitoring the robot. 310
Component Class Programming
Manipulative Industrial Robots
Product Modeling
Group Processing
Dynamic Tool Display
Robots
Robotic Systems
Robotics
Geometric Modeling
Computer-Aided Testing
Computer-Aided Engineering
Computer-Aided Process Planning
Computer-Aided Planning
Computer-Aided Design
Computer-Aided Design and Manufacturing
Computer-Aided Production Management
Computer-Aided Production Control
Computer-Aided Drafting
Computer-Aided Manufacturing
Computer Numerical Control
Computer-Aided Design
GB/T 5271. 24—2000
Chinese index
Computer-aided quality assurance
Computer integrated manufacturing
. 24. 01. 02
.. 24. 01.08
Computer numerical control
Surface modeling
Flexible manufacturing system
Production planning and control system
Solid modeling
Material requirements planning
Wireframe modeling
Finite element analysis
Finite element modeling
Manufacturing cell
Manufacturing resource planning
English index
conputer-aided design and manufacturingcomputer-aided drafting
computer-aided drawing
computer-aided engineering
computer-aided manufacturingcomputer-aided planning
computer-aided process planning computer-aided production controlGB/T 5271.24—2000
computer-aided production management .............computer-aided quality assurance computer-aided testing
computer-integrated manufacturingD
dynamic tool display
family-of-parts programming
finite-element analysis
finite-element modeling | |tt | system
robotics
24. 01.06
solid modeling
surface modeling
surfacing
volume modeling
wireframe modeling
GB/T 5271. 242000
24. 02. 0724-2000
Three-dimensional geometric modeling that represents the information needed to make an object and its physical features. Note: The information needed to make an object includes information about the materials, tolerances, tools, etc. Wireframe modeling
Three-dimensional geometric modeling that represents the shape of an object by depicting the surface contours of a series of lines. 24.02.08 Family-of-parts programming A method of creating new parts on a CAD/M system by making slight changes to the design of existing parts or by combining previously designed parts, subassemblies, or structures. 3 Computer-aided manufacturing
24.03.01 Numerical control NC (abbreviation) NC (abbreviation)
Automatic control of a machine tool or industrial process by a device using digitally coded commands derived in real time. Note: These commands are generated by the CAD/M system on the data medium that controls the machine tool or industrial process. 24.03.02
group technology
A coding and classification method used in computer-aided process planning to group similar, commonly used parts into families. Note: These techniques make it easier to find a part with a particular feature and help standardize the manufacture of similar parts. 24.03.03
3Computer numerical controlcomputer numerical controlCNC(abbreviation)CNC(abbreviation)A type of numerical control that uses a special computer to store and issue some or all of the basic numerical control commands in real time. Note: Special computers also allow data to be entered locally. dynamic tool displaydynamictooldisplay24.03.04
A computer-aided design and manufacturing feature that displays a graphic representation of a numerically controlled tool that moves along a tool path displayed on the screen to simulate and verify the cutting process. 24.04Robotics
24.04.01Robotics
An engineering discipline that involves the design, construction, and use of robots. robot robot
A mechanical device, usually programmable, that can perform manipulation or movement tasks under automatic control. 24.04.03
3 Manipulating industrial robot manipulatingindustrialrobot An automatically controlled, reprogrammable, multi-purpose manipulator with multiple degrees of freedom that can be either fixed or mobile for use in industrial automation applications.
Note: The terms "fixed robot" and "mobile robot" are sometimes used to refer to manipulative industrial robots. 24.04.04 Robotic system robot system; robotic system A manufacturing unit that includes robot* hardware and software and consists of the manipulator, power supply, control system, end effectors, any equipment with which the robot interfaces, and any communication interfaces for operating and monitoring the robot. 310
Component Class Programming
Manipulative Industrial Robots
Product Modeling
Group Processing
Dynamic Tool Display
Robots
Robotic Systems
Robotics
Geometric Modeling
Computer-Aided Testing
Computer-Aided Engineering
Computer-Aided Process Planning
Computer-Aided Planning
Computer-Aided Design
Computer-Aided Design and Manufacturing
Computer-Aided Production Management
Computer-Aided Production Control
Computer-Aided Drafting
Computer-Aided Manufacturing
Computer Numerical Control
Computer-Aided Design
GB/T 5271. 24—2000
Chinese index
Computer-aided quality assurance
Computer integrated manufacturing
. 24. 01. 02
.. 24. 01.08
Computer numerical control
Surface modeling
Flexible manufacturing system
Production planning and control system
Solid modeling
Material requirements planning
Wireframe modeling
Finite element analysis
Finite element modeling
Manufacturing cell
Manufacturing resource planning
English index
conputer-aided design and manufacturingcomputer-aided drafting
computer-aided drawing
computer-aided engineering
computer-aided manufacturingcomputer-aided planning
computer-aided process planning computer-aided production controlGB/T 5271.24—2000
computer-aided production management .............computer-aided quality assurance computer-aided testing
computer-integrated manufacturingD
dynamic tool display
family-of-parts programming
finite-element analysis
finite-element modeling | |tt | system
robotics
24. 01.06
solid modeling
surface modeling
surfacing
volume modeling
wireframe modeling
GB/T 5271. 242000
24. 02. 0724-2000
Three-dimensional geometric modeling that represents the information needed to make an object and its physical features. Note: The information needed to make an object includes information about the materials, tolerances, tools, etc. Wireframe modeling
Three-dimensional geometric modeling that represents the shape of an object by depicting the surface contours of a series of lines. 24.02.08 Family-of-parts programming A method of creating new parts on a CAD/M system by making slight changes to the design of existing parts or by combining previously designed parts, subassemblies, or structures. 3 Computer-aided manufacturing
24.03.01 Numerical control NC (abbreviation) NC (abbreviation)
Automatic control of a machine tool or industrial process by a device using digitally coded commands derived in real time. Note: These commands are generated by the CAD/M system on the data medium that controls the machine tool or industrial process. 24.03.02
group technology
A coding and classification method used in computer-aided process planning to group similar, commonly used parts into families. Note: These techniques make it easier to find a part with a particular feature and help standardize the manufacture of similar parts. 24.03.03
3Computer numerical controlcomputer numerical controlCNC(abbreviation)CNC(abbreviation)A type of numerical control that uses a special computer to store and issue some or all of the basic numerical control commands in real time. Note: Special computers also allow data to be entered locally. dynamic tool displaydynamictooldisplay24.03.04
A computer-aided design and manufacturing feature that displays a graphic representation of a numerically controlled tool that moves along a tool path displayed on the screen to simulate and verify the cutting process. 24.04Robotics
24.04.01Robotics
An engineering discipline that involves the design, construction, and use of robots. robot robot
A mechanical device, usually programmable, that can perform manipulation or movement tasks under automatic control. 24.04.03
3 Manipulating industrial robot manipulatingindustrialrobot An automatically controlled, reprogrammable, multi-purpose manipulator with multiple degrees of freedom that can be either fixed or mobile for use in industrial automation applications.
Note: The terms "fixed robot" and "mobile robot" are sometimes used to refer to manipulative industrial robots. 24.04.04 Robotic system robot system; robotic system A manufacturing unit that includes robot* hardware and software and consists of the manipulator, power supply, control system, end effectors, any equipment with which the robot interfaces, and any communication interfaces for operating and monitoring the robot. 310
Component Class Programming
Manipulative Industrial Robots
Product Modeling
Group Processing
Dynamic Tool Display
Robots
Robotic Systems
Robotics
Geometric Modeling
Computer-Aided Testing
Computer-Aided Engineering
Computer-Aided Process Planning
Computer-Aided Planning
Computer-Aided Design
Computer-Aided Design and Manufacturing
Computer-Aided Production Management
Computer-Aided Production Control
Computer-Aided Drafting
Computer-Aided Manufacturing
Computer Numerical Control
Computer-Aided Design
GB/T 5271. 24—2000
Chinese index
Computer-aided quality assurance
Computer integrated manufacturing
. 24. 01. 02
.. 24. 01.08
Computer numerical control
Surface modeling
Flexible manufacturing system
Production planning and control system
Solid modeling
Material requirements planning
Wireframe modeling
Finite element analysis
Finite element modeling
Manufacturing cell
Manufacturing resource planning
English index
conputer-aided design and manufacturingcomputer-aided drafting
computer-aided drawing
computer-aided engineering
computer-aided manufacturingcomputer-aided planning
computer-aided process planning computer-aided production controlGB/T 5271.24—2000
computer-aided production management .............computer-aided quality assurance computer-aided testing
computer-integrated manufacturingD
dynamic tool display
family-of-parts programming
finite-element analysis
finite-element modeling | |tt | system
robotics
24. 01.06
solid modeling
surface modeling
surfacing
volume modeling
wireframe modeling
GB/T 5271. 242000
24. 02. 0702
group technology
A coding and classification method used in computer-aided process planning to group similar, commonly used parts into families. Note: These techniques make it easier to find a part with a specific feature and help standardize the manufacture of similar parts. 24.03.03
3Computer numerical controlcomputer numerical controlCNC(abbreviation)CNC(abbreviation)A type of numerical control that uses a dedicated computer to store and issue some or all of the basic numerical control commands in real time. Note: A dedicated computer also allows data to be entered locally. dynamic tool displaydynamictooldisplay24.03.04
A computer-aided design and manufacturing feature that displays a graphic representation of a numerically controlled tool that moves along a tool path displayed on the screen to simulate and verify the cutting process. 24.04Robotics
24.04.01Robotics
An engineering discipline that involves the design, construction, and use of robots. robot robot
A mechanical device, usually programmable, that can perform manipulation or movement tasks under automatic control. 24.04.03
3 Manipulating industrial robot manipulatingindustrialrobot An automatically controlled, reprogrammable, multi-purpose manipulator with multiple degrees of freedom that can be either fixed or mobile for use in industrial automation applications.
Note: The terms "fixed robot" and "mobile robot" are sometimes used to refer to manipulative industrial robots. 24.04.04 Robotic system robot system; robotic system A manufacturing unit that includes robot* hardware and software and consists of the manipulator, power supply, control system, end effectors, any equipment with which the robot interfaces, and any communication interfaces for operating and monitoring the robot. 310
Component Class Programming
Manipulative Industrial Robots
Product Modeling
Group Processing
Dynamic Tool Display
Robots
Robotic Systems
Robotics
Geometric Modeling
Computer-Aided Testing
Computer-Aided Engineering
Computer-Aided Process Planning
Computer-Aided Planning
Computer-Aided Design
Computer-Aided Design and Manufacturing
Computer-Aided Production Management
Computer-Aided Production Control
Computer-Aided Drafting
Computer-Aided Manufacturing
Computer Numerical Control
Computer-Aided Design
GB/T 5271. 24—2000
Chinese index
Computer-aided quality assurance
Computer integrated manufacturing
. 24. 01. 02
.. 24. 01.08
Computer numerical control
Surface modeling
Flexible manufacturing system
Production planning and control system
Solid modeling
Material requirements planning
Wireframe modeling
Finite element analysis
Finite element modeling
Manufacturing cell
Manufacturing resource planning
English index
conputer-aided design and manufacturingcomputer-aided drafting
computer-aided drawing
computer-aided engineering
computer-aided manufacturingcomputer-aided planning
computer-aided process planning computer-aided production controlGB/T 5271.24—2000
computer-aided production management .............computer-aided quality assurance computer-aided testing
computer-integrated manufacturingD
dynamic tool display
family-of-parts programming
finite-element analysis
finite-element modeling | |tt | system
robotics
24. 01.06
solid modeling
surface modeling
surfacing
volume modeling
wireframe modeling
GB/T 5271. 242000
24. 02. 0702
group technology
A coding and classification method used in computer-aided process planning to group similar, commonly used parts into families. Note: These techniques make it easier to find a part with a specific feature and help standardize the manufacture of similar parts. 24.03.03
3Computer numerical controlcomputer numerical controlCNC(abbreviation)CNC(abbreviation)A type of numerical control that uses a dedicated computer to store and issue some or all of the basic numerical control commands in real time. Note: A dedicated computer also allows data to be entered locally. dynamic tool displaydynamictooldisplay24.03.04
A computer-aided design and manufacturing feature that displays a graphic representation of a numerically controlled tool that moves along a tool path displayed on the screen to simulate and verify the cutting process. 24.04Robotics
24.04.01Robotics
An engineering discipline that involves the design, construction, and use of robots. robot robot
A mechanical device, usually programmable, that can perform manipulation or movement tasks under automatic control. 24.04.03
3 Manipulating industrial robot manipulatingindustrialrobot An automatically controlled, reprogrammable, multi-purpose manipulator with multiple degrees of freedom that can be either fixed or mobile for use in industrial automation applications.
Note: The terms "fixed robot" and "mobile robot" are sometimes used to refer to manipulative industrial robots. 24.04.04 Robotic system robot system; robotic system A manufacturing unit that includes robot* hardware and software and consists of the manipulator, power supply, control system, end effectors, any equipment with which the robot interfaces, and any communication interfaces for operating and monitoring the robot. 310
Component Class Programming
Manipulative Industrial Robots
Product Modeling
Group Processing
Dynamic Tool Display
Robots
Robotic Systems
Robotics
Geometric Modeling
Computer-Aided Testing
Computer-Aided Engineering
Computer-Aided Process Planning
Computer-Aided Planning
Computer-Aided Design
Computer-Aided Design and Manufacturing
Computer-Aided Production Management
Computer-Aided Production Control
Computer-Aided Drafting
Computer-Aided Manufacturing
Computer Numerical Control
Computer-Aided Design
GB/T 5271. 24—2000
Chinese index
Computer-aided quality assurance
Computer integrated manufacturing
. 24. 01. 02
.. 24. 01.08
Computer numerical control
Surface modeling
Flexible manufacturing system
Production planning and control system
Solid modeling
Material requirements planning
Wireframe modeling
Finite element analysis
Finite element modeling
Manufacturing cell
Manufacturing resource planning
English index
conputer-aided design and manufacturingcomputer-aided drafting
computer-aided drawing
computer-aided engineering
computer-aided manufacturingcomputer-aided planning
computer-aided process planning computer-aided production controlGB/T 5271.24—2000
computer-aided production management .............computer-aided quality assurance computer-aided testing
computer-integrated manufacturingD
dynamic tool display
family-of-parts programming
finite-element analysis
finite-element modeling | |tt | system
robotics
24. 01.06
solid modeling
surface modeling
surfacing
volume modeling
wireframe modeling
GB/T 5271. 242000
24. 02. 0704 Robotic system robot system; robotic system A manufacturing unit that includes robot* hardware and software. It consists of manipulators, power supply, control system, end effectors, any equipment that the robot interfaces with, and any communication interfaces for operating and monitoring the robot. 310
Component Class Programming
Manipulative Industrial Robots
Product Modeling
Group Processing
Dynamic Tool Display
Robots
Robotic Systems
Robotics
Geometric Modeling
Computer-Aided Testing
Computer-Aided Engineering
Computer-Aided Process Planning
Computer-Aided Planning
Computer-Aided Design
Computer-Aided Design and Manufacturing
Computer-Aided Production Management
Computer-Aided Production Control
Computer-Aided Drafting
Computer-Aided Manufacturing
Computer Numerical Control
Computer-Aided Design
GB/T 5271. 24—2000
Chinese index
Computer-aided quality assurance
Computer integrated manufacturing
. 24. 01. 02
.. 24. 01.08
Computer numerical control
Surface modeling
Flexible manufacturing system
Production planning and control system
Solid modeling
Material requirements planning
Wireframe modeling
Finite element analysis
Finite element modeling
Manufacturing cell
Manufacturing resource planning
English index
conputer-aided design and manufacturingcomputer-aided drafting
computer-aided drawing
computer-aided engineering
computer-aided manufacturingcomputer-aided planning
computer-aided process planning computer-aided production controlGB/T 5271.24—2000
computer-aided production management .............computer-aided quality assurance computer-aided testing
computer-integrated manufacturingD
dynamic tool display
family-of-parts programming
finite-element analysis
finite-element modeling | |tt | system
robotics
24. 01.06
solid modeling
surface modeling
surfacing
volume modeling
wireframe modeling
GB/T 5271. 242000
24. 02. 0704 Robotic system robot system; robotic system A manufacturing unit that includes robot* hardware and software. It consists of manipulators, power supply, control system, end effectors, any equipment that the robot interfaces with, and any communication interfaces for operating and monitoring the robot. 310
Component Class Programming
Manipulative Industrial Robots
Product Modeling
Group Processing
Dynamic Tool Display
Robots
Robotic Systems
Robotics
Geometric Modeling
Computer-Aided Testing
Computer-Aided Engineering
Computer-Aided Process Planning
Computer-Aided Planning
Computer-Aided Design
Computer-Aided Design and Manufacturing
Computer-Aided Production Management
Computer-Aided Production Control
Computer-Aided Drafting
Computer-Aided Manufacturing
Computer Numerical Control
Computer-Aided Design
GB/T 5271. 24—2000
Chinese index
Computer-aided quality assurance
Computer integrated manufacturing
. 24. 01. 02
.. 24. 01.08
Computer numerical control
Surface modeling
Flexible manufacturing system
Production planning and control system
Solid modeling
Material requirements planning
Wireframe modeling
Finite element analysis
Finite element modeling
Manufacturing cell
Manufacturing resource planning
English index
conputer-aided design and manufacturingcomputer-aided drafting
computer-aided drawing
computer-aided engineering
computer-aided manufacturingcomputer-aided planning
computer-aided process planning computer-aided production controlGB/T 5271.24—2000
computer-aided production management .............computer-aided quality assurance computer-aided testing
computer-integrated manufacturingD
dynamic tool display
family-of-parts programming
finite-element analysis
finite-element modeling | |tt | system
robotics
24. 01.06
solid modeling
surface modeling
surfacing
volume modelingbZxz.net
wireframe modeling
GB/T 5271. 242000
24. 02. 0706
solid modeling
surface modeling
surfacing
volume modeling
wireframe modeling
GB/T 5271. 242000
24. 02. 0706
solid modeling
surface modeling
surfacing
volume modeling
wireframe modeling
GB/T 5271. 242000
24. 02. 07
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